The document proposes a Decentralised Learning Ledger (DLL) that uses blockchain technology to track, register, and certify acquired learning assets. It discusses how blockchain, the internet of things, and the concept of "knowledge procurement" provide the building blocks for a DLL. The DLL would allow acknowledgement and utilization of learning credits earned from various educational experiences, offering a proof-of-learning solution.
Ethereum is an open-source blockchain platform that offers smart contract facilities. Solidity was first introduced as a new type of programing language for the Ethereum platform. Developers use the Solidity programming language to develop smart contracts. Using Solidity, you can program the contracts to do any type of task.
Solidity is a type of object-oriented programming language. This programing language is developed specifically for smart contracts. This type of language is widely used in creating smart contracts features in blockchain platforms.
To understand Solidity better developers, need to dive into the key elements of this language, such as the compiler, pragma, reserved keywords, value types, variables, etc. There are already many use cases of using Solidity as the foundation for smart contracts. However, this language also has its fair share of issues.
Here, at 101 blockchains, we are offering courses that will help you comprehend this topic in a simple manner. Using our courses, you will understand the concepts behind Solidity and Smart contracts in no time.
Learn more about Solidity and smart contracts from here ->
Ethereum Development Fundamentals course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
The Complete Ethereum Technology Course
https://academy.101blockchains.com/courses/ethereum-technology-course
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/solidity-tutorial/
https://101blockchains.com/solidity-vs-move-vs-clarity/
https://101blockchains.com/smart-contract-best-practices/
https://101blockchains.com/solidity-issues/
https://101blockchains.com/smart-contracts/
https://101blockchains.com/ethereum-smart-contracts/
https://101blockchains.com/blockchain-smart-contract-examples/
Decentralized finance is a distributed financial system where there is no centralized governing body. Decentralized finance or DeFi applications utilize peer-to-peer finance networks. These networks are powered by decentralized and distributed platforms. The DeFi application ecosystem is vast and it includes various types of apps such as wallets, lending platforms, infrastructure development suits etc.
As there are many DeFi applications on the market, finding the top applications can be a difficult process. Here, we will discuss the top 5 DeFi applications – AAVE, Compound, MakerDAO, Synthetix, and MetaMask.
These are some of the widely utilized applications on the market. If you want to learn more about decentralized finance applications, then we have you covered. 101 blockchains feature a blockchain course that focuses on decentralized finance and will help you understand the working mechanism of this new financial structure.
Learn more about the course from here ->
Introduction to DeFi Course
https://academy.101blockchains.com/courses/defi-course
Learn about additional courses and masterclasses for the finance sector ->
Blockchain in Finance Masterclass
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Read our full guide on this topic ->
https://101blockchains.com/decentralized-finance-applications/
https://101blockchains.com/top-defi-protocols/
https://101blockchains.com/top-defi-wallets/
https://101blockchains.com/best-defi-asset-management-tools/
https://101blockchains.com/decentralized-finance-tools/
Blockchain With IoT - Top Blockchain IoT Use Cases101 Blockchains
Blockchain with IoT is a perfect combination that can change the way we conduct businesses nowadays. Most of our present business models have low visibility, which leads to multiple issues like mismanagement, counterfeiting, high product costs, and many more. Due to these complications, many companies are not able to reach their full potential.
However, IoT Blockchain projects can offer a wide range of benefits and use cases for the IoT sector. For example, high data security, stronger data validation process, data anonymity for extra privacy, end-to-end visibility, identity for IoT devices, stronger cloud management, etc.
Other Blockchain IoT use cases include specific sectors such as supply chains, smart homes, pharmaceuticals, waste management, agriculture, sharing economy, and so on. Many blockchain IoT examples offer various forms of uses cases now for enterprise companies.
101 Blockchains offer a good array of supportive educational materials regarding this topic. If you are struggling with your IoT management, we recommend checking out our IoT fundamentals course, as this course is perfectly suited for your needs.
Learn more about the course from here ->
IoT Fundamentals Course
https://academy.101blockchains.com/courses/iot-fundamentals
Check out our certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/blockchain-iot-use-cases/
Blockchain is a decentralized and distributed ledger system. In blockchain technology, the data is stored within blocks and then linked to one another, forming a chain of blocks. Some of the key features of blockchain include – immutability, decentralized, enhanced security, consensus protocol, and faster output.
Although blockchain offers a lot of benefits for a lot of sectors, it still comes with its fair share of disadvantages. Most blockchain platforms are still not scalable enough. Some of the public blockchain platforms, such as Bitcoin or Ethereum, are not energy efficient.
Blockchain can be inefficient under certain conditions. The efficiency of blockchain technology varies from platform to platform. Implementing blockchain-based solutions from scratch is a costly investment.
If you want to invest in blockchain technology, it’s best to learn more about the technology from a reliable source. At 101 Blockchains, we offer the best of the best courses on blockchain technology to help you understand the true potential of this new tech.
You can learn more about this from here ->
Blockchain Like a Boss Masterclass
https://academy.101blockchains.com/courses/blockchain-masterclass
Ethereum Development Fundamentals
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Beginner’s Guide to Corda Development
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Hyperledger Fabric Development Course
https://academy.101blockchains.com/courses/hyperledger-fabric-development-intermediate-level
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our full guide on this topic ->
https://101blockchains.com/disadvantages-of-blockchain/
Blockchain Digital Transformation Presentation101 Blockchains
Blockchain is transforming the world around us. And, there is no doubt that it is going to change how we interact with each other. In this powerpoint presentation, we will be looking at blockchain digital transformation. The blockchain powerpoint presentation is aimed at both new and experienced learners. If you are looking for the ultimate digital transformation blockchain ppt, you have come to the right place.
The blockchain ppt covers all the necessary things that a beginner should know about digital transformation, but also ensure that it covers more exciting topics related to the topic. For example, the second blockchain powerpoint slide covers the subject, “Public vs. Private.” This is essential to understanding the fundamental need for a decentralized network, i.e., blockchain. We also include the key features that power the digital world through blockchain.
Blockchain is, as The Economist (2015) calls it, "a trust machine".
To let the readers understand the need for blockchain and its improvement over the year, we have also covered the history of blockchain transformation. The history of blockchain is vibrant including the release of permissioned frameworks such as HyperLedger and R3. Other distributed ledger technology also flourished from 2009 to 2019. We have covered most of the important ones in the blockchain ppt.
Different use cases along with their implementation challenges have also been covered to give you a glimpse of how the current blockchain technology is shaping and impacting other industries out there.
Another important thing that we covered includes how non-financial enterprises are adopting blockchain. There are companies such as Ford and Toyota that are working round the clock to implement blockchain in their smart mobility solutions. Even insurance giants like Prudential and Metlife are automating a lot of the insurance processes using blockchain. To power these financial and non-financial institutions, federated networks are been used. They are permissioned frameworks that empower business and ensure that they get all the tools to make a blockchain network according to their needs and requirements.
The enterprise blockchain ecosystem is also strong, thanks to the players such as Ethereum, Hyperledger, and Corda. Hundreds of enterprises are utilizing Hyperledger. Two key examples include the T-Mobile and London Stock Exchange Group.
Apart from the big enterprises, the healthcare industry also seems to be interested in the blockchain. They are using it to save lives and improve the state of the healthcare industry.
=>You can read further details in our Blockchain for Enterprise guide.
https://101blockchains.com/blockchain-for-enterprise/
=>Work with 101 Blockchains
101 Blockchains Professional Services
https://101blockchains.com/services/
Partner With 101 Blockchains
https://101blockchains.com/blockchain-partnerships/
6 Key Blockchain Features You Need to Know Now101 Blockchains
Blockchain is here to stay, and it's highly popular among the enterprise community. However, many are still not educated on the subject matter properly. Blockchain technology is not just for creating cryptocurrencies. It offers a lot of features that can help enterprise companies to mitigate all of their problems.
Blockchain comes with 6 key benefits that everyone should know about. All of these features help to make the platform more secure and fairer. These are – Immutability, Decentralized, Distributed, Enhanced Security, Consensus, and Faster settlement.
The characteristics of blockchain heavily depend on these features. For example, immutability can help to eliminate corruption in every sector. Consensus, on the other hand, helps users to make a collaborative decision on the network.
All of these blockchain features and benefits increase the demand for this technology. If you want to understand blockchain features, it's best to start with blockchain courses. We at 101 Blockchains can offer you a wide collection of courses to help you out in your learning process.
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
We also have other courses that can help you in building your career. These are ->
How to Build Your Career in Enterprise Blockchains
https://academy.101blockchains.com/courses/career-in-blockchain
Getting Started with Hyperledger Fabric Course
https://academy.101blockchains.com/courses/getting-started-with-hyperledger-fabric/
Beginner's Guide to Corda Development Course
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Check out our full article on this topic ->
https://101blockchains.com/introduction-to-blockchain-features/
Smart Contracts Programming Tutorial | Solidity Programming Language | Solidi...Edureka!
** Ethereum Developer's Certification course: https://www.edureka.co/ethereum-developer-course **
This Edureka's Solidity Tutorial video is intended to guide you through the basics of Ethereum's smart contract language called solidity. Through the course of this video you will go through the following topics:
1. Smart Contract Programming
2. Smart Contract Languages
3. What is Solidity?
4. Solidity Tools
5. Solidity Programming
-structure of a contract
-operators
-data types
-data structure
-functions
-control structure
-exception handling
6. Application of what we learnt
Here is the link to the Blockchain blog series: https://goo.gl/DPoAHR
You can also refer this playlist on Blockchain: https://goo.gl/V5iayd
Ethereum is an open-source blockchain platform that offers smart contract facilities. Solidity was first introduced as a new type of programing language for the Ethereum platform. Developers use the Solidity programming language to develop smart contracts. Using Solidity, you can program the contracts to do any type of task.
Solidity is a type of object-oriented programming language. This programing language is developed specifically for smart contracts. This type of language is widely used in creating smart contracts features in blockchain platforms.
To understand Solidity better developers, need to dive into the key elements of this language, such as the compiler, pragma, reserved keywords, value types, variables, etc. There are already many use cases of using Solidity as the foundation for smart contracts. However, this language also has its fair share of issues.
Here, at 101 blockchains, we are offering courses that will help you comprehend this topic in a simple manner. Using our courses, you will understand the concepts behind Solidity and Smart contracts in no time.
Learn more about Solidity and smart contracts from here ->
Ethereum Development Fundamentals course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
The Complete Ethereum Technology Course
https://academy.101blockchains.com/courses/ethereum-technology-course
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/solidity-tutorial/
https://101blockchains.com/solidity-vs-move-vs-clarity/
https://101blockchains.com/smart-contract-best-practices/
https://101blockchains.com/solidity-issues/
https://101blockchains.com/smart-contracts/
https://101blockchains.com/ethereum-smart-contracts/
https://101blockchains.com/blockchain-smart-contract-examples/
Decentralized finance is a distributed financial system where there is no centralized governing body. Decentralized finance or DeFi applications utilize peer-to-peer finance networks. These networks are powered by decentralized and distributed platforms. The DeFi application ecosystem is vast and it includes various types of apps such as wallets, lending platforms, infrastructure development suits etc.
As there are many DeFi applications on the market, finding the top applications can be a difficult process. Here, we will discuss the top 5 DeFi applications – AAVE, Compound, MakerDAO, Synthetix, and MetaMask.
These are some of the widely utilized applications on the market. If you want to learn more about decentralized finance applications, then we have you covered. 101 blockchains feature a blockchain course that focuses on decentralized finance and will help you understand the working mechanism of this new financial structure.
Learn more about the course from here ->
Introduction to DeFi Course
https://academy.101blockchains.com/courses/defi-course
Learn about additional courses and masterclasses for the finance sector ->
Blockchain in Finance Masterclass
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Read our full guide on this topic ->
https://101blockchains.com/decentralized-finance-applications/
https://101blockchains.com/top-defi-protocols/
https://101blockchains.com/top-defi-wallets/
https://101blockchains.com/best-defi-asset-management-tools/
https://101blockchains.com/decentralized-finance-tools/
Blockchain With IoT - Top Blockchain IoT Use Cases101 Blockchains
Blockchain with IoT is a perfect combination that can change the way we conduct businesses nowadays. Most of our present business models have low visibility, which leads to multiple issues like mismanagement, counterfeiting, high product costs, and many more. Due to these complications, many companies are not able to reach their full potential.
However, IoT Blockchain projects can offer a wide range of benefits and use cases for the IoT sector. For example, high data security, stronger data validation process, data anonymity for extra privacy, end-to-end visibility, identity for IoT devices, stronger cloud management, etc.
Other Blockchain IoT use cases include specific sectors such as supply chains, smart homes, pharmaceuticals, waste management, agriculture, sharing economy, and so on. Many blockchain IoT examples offer various forms of uses cases now for enterprise companies.
101 Blockchains offer a good array of supportive educational materials regarding this topic. If you are struggling with your IoT management, we recommend checking out our IoT fundamentals course, as this course is perfectly suited for your needs.
Learn more about the course from here ->
IoT Fundamentals Course
https://academy.101blockchains.com/courses/iot-fundamentals
Check out our certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/blockchain-iot-use-cases/
Blockchain is a decentralized and distributed ledger system. In blockchain technology, the data is stored within blocks and then linked to one another, forming a chain of blocks. Some of the key features of blockchain include – immutability, decentralized, enhanced security, consensus protocol, and faster output.
Although blockchain offers a lot of benefits for a lot of sectors, it still comes with its fair share of disadvantages. Most blockchain platforms are still not scalable enough. Some of the public blockchain platforms, such as Bitcoin or Ethereum, are not energy efficient.
Blockchain can be inefficient under certain conditions. The efficiency of blockchain technology varies from platform to platform. Implementing blockchain-based solutions from scratch is a costly investment.
If you want to invest in blockchain technology, it’s best to learn more about the technology from a reliable source. At 101 Blockchains, we offer the best of the best courses on blockchain technology to help you understand the true potential of this new tech.
You can learn more about this from here ->
Blockchain Like a Boss Masterclass
https://academy.101blockchains.com/courses/blockchain-masterclass
Ethereum Development Fundamentals
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Beginner’s Guide to Corda Development
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Hyperledger Fabric Development Course
https://academy.101blockchains.com/courses/hyperledger-fabric-development-intermediate-level
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our full guide on this topic ->
https://101blockchains.com/disadvantages-of-blockchain/
Blockchain Digital Transformation Presentation101 Blockchains
Blockchain is transforming the world around us. And, there is no doubt that it is going to change how we interact with each other. In this powerpoint presentation, we will be looking at blockchain digital transformation. The blockchain powerpoint presentation is aimed at both new and experienced learners. If you are looking for the ultimate digital transformation blockchain ppt, you have come to the right place.
The blockchain ppt covers all the necessary things that a beginner should know about digital transformation, but also ensure that it covers more exciting topics related to the topic. For example, the second blockchain powerpoint slide covers the subject, “Public vs. Private.” This is essential to understanding the fundamental need for a decentralized network, i.e., blockchain. We also include the key features that power the digital world through blockchain.
Blockchain is, as The Economist (2015) calls it, "a trust machine".
To let the readers understand the need for blockchain and its improvement over the year, we have also covered the history of blockchain transformation. The history of blockchain is vibrant including the release of permissioned frameworks such as HyperLedger and R3. Other distributed ledger technology also flourished from 2009 to 2019. We have covered most of the important ones in the blockchain ppt.
Different use cases along with their implementation challenges have also been covered to give you a glimpse of how the current blockchain technology is shaping and impacting other industries out there.
Another important thing that we covered includes how non-financial enterprises are adopting blockchain. There are companies such as Ford and Toyota that are working round the clock to implement blockchain in their smart mobility solutions. Even insurance giants like Prudential and Metlife are automating a lot of the insurance processes using blockchain. To power these financial and non-financial institutions, federated networks are been used. They are permissioned frameworks that empower business and ensure that they get all the tools to make a blockchain network according to their needs and requirements.
The enterprise blockchain ecosystem is also strong, thanks to the players such as Ethereum, Hyperledger, and Corda. Hundreds of enterprises are utilizing Hyperledger. Two key examples include the T-Mobile and London Stock Exchange Group.
Apart from the big enterprises, the healthcare industry also seems to be interested in the blockchain. They are using it to save lives and improve the state of the healthcare industry.
=>You can read further details in our Blockchain for Enterprise guide.
https://101blockchains.com/blockchain-for-enterprise/
=>Work with 101 Blockchains
101 Blockchains Professional Services
https://101blockchains.com/services/
Partner With 101 Blockchains
https://101blockchains.com/blockchain-partnerships/
6 Key Blockchain Features You Need to Know Now101 Blockchains
Blockchain is here to stay, and it's highly popular among the enterprise community. However, many are still not educated on the subject matter properly. Blockchain technology is not just for creating cryptocurrencies. It offers a lot of features that can help enterprise companies to mitigate all of their problems.
Blockchain comes with 6 key benefits that everyone should know about. All of these features help to make the platform more secure and fairer. These are – Immutability, Decentralized, Distributed, Enhanced Security, Consensus, and Faster settlement.
The characteristics of blockchain heavily depend on these features. For example, immutability can help to eliminate corruption in every sector. Consensus, on the other hand, helps users to make a collaborative decision on the network.
All of these blockchain features and benefits increase the demand for this technology. If you want to understand blockchain features, it's best to start with blockchain courses. We at 101 Blockchains can offer you a wide collection of courses to help you out in your learning process.
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
We also have other courses that can help you in building your career. These are ->
How to Build Your Career in Enterprise Blockchains
https://academy.101blockchains.com/courses/career-in-blockchain
Getting Started with Hyperledger Fabric Course
https://academy.101blockchains.com/courses/getting-started-with-hyperledger-fabric/
Beginner's Guide to Corda Development Course
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Check out our full article on this topic ->
https://101blockchains.com/introduction-to-blockchain-features/
Smart Contracts Programming Tutorial | Solidity Programming Language | Solidi...Edureka!
** Ethereum Developer's Certification course: https://www.edureka.co/ethereum-developer-course **
This Edureka's Solidity Tutorial video is intended to guide you through the basics of Ethereum's smart contract language called solidity. Through the course of this video you will go through the following topics:
1. Smart Contract Programming
2. Smart Contract Languages
3. What is Solidity?
4. Solidity Tools
5. Solidity Programming
-structure of a contract
-operators
-data types
-data structure
-functions
-control structure
-exception handling
6. Application of what we learnt
Here is the link to the Blockchain blog series: https://goo.gl/DPoAHR
You can also refer this playlist on Blockchain: https://goo.gl/V5iayd
Building Blockchain Projects on Enterprise Ethereum [Webinar] Kaleido
Enterprise blockchain has accelerated over the past year, with many projects launching into production. Backed by the largest ecosystem of blockchain developers and experts, leading global organizations are adopting Enterprise Ethereum to build, test and deploy decentralized applications to increase trust and transparency while unlocking new opportunities to create value across modern business networks. Learn how Enterprise Ethereum is well-suited for enterprise blockchain projects, and how Kaleido’s full-stack platform, PegaSys' production-grade Ethereum protocol and Microsoft’s tools and expertise help to unlock the full potential of Enterprise Ethereum based projects. Together, we’ll discuss how to enable rapid, easy and affordable deployment of enterprise blockchain solutions.
LEARNING OBJECTIVES AND TAKEAWAYS:
- How Ethereum supports enterprise blockchain projects.
- Convergence of Private and Public Blockchain
- Digital Transformation and Asset Tokenization for Enterprise
- Full-stack enterprise blockchain solutions
- Microsoft PoV on Enterprise Ethereum
- Protocols designed for enterprise.
- Customer adoption: Enterprise Ethereum in Production Networks
With the rise of blockchain's popularity, enterprise companies are finally realizing the importance of blockchain technology. Thus, the demand for skilled blockchain professionals is skyrocketing. However, due to this technology's unique nature and the lack of proper educational material, not many people can meet up with the needs of enterprise companies.
This is the perfect time for you to tap into the vast opportunity blockchain is presenting for the job market. Without proper guidance developing a career in blockchain can be perplexing. Therefore, you need to master specific skills in order to get a career in blockchain.
Understanding blockchain fundamentals, blockchain platforms, ecosystem, and how enterprise business works are a few of the skills you need to master. Joining a community or enrolling in blockchain certification courses can be highly beneficial in keeping up with the changes.
We at 101 Blockchains strive to offer you the most updated and resourceful contents that will help you to become a blockchain expert. All of our blockchain courses are geared towards helping you build your blockchain career from scratch.
Our Certified Enterprise Blockchain Professional (CEBP) course focuses on the core elements of blockchain technology.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/blockchain-expert-certification
Our Certified Enterprise Blockchain Architect (CEBA) course focuses on the advanced elements of blockchain architecture.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course focuses on the security issues and protocols of blockchain technology.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
We offer the "How to Build Your Career in Enterprise Blockchains" course for beginners who want proper guidance on building a career in blockchain.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/career-in-blockchain
Blockchain became a popular technology trend because of cryptocurrencies. But, this technology has its applications beyond the Bitcoin and other cryptocurrencies.
A non-fungible token or NFT is a type of digital token. This type of token can’t be interchanged or replaced as every token comes with unique attributes. Understanding how NFTs work is very important. However, to do that, we need to look into the fundamentals behind this technology.
NFTs use public blockchain platforms to function. At this time, Ethereum is the most popular public platform that many of the NFT projects are using for storing or minting NFTs. Due to using blockchain, transparency regarding NFT ownership is high, as anyone can see the ownership status. ERC-721 and ERC-1155 are the only 2 token standards that can help create NFTs.
To help you better understand how NFT works, we at 101 Blockchains offer an array of courses that will help you better comprehend the topic. More so, we have an exclusive course on NFT, where we cover every single element within the ecosystem.
The following courses will help you learn about NFTs->
NFT Fundamentals Course
https://academy.101blockchains.com/courses/nft-fundamentals
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guides ->
https://101blockchains.com/non-fungible-tokens-nft/
https://101blockchains.com/nft-minting/
https://101blockchains.com/buy-and-sell-nfts/
https://101blockchains.com/nft-in-blockchain/
https://101blockchains.com/nft-marketplace/
https://101blockchains.com/types-of-non-fungible-tokens/
https://101blockchains.com/nft-attributes/
https://101blockchains.com/best-nft-wallets/
https://101blockchains.com/sell-nfts-on-shopify/
Blockchain Training | Blockchain Tutorial for Beginners | Blockchain Technolo...Edureka!
This Edureka Blockchain training will give you a fundamental understanding regrading Blockchain and Bitcoin.
This session will help you learn following topics:
1. Current Existing Monetary System
2. How can Blockchain and Bitcoin help?
3. What is Blockchain?
4. Blockchain concepts
5. Bitcoin Transaction
6. Blockchain features
7. Blockchain Use Case
8. Demo: Bitcoin Transaction
Consensus algorithms are an extremely crucial part of blockchain technology. Proof of Work is a type of consensus mechanism where users use their computational devices to solve complex mathematical problems in order to verify and add blocks to the ledger system. On the other hand, in Proof of Stake users will need to stake their coins in order to participate in the verification process.
The difference between the two types of consensus protocol lies within the working mechanism of these two processes. Verification mechanism, incentive policy, vulnerability, motivation, requirement, and scalability are some of the areas where these two differ.
To help you better understand the differences between these two consensus protocols, 101 Blockchain offer an array of lucrative blockchain courses. These courses will help you comprehend the working principles of these two algorithms.
The following courses will help you learn about PoW and PoS->
Blockchain Like a Boss Masterclass
https://academy.101blockchains.com/courses/blockchain-masterclass
Getting Started with Bitcoin Technology
https://academy.101blockchains.com/courses/getting-started-with-bitcoin-technology
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/pow-vs-pos-a-comparison/
Introduction to Blockchain-as-a-Service (BaaS)Cygnet Infotech
Blockchain-as-a-Service (BaaS) allows businesses to use cloud-based solutions to build, host and use their own blockchain apps. Supply Chain a crucial BaaS use case suffers a major issue of the lack of traceability. BaaS offers transparency and traceability to the Supply Chain. Get in touch with experts of Cygnet to know more.
-What is a Blockchain
-Blockchain as a Technology
-Do you actually need a Blockchain?
-Critical Aspects of Ecosystems
-Building Blocks of Blockchain
-The architecture of Current Systems
-Get in Touch
Blockchain Fundamentals - Top Rated for Beginners 101 Blockchains
Blockchain Technology became extremely trendy in past year as a powerful technology which is changing the way we do business.
Learn all you need to know about Blockchain Basics! This presentation is perfect for entrepreneurs, investors and executives who want to learn more about Blockchain Applications and Use Cases.
-------------------------------------------------
RESOURCES & LINKS:
Certified Enterprise Blockchain Professional (CEBP): https://academy.101blockchains.com/courses/blockchain-expert-certification
Free Blockchain Course: https://academy.101blockchains.com/courses/enterprise-blockchains-fundamentals
Blockchain Courses: https://academy.101blockchains.com/
Enterprise Blockchain Professionals Linkedin Group: https://www.linkedin.com/groups/12400295/
Think Tank Webinars: https://101blockchains.com/blockchain-webinars/
-------------------------------------------------
This Blockchain Crash Course presentation covers the following topics:
-What exactly is Blockchain Technology
-Must know Blockchain Terms
-What are Smart Contracts?
-How Blockchain will change our world?
-What is Web 3.0
-Blockchain vs Database
And much more...
This is one of the best Blockchain for beginners training sessions and includes some of our Top Blockchain Infographics.
Looking for a presentation about Blockchain Technology for Beginners? We got you covered! This Blockchain Training session was presented around the globe :)
=> Please share your feedback and we will improve it.
Join our community:
https://101blockchains.com
Traditional financial systems are limited in many ways, and blockchain can help them move to the next stage. Decentralized Finance is one of the hot topics at the moment. This technology is capable of introducing new possibilities of a trustless global financial system with a much quicker and more secured settlement time.
Decentralized finance applications can’t be tampered with, promotes interoperable design, fully transparent network, permissionless access, and user empowerment. There are already a vast number of DeFi apps for multiple varying use cases.
Popular DeFi use cases include asset management, complying with AML and CFT measurements, decentralized organizations, analytics and risk management, and so on.
We at 101 Blockchains believe decentralized Finance is the next stage for our financial systems. That’s why we offer premium blockchain courses specifically for DeFi and anyone who wants to utilize this technology for their company.
Our Introduction to DeFi course will focus on the purpose and scope of DeFi, along with introducing you to the underlying mechanism.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/defi-course
We also offer additional courses and masterclasses for the finance sector. Learn more about the course from here ->
Blockchain in Finance Masterclass
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Smart contracts are the next version of automated contracts where the user won't have to rely on trust. Smart contracts are automated algorithmic digital forms of contracts where parties can exchange assets without any intermediaries based on specified rules. Here, the program within the smart contract will self-execute based on the conditions previously defined by the parties.
There are certain benefits to using smart contracts such as autonomous, secured, interruption-free, trustless, cost-effective, fast performance, and accurate and error-free. But here, we will analyze the examples of smart contracts, such as how it can be useful in digital identity, supply chain management, insurance, etc.
To help you understand how smart contracts work or how you can utilize this new form of technology for your personal gain, or company 101 Blockchains offers an array of courses. You can use these courses to learn more about smart contracts and its role in various sectors.
Learn more about smart contracts from here ->
Ethereum Development Fundamentals course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
The Complete Ethereum Technology Course
https://academy.101blockchains.com/courses/ethereum-technology-course
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/smart-contracts/
https://101blockchains.com/ethereum-smart-contracts/
https://101blockchains.com/blockchain-smart-contract-examples/
https://101blockchains.com/smart-contract-use-cases/
https://101blockchains.com/what-is-a-smart-contract/
Blockchain is making revolutionary changes in various industries including, the finance sector. Using blockchain in the finance sector, many companies are already utilizing the benefits of this technology. But why should we consider using blockchain specifically?
At present, the financial industry is plagued with a lot of issues such as increasing cyber-attacks, poor IT infrastructure, complicated regulations across territories, payment frauds and identity thefts, delayed cross-border transactions, and so on. However, the finance sector is failing to tackle these problems leading to low customer satisfaction. Here, using blockchain in banking these companies can finally get rid of all of these issues for good.
So, how is Blockchain used in finance? Typically, blockchain can offer a lot of benefits such as efficient cross-border transactions, enforcing smart contracts, the establishment of central bank digital currency, increased data security, and many more. All of these advantages of using blockchain in the finance function are helping many enterprise-grade companies like HSBC, MasterCard, ING, etc. to solve their technological lacking.
We at 101 Blockchains believe blockchain is a prominent solution to secure the future of finance. That’s why we are offering premium quality blockchain courses and certification to help you be educated on the subject matter. We offer a selection of masterclasses and courses specifically for blockchain in finance.
Blockchain in Finance masterclass will focus on the practical implementation of blockchain and help you understand the effect of blockchain in the finance sector.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass will focus on asset tokenization schemes and highlight the scope of creating digital assets.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course will focus on how blockchain can improve current trade finance processes.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals who want to learn about blockchain in order to develop blockchain-based finance applications.
Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Artificial intelligence is a human-like intelligence simulation using computers. Typically, computer systems are programmed in a way that will help the AI to imitate human-like actions. Unfortunately, no AI can fully comprehend human activities or actions as they’re very complicated to simulate. Blockchain is another leading technology, which can really benefit the AI sector.
There are a lot of blockchain and AI projects on the market now, and they can offer a wide range of use cases. These blockchain and AI use cases are - enhancing security, improved trust in robotic decisions, managing and accessing the data market, optimizing energy consumption, improving smart contracts, decentralized intelligence, etc.
However, there are some hurdles when it comes to blockchain and AI projects. The primary issues this industry faces are mainly privacy concerns, scalability and side chains, trusted oracles, no AI-specific consensus protocols, etc.
To help you out, 101 Blockchains offer a great collection of information and updated educational matter on this topic. If you are thinking about enhancing your AI’s machine learning capabilities, it’s worth looking into blockchain technology for that.
Check out our certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/blockchain-and-ai/
This Edureka Blockchain technology tutorial will give you an understanding of how blockchain works and what are blockchain technologies. This tutorial helps you to learn following topics:
1. What are Blockchain & Bitcoin
2. Blockchain Technologies
3. Peer to Peer Network
4. Cryptography
5. Proof of Work & Blockchain Program
6. Ethereum & Smart Contracts
7. Blockchain Applications and Use Cases
Everyone wants a better and secure career. As blockchain is now taking over the world, many companies are offering a secured and luxurious career for skilled blockchain engineers. Blockchain is a new type of technology, and there's a lot of opportunity in this field for developing a good career.
Blockchain engineer jobs demand the best of the best experts. They are expected to possess specialized skillsets. These Blockchain engineer skills mainly include knowledge about blockchain basics, blockchain architecture, data structures, cryptography, web development, and so on.
With proper skills, a blockchain engineer's salary can go up to 190k every year! However, completing a course dedicated to blockchain engineers can help in showcasing your skillsets.
This is where 101 Blockchains come into play —101 Blockchain stive to offer educative professionals courses and training specifically for engineers. If you want to become a blockchain engineer, getting a certification from 101 Blockchains can jump-start the process.
Our certification courses are ->
Our Certified Enterprise Blockchain Professional (CEBP)
https://academy.101blockchains.com/courses/blockchain-expert-certification
Our Certified Enterprise Blockchain Architect (CEBA)
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE)
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Our other courses can help you become the ultimate expert on blockchain. These are ->
How to Build Your Career in Enterprise Blockchains
https://academy.101blockchains.com/courses/career-in-blockchain
Getting Started with Hyperledger Fabric Course
https://academy.101blockchains.com/courses/getting-started-with-hyperledger-fabric/
Beginner's Guide to Corda Development Course
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Comparison Blockchain Developer vs. Blockchain Expert Blockchain Council
This blockchain course will introduce you with blockchain architecture, public and private blockchains, blockchain mining, various blockchain use-cases, setting up your own blockchain solution, etc
After years and years of blockchain evolution, now many entities are working on various blockchain projects. Some of them are already quite popular on the market while others are still under development. The increasing number of blockchain projects are both a positive and a negative aspect.
On a positive note, you are getting access to a lot of blockchain project ideas with great functionalities. On the negative side, many users are now confused and overwhelmed with the technology as still, it’s not a common practice in every country to use blockchain.
To help you understand it better, we are listing the top 20 blockchain projects. All of these projects are regarded as the best blockchain projects on the market. However, if you want to understand more about blockchain projects and the companies using them, you should start with our blockchain courses.
101 Blockchains provides selective materials on important topics to help any individual or industry leaders understand the concepts behind this technology.
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/top-blockchain-projects-ideas/
Cork Blockchain #1 - Introduction to Blockchain and Permissioned BlockchainsJohannes Ahlmann
Slides for Cork Blockchain meetup #1.
Johannes Ahlmann from claru.io presented on the basics of blockchain and permissioned blockchain in particular.
Find more information on http://corkblockchain.com
Using Blockchain as a Platform for Smart Cities. Christian Nãsulea, Stelian-M...eraser Juan José Calderón
Using Blockchain as a Platform for Smart Cities
Christian Nãsulea, Stelian-Mihai Mic University of Bucharest, Romania.
ABSTRACT: Objectives: Incorporating new technologies into the development of smart cities means rethinking the way
different services are provided. From this perspective, Blockchain might represent the future of both smart cities and smart
communities as it offers new alteratives for individuals and institutions.
Prior Work: Blockchain was mainly perceived through its linkage with bitcoin, but recent developments have started
exploring the idea of using it for financial transactions, logistics and securing contracts. Tapscott & Tapscott (2016)have
acknowledged the potential the Blockchain Revolution had on redefining the idea of trust in both digital and local communities.
Blockchain technology has the ability to enhance transparency of local and regional institutions while also making it easier
to communicate sensitive data without compromising security and privacy.
Approach: We look at the different fields blockchain can have an impact on and we try to assess the viability of moving
towards an integrated platform for intermediating day-to-day activities between both institutions and individuals. We will
assess the advantages of digitizing and securing public and private data while also considering the potential risks this
process might involve.
Results: We aim to create a model of how blockchain might work in communities and assess its impact on the overall
economic and human development indicators.
Implications: Public administrators in many countries are starting to acknowledge blockchain’s potential in solving problems
for local communities our results will be a valuable starting point for developing local initiatives for using blockchain as a
platform for communications and transactions. Furthermore, a smart city must be a city where individuals can interact and
solve their issues quickly, using digital technologies for increased efficiency.
Value: Blockchain is thought to be the future of managing both public and private affairs. Countries such as Dubai, Singapore
and China are incorporating blockchain technology into developing smart cities. Blockchain makes us rethink many of the
different aspects of how communities can be organized, offering new alternatives and promising a more transparent and
efficient economic model.
Keywords: Digital Era, Economic Model, IoT, Technology
This thought leadership is a report detailing how Blockchain can be industrialized in ASEAN and how its potential can be unlocked across organizations.
The report also clearly illustrates the implications of Blockchain, its key developments, how it impacts countries across ASEAN and a five-point test for assessing the fit of Blockchain for specific processes, all serving to provide meaningful insights into the current state of the FinTech industry in the ASEAN region.
Building Blockchain Projects on Enterprise Ethereum [Webinar] Kaleido
Enterprise blockchain has accelerated over the past year, with many projects launching into production. Backed by the largest ecosystem of blockchain developers and experts, leading global organizations are adopting Enterprise Ethereum to build, test and deploy decentralized applications to increase trust and transparency while unlocking new opportunities to create value across modern business networks. Learn how Enterprise Ethereum is well-suited for enterprise blockchain projects, and how Kaleido’s full-stack platform, PegaSys' production-grade Ethereum protocol and Microsoft’s tools and expertise help to unlock the full potential of Enterprise Ethereum based projects. Together, we’ll discuss how to enable rapid, easy and affordable deployment of enterprise blockchain solutions.
LEARNING OBJECTIVES AND TAKEAWAYS:
- How Ethereum supports enterprise blockchain projects.
- Convergence of Private and Public Blockchain
- Digital Transformation and Asset Tokenization for Enterprise
- Full-stack enterprise blockchain solutions
- Microsoft PoV on Enterprise Ethereum
- Protocols designed for enterprise.
- Customer adoption: Enterprise Ethereum in Production Networks
With the rise of blockchain's popularity, enterprise companies are finally realizing the importance of blockchain technology. Thus, the demand for skilled blockchain professionals is skyrocketing. However, due to this technology's unique nature and the lack of proper educational material, not many people can meet up with the needs of enterprise companies.
This is the perfect time for you to tap into the vast opportunity blockchain is presenting for the job market. Without proper guidance developing a career in blockchain can be perplexing. Therefore, you need to master specific skills in order to get a career in blockchain.
Understanding blockchain fundamentals, blockchain platforms, ecosystem, and how enterprise business works are a few of the skills you need to master. Joining a community or enrolling in blockchain certification courses can be highly beneficial in keeping up with the changes.
We at 101 Blockchains strive to offer you the most updated and resourceful contents that will help you to become a blockchain expert. All of our blockchain courses are geared towards helping you build your blockchain career from scratch.
Our Certified Enterprise Blockchain Professional (CEBP) course focuses on the core elements of blockchain technology.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/blockchain-expert-certification
Our Certified Enterprise Blockchain Architect (CEBA) course focuses on the advanced elements of blockchain architecture.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course focuses on the security issues and protocols of blockchain technology.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
We offer the "How to Build Your Career in Enterprise Blockchains" course for beginners who want proper guidance on building a career in blockchain.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/career-in-blockchain
Blockchain became a popular technology trend because of cryptocurrencies. But, this technology has its applications beyond the Bitcoin and other cryptocurrencies.
A non-fungible token or NFT is a type of digital token. This type of token can’t be interchanged or replaced as every token comes with unique attributes. Understanding how NFTs work is very important. However, to do that, we need to look into the fundamentals behind this technology.
NFTs use public blockchain platforms to function. At this time, Ethereum is the most popular public platform that many of the NFT projects are using for storing or minting NFTs. Due to using blockchain, transparency regarding NFT ownership is high, as anyone can see the ownership status. ERC-721 and ERC-1155 are the only 2 token standards that can help create NFTs.
To help you better understand how NFT works, we at 101 Blockchains offer an array of courses that will help you better comprehend the topic. More so, we have an exclusive course on NFT, where we cover every single element within the ecosystem.
The following courses will help you learn about NFTs->
NFT Fundamentals Course
https://academy.101blockchains.com/courses/nft-fundamentals
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guides ->
https://101blockchains.com/non-fungible-tokens-nft/
https://101blockchains.com/nft-minting/
https://101blockchains.com/buy-and-sell-nfts/
https://101blockchains.com/nft-in-blockchain/
https://101blockchains.com/nft-marketplace/
https://101blockchains.com/types-of-non-fungible-tokens/
https://101blockchains.com/nft-attributes/
https://101blockchains.com/best-nft-wallets/
https://101blockchains.com/sell-nfts-on-shopify/
Blockchain Training | Blockchain Tutorial for Beginners | Blockchain Technolo...Edureka!
This Edureka Blockchain training will give you a fundamental understanding regrading Blockchain and Bitcoin.
This session will help you learn following topics:
1. Current Existing Monetary System
2. How can Blockchain and Bitcoin help?
3. What is Blockchain?
4. Blockchain concepts
5. Bitcoin Transaction
6. Blockchain features
7. Blockchain Use Case
8. Demo: Bitcoin Transaction
Consensus algorithms are an extremely crucial part of blockchain technology. Proof of Work is a type of consensus mechanism where users use their computational devices to solve complex mathematical problems in order to verify and add blocks to the ledger system. On the other hand, in Proof of Stake users will need to stake their coins in order to participate in the verification process.
The difference between the two types of consensus protocol lies within the working mechanism of these two processes. Verification mechanism, incentive policy, vulnerability, motivation, requirement, and scalability are some of the areas where these two differ.
To help you better understand the differences between these two consensus protocols, 101 Blockchain offer an array of lucrative blockchain courses. These courses will help you comprehend the working principles of these two algorithms.
The following courses will help you learn about PoW and PoS->
Blockchain Like a Boss Masterclass
https://academy.101blockchains.com/courses/blockchain-masterclass
Getting Started with Bitcoin Technology
https://academy.101blockchains.com/courses/getting-started-with-bitcoin-technology
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/pow-vs-pos-a-comparison/
Introduction to Blockchain-as-a-Service (BaaS)Cygnet Infotech
Blockchain-as-a-Service (BaaS) allows businesses to use cloud-based solutions to build, host and use their own blockchain apps. Supply Chain a crucial BaaS use case suffers a major issue of the lack of traceability. BaaS offers transparency and traceability to the Supply Chain. Get in touch with experts of Cygnet to know more.
-What is a Blockchain
-Blockchain as a Technology
-Do you actually need a Blockchain?
-Critical Aspects of Ecosystems
-Building Blocks of Blockchain
-The architecture of Current Systems
-Get in Touch
Blockchain Fundamentals - Top Rated for Beginners 101 Blockchains
Blockchain Technology became extremely trendy in past year as a powerful technology which is changing the way we do business.
Learn all you need to know about Blockchain Basics! This presentation is perfect for entrepreneurs, investors and executives who want to learn more about Blockchain Applications and Use Cases.
-------------------------------------------------
RESOURCES & LINKS:
Certified Enterprise Blockchain Professional (CEBP): https://academy.101blockchains.com/courses/blockchain-expert-certification
Free Blockchain Course: https://academy.101blockchains.com/courses/enterprise-blockchains-fundamentals
Blockchain Courses: https://academy.101blockchains.com/
Enterprise Blockchain Professionals Linkedin Group: https://www.linkedin.com/groups/12400295/
Think Tank Webinars: https://101blockchains.com/blockchain-webinars/
-------------------------------------------------
This Blockchain Crash Course presentation covers the following topics:
-What exactly is Blockchain Technology
-Must know Blockchain Terms
-What are Smart Contracts?
-How Blockchain will change our world?
-What is Web 3.0
-Blockchain vs Database
And much more...
This is one of the best Blockchain for beginners training sessions and includes some of our Top Blockchain Infographics.
Looking for a presentation about Blockchain Technology for Beginners? We got you covered! This Blockchain Training session was presented around the globe :)
=> Please share your feedback and we will improve it.
Join our community:
https://101blockchains.com
Traditional financial systems are limited in many ways, and blockchain can help them move to the next stage. Decentralized Finance is one of the hot topics at the moment. This technology is capable of introducing new possibilities of a trustless global financial system with a much quicker and more secured settlement time.
Decentralized finance applications can’t be tampered with, promotes interoperable design, fully transparent network, permissionless access, and user empowerment. There are already a vast number of DeFi apps for multiple varying use cases.
Popular DeFi use cases include asset management, complying with AML and CFT measurements, decentralized organizations, analytics and risk management, and so on.
We at 101 Blockchains believe decentralized Finance is the next stage for our financial systems. That’s why we offer premium blockchain courses specifically for DeFi and anyone who wants to utilize this technology for their company.
Our Introduction to DeFi course will focus on the purpose and scope of DeFi, along with introducing you to the underlying mechanism.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/defi-course
We also offer additional courses and masterclasses for the finance sector. Learn more about the course from here ->
Blockchain in Finance Masterclass
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals. Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Smart contracts are the next version of automated contracts where the user won't have to rely on trust. Smart contracts are automated algorithmic digital forms of contracts where parties can exchange assets without any intermediaries based on specified rules. Here, the program within the smart contract will self-execute based on the conditions previously defined by the parties.
There are certain benefits to using smart contracts such as autonomous, secured, interruption-free, trustless, cost-effective, fast performance, and accurate and error-free. But here, we will analyze the examples of smart contracts, such as how it can be useful in digital identity, supply chain management, insurance, etc.
To help you understand how smart contracts work or how you can utilize this new form of technology for your personal gain, or company 101 Blockchains offers an array of courses. You can use these courses to learn more about smart contracts and its role in various sectors.
Learn more about smart contracts from here ->
Ethereum Development Fundamentals course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
The Complete Ethereum Technology Course
https://academy.101blockchains.com/courses/ethereum-technology-course
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Learn more from our guide ->
https://101blockchains.com/smart-contracts/
https://101blockchains.com/ethereum-smart-contracts/
https://101blockchains.com/blockchain-smart-contract-examples/
https://101blockchains.com/smart-contract-use-cases/
https://101blockchains.com/what-is-a-smart-contract/
Blockchain is making revolutionary changes in various industries including, the finance sector. Using blockchain in the finance sector, many companies are already utilizing the benefits of this technology. But why should we consider using blockchain specifically?
At present, the financial industry is plagued with a lot of issues such as increasing cyber-attacks, poor IT infrastructure, complicated regulations across territories, payment frauds and identity thefts, delayed cross-border transactions, and so on. However, the finance sector is failing to tackle these problems leading to low customer satisfaction. Here, using blockchain in banking these companies can finally get rid of all of these issues for good.
So, how is Blockchain used in finance? Typically, blockchain can offer a lot of benefits such as efficient cross-border transactions, enforcing smart contracts, the establishment of central bank digital currency, increased data security, and many more. All of these advantages of using blockchain in the finance function are helping many enterprise-grade companies like HSBC, MasterCard, ING, etc. to solve their technological lacking.
We at 101 Blockchains believe blockchain is a prominent solution to secure the future of finance. That’s why we are offering premium quality blockchain courses and certification to help you be educated on the subject matter. We offer a selection of masterclasses and courses specifically for blockchain in finance.
Blockchain in Finance masterclass will focus on the practical implementation of blockchain and help you understand the effect of blockchain in the finance sector.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/blockchain-in-finance
Central Bank Digital Currency (CBDC) Masterclass will focus on asset tokenization schemes and highlight the scope of creating digital assets.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/central-bank-digital-currency
Enterprise Blockchains and Trade Finance Course will focus on how blockchain can improve current trade finance processes.
Learn more about the course from here ->
https://academy.101blockchains.com/courses/enterprise-blockchains-and-trade-finance
We also offer lucrative certification courses for professionals who want to learn about blockchain in order to develop blockchain-based finance applications.
Learn more about these courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Artificial intelligence is a human-like intelligence simulation using computers. Typically, computer systems are programmed in a way that will help the AI to imitate human-like actions. Unfortunately, no AI can fully comprehend human activities or actions as they’re very complicated to simulate. Blockchain is another leading technology, which can really benefit the AI sector.
There are a lot of blockchain and AI projects on the market now, and they can offer a wide range of use cases. These blockchain and AI use cases are - enhancing security, improved trust in robotic decisions, managing and accessing the data market, optimizing energy consumption, improving smart contracts, decentralized intelligence, etc.
However, there are some hurdles when it comes to blockchain and AI projects. The primary issues this industry faces are mainly privacy concerns, scalability and side chains, trusted oracles, no AI-specific consensus protocols, etc.
To help you out, 101 Blockchains offer a great collection of information and updated educational matter on this topic. If you are thinking about enhancing your AI’s machine learning capabilities, it’s worth looking into blockchain technology for that.
Check out our certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/blockchain-and-ai/
This Edureka Blockchain technology tutorial will give you an understanding of how blockchain works and what are blockchain technologies. This tutorial helps you to learn following topics:
1. What are Blockchain & Bitcoin
2. Blockchain Technologies
3. Peer to Peer Network
4. Cryptography
5. Proof of Work & Blockchain Program
6. Ethereum & Smart Contracts
7. Blockchain Applications and Use Cases
Everyone wants a better and secure career. As blockchain is now taking over the world, many companies are offering a secured and luxurious career for skilled blockchain engineers. Blockchain is a new type of technology, and there's a lot of opportunity in this field for developing a good career.
Blockchain engineer jobs demand the best of the best experts. They are expected to possess specialized skillsets. These Blockchain engineer skills mainly include knowledge about blockchain basics, blockchain architecture, data structures, cryptography, web development, and so on.
With proper skills, a blockchain engineer's salary can go up to 190k every year! However, completing a course dedicated to blockchain engineers can help in showcasing your skillsets.
This is where 101 Blockchains come into play —101 Blockchain stive to offer educative professionals courses and training specifically for engineers. If you want to become a blockchain engineer, getting a certification from 101 Blockchains can jump-start the process.
Our certification courses are ->
Our Certified Enterprise Blockchain Professional (CEBP)
https://academy.101blockchains.com/courses/blockchain-expert-certification
Our Certified Enterprise Blockchain Architect (CEBA)
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Architect (CBSE)
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Our other courses can help you become the ultimate expert on blockchain. These are ->
How to Build Your Career in Enterprise Blockchains
https://academy.101blockchains.com/courses/career-in-blockchain
Getting Started with Hyperledger Fabric Course
https://academy.101blockchains.com/courses/getting-started-with-hyperledger-fabric/
Beginner's Guide to Corda Development Course
https://academy.101blockchains.com/courses/beginners-guide-to-corda-development
Ethereum Development Fundamentals Course
https://academy.101blockchains.com/courses/ethereum-development-fundamentals
Comparison Blockchain Developer vs. Blockchain Expert Blockchain Council
This blockchain course will introduce you with blockchain architecture, public and private blockchains, blockchain mining, various blockchain use-cases, setting up your own blockchain solution, etc
After years and years of blockchain evolution, now many entities are working on various blockchain projects. Some of them are already quite popular on the market while others are still under development. The increasing number of blockchain projects are both a positive and a negative aspect.
On a positive note, you are getting access to a lot of blockchain project ideas with great functionalities. On the negative side, many users are now confused and overwhelmed with the technology as still, it’s not a common practice in every country to use blockchain.
To help you understand it better, we are listing the top 20 blockchain projects. All of these projects are regarded as the best blockchain projects on the market. However, if you want to understand more about blockchain projects and the companies using them, you should start with our blockchain courses.
101 Blockchains provides selective materials on important topics to help any individual or industry leaders understand the concepts behind this technology.
Learn more about the certification courses from here ->
Certified Enterprise Blockchain Professional (CEBP) course
https://academy.101blockchains.com/courses/blockchain-expert-certification
Certified Enterprise Blockchain Architect (CEBA) course
https://academy.101blockchains.com/courses/certified-enterprise-blockchain-architect
Certified Blockchain Security Expert (CBSE) course
https://academy.101blockchains.com/courses/certified-blockchain-security-expert
Check out our full guide on this topic from here ->
https://101blockchains.com/top-blockchain-projects-ideas/
Cork Blockchain #1 - Introduction to Blockchain and Permissioned BlockchainsJohannes Ahlmann
Slides for Cork Blockchain meetup #1.
Johannes Ahlmann from claru.io presented on the basics of blockchain and permissioned blockchain in particular.
Find more information on http://corkblockchain.com
Using Blockchain as a Platform for Smart Cities. Christian Nãsulea, Stelian-M...eraser Juan José Calderón
Using Blockchain as a Platform for Smart Cities
Christian Nãsulea, Stelian-Mihai Mic University of Bucharest, Romania.
ABSTRACT: Objectives: Incorporating new technologies into the development of smart cities means rethinking the way
different services are provided. From this perspective, Blockchain might represent the future of both smart cities and smart
communities as it offers new alteratives for individuals and institutions.
Prior Work: Blockchain was mainly perceived through its linkage with bitcoin, but recent developments have started
exploring the idea of using it for financial transactions, logistics and securing contracts. Tapscott & Tapscott (2016)have
acknowledged the potential the Blockchain Revolution had on redefining the idea of trust in both digital and local communities.
Blockchain technology has the ability to enhance transparency of local and regional institutions while also making it easier
to communicate sensitive data without compromising security and privacy.
Approach: We look at the different fields blockchain can have an impact on and we try to assess the viability of moving
towards an integrated platform for intermediating day-to-day activities between both institutions and individuals. We will
assess the advantages of digitizing and securing public and private data while also considering the potential risks this
process might involve.
Results: We aim to create a model of how blockchain might work in communities and assess its impact on the overall
economic and human development indicators.
Implications: Public administrators in many countries are starting to acknowledge blockchain’s potential in solving problems
for local communities our results will be a valuable starting point for developing local initiatives for using blockchain as a
platform for communications and transactions. Furthermore, a smart city must be a city where individuals can interact and
solve their issues quickly, using digital technologies for increased efficiency.
Value: Blockchain is thought to be the future of managing both public and private affairs. Countries such as Dubai, Singapore
and China are incorporating blockchain technology into developing smart cities. Blockchain makes us rethink many of the
different aspects of how communities can be organized, offering new alternatives and promising a more transparent and
efficient economic model.
Keywords: Digital Era, Economic Model, IoT, Technology
This thought leadership is a report detailing how Blockchain can be industrialized in ASEAN and how its potential can be unlocked across organizations.
The report also clearly illustrates the implications of Blockchain, its key developments, how it impacts countries across ASEAN and a five-point test for assessing the fit of Blockchain for specific processes, all serving to provide meaningful insights into the current state of the FinTech industry in the ASEAN region.
"This thought leadership is a report detailing how Blockchain can be industrialized in ASEAN and how its potential can be unlocked across organizations. The report also clearly illustrates the implications of Blockchain, its key developments, how it impacts countries across ASEAN and a five-point test for assessing the fit of Blockchain for specific processes, all serving to provide meaningful insights into the current state of the FinTech industry in the ASEAN region."
This thought leadership is a report detailing how Blockchain can be industrialized in ASEAN and how its potential can be unlocked across organizations.
The report also clearly illustrates the implications of Blockchain, its key developments, how it impacts countries across ASEAN and a five-point test for assessing the fit of Blockchain for specific processes, all serving to provide meaningful insights into the current state of the FinTech industry in the ASEAN region.
Get in-depth insights on the emergence, growth and future prospects of Blockchain in India. The historical timeline of the Blockchain technology in India. A detailed breakdown of the Blockchain technology and decoding the types of Blockchain currently in use.
An Overview: The future of Blockchain Technology in Education. Khadija Mansou...eraser Juan José Calderón
An Overview: The future of Blockchain Technology in Education
*Khadija Mansour Abuzagia1, Mahmud Saad Shertil1, Salah A. Jowan2. Hasan S. Alkhadafe3 0Computer Department, Faculty of Science, AL-Margeb University, Libya 2Computer Department, Faculty of Scince, Al-Asmarya Islamic University, Zliten, Libya 3Computer Science Department, Faculty of Information Techinology, Sebha University, Sebha, Libya
(PDF) An Overview: The future of Blockchain Technology in Education. Available from: https://www.researchgate.net/publication/337324982_An_Overview_The_future_of_Blockchain_Technology_in_Education [accessed Nov 21 2019].
Blockchain: The next innovation to make our cities smarterVIJAY MUTHU
This FICCI- PwC report provides a broad understanding of the current urban challenges being tackled through smart cities. The report highlights one of the new technology breakthroughs > blockchain and analyses its transformative potential in making our cities smarter.
The Blockchain is a technology created with the bitcoin, which has become the world's 8th currency in terms of amounts exchanged. The Blockchain brings with it new promises of innovation in all sectors, but also of disruption of dominant economic models. By taking an interest now in its potential applications, we can be one step ahead of the next stage of the digital revolution and the advent of a "horizontal" society,
without intermediaries or centralized authority...
The Blockchain is probably set to revolutionize transactions and exchanges; in the same way that Internet enabled peer-to-peer communication, in the years to come the Blockchain will provide the means for peer-to-peer transactions under a decentralized and autonomous rationale.
Blockchain, whose origins are blended (and often blurred) with the cryptocurrency Bitcoin, is a disruptive technology with the potential to transform how goods and services are exchanged over the internet. Blockchain allows complex transactions to be carried out transparently and securely, on a distributed interaction model that ousts multiple established intermediaries, eradicating the control held by central authorities in traditional methods of digital transaction.
Blockchain Technology and Decentralized Governance: Is the State Still Necess...eraser Juan José Calderón
Blockchain Technology and Decentralized Governance: Is the State Still Necessary?
Marcella Atzori, Ph. D.*
ABSTRACT
The core technology of Bitcoin, the blockchain, has recently emerged as a disruptive innovation with a wide range of applications, potentially able to redesign our interactions in business, politics and society at large. Although scholarly interest in this subject is growing, a comprehensive analysis of blockchain applications from a political perspective is severely lacking to date. This paper aims to fill this gap and it discusses the key points of blockchain-based decentralized governance, which challenges to varying degrees the traditional mechanisms of State authority, citizenship and democracy. In particular, the paper verifies to which extent blockchain and decentralized platforms can be considered as hyper-political tools, capable to manage social interactions on large scale and dismiss traditional central authorities. The analysis highlights risks related to a dominant position of private powers in distributed ecosystems, which may lead to a general disempowerment of citizens and to the emergence of a stateless global society. While technological utopians urge the demise of any centralized institution, this paper advocates the role of the State as a necessary central point of coordination in society, showing that decentralization through algorithm-based consensus is an organizational theory, not a stand-alone political theory.
Keywords: Bitcoin, blockchain, Decentralized Autonomous Organizations, decentralization, democracy, Ethereum, encryption, governance, politics, State, peer-to-peer networks
Blockchain the inception of a new database of everything by dinis guarda bloc...Dinis Guarda
Blockchain the inception of a new database of everything by Dinis Guarda blockchain age
Trends and questions?
1. Redefinition of banking and relation with Blockchain
Mobile App banking finance – mobile ledgers – blockchain identity
New products and the emergence of DAO products.
2. System Legacies in paralel with advanced tech - Ethereum.
3. Distribution Strategy in a new Digitalised World who own what.
4. Super computer Cloud base blochcain solutions / infrastructure.
5. Emergence of AI IOE in relation with blockchain all connected.
6. User Experience, UI, UE, Big data and the IOE blockchain touching.
7. Blockchain Cyber Security and Value Reinvention.
From Cryptocurrencies to Smart Contracts: The Evolution and Impact of Blockch...IRJTAE
The emergence of blockchain technology has spurred significant advancements in various domains, ranging from
cryptocurrencies to smart contracts, reshaping traditional systems and introducing novel approaches to
decentralized transactions. This research paper delves into the evolution and profound impact of blockchain
technology, tracing its trajectory from the inception of cryptocurrencies, typified by Bitcoin, to the development
of sophisticated smart contract platforms such as Ethereum. Through a comprehensive review of literature and
case studies, this paper examines the underlying principles of blockchain technology, elucidating its potential to
revolutionize financial transactions, supply chain management, identity verification, and beyond. Furthermore,
it analyses the challenges and opportunities associated with blockchain adoption, including scalability issues,
regulatory considerations, and interoperability concerns.
The paper also explores the transformative potential of smart contracts, programmable self-executing contracts
that automate and streamline business processes, offering unprecedented levels of transparency, efficiency, and
security. By evaluating real-world applications and future prospects, this research elucidates the evolving
landscape of blockchain technology and its implications for industries, governance systems, and societal
structures.
TOWARD A PHILOSOPHY OF BLOCKCHAIN: A SYMPOSIUM. INTRODUCTION MELANIE SWAN AND...eraser Juan José Calderón
TOWARD A PHILOSOPHY OF BLOCKCHAIN: A SYMPOSIUM. INTRODUCTION
MELANIE SWAN AND PRIMAVERA DE FILIPPI.
Abstract:This article introduces the symposium “Toward a Philosophy ofBlockchain,” which provides a philosophical contemplation of blockchaintechnology, the digital ledger software underlying cryptocurrencies such asbitcoin, for the secure transfer of money, assets, and information via the Internetwithout needing a third-party intermediary. The symposium offers philosophicalscholarship on a new topic,blockchain technology, from a variety of perspectives.The philosophical themes discussed include mathematical models of reality,signification, and the sociopolitical institutions that structure human life andinteraction. The symposium also investigates the metaphilosophical theme ofhow to create aphilosophy of anything, specifically a new topic such as blockchaintechnology. Repeated themes are identified, in all areas of philosophical inquiry(ontology, epistemology, and axiology), and conceptual resources are elaboratedto contribute to a philosophical understanding of blockchain technology. Thus,philosophy as a metaphilosophical approach is shown to be able to provide anunderstanding of the conceptual, theoretical, and foundational dimensions ofnovelty and emergence in the world, with a particular focus on blockchaintechnology.
Keywords: blockchain, cryptocurrency, smart asset, smart contract, smart net-works, ontology, epistemology, axiology, economic theory, algorithmic trust.
Enhancing Research Orchestration Capabilities at ORNL.pdfGlobus
Cross-facility research orchestration comes with ever-changing constraints regarding the availability and suitability of various compute and data resources. In short, a flexible data and processing fabric is needed to enable the dynamic redirection of data and compute tasks throughout the lifecycle of an experiment. In this talk, we illustrate how we easily leveraged Globus services to instrument the ACE research testbed at the Oak Ridge Leadership Computing Facility with flexible data and task orchestration capabilities.
Unleash Unlimited Potential with One-Time Purchase
BoxLang is more than just a language; it's a community. By choosing a Visionary License, you're not just investing in your success, you're actively contributing to the ongoing development and support of BoxLang.
Code reviews are vital for ensuring good code quality. They serve as one of our last lines of defense against bugs and subpar code reaching production.
Yet, they often turn into annoying tasks riddled with frustration, hostility, unclear feedback and lack of standards. How can we improve this crucial process?
In this session we will cover:
- The Art of Effective Code Reviews
- Streamlining the Review Process
- Elevating Reviews with Automated Tools
By the end of this presentation, you'll have the knowledge on how to organize and improve your code review proces
Developing Distributed High-performance Computing Capabilities of an Open Sci...Globus
COVID-19 had an unprecedented impact on scientific collaboration. The pandemic and its broad response from the scientific community has forged new relationships among public health practitioners, mathematical modelers, and scientific computing specialists, while revealing critical gaps in exploiting advanced computing systems to support urgent decision making. Informed by our team’s work in applying high-performance computing in support of public health decision makers during the COVID-19 pandemic, we present how Globus technologies are enabling the development of an open science platform for robust epidemic analysis, with the goal of collaborative, secure, distributed, on-demand, and fast time-to-solution analyses to support public health.
Understanding Globus Data Transfers with NetSageGlobus
NetSage is an open privacy-aware network measurement, analysis, and visualization service designed to help end-users visualize and reason about large data transfers. NetSage traditionally has used a combination of passive measurements, including SNMP and flow data, as well as active measurements, mainly perfSONAR, to provide longitudinal network performance data visualization. It has been deployed by dozens of networks world wide, and is supported domestically by the Engagement and Performance Operations Center (EPOC), NSF #2328479. We have recently expanded the NetSage data sources to include logs for Globus data transfers, following the same privacy-preserving approach as for Flow data. Using the logs for the Texas Advanced Computing Center (TACC) as an example, this talk will walk through several different example use cases that NetSage can answer, including: Who is using Globus to share data with my institution, and what kind of performance are they able to achieve? How many transfers has Globus supported for us? Which sites are we sharing the most data with, and how is that changing over time? How is my site using Globus to move data internally, and what kind of performance do we see for those transfers? What percentage of data transfers at my institution used Globus, and how did the overall data transfer performance compare to the Globus users?
Globus Connect Server Deep Dive - GlobusWorld 2024Globus
We explore the Globus Connect Server (GCS) architecture and experiment with advanced configuration options and use cases. This content is targeted at system administrators who are familiar with GCS and currently operate—or are planning to operate—broader deployments at their institution.
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I ...Juraj Vysvader
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I didn't get rich from it but it did have 63K downloads (powered possible tens of thousands of websites).
How Recreation Management Software Can Streamline Your Operations.pptxwottaspaceseo
Recreation management software streamlines operations by automating key tasks such as scheduling, registration, and payment processing, reducing manual workload and errors. It provides centralized management of facilities, classes, and events, ensuring efficient resource allocation and facility usage. The software offers user-friendly online portals for easy access to bookings and program information, enhancing customer experience. Real-time reporting and data analytics deliver insights into attendance and preferences, aiding in strategic decision-making. Additionally, effective communication tools keep participants and staff informed with timely updates. Overall, recreation management software enhances efficiency, improves service delivery, and boosts customer satisfaction.
top nidhi software solution freedownloadvrstrong314
This presentation emphasizes the importance of data security and legal compliance for Nidhi companies in India. It highlights how online Nidhi software solutions, like Vector Nidhi Software, offer advanced features tailored to these needs. Key aspects include encryption, access controls, and audit trails to ensure data security. The software complies with regulatory guidelines from the MCA and RBI and adheres to Nidhi Rules, 2014. With customizable, user-friendly interfaces and real-time features, these Nidhi software solutions enhance efficiency, support growth, and provide exceptional member services. The presentation concludes with contact information for further inquiries.
How to Position Your Globus Data Portal for Success Ten Good PracticesGlobus
Science gateways allow science and engineering communities to access shared data, software, computing services, and instruments. Science gateways have gained a lot of traction in the last twenty years, as evidenced by projects such as the Science Gateways Community Institute (SGCI) and the Center of Excellence on Science Gateways (SGX3) in the US, The Australian Research Data Commons (ARDC) and its platforms in Australia, and the projects around Virtual Research Environments in Europe. A few mature frameworks have evolved with their different strengths and foci and have been taken up by a larger community such as the Globus Data Portal, Hubzero, Tapis, and Galaxy. However, even when gateways are built on successful frameworks, they continue to face the challenges of ongoing maintenance costs and how to meet the ever-expanding needs of the community they serve with enhanced features. It is not uncommon that gateways with compelling use cases are nonetheless unable to get past the prototype phase and become a full production service, or if they do, they don't survive more than a couple of years. While there is no guaranteed pathway to success, it seems likely that for any gateway there is a need for a strong community and/or solid funding streams to create and sustain its success. With over twenty years of examples to draw from, this presentation goes into detail for ten factors common to successful and enduring gateways that effectively serve as best practices for any new or developing gateway.
Providing Globus Services to Users of JASMIN for Environmental Data AnalysisGlobus
JASMIN is the UK’s high-performance data analysis platform for environmental science, operated by STFC on behalf of the UK Natural Environment Research Council (NERC). In addition to its role in hosting the CEDA Archive (NERC’s long-term repository for climate, atmospheric science & Earth observation data in the UK), JASMIN provides a collaborative platform to a community of around 2,000 scientists in the UK and beyond, providing nearly 400 environmental science projects with working space, compute resources and tools to facilitate their work. High-performance data transfer into and out of JASMIN has always been a key feature, with many scientists bringing model outputs from supercomputers elsewhere in the UK, to analyse against observational or other model data in the CEDA Archive. A growing number of JASMIN users are now realising the benefits of using the Globus service to provide reliable and efficient data movement and other tasks in this and other contexts. Further use cases involve long-distance (intercontinental) transfers to and from JASMIN, and collecting results from a mobile atmospheric radar system, pushing data to JASMIN via a lightweight Globus deployment. We provide details of how Globus fits into our current infrastructure, our experience of the recent migration to GCSv5.4, and of our interest in developing use of the wider ecosystem of Globus services for the benefit of our user community.
Prosigns: Transforming Business with Tailored Technology SolutionsProsigns
Unlocking Business Potential: Tailored Technology Solutions by Prosigns
Discover how Prosigns, a leading technology solutions provider, partners with businesses to drive innovation and success. Our presentation showcases our comprehensive range of services, including custom software development, web and mobile app development, AI & ML solutions, blockchain integration, DevOps services, and Microsoft Dynamics 365 support.
Custom Software Development: Prosigns specializes in creating bespoke software solutions that cater to your unique business needs. Our team of experts works closely with you to understand your requirements and deliver tailor-made software that enhances efficiency and drives growth.
Web and Mobile App Development: From responsive websites to intuitive mobile applications, Prosigns develops cutting-edge solutions that engage users and deliver seamless experiences across devices.
AI & ML Solutions: Harnessing the power of Artificial Intelligence and Machine Learning, Prosigns provides smart solutions that automate processes, provide valuable insights, and drive informed decision-making.
Blockchain Integration: Prosigns offers comprehensive blockchain solutions, including development, integration, and consulting services, enabling businesses to leverage blockchain technology for enhanced security, transparency, and efficiency.
DevOps Services: Prosigns' DevOps services streamline development and operations processes, ensuring faster and more reliable software delivery through automation and continuous integration.
Microsoft Dynamics 365 Support: Prosigns provides comprehensive support and maintenance services for Microsoft Dynamics 365, ensuring your system is always up-to-date, secure, and running smoothly.
Learn how our collaborative approach and dedication to excellence help businesses achieve their goals and stay ahead in today's digital landscape. From concept to deployment, Prosigns is your trusted partner for transforming ideas into reality and unlocking the full potential of your business.
Join us on a journey of innovation and growth. Let's partner for success with Prosigns.
Advanced Flow Concepts Every Developer Should KnowPeter Caitens
Tim Combridge from Sensible Giraffe and Salesforce Ben presents some important tips that all developers should know when dealing with Flows in Salesforce.
Field Employee Tracking System| MiTrack App| Best Employee Tracking Solution|...informapgpstrackings
Keep tabs on your field staff effortlessly with Informap Technology Centre LLC. Real-time tracking, task assignment, and smart features for efficient management. Request a live demo today!
For more details, visit us : https://informapuae.com/field-staff-tracking/
We describe the deployment and use of Globus Compute for remote computation. This content is aimed at researchers who wish to compute on remote resources using a unified programming interface, as well as system administrators who will deploy and operate Globus Compute services on their research computing infrastructure.
First Steps with Globus Compute Multi-User EndpointsGlobus
In this presentation we will share our experiences around getting started with the Globus Compute multi-user endpoint. Working with the Pharmacology group at the University of Auckland, we have previously written an application using Globus Compute that can offload computationally expensive steps in the researcher's workflows, which they wish to manage from their familiar Windows environments, onto the NeSI (New Zealand eScience Infrastructure) cluster. Some of the challenges we have encountered were that each researcher had to set up and manage their own single-user globus compute endpoint and that the workloads had varying resource requirements (CPUs, memory and wall time) between different runs. We hope that the multi-user endpoint will help to address these challenges and share an update on our progress here.
2. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 1
Blockchain Educational Passport: Decentralised
Learning Ledger (DLL)
Seratio Blockchain White Paper 5.03
30th April 2017
Preceding white papers1
Seratio Blockchain 1.0: Currency of Intangible Non-Financial Value
Seratio Blockchain 2.0: Values Based Impact Interventions
Seratio Blockchain 3.0: Proof-of-Impact Transaction Platform
Seratio Blockchain 4.0: Sandbox for Non-Financial Enterprise Solutions
Social Value & Intangibles Review: Blockchain Special (80 pages)2
Blog site: SocialTech–HumanitarianTech–FinTech3
Newsletters: February 20174, November 20165
UN SDG Projects: Sustainability Development Goals6
Proof-of-Concept: blockchain.seratio.com7
Development Heads: Sajin Abdu (Technology), Daniel De Souza (Blockchain Strategy), Maryam
Taghiyeva (Senior Development Analyst), Roy Zou (Blockchain Strategy)
1 https://github.com/seratio/whitepaper
2 https://issuu.com/seratio/docs/social_value_and_intangibles_review_3109c1666e0df2
3 http://mypad.northampton.ac.uk
4 http://eepurl.com/cCQgJv
5 http://eepurl.com/cnrY7L
6 www.cceg.org.uk/lab
7 http://blockchain.seratio.com
3. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 2
Authors: Dr Cristina Devecchi, Ali Hadawi CBE, Dr Scott Turner, Prof Ale Armellini, Prof Ian Brooks,
Barbara Mellish, Prof Nick Petford, Prof Olinga Ta’eed
Description: The application of the blockchain technology to track, register, certify, and enhance the
utilisation of acquired learning assets
Abstract: Following a series focused on measurement and transaction of intangible and non-financial
value, Whitepaper 5.0 extends the use of the Ethereum based platform with integrated S/E
Ratio SaaS to offer acknowledgement and utilisation of learning credits acquired by students
and staff from pre-16, FE, HE, employment and CPD. Drawing from available examples of
blockchain uses in education, the paper puts forward the concept of ‘knowledge procurement’
to develop a decentralised learning ledger (DLL) for the tracking, certifying and practical use of
learning credits.
Key words: knowledge procurement, proof-of-learning, seratio blockchain, impact
1. Introduction
1.1 The Building Blocks for a Decentralised Learning Ledger: Blockchain,
Internet of Things and ‘Knowledge Procurement’
Technological innovation is relentlessly changing the way we work and act and will do so faster in years
to come. Progressive automation, the use and application of Artificial Intelligence, robotics, the
Internet of Things (IoT), and much more are already impacting on our daily lives. Located within major
economic and societal changes, such technologies demand new ways of relating to the reality we
know, and to a virtual, augmented and progressively more global and relational hyper-reality we are
constantly co-constructing and re-constructing through myriads of actions. We are experiencing the
constant, challenging but also potentially fruitful shift towards a 4th industrial revolution fuelled by
knowledge and resting on the capacity to learn and the ingenuity of applying learning in innovative,
effective and just ways. It not surprising, therefore, to discover that one of the still unfilled needs of
such transformation is that of keeping a record of human and machine activities.
Whitepaper 5.0 contributes to the above challenges by developing further the ideas and proposals of
previous whitepapers in this series on the use of blockchain. Located within the need to find
innovative, practical, and comprehensive ways to account for both the tangible and intangible value of
4. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 3
learning, this paper sets forth the argument that if knowledge is at the heart of current and future
economic and social development, then we need to develop solutions able to capture, record, and
improve the utilisation of knowledge resources. Central to the acquisition and utilisation of knowledge
as a pivotal resource is how we afford, assess and make use of learning as a foundational block in the
‘knowledge procurement’ chain. The Decentralised Learning Ledger (DLL) is put forward as a proof-of-
learning solution.
In developing the foundations for the DLL, the whitepaper will first introduce the three key concepts
and ideas of Blockchain (B/C), Internet of Things (IoT), and ‘Knowledge Procurement’ (KP). It will then
examine current innovative solutions in the field of blockchain for education.
1.2 Blockchain
Blockchain is a potentially disruptive technology which was launched as a financial challenge in 2009 by
Satoshi Nakamoto, although this is not his/her real identity. The Bitcoin cryptocurrency, which was its
first manifestation, was a response to the financial and banking crisis and the loss of trust in the
financial system. To start with, therefore, the purpose of Bitcoin was to create
‘a digital currency and online payment system in which encryption techniques are used to
regulate the generation of units of currency and verify the transfer of funds, operating
independently of a central bank’ (Swan8, 2015:ix)
The Blockchain provided the decentralised, distributed public and ‘trustless’ ledger onto which bitcoin
transactions could be verified and recorded. Since then, the blockchain technology has evolved to
include a series of other accountability purposes as shown in the figure below.
In more detail, Swan summarises the feature of each phase as
such:
Blockchain 1.0 - Currency, or ‘the deployment of
cryptocurrencies in the application related to cash, such a
currency transfer, remittance, and digital payment
systems’ [ix]
Blockchain 2.0 - Contracts, or, ‘the entire slate to
economic, market, and financial applications using the
Blockchain that are more extensive than simple cash
8 Swan, M. (2015) Blockchain: Blueprint for a New Economy. Sebastopol, CA: O’Reilly
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transactions: stocks, bonds, future, loans, mortgages, titles, smart property, and smart
contracts’ [ix]
Blockchain 3.0 - Applications, or ‘beyond currency, finance and markets, particularly in the area
of government, health, science, literacy, culture and art’ [ix]
The envisaged benefits of Blockchain, especially 1.0 and 2.0, are the efficiency and cost saving afforded
by a decentralised and trustless system which removes the need for intermediaries.
The use of Blockchain for other purposes beyond the application to currency transactions have grown
and so has the interest of governments and banking in developing further ways in which the blockchain
technology can be used. A recent report by Walport, the Chief Scientific Adviser for the Government
Office for Science (2016)9 , describes the potential of blockchain as,
‘Algorithms that enable the creation of distributed ledgers are powerful, disruptive innovations
that could transform the delivery of public and private services and enhance productivity
through a wide range of applications.’ (Government Office for Science, 2016: 5, emphasis in the
original)
So why is blockchain so transformational? Because,
‘We should think about blockchain as another class of things like the Internet - a comprehensive
information technology with tiered technical levels and multiple classes of applications for any
form of asset registry, inventory, and exchange, including every area of finance, economics, and
money; hard assets (physical property, homes, cars); and intangible assets (votes, ideas,
reputation, health, data, information, etc.). But the blockchain concept is even more; it is a new
organizing paradigm for the discovery, valuation and transfer of all quanta (discrete units) of
anything, and potentially for the coordination of all human activity at a much larger scale that
has been possible before’ [Swan, 2015, Preface, p. vii, emphasis added]
Such a vision, also called ‘Internet-of-Value’ or ‘a Ledger of Everything’, is no small statement. It takes
accountability to a different level of play: a public, immutable, hyper-connected, and, possibly, more
democratic and participatory way to account for human activities and interactions.
To help in visualising the possibilities of the technology, Blockchain 2.0 can be applied to the following
examples of market transactions (Swan, 2015),
9 Government Office for Science (2016) Distributed Ledger Technology: beyond block chain. London: Government Office for
Science
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Class Examples of Blockchain 2.0 Applications
General
Escrow transactions, bonded contracts, thirty-party arbitration,
multiparty signature transactions
Financial
transactions
Stock, private equity, crowdfunding, bonds, mutual funds, derivatives,
annuities and pensions
Public records
Land and property titles, vehicle registrations, business licenses,
marriage certificates, death certificates
Identification
Driver’s licenses, identity cards, passports, voter registration
Private records
IOUs, loans, contracts, bets, signatures, wills, trusts, escrows
Attestation
Proof of insurance, proof of ownership, notarised documents
Physical asset keys
Home, hotel rooms, rental cars, automobile access
Intangible assets
Patents, trademarks, copyrights, reservations, domain names
If Blockchain 2.0 can be thought of as an extended public accountability ledger, focusing mainly on the
stipulation of ‘smart contracts’ (see Whitepaper 4.0), Blockchain 3.0 offers more innovative and more
disruptive applications by making use of its potential as a ‘higher-resolution activity tracking’ (30)
technology. Below are several examples and a brief explanation of how such tracking activity is
envisaged to work (Swan, 2015).
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Example Description
Administration of all
quanta
‘a universal, seamless model for the coordinated activity of near-infinite
numbers of transactions’ (31) bringing human and machine closer
together.
Facilitation of big
data predictive
task’s automation
Closely related to the above, blockchain can ‘help to turn prediction into
action’ (31).
Distributed
censorships-
resistant
organisational
model
The application of blockchain beyond financial efficiency and cost saving
to the purpose of empowerment and freedom by making use of its
immutable public record for enabling democratic checks and balances via
transparency and access to information.
Namecoin:
decentralised
domain name
system
The use of Namecoin, an altcoin, to verify Domain Name System (DNS)
registrations which is transnational and not under the control of
government or corporations. It can be used for registering domains in
countries where there is no free speech (e.g., Alexandria and Ostel.
Digital Identity
Verification
By using digital currency and personal wallets (see Whitepaper 4.0), for
example OneName
Digital art:
Blockchain
attestation services
(notary, intellectual
property protection)
As the term digital art refers generically to all Intellectual Property (IP),
blockchain technology can be used to verify and attest to the ownership
of any form of IP. The process of attestation is done by the two key
functions of ‘hashing’ and ‘timestamping’ and others such as Proof of
Existence (http://proofofexistence.com/) and Notary (http://virtual-
notary.org)
Blockchain
government
There are a varieties of ways in which blockchain can be used for
government purposes, such as, decentralised government services,
dispute resolution, voting,
Science applications
Peer-to-peer distributed computing projects in which volunteers provide
unused computing cycles (e.g., to reduce the wastefulness of the mining
network)
Health
There are a number of possible and current applications, such as, the
delivery of funds and supplies in response to a global crisis; donations to
charities (currently using bitcoins); individual access to personalised
health data (genomics), healthcoins, personal health record storage, etc.
Education To be discussed further in this paper
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1.3 The Internet of Things, platforms and the question of values
Although blockchain is envisaged by its proponents as a paradigmatic shift, it is one of the many major
shifts presently occurring as part of the onset and development of a fully-fledged ‘knowledge
economy’. A brief introduction to IoT is needed to pave the way for the key drivers in users’
participation and engagement with blockchain and with a DLL platform. Central to the discussion here
is the changing notion of value and a redefinition of currency as not just a monetary exchange, but as a
means for value generation.
The IoT is the age of platforms, or the evolution of the Internet to providing users not only with a
service, but with an experience they co-create. Based on the emergent field of ‘behaviour economics’,
the IoT is an ‘ecosystem of everything being connected’ (Manu10, 2015: 4) and in which the traditional
value chain of the industrial model of production is remodelled and transformed. In the behaviour
economy the value added to the activity shifts from the satisfaction of having and using a product or
service to the value of active experience and contribution to the experience through engaging in
activities which fulfil one’s personal sense of value.
Value, in behavioural economics, can be defined as,
‘the satisfaction of multiple dimensions of value, from physical to emotional, from social to
intellectual, and from spiritual to occupational’ (Manu, 2015: 9).
The implications for a DLL is that if the traditional model of industrial production can be conceived as
revenue generation (profit), in the new economic context, the aim is ‘value extraction’, or creating
value for each user in a personalised way (Fig. 2). From the perspective of individual learning, value
extraction puts the learner at the centre as active doer and shapers of one’s learning.
Of key importance for a learner-centred DLL is the way in which motivation for the desired behaviour
changes from extrinsic to intrinsic. Such a change modifies the relationship between the user and the
server (Fig. 3), or, in a more traditional sense between the consumer and the producer. While this
change has wider economic ramifications, it is of importance for the adoption and exploitation of the
blockchain technology, and for the way in which we can conceive the education service industry
differently. One example, is how schools, colleges and universities can use blockchain’s database of
learning transactions to co-developed with students a more personalised response to learning needs
and aspirations. The same can be said of the need to account for and support employability skills.
10 Manu, A. (2015) Value Creation and the Internet of Things: How the Behaviour Economy will shape the 4th
Industrial
Revolution. Farnham, Surrey: Gower Publishing Ltd
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Value
Industrial model
Revenue
generation
'the result of an
exchange of
extrinsic value' (9)
To have (and
consume)
IoT model
Value extraction
'the result of
intrinsic behavior'
(9)
Engagement and
participation with
other people
To be and become
Consumption
economy
Industrial model
Extrinsic motivation
To have
Monetary value
Physical
goods/services
Accountability
through external
measures of quality
control
Individual as passive
user
Platform
economy
IoT model
Intrinsic motivation
To be and become
Direct exchange
Stimuli/experiences
Users determined
accountability
Individuals as co-
creators
Revenue generation and
value extraction: industrial
and behavioural economics
compared
Features of consumption
and platform economy
compared
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As explained earlier value in the new platform economy derives from how each ‘user’ or ‘participant’
extracts personal value from engaging with the platform’s array of direct exchanges which
should/could include the following types:
Spiritual (beliefs, values)
Mental (attention, inspiration)
Emotional (love, hate, likes and dislikes)
Power (teamwork, empowerment)
Passion (desires, wants, goals, aspirations)
Safety and well-being
The above 6 features can be understood as intrinsic motivational goals which sustain and enhance the
value of the platform because, as Manu (2015: 18) states,
‘The value of a product or service is proportional with its capability of becoming the perfect
medium by which our motivating goals are satisfied’.
In this sense ‘value’ is personal and dependent on one’s experiences and exposure to ‘value moments’
(18) which, in the context of the IoT, are intimately related to the extent to which the platform
becomes a stage for individual performance of one’s intrinsic motivations.
2.0 Knowledge Procurement
Artificial intelligence, automation, trustless and neutral accountability, are some of the key features of
a new economic reality in which not only the means of production, but also the raw resources and the
final products are reshaped. Consequently, such a shift in the economic fabric goes beyond considering
knowledge as a datum, a given, acquired, transmitted, stored and applied in traditional ways. This new
economic reality demands innovative ways to think about the implications for how knowledge, as a
means and end of human activity, is envisaged, tracked, made visible and its impact measured and
appreciated.
A discussion about knowledge procurement should start with the traditional understanding of
procurement. The Chartered Institute of Procurement and Supply defines procurement as,
‘buying the goods and services that enable an organisation to operate’.
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Firmly situated in the industrial model way of operating, the traditional definition of procurement
views value as necessary to create competitive advantage while cutting costs through efficiencies. This
adds value to the bottom-line by increasing profit and generating revenues. While this view of
procurement is not necessarily inconsistent with changes in our perception of value, as shown in the
preceding section, there are some key alterations which are pivotal in the appreciation of the
knowledge procurement concept, and its relationship with the knowledge acquired through learning in
its broadest sense.
First, is the question of how to conceive ‘goods and services’ about knowledge and therefore how to
procure it in the first place; second, is how we can ‘buy’ such goods services, and how we can be
assured of their costs and value; third, is the question of accountability across the whole procurement
cycle and supply chain; and fourth, is a question of the impact of the procurement activity not only on
efficiency, but also on fairness and social impact.
A first necessary mindset shift is on how we conceive the nature of the assets we intend to procure. An
asset can be defined as what we own which can be used to produce value. Roughly speaking, assets
can be categorised, amongst many ways, as tangible and intangible. Tangible assets are those which
have a physical property and they can be fixed or current. Examples of tangible assets are buildings,
equipment, machinery. Intangible assets, on the other hand, do not have a physical property and refer
broadly to the ‘know-how’ within an organisation. This includes brand and intellectual property, and
the generic balance sheet item of ‘goodwill’.
Unfortunately, traditional financial accounting has only limited capacity to account for the value and
nature of knowledge as an intangible asset. IP in know-how firms is only the tip of the iceberg and
much of the knowledge asset within an organisation remains unseen and unaccounted for. Yet,
knowledge is becoming a key asset and therefore its strategic acquisition, use and accountancy will be
a primary consideration in future procurement activities. This will be particularly important for high-
tech industries, but also for the education sector and particularly universities and further education
colleges.
In such knowledge-intensive environments, knowledge is simultaneously the goods we need to provide
the services which produce further knowledge and thus further goods and further services in a
continuous set of cycles of knowledge production, consumption and innovation. However, universities
and to some extent colleges are different from other know-how organisations in that their knowledge
is transferred and does impact on the economy and society via their teaching, research and enterprise
activities. In this sense, therefore, universities are also knowledge incubators, knowledge facilitators
and a key lock in the knowledge procurement chain.
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Knowledge procurement cycle – the case of universities and further education colleges
2.1 Blockchain for education: current initiatives
So far this whitepaper has highlighted the key features of blockchain and identified three key
development: Blockchain 1.0, 2.0 and 3.0. It has also summarised some existing and potential uses for
the blockchain technology especially regarding Blockchain 2.0 (smart contracts) and blockchain 3.0
(applications). As blockchain is a relatively new technology, much of current development is in its
infancy. Yet, there is growing interest not only in the financial field where it started, but also in other
important areas of human activity, such as government, health and education. Of these, education
seems to be the least developed, although some emerging applications are developing fast. This
section therefore summarises the key developments, initiatives and players in the field with the
purpose to end with a proposal for how blockchain can be used for general educational purposes and
how universities and colleges can capitalise and exploit the new technology.
An interesting place to start with is the recent The blockchain for education blog entry
(http://hackeducation.com/2016/04/07/blockchain-education-guide) which states to be ‘A guide to
blockchain and education from someone who is skeptical about it.’ This is not a bad start since many
in the field of education would be skeptical if not outright critical and dismissive. A number of
• Staff and student skills,
competences and capabilities
• Research, scholarly activity,
day-to-day organisational
learning processes
• External acquisition
• Staff and student research
• Enterprise activities
• Day-to-day production of data
• IP
• Teaching
• Out reach activities
• CPD, staff training &
development
• Knowledge transfer
• Community work
• Research
• Alumni as employees
• Internal consumption
• External consumption
(economic and social impact)
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businesses and ventures have invested in blockchain and education. To mention as few: Union Square
Ventures, Khosla Ventures, Lightspeed Venture Partners, and Andreessen Horowitz.
Current uses of blockchain for education focus on ‘identity’ and ‘smart contracts’ by either using the
Ethereum platform (of interest to Microsoft and IBM) and discussed in our Whitepaper 4.0; as a
platform for assessment, as it is the case for Sony Global Education
(https://www.sony.net/SonyInfo/News/Press/201602/16-0222E/index.html) which in 2016 ‘adapted
blockchain* technology to the educational field and has developed technology that enables open and
secure sharing of academic proficiency and progress records.’ Described as the ‘hassle-free
certificates’ (https://cointelegraph.com/news/sony-started-using-blockchain-for-hassle-free-
education-certificates), Sony is not the only one to have developed ways to certify and attest learning
credentials. Other examples are those of the Holberton School
(https://blog.holbertonschool.com/using-the-blockchain-to-secure-and-authentify-holberton-school-
certificates/) and the MIT Media Lab (https://medium.com/mit-media-lab/certificates-reputation-and-
the-blockchain-aee03622426f) as two of the first example of using blockchain and bitcoins to certify
and authenticate certificates.
Of more interest and a broader scope is the creation of the ‘Learning is Earning’ or ‘the Ledger’
platform (http://www.learningisearning2026.org). The Ledger is designed to be ‘a complete record of
everything you’ve ever learned, everyone you’ve learned from, and everyone who’s learned from you.
The Ledger not only tracks what you know - it also tracks all of the projects, jobs, gigs, and challenges
you’ve used that knowledge to complete.’ The above examples can be defined as the use of Blockchain
2.0 and 3.0 for notary purposes, as a portable and securely stored repository of individual
achievements. Similarly, as Raths does in his blog How Blockchain Will Disrupt the Higher Education
Transcript (https://campustechnology.com/articles/2016/05/16/how-blockchain-will-disrupt-the-
higher-education-transcript.aspx), it can be seen as a ‘more learner-centered alternative’ to traditional
university-based credentials.
Somehow more advanced in its development is the work done by John Domingue at the Open
University (https://www.slideshare.net/johndomingue/the-potential-of-blockchain-in-higher-
education). The framework suggested by Domingue incorporates both the ideas behind The Ledger and
other certification initiatives, but goes further into making visible the connections between the learner
and the learning in all its multiple possibilities. Not dissimilarly from ‘Learning is Earning’, the Open
University’s application also brings in the impact of learning on learner’s employability. This is an
understandable need since OU’s students are part-time and mainly in employment.
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To conclude and summarise, another blog, 10 ways Blockchain could be used in education
(https://oeb-insights.com/10-ways-blockchain-could-be-used-in-education/), provides a more
comprehensive list of ways in which blockchain can be used for education. They are:
1. Single institution for authentication of certificates
2. Groups of institutions for shared repositories of certification and achievement, as in the
example of some universities have grouped together in the US already
3. National blockchain database of all certificates
4. Global assessment (Sony Global Education)
5. Blockchain and badges – open badges to evidence credentials and safe storage
6. Blockchain and MOOCs – more reliable certification of MOOCs
7. Continuing Professional Development – currently CPD, and other forms of formal and informal
work-based learning are diverse, and poorly tracked
8. Corporate learning
9. Apprenticeship
10. Bodies of knowledge
Specifically to the blockchain application to higher education, Don and Alex Tapscott in their The
Blockchain Revolution and Higher Education blog (http://er.educause.edu/articles/2017/3/the-
blockchain-revolution-and-higher-education) list four categories for innovators:
Identity and Student Records: How we identify students; protect their privacy; measure, record,
and credential their accomplishments; and keep these records secure
New Pedagogy: How we customize teaching to each student and create new models of learning
Costs (Student Debt): How we value and fund education and reward students for the quality of
their work
The Meta-University: How we design entirely new models of higher education in line with the
former MIT President Chuck Vest’s vision of a Meta-University(see Vest’s publication here
https://er.educause.edu/~/media/files/article-downloads/erm0630.pdf)
2.2 Blockchain for education: gaps, critical points, and technical challenges
Blockchain is a potentially disruptive technology, which is still untested in its application to a wider set
of human activities. This last part of the whitepaper opens the discussion on three aspects of the
application of blockchain to learning:
a. Current gaps and future opportunities;
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b. Critical points of resistance to the adoption of blockchain;
c. Technical challenges for the application of blockchain.
2.2.1 Current gaps and future opportunities
The cursory summary of how blockchain has been applied to education has shown that the field is still
underdeveloped. While this situation offers little in terms of comparison, it also provides ample
opportunities for developing innovative ways in which blockchain can be used not only to attest
transactions (Blockchain 2.0), but to develop into a fully-fledged decentralized learning ledger (DLL)
with the capability to integrate traditional value chain’s considerations about learning as a personal
tangible asset with IoT’s value as the intrinsic motivation to participate and co-create a lifelong
learning experience.
Currently, the main innovations have been in the area of ‘Identity and Student Records’ (Tapscott and
Tapscott) and within single institutions or groups of institutions. More can be done. The table below
offers some insights into gaps and possible developments:
List of Blockchain’s application and opportunities for innovation
Blockchain application Gaps Opportunity for innovation
Student identity/records BC 2.0 – Certification,
attestation; notary purposes;
personal track record
Besides the obvious benefit of
providing individuals with a
track record of formal learning
certificates, BC can also be used
to certify the acquisition and
application of learning in the
workplace or in other contexts
(e.g., volunteering)
Costs No concrete example of this
were found
As part of the DLL, blockchain
can be used at the level of a
single institution to bring
together all transactions
(learning of students and staff,
research, enterprise, and admin
running costs and investment)
to show the added value of the
single institution. The DLL will
utilize both value for money
cost effectiveness measures
with added value considerations
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about a) student and staff
experience and b) the economic
and social impact of the
institution.
Single/group of institutions BC 2.0 – Certification,
attestation; notary purposes.
Some US universities
As above. Institutions can utilize
existing collaborations (e.g.,
Ashoka U), or create further
associations, for example, with
businesses and other entities
which benefit from the work of
the single institution or group of
institutions.
National database Currently not found although
Sony Global Education can be
an example
The DLL and related measures
(to be developed) would
provide an alternative
assessment to current
evaluation criteria. They can be
scaled up to become global
databases and assessment
measures (Alternative
to/contributing to University
league tables or PISA for
schools).
On a smaller and more practical
scale, a national database will
help schools to cater for
transition (primary to
secondary, secondary to FE; and
FE to HE). In the same way, a EU
database can provide the same
support and be integrated into
existing frameworks (e.g. the
Bologna Agreement).
Global assessment Sony Global Education – see
Certification
See above.
Continuing professional
learning, Corporate/Work-
based learning, Apprenticeships
Examples not found – further
research needed. All three
items listed here belong to the
category of work-based learning
Blockchain and the DLL can
make tangible the learning
which takes place, formally or
informally, at work and
therefore fill a gap in how
individuals and businesses can
make effective, efficient and fair
decision on the employment
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and deployment of their
workforce.
Bodies of knowledge:
IP in its broadest sense;
Pedagogical innovation,
research innovation, informal
learning, social impact of
learning
BC 2.0 – smart contracts, IP,
digital art
The DLL can enable individuals
and institutions to record all
knowledge contributions. In
Higher Education these usually
refer to research, but a variety
of other knowledge
contributions are not captured.
These range from pedagogical
contributions to enterprise
work. Considerations should be
given to existing IP legislation
and institutional policy
regarding the contractual
nature of the IP.
2.2.2 Critical points
Specifically, to learning and education, a number of points can be raised ranging from the more
pedagogical ones, to the financial and technical ones. The use of blockchain and the transformation of
learning into another type of transaction also raises questions about the value of education, and the
value of universities, further education and schools. Related to the issue of value, the transactional
nature of the Ledger raises also questions about which party in the knowledge procurement chain has
the authority to provide quality assurance and attest that the learning has a) taken place and b) has
been applied.
Blockchain reliance on Bitcoin or other digital currency – Besides the ideological resistance to
linking education to a financial transaction, it is still not clear how blockchain will serve as a
global ledger given that currently there are a variety of altcoin issued and used. If the use of
digital currency is a pre-requisite, then should we consider creating a K-Coin, a knowledge coin
digital currency? If this is a possibility, how can we ensure equity and a currency evaluation
system of learning? What will each learning be valued at? EduCoin was an example of a global
learning currency.
Limits of a transactional view of learning - A more ideological criticism of using blockchain is
that doing so will equate learning to a simple transaction, based on extrinsic motivation and the
gaining of credential or badges as a proof of learning. Moreover, it will further stress the
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financial, instrumental and extrinsic aspects of learning to the detriment of learning as an
intrinsic, moral and democratic activity. The DLL in its more comprehensive aspects will account
for transactions which have a social and economic impact and thus consider learning as a
holistic activity.
What would be considered a learning transaction? Traditionally learning is assessed through a
variety of tests, exams and other activities which have measurable features and are mainly
related to the acquisition of content or the application of knowledge, skills and competences.
From a more technical perspective, and accepting that there are learning transactions already
taking place, commentators query what, in learning terms, would be a transaction. The
question becomes of even more practical importance regarding learning which takes place in
informal and non-formal circumstances, and which is assesses soft skills, such as participation,
engagement, support of others, and application of learning to work or society. (See Amy Collier
on “Not-yetness and learnification.”)
The place of trust in a trustless transactional ledger – One of the key motivations for setting up
cryptocurrency and blockchain was, paradoxically, the lack of trust in the banking system which
acted as intermediaries for financial transactions. The decentralisation of trust would,
therefore, be a challenge to the authority of educational institutions, such as universities and
colleges, or other bodies which are currently benefiting from the need to train the workforce. It
could be argued that blockchain and the DLL would enhance trust since they would require
universities and other entities to redefine the criteria by which they trust each other. Of course,
the redefinition of trust can have serious implications for institutions which have been used to
depend on other, but externally imposed, quality assurance criteria. The issue of trust would
deserve a far greater attention especially at the point of developing blockchain as a DLL. As
useful question as a reminder, quis custodes ipsos custodes (who guards the guards)?
Institutional capability for the application of blockchain technology: Like for every
technological innovation, the questions of institutional readiness and workforce capability
should not be overlooked. The adoption of blockchain and the running of fully-fledged DLL
would require the upskilling, training and education of the workforce to start and thus changes
in the way human resource department manage knowledge within their organisation, and a
careful considerations of the costs involved. More broadly, it will also require raising awareness
and persuading students and businesses of its usefulness and applicability to their needs.
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Coping with inalterability of transactions and learning as change and development – One of
the ways in which blockchain technology creates trust within a ‘trustless’ decentralised ledger is
to ensure that transactions are not alterable. Critics of the use of blockchain for education
might be the inalterability of personal learning progression as undermining learning as
inevitably alterable, developmental and progressive.
Data ownership and data protection – related to the above point about the inalterability of
transactions is the question of data ownership and data protection of personal learning
achievements, and/or intellectual property derived from the application of learning, research or
enterprise.
2.2.3 Technical challenges
Technological and human-related expertise – although there is a current increase in courses
focused on the use of blockchain, there is a lack of knowledge and expertise not only in the
discipline of computing, but also in other disciplines across the natural and social sciences and
humanities whose contribution would be needed to make blockchain and the DLL successful.
While these can be no small challenges, they are also opportunities for course development
and workforce training and professional development.
Mining costs – Not to be dismissed is the current high costs and energy wastefulness of the
process of mining. This challenge raises questions for the efficient procurement of energy
requirements and the development of alternative and less costly mining protocols.
Hosting of DLL and related learning transactions – Related to the challenge above is the
problem of where to host the DLL and related learning transactions. Would a single institutional
hosting be the solution? Or would a consortium of universities and colleges be a better way to
cut costs and enhance efficiency? Or would the use of a third-party platform, like Ethereum, be
a more feasible solution?
Data protection and data ownership – Whether learning transactions and related smart
contracts would be hosted within an institutional or third-party platform, the challenge of data
protection and data ownership remain a technical and legal challenge.
20. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 19
3.0 The Decentralized Learning Ledger
Whitepaper 5.0 aimed to develop further the ideas put forward in previous whitepaper to explore the
application of blockchain to intangible and non-financial assets such as education. It framed the task
within current major economic changes such as the knowledge economy, and technological changes
such as the Internet of Things. In doing so, the paper argues that blockchain can be the way in which
the knowledge procurement cycle can be made visible and accountable.
Having reviewed some of the current applications of Blockchain 2.0 and 3.0 to education, it became
clear that we are at the beginning of applying blockchain, but that, in theory, the modes of application
and the opportunities for innovation are many, and at many levels – all compatible with the Blockchain
Manifesto developed by Internet-of-Value Blockchain Alliance for Good.11 This section puts forward the
Decentralised Learning Ledger (DLL) as a framework for further discussion. The DLL incorporates many
of the features of currently existing initiatives focused on the certification and attestation of formal
learning (e.g., degree), but it also brings in some novel features in the form of learning transactions and
regarding broadening the scope to the learning taking place within the entire organisation.
Decentralised Learning Ledger framework
11 https://mypad.northampton.ac.uk/cceg/blockchain-manifesto/#.WQJat_krK01
B
L
O
C
K
C
H
A
I
N
STUDENT
IDENTITY/
RECORDS
CPD,
CORPORATE
AND WORK-
BASED
LEARNING
BODIES OF
KNOWLEDGE
TRANSACTIONS
Students
Staff
Community
21. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 20
Regarding the learning transactions, the DLL will account for traditional certificates, but also for the
acquisition of students and staff learning taking place in informal contexts, at the workplace and
through outreach activities, such as volunteering. Each student and member of staff will have a
personal L-wallet (Learning wallet) attesting contribution to learning set against the knowledge
procurement framework.
In this way, the DLL will in time constitute a learning passport for individuals, but also an institutional
database of accomplishments and impact showing through the chain of learning transactions the
contribution to knowledge acquisition, production, transfer and consumption.
3.1 The Extrinsic/Intrinsic Integrated Blockchain
Like most learning paradigms, theoretical educational frameworks evolve the complexity of what
appears to be simplistic into bewildering complexity. Activity Theory, for example, formulates the
student environment, history, culture, and motivations as artefacts of influencing knowledge
procurement. In addition, Blockchain needs this to be interpreted in terms of the transaction of value –
an attribute it can work with.
This implies that for the most efficient model of Total Value knowledge transaction to take place there
has to be exchanges of both knowledge and learning conveying both tangible and intangible value to
all parties; a combination of both IQ and EQ. Traditional blockchains are preoccupied with the
movement of hard tangible (often financial) assets. The science behind capturing intangible and non-
financial value, and transacting through blockchain has only developed over the last 12 months
through the introduction of the Seratio Blockchain detailed in previous whitepapers in the series. In
summary, the Seratio blockchain conveys both tangible and intangible value allowing the transaction of
value through ones values. It digitally captures the intangible and non-financial value through the
Social Earnings Ratio (S/E Ratio) which has the ability to digitize value, turns sentiment into tokens, and
uses Fast Data (typically less than 10 seconds) – perfect for blockchain transactions to complete.
Knowledge
Transfer
Learning
Exchange
Value
Transaction
22. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 21
In essence, the greater the soft intangible value exchanged, and the greater alignment with the
surrounding eco-system, the more effective the outcome and impact.
This has led to some very significant commissions based on the Seratio blockchain, including many non-
financial and some quasi-financial systems:
Impact Investment: SDG Coin supporting the United Nations 17 Sustainable Development Goals
where funding is contingent on the impact (World Bank, International Development Bank)
Circular Economy: City tokens for 360 interventions piloting in Bristol, Guangzou, Berlin,
Mashad (youth) and Medellin
Belief Structures: Religious tokens that allow transactions to occur contingent on adhering to
specific religious values eg. Islam, Church.
Loyalty Discounts: Rewarding 7 million MenCap carers in the UK with upto 50% discount at
consumer EPOS dependent on the carer impact
Product Provenance: The blockchain tracking of product traceability, part of transparency in
supply chains, actively being pursued in the leather industry (farms-tannery-retail-landfill)
Women’s Coin: a financial token for women, by women, supporting female gender values.
Ethical Leadership: Internal organisational token linking management behaviour to outcomes
23. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 22
INTRINSICCOMMUNITY
Pre-16
Further
Education
Higher
Education
Employment
Continuous
Professional
Development
Friends
And
Family
Religious
Values
Life Event
Experiences
Character
Enabling
Programs
NGO
Volunteering
Regional Impact
Hyperlocal Procurement
what is my knowledge worth to me
what is my knowledge worth to others
Public Engagement
EXTRINSIC
OTHERS BUY
INTO YOU
eg sponsorship, micro-
IP, futureincome,
mentoring reward
YOU BUY INTO
OTHERS
eg gifted, micro-share,
micro-vote, prof
accreditation
Student Engagement
Learning
Token
Exchange
Knowledge
Procurement
Blockchain:
Learning
Provenance
TRANSPORTABLE
CERTIFICATES
eg between
institutions, across
levels, apprenticeships
Proof of
Learning:
Distributed
and
Decentralized
The Seratio blockchain allows to us to devise the above Distributed Learning Ledger (DLL) framework.
A Learning Wallet, personally owned, that accesses a full history of both extrinsic and intrinsic
learning of the individual held in a blockchain which can be private or public (or mixed?).
The entire formal learning with ‘badges’, certificates, etc can be recorded from cradle to grave.
The entire informal and non-formal learning can be captured and also recorded immutably.
The ability to formally capture the knowledge and learning from non-formal environments like
Ashoka universities and Changemaker attributes
To measure and articulate the impact in the broader eco-system eg. regionally, public
engagement, procurement, student engagement, etc
To allow soft assets such as research IP to be recognized and traded through microshares.
To tokenise the knowledge procurement to exchange, sell or buy with others eg. sponsorship of
individuals, student coin recognizing learning with retail benefits, recognition of mentoring, etc.
A multi-stakeholder, multi-level, multi-intervention framework of engagement through a single
DLL framework and articulated through a single value metric
To evolve a circular economy of exchange with modelling and forecasting capabilities
24. CCEG Blockchain UN Lab
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3.2 Big Data, Forecasting, and Linking Impact Outcomes
The proposed DLL answers many of the questions raised at 2.2.2 and 2.2.3 above bit it’s only a first
step in a journey. More importantly is how we transition from a Data intensive ‘knowledge receptacle’
paradigm of learning, to a Blockchain ‘impact value’ based world in education. Whilst the ultimate
future suggests multi-nested blockchains of value exchange, this is very far from reality as there is not
even an accepted unified blockchain protocol base such as Hyperledger. In this interim period, likely to
last 5-10 years, we suggest a circular system that allows progressive adoption of legacy data into the
DLL, ironically leading to the conversion of intangible data reintroduced into Big Data as tangible data.
This gives us the best of both worlds.
BIG DATA BLOCKCHAIN DATA
Captures indirect data before
recognition of relevance
Verified, trusted public and
private ledgers
Sophisticated, stable and
tried/tested query tools
Decentralized, distributed and
non-hierarchical
Well established and
networked
Democratization: micro votes,
micro shares, micro certificates
For DLL data entry we propose to borrow the structure from the Leather blockchain provenance
project12 which is currently underway with a 10-man development team. Essentially the big data
attributes are manipulated through R programming and using an S/E Ratio algorithm turned into a
Seratio blockchain compliant attribute that can be recorded on the blockchain.
tds
R data
t(1)
CURRENT
R data
t(n)
FUTURE
S/E Ratio Translator
STAKEHOLDERS
BIG DATA
Students
Teachers
Orgs/Inst
Impact Data
Other Actors
12 https://mypad.northampton.ac.uk/cceg/2017/03/23/supply-chain-provenance-from-cradle-to-grave-2/#.WQJ2C9y1u00
25. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 24
This means the DLL S/E Ratio will also be a single number metric representing learning, rather like NPS
(Net Promoter Score) in retail customer loyalty – a litmus test that can easily be articulated to others.
The other key advantage is the ability to forecast through predictive models by manipulation of the
underlying big trend data. This is not to be confused with the complementary technique explained in
Seratio Whitepaper 2.0 and 3.0 of using value as a finite element to forecast flow of value between
people, organisations, products, etc. In particular, the latter technique models the flow of the value
into the wider community and unrelated parties depending on the degree of alignment of their values
to yours. This provides a direct correlation between those impacted and impacted within a multi-
agency environment.
3.3 Engagement Impact
The question is can universities, research and educational institutes transparently and with verifiably
data demonstrate this form of engagement? It is not that these institutions are not doing public
engagement activities; but how to show it in a transparent manner. How to provide evidence to allow
independent evaluation of the impact of this form of engagement? There are two issues here, in
common with understanding the impact of any kind of intervention including CSR:
Recording that the engagement actually happened
Verifying that it had an positive impact
Blockchain as a decentralised ledger raises the opportunity of making the data on these activities more
widely available, and protecting the sustainability of the data, the ‘chain’ would be distributed across
the network, in effect backing it up. But, perhaps it goes further than this though - the blockchain is
verifiable non-corruption of the data and unauthorised manipulation of it leads to the verification of
the blockchain failing, giving further ‘integrity’ to the data.
As an example, outreach activities with schools and youth groups could be recorded. Each one event as
a transaction in the chain. Within each transaction information such as - a unique code for
school/youth groups; ratio of females to males; number of participants; date; unique code for each
facilitator; length of the activity in minutes and may be satisfaction scores (sentiment analysis). Is this
data recorded currently? Yes, many institutions will be recording some of this data, but this available
only to the institution to process and analysed. What if some of this was anonymised and made
available through a Blockchain approach? Then it could be relied on.
The personal details (including postcode, names, etc) would not be made publically available but may
be coded, internal to the institution, to indicate which categories of the participants or
facilitators belong to (e.g. primary, secondary, staff or student facilitators). Internally organisations
would know which partners they have worked with and perhaps allocated resources accordingly. This
26. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 25
data would be made publicly available per institute. This can be mined to look at impact externally and
if several institutions used the intervention, then impacting more widely. This would enable the use of
tools from the growing area of network analysis to be applied to mine the data further.13
Whilst many impact measures, including S/E Ratio, have to measure if the intervention was welcomed
and to what degree it was successful through a feedback loop, they often rely on data gathered by
those claiming the intervention. Blockchain will provide the degree of transparency required to rely on
impact data.
4. What Next: Paper to Pilot to Implementation
This whitepaper is being issued for discussion, amendment, improvement but mainly implementation.
Whilst thought pieces are welcome, the reality is blockchain is full of noisy rhetoric with few proven
working applications as yet. If indeed blockchain is the 3rd or 4th industrial revolution, then we are duty
bound to ensure we prepare students for the challenges ahead in a blockchain world in terms of
pedagogy, but also to ensure there is a glidepath for blockchain implementation within the field
4.1 Blockchain: Teaching and Learning Implications
The innovative nature and disruptive capability of blockchain technology, including the further creative
development of the Internet of Things (IoT) and the power-potential of decentralised ledgers, present
a leadership opportunity for world class universities in England, UK, and the world. More specifically,
given the growth and productivity drag14 posed by digital skills shortages15 and the apparent lack of
employability skills among computer scientist graduates, manifesting itself in relatively high graduate
unemployment (HEFCE)16, blockchain presents an opportunity for a game changing leap from skill
shortage to new technology leadership. A move which can not only ensure that appropriately equipped
graduates are highly employable and enjoy career success, but could also provide economy enhancing,
productivity boosting credentials for the UK economy at a time when ensuring economic leadership
faces particular challenges.
In short, as the UK led the global industrial revolution in the nineteenth century and the dissemination
of its associated ‘Anglo’ economic culture, it could, with allies, lead this third generation ‘industrial’
revolution repeating the phenomenal benefits afforded by the first. Benefits only limited by the
boundaries of our creative imaginations. As well as leading both ‘research into’ and ‘use of’ in higher
education, universities should invest now in learning and teaching to ensure its current and future
13 https://mypad.northampton.ac.uk/cceg/2017/04/21/transparent-public-engagement-could-blockchain-
help/#.WQYvsNy1u00
14
http://www.hefce.ac.uk/pubs/Year/2017/CL,082017/
15 Tech City Report 2016, “Digital skills for the UK Economy” January 2016
16 http://blog.hefce.ac.uk/author/professor-sir-nigel-shadbolt/
27. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 26
graduates, notably in digital technology/computing science/ICT and related disciplines, together with
those in business schools, technology, innovation and creative disciplines, are afforded the opportunity
to enhance their digital capabilities and, specifically, the myriad of knowledge, understandings and
skills embraced by blockchain technologies and their creative usage.
A carefully constructed, highly flexible, yet accessible, series of interrelated Level 6 (final year
undergraduate) and Level 7 (postgraduate) on-line modules could be developed. These would be
initially accredited by a small pilot university set (and their dissemination nationally encouraged) as
both stand alone, enhancement, activities and, better still, integrated within degree programmes.
These credit bearing, state-of-the-art learning experiences will embrace both blockchain technology
and their creative usage and multiple applications. These can contribute to the learning outcomes of
and, hence, graduate capability, of a wide range of degree programmes creating an on-going cadre of
capability, a source of national economic distinction to lead and attractive the world’s finest wealth
creators taking the knowledge economy to its next generation of capability and impact.
Furthermore, universities could not only embed these 3rd industrial revolution learning outcomes in
their programme, they can ensure wider access to such learning by both creating on-line learning
packages at Level’s 6 and 7 but also whole-degree offerings aimed at both the committed innovative
technologist and the creative personality able to take real-world blockchain application practice
further. This development can embrace campus based provision, on-line distance learning and provide
non-traditional degree level access, such as Graduation Apprenticeships for in-work learners, ensuring
potentially rapid learning-to-application.
Given the global reach of UK universities, University of Northampton is certainly no exception, this
learning can be shared among its extensive English, private and FE providers, and overseas
learning/teaching partnership network via embedded learning outcomes and on-line learning modules
on awards of the University. This development in learning and teaching will not only address the
reported skills shortages in digital technologies among English graduates, it will also provide global
leadership of a disruptive technology placing English universities at the international forefront of this
approaching economic revolution. We’ll only be given one chance; innovation will not wait.
4.2 Sandbox Pilot
A proposed pilot would require to test the broad components proposed in this paper.
Level 6 and 7 Blockchain learning via MOOC’s
DLL across vertical partners in one region (pre-16, FE, HE, Employers, CPD) testing passport
input challenges
DLL across horizontal peer partners testing passport portability
Other institutional and organisational collaborators across public, private and civil society
28. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 27
We envisage this to be a 2 year pilot with enterprise level implementation taking a further 12 months
in year 3. The initial DLL sandbox platform is currently in development (Whitepaper 4.0) and scheduled
for release in Q4 2017.
5.0 Future: What Problems Does this Resolve?
It’s evident that this approach will lead to many new avenues hitherto unavailable to educational
frameworks and only briefly touched upon here. Of course it’s not a trivial exercise and difficulties
ahead. Disruptive and radical departures rarely are, but potentially very rewarding for a sector that has
for too long been preoccupied with formal extrinsic learning and ignored the intrinsic transformation
of students which goes largely unrecognised and unrewarded. This may be because previously it was
thought too difficult to measure but even then, what’s the point of capturing knowledge if you can’t
transact it? Blockchain allows us to do that.
Critiques would say that mankind has done very well without such a revolution in education. It is true
that education has served us well but it is now hierarchical, centralized, and controlled by ‘the man’.
Blockchain is anti-authority, decentralized and distributed with no single power held by anyone, except
the individual.
CCEG
Blockchain
UN Lab
University of
Northampton
Pre16-FE-HE-
Employer-
CPD chain
Collaborative
Institutions
and
Organisations
Level 6 and 7
MOOC
modules
UoN
Partner
Universities
29. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 28
5.1 Potential in Further Education
Further Education professionals always defend the mission of their sector as much more than
qualifications gained by their graduates. If that is true for Higher Education, then it’s certainly equally
true for HEIs (Higher Education Institutions). FE professionals invariably ascertain that the impact of
their work on community cohesion, wealth creation, economic growth, aspirations for success and
prosperity are never quantified and are rarely acknowledged beyond sentimental acknowledgments.17
18
Policy makers and funders are equally challenged as they have no way of associating impact with policy
and funding. It has been accepted for sometime that proxies are the only way to measure impact. That
is to say, the number of people qualify at a certain level in a certain discipline is associated with closing
that skills gap in the economy. For example, the number of people qualified at level 3 in plumbing is
proxied to the plumbing skills in faced by the construction industry. In other words, these proxies are
the only way for policy makers and funders, who are concerned, amongst other things, with closing
skills gaps in the economy to use for the supply of skills.
DLL offers a much more effective linkage between the skills gained by individuals, the impact on the
local economy, on community cohesion and such mission critical measures to the work of FE.
5.2 Potential in Higher Education
Blockchain, blockchain, everywhere. Just google blockchain and add any subject you desire, and you’ll
find a raft of acclaimed solutions which are often highly technical, sometimes philosophical, and often
delivered with religious fervour. As either the 3rd or 4th industrial revolution, blockchain is hailed as the
panacea to all ailments of society.
And yet, we’re in agreement with Prof Marnie Hughes-Warrington (Deputy VC, Australian National
University), that it’s surprising how HE remains behind the curve. We started tracking blockchain in
May 2016 and by September we had identified 37 foundations examining the technology, but by
November 42 blockchain labs had already formed.19 But even in the relatively pedestrian academic
world, things are starting to move rapidly. In the last 7 days UCL have launched their website claiming
75 researchers20, and Melbourne University launched their micro-credit Distributed Ledger
17 Hadawi & Crabbe 2017, Developing a Mission for Further Education: Changing Culture using non-financial and intangible
value, Association for Research in Post-Compulsory Education: ARPCE, June 2017
18 Sir Andrew Foster, A review of the future role of further education colleges, 2005
www.dera.ioe.ac.uk/5535/1/realising06.pdf
19 http://www.afr.com/leadership/university-of-melbourne-first-in-australia-to-use-blockchain-for-student-records-
20170427-gvubid
20 http://blockchain.cs.ucl.ac.uk/
30. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 29
Technology21 with several Australian universities like Deakin already in trials. MIT’s Media Labs are now
serving around 10 global universities with their Blockcerts22 licenses, and in the UK the Open
University’s Prof John Domingue is working on their variant for their 150,000 students. Also recently,
EPSRC have awarded UK£ 3.6m in blockchain grants across 7 projects23, the EU put aside a budget of
€500,000 for an observatory24, and NESTA received EU money for their Blockchain Lab.
It is not surprising, of course, that the early adopters are those university institutions which are both
large and with a broad democratization of knowledge agenda eg. MOOCs or education available to the
masses. Understandably, the concept of decentralization of learning across distributed networks sits
less well with institutions who trade on their hierarchical reputations. But we have to face it,
blockchain is not a passing fad, it is a revolution that has arrived, so the only remaining question is how
do we embrace it?
In some respects we were fortunate to identify the technology early on. The University of
Northampton’s spin out Think Tank, the Centre for Citizenship, Enterprise and Governance (CCEG)25,
works at the forefront of the movement of value. With its 60,000 members CCEG developed metrics
for capturing and measuring intangible and non-financial value for legislative frameworks like the
Social Value Act 2012 and Modern Slavery Act 2015, but last year decided to move into the transaction
of those ‘soft’ assets through blockchain. The concept of transacting value through your values is very
germane to most university’s impact agenda on student and local engagement. This has been further
amplified by our own demographic which attracts students from more challenging backgrounds.
Indeed our Ashoka Campus status has directed our focus on equipping our students with
‘Changemaker’ attributes as one of the leaders in social innovation. To do this, however, needs us to
recognise the intrinsic and extrinsic value we bring to our students and the region, beyond the formal
certificated learning which we have in common with others.
We have turned to a joint venture with the CCEG Blockchain UN Lab26 (who focus on United Nations
Sustainable Development Goals27) to capture, articulate and transact that value. We are developing a
Blockchain Educational Passport based on a Decentralised Learning Ledger (DLL) capturing, uniquely,
not only formal but also informal and non-formal learning. Our goal is to track knowledge procurement
from pre-16, Further Education, Higher Education, Employer, CPD and also digitise the impact value to
the student, staff and the region. We have started with this Whitepaper 5.0 which we invite you to
read, comment, and perhaps work with us in the collaborative spirit that the Open Source movement
has so long promised, and is now finally delivering to transform our society.
21 http://newsroom.melbourne.edu/news/melbourne-university-pilot-distributed-database-micro-credentials-0
22 https://www.blockcerts.org/
23
https://www.epsrc.ac.uk/newsevents/news/distributedledgertechnologytransformenergybankinghealthcare/
24https://www.theregister.co.uk/2017/04/20/eu_plans_for_blockchain_observatory_raise_concerns_says_expert/?mt=149
2769268071
25 http://www.cceg.org.uk
26 http://mypad.northampton.ac.uk/cceg
27 http://www.bisgit.org/lab
31. CCEG Blockchain UN Lab
Seratio Whitepaper 5.0 30
6. Background Note
Information on the open source Social Earnings Ratio® (Creative Commons, 2011) may be found at the
Open Source not-for-profit Think Tank, Centre for Citizenship, Enterprise and Governance
(www.cceg.org.uk) which focuses on Movement of Value. CCEG has received over 100 commissions,
shown at www.socialearningsratio.com and operates 10+ SaaS platforms through the trading arm
Seratio Limited (www.seratio.com). CCEG has over 60,000 members including 7,000 heads of CSR of
the world’s largest companies and 2000 politicians. Members receive the journal Social Value &
Intangibles Review https://issuu.com/seratio. CCEG has founded the IoV Blockchain Alliance for Good
(Bisgit.IoV) at www.bisgit.org, as well as the CCEG Blockchain UN Lab. CCEG and Seratio are spin-outs
from the University of Northampton both adhering to the Blockchain Manifesto.
6.1 Whitepaper Schedule
Updates are available at: https://github.com/seratio/whitepaper
1.0 Currency of Intangible Non-Financial Value (October 2016)
2.0 Values Based Impact Interventions (December 2016)
3.0 Impacting With Value: Capture-Translate-Transact-Report (February 2017)
4.0 Seratio Platform Architecture (March 2017)
5.0 The Blockchain Educational Passport (April 2017)
6.0 Transference of Value across Scale
7.0 Zero Sum Gain Acknowledgement of Value – where value is not transacted, lost or gained
8.0 Niche Applications (Ethical Leadership, Mental Health, Health & Wellbeing, Eternal Value, Brand
Value, Provenance, Capacity Development, etc)
6.2 Contact
Whitepaper 5.0 Contact: Cristina.Devecchi@cceg.org.uk
Blockchain Lab contact: Blockchain.Lab@cceg.org.uk
Centre for Citizenship, Enterprise and Governance
Bureau 112 UN Innovation, Green St,
Northampton, NN1 1SY, UK
Tel: +44 1604 550100