This is the deck of the talk given by Kleros CEO Federico Ast at the Ethereum Community Conference in Paris 2020 about the strategy of the company for adoption in real life use cases.
This is the deck I used for the first session of the Kleros Incubator. It includes a methodology that blockchain founding teams can follow for strategy design.
Unified workflows are the future of financial services. Learn more about how FactSet's highly customizable analytics and content integrates with Symphony's secure communications platform to empower financial professionals.
Blockchain: it's much more than BitcoinKuba Tymula
This presentation (originally done for an event that Harris Partners has organised with Bank of America Merril Lynch in March 2016) covers basics of blockchain (definitions, features, establishing consensus, public key cryptography, public vs. private blockchains, permissionless vs. permissioned blockchains), as well as descriptions of Bitcoin, and other current use cases of the blockchain technology
Blockchain: it's much more than BitcoinKuba Tymula
In this brief presentation (originally from an event that Harris Partners has run with Bank of America Merril Lynch in March 2016) we cover the basics of blockchain and bitcoin, incl. consensus in a blockchain, public key cryptography, public vs. private blockchains, permissionless vs. permissioned blockchains, advantages of blockchain, and some current case studies
Blockchain is a distributed digital ledger that records transactions across a peer-to-peer network. It allows for transparency, where all transactions are visible across the network, and immutability, where transactions cannot be altered once added to the chain. There are two main types - public blockchains that anyone can participate in without permission and private blockchains that require an invitation. Popular blockchain platforms include Bitcoin, Ethereum, Hyperledger, R3 Corda, and others. Blockchain provides benefits like disintermediation, empowering users, high quality transparent data, and lower transaction costs. It can be used in financial areas like payments and supply chain management as well as non-financial areas like medical records and identity management.
Open Infrastructure for Edge: A Distributed Ledger OutlookNitinder Mohan
This document discusses using distributed ledgers to enable an open infrastructure for edge computing. It outlines several requirements for agreements in an open edge system, including fast and cheap transactions, privacy, protection from crypto volatility, and sustainability. Current distributed ledger platforms are analyzed in terms of these requirements. While no existing platform meets all needs, proof-of-stake protocols may help address issues like energy use and scalability. Overall distributed ledgers show promise for enabling independent edge providers and open agreements, but more work is still needed to develop a general-purpose solution for open edge infrastructure.
This document provides an introduction to Hyperledger Fabric, a permissioned blockchain platform developed by the Hyperledger project. It outlines the key components of Hyperledger Fabric including nodes, transactions, channels, chaincode, and membership services. It also discusses the differences between public and private blockchains as well as examples use cases for Hyperledger Fabric such as global supply chain management and city management.
This is the deck I used for the first session of the Kleros Incubator. It includes a methodology that blockchain founding teams can follow for strategy design.
Unified workflows are the future of financial services. Learn more about how FactSet's highly customizable analytics and content integrates with Symphony's secure communications platform to empower financial professionals.
Blockchain: it's much more than BitcoinKuba Tymula
This presentation (originally done for an event that Harris Partners has organised with Bank of America Merril Lynch in March 2016) covers basics of blockchain (definitions, features, establishing consensus, public key cryptography, public vs. private blockchains, permissionless vs. permissioned blockchains), as well as descriptions of Bitcoin, and other current use cases of the blockchain technology
Blockchain: it's much more than BitcoinKuba Tymula
In this brief presentation (originally from an event that Harris Partners has run with Bank of America Merril Lynch in March 2016) we cover the basics of blockchain and bitcoin, incl. consensus in a blockchain, public key cryptography, public vs. private blockchains, permissionless vs. permissioned blockchains, advantages of blockchain, and some current case studies
Blockchain is a distributed digital ledger that records transactions across a peer-to-peer network. It allows for transparency, where all transactions are visible across the network, and immutability, where transactions cannot be altered once added to the chain. There are two main types - public blockchains that anyone can participate in without permission and private blockchains that require an invitation. Popular blockchain platforms include Bitcoin, Ethereum, Hyperledger, R3 Corda, and others. Blockchain provides benefits like disintermediation, empowering users, high quality transparent data, and lower transaction costs. It can be used in financial areas like payments and supply chain management as well as non-financial areas like medical records and identity management.
Open Infrastructure for Edge: A Distributed Ledger OutlookNitinder Mohan
This document discusses using distributed ledgers to enable an open infrastructure for edge computing. It outlines several requirements for agreements in an open edge system, including fast and cheap transactions, privacy, protection from crypto volatility, and sustainability. Current distributed ledger platforms are analyzed in terms of these requirements. While no existing platform meets all needs, proof-of-stake protocols may help address issues like energy use and scalability. Overall distributed ledgers show promise for enabling independent edge providers and open agreements, but more work is still needed to develop a general-purpose solution for open edge infrastructure.
This document provides an introduction to Hyperledger Fabric, a permissioned blockchain platform developed by the Hyperledger project. It outlines the key components of Hyperledger Fabric including nodes, transactions, channels, chaincode, and membership services. It also discusses the differences between public and private blockchains as well as examples use cases for Hyperledger Fabric such as global supply chain management and city management.
This document provides an overview of distributed systems and blockchain technology. It discusses key concepts such as nodes, Byzantine faults, the CAP theorem, consensus algorithms, and examples of blockchain consensus mechanisms. It also covers the history of blockchain from early e-cash protocols to bitcoin. Blockchain is introduced as a peer-to-peer distributed ledger that uses cryptography and consensus to provide security and immutability without a central authority.
Blockchain Innovation In Healthcare & Life SciencesIFAH
A session by Michael Irish, CEO, Vivacitas Healthcare on the topic of 'Blockchain Innovation In Healthcare & Life Sciences' at IFAH USA 2019 held at Caesars Palace, 18-20 June, 2019.
От прорывной концепции до комплексного решения для компанийPositive Hack Days
This document discusses blockchain technology and its applications. It begins by describing the four types of people who are familiar with blockchain to different degrees. It then discusses blockchain fundamentals like distributed ledgers and smart contracts. Several use cases for blockchain are outlined across multiple industries like finance, healthcare, government and more. The strategy and roadmap for an open blockchain platform is presented, focusing on delivering capabilities for identity, privacy, operations and tools. Execution involves proving blockchain concepts, developing horizontal solutions, and creating industry-specific offerings.
Blockchain first appeared in 2008 when Satoshi Nakamoto introduced the blockchain structure for bitcoin, the first cryptocurrency. Prior work on blockchain technology dates back to 1991, but it was Nakamoto who improved the structure by using a hash cash-like technique to record timestamps of added blocks without central authorization. Since 2008, blockchain has grown significantly, with the size of the bitcoin blockchain network reaching over 200 gigabytes by 2020 as adoption of the technology has increased. Blockchain allows transactions to be recorded in a decentralized, immutable public ledger.
The document discusses blockchain concepts and frameworks such as Hyperledger. It describes how blockchain provides solutions to problems with current systems by creating an immutable, transparent and distributed ledger. It then provides details on Hyperledger, including its components, transaction flow and use of Composer for developing applications. The document notes that blockchain is suitable for high-performance transactions, low-value volumes, and use cases involving multiple participants, but not as a replicated database, messaging solution or for transactions involving a single participant.
This presentation by Isabelle Corbett, Senior Counsel & Director of Regulatory Affairs, R3, was made during the discussion “Blockchain and Competition” held at the 129th meeting of the OECD Competition Committee on 8 June 2018. More papers and presentations on the topic can be found out at oe.cd/2gx.
This document discusses the potential for blockchain technology in business applications. It provides background on blockchain and describes some key components for enterprise blockchain solutions, including different blockchain platforms. Several examples are given of how organizations are currently using blockchain, such as BNP Paribas using it for letters of credit and Bumble Bee Foods providing supply chain transparency. However, challenges to adoption are also outlined, such as regulatory uncertainty, scalability issues, and gaining internal acceptance of the technology.
This document discusses Microsoft's Project Bletchley and blockchain initiatives. It provides an overview of blockchain regulatory compliance capabilities, digital transformation opportunities in financial services, and the large number of financial services regulators engaged. It also discusses blockchain characteristics, opportunities, challenges, and use cases across multiple industries including supply chain management, Internet of Things, and more.
Blockchain has potential applications in peer-to-peer energy trading. It allows direct transactions between energy producers and consumers without intermediaries. Two examples are described. The first is direct trading where prosumers announce energy availability on the blockchain network and trades are verified. The second uses a credit-based system where users submit purchase bids and the distribution system operator matches buyers and sellers. Energy companies globally are piloting various uses like P2P trading and smart appliances. Blockchain facilitates energy transition by empowering users but faces challenges like immature standards, regulation uncertainty, and high data storage needs.
Blockchain technology allows for a distributed ledger of transactions and digital events that is shared among participants in a network. It allows transactions to be verified through consensus, recorded immutably on the blockchain, and provides a verifiable record of all transactions. The document discusses how blockchain works through public and private networks and provides examples of applications in supply chain management, the Internet of Things, tracking origins of goods, and smart contracts. It also covers challenges and opportunities of adopting blockchain technology.
Iowa Weighs in on Ethics of Cloud Computing for LawyersNicole Black
The article discusses an ethics opinion issued by the Iowa Committee on Practice Ethics regarding a lawyer's use of cloud computing services. The committee determined that using cloud computing would be permissible if lawyers take reasonable precautions to protect client data and ensure ongoing access to the data. The committee provided guidance on factors lawyers should consider, such as the security, access and control policies of cloud computing services. The committee took a flexible approach focused on the data protection goals of the ethics rules, rather than prohibiting new technologies.
Blockchain technology is a distributed database across a network. Furthermore, it maintains the records of each & every transaction that has been made across the network around the world. Blockchain development deals with making blockchain protocols, implementing smart contracts, and developing decentralized applications. For More Information, Read More...
https://bit.ly/3PePTr4
Blockchain and its impact on agriculture is discussed. Key points include:
- Blockchain can improve food provenance by providing a digital tag to trace items from producer to customer. This allows for detection of fraudulent items and reduced recalls.
- Supply chain management in agriculture can benefit from blockchain by enabling instant payments, removing middlemen, increasing traceability, and improving efficiency of co-op operations through smart contracts.
- Community supported agriculture faces challenges of governance, credibility, and logistics that blockchain aims to address through better governance models, continuous monitoring, and improved stakeholder transactions.
Blockchain notes b tech aktu by krazy kreation (kulbhushan)rahulmondol
Blockchain is a distributed ledger technology that records transactions in blocks of data that are linked using cryptography. Each transaction added to the blockchain is validated by multiple computers on the peer-to-peer network. Key characteristics of blockchain include being open, distributed, efficient, permanent, time-saving, cost-saving, secure, and transparent. Blockchains use cryptography to securely record transactions, with each new block building on the previous blocks in the chain. Common applications of blockchain technology include cryptocurrencies, smart contracts, voting, and healthcare records.
Blockchain technology has several important uses including facilitating secure transactions, lowering compliance costs, and accelerating data processing. It can be applied to smart contracts, money transfers, digital media, IoT, and more. Specific companies in each sector are utilizing blockchain, such as BurstIQ for healthcare data sharing, Propy for real estate transactions, and Circle for cryptocurrency investments and exchanges. Blockchain works by recording transactions in distributed ledgers called blocks that are verified across a network.
4IRE Labs’ main focus is on finTech and supply chain. We have created an array of branded white-label products serving the crowdfunding, private blockchains and other applications. The Blockchain platforms we have experience with include: Ethereum, Quorum, Solidity, Hyperledger Fabric, Multichain, NEO, R3, Exonum, Monax.
This document discusses smart contracts and blockchains. It begins by defining a blockchain as a database maintained by a network of computers not owned by any single entity that stores transaction data in blocks organized sequentially in a chain. It then discusses how blockchains enable secure, traceable, and resilient transactions without requiring trust. The document outlines some uses of blockchains like virtual currencies, managing access to records, and building self-executing smart contracts using code on a blockchain. It also discusses some types of smart contracts being developed and limitations around self-enforcement, enforceability, privacy, and autonomy of smart contracts.
Emprender en Blockchain: Introducción y Lean CanvasFederico Ast
Esta presentación proporciona una introducción exhaustiva al emprendimiento en blockchain, destacando su potencial transformador y las oportunidades que presenta en la economía digital actual. El contenido abarca los siguientes temas clave:
1. Conceptos Fundamentales de Blockchain:
• Explicación de la tecnología blockchain y su relevancia como una base de datos distribuida, compartida e inviolable.
• Ejemplos históricos y contemporáneos de aplicaciones blockchain.
2. Modelos de Gobernanza Digital:
• Exploración de nuevos modelos de gobernanza en la era digital.
• Discusión sobre cómo la justicia y los procesos automatizados pueden beneficiarse de las tecnologías descentralizadas.
3. Caso de Estudio: Kleros:
• Introducción a Kleros, un sistema de justicia descentralizado.
• Mecanismos de resolución de disputas y el uso de tokens criptográficos para incentivar comportamientos honestos y evitar abusos.
4. Lean Canvas para Proyectos Blockchain:
• Guía paso a paso para desarrollar un Lean Canvas.
• Identificación de problemas, métricas clave, soluciones, ventajas injustas, canales, segmentos de clientes, estructura de costos y flujos de ingresos.
• Ejercicios prácticos para aplicar el Lean Canvas a proyectos específicos.
5. Experiencias y Lecciones de Silicon Valley:
• Anécdotas y aprendizajes de la experiencia en Silicon Valley.
• Inspiración para emprendedores a través de ejemplos reales y casos de éxito.
Objetivo:
Proveer a los emprendedores y estudiantes con las herramientas y conocimientos necesarios para desarrollar y escalar proyectos basados en blockchain, desde la identificación de problemas hasta la implementación de soluciones innovadoras y sostenibles.
Ideal para:
• Emprendedores y startups interesados en la tecnología blockchain.
• Estudiantes y profesionales en busca de una comprensión profunda sobre cómo utilizar el Lean Canvas para planificar sus proyectos.
• Innovadores y tecnólogos que desean explorar nuevas formas de gobernanza y justicia digital.
Contact Information:
Federico Ast, CEO, Kleros.
federico@kleros.io
Social Media:
@federicoast | @kleros_io
This document provides an overview of distributed systems and blockchain technology. It discusses key concepts such as nodes, Byzantine faults, the CAP theorem, consensus algorithms, and examples of blockchain consensus mechanisms. It also covers the history of blockchain from early e-cash protocols to bitcoin. Blockchain is introduced as a peer-to-peer distributed ledger that uses cryptography and consensus to provide security and immutability without a central authority.
Blockchain Innovation In Healthcare & Life SciencesIFAH
A session by Michael Irish, CEO, Vivacitas Healthcare on the topic of 'Blockchain Innovation In Healthcare & Life Sciences' at IFAH USA 2019 held at Caesars Palace, 18-20 June, 2019.
От прорывной концепции до комплексного решения для компанийPositive Hack Days
This document discusses blockchain technology and its applications. It begins by describing the four types of people who are familiar with blockchain to different degrees. It then discusses blockchain fundamentals like distributed ledgers and smart contracts. Several use cases for blockchain are outlined across multiple industries like finance, healthcare, government and more. The strategy and roadmap for an open blockchain platform is presented, focusing on delivering capabilities for identity, privacy, operations and tools. Execution involves proving blockchain concepts, developing horizontal solutions, and creating industry-specific offerings.
Blockchain first appeared in 2008 when Satoshi Nakamoto introduced the blockchain structure for bitcoin, the first cryptocurrency. Prior work on blockchain technology dates back to 1991, but it was Nakamoto who improved the structure by using a hash cash-like technique to record timestamps of added blocks without central authorization. Since 2008, blockchain has grown significantly, with the size of the bitcoin blockchain network reaching over 200 gigabytes by 2020 as adoption of the technology has increased. Blockchain allows transactions to be recorded in a decentralized, immutable public ledger.
The document discusses blockchain concepts and frameworks such as Hyperledger. It describes how blockchain provides solutions to problems with current systems by creating an immutable, transparent and distributed ledger. It then provides details on Hyperledger, including its components, transaction flow and use of Composer for developing applications. The document notes that blockchain is suitable for high-performance transactions, low-value volumes, and use cases involving multiple participants, but not as a replicated database, messaging solution or for transactions involving a single participant.
This presentation by Isabelle Corbett, Senior Counsel & Director of Regulatory Affairs, R3, was made during the discussion “Blockchain and Competition” held at the 129th meeting of the OECD Competition Committee on 8 June 2018. More papers and presentations on the topic can be found out at oe.cd/2gx.
This document discusses the potential for blockchain technology in business applications. It provides background on blockchain and describes some key components for enterprise blockchain solutions, including different blockchain platforms. Several examples are given of how organizations are currently using blockchain, such as BNP Paribas using it for letters of credit and Bumble Bee Foods providing supply chain transparency. However, challenges to adoption are also outlined, such as regulatory uncertainty, scalability issues, and gaining internal acceptance of the technology.
This document discusses Microsoft's Project Bletchley and blockchain initiatives. It provides an overview of blockchain regulatory compliance capabilities, digital transformation opportunities in financial services, and the large number of financial services regulators engaged. It also discusses blockchain characteristics, opportunities, challenges, and use cases across multiple industries including supply chain management, Internet of Things, and more.
Blockchain has potential applications in peer-to-peer energy trading. It allows direct transactions between energy producers and consumers without intermediaries. Two examples are described. The first is direct trading where prosumers announce energy availability on the blockchain network and trades are verified. The second uses a credit-based system where users submit purchase bids and the distribution system operator matches buyers and sellers. Energy companies globally are piloting various uses like P2P trading and smart appliances. Blockchain facilitates energy transition by empowering users but faces challenges like immature standards, regulation uncertainty, and high data storage needs.
Blockchain technology allows for a distributed ledger of transactions and digital events that is shared among participants in a network. It allows transactions to be verified through consensus, recorded immutably on the blockchain, and provides a verifiable record of all transactions. The document discusses how blockchain works through public and private networks and provides examples of applications in supply chain management, the Internet of Things, tracking origins of goods, and smart contracts. It also covers challenges and opportunities of adopting blockchain technology.
Iowa Weighs in on Ethics of Cloud Computing for LawyersNicole Black
The article discusses an ethics opinion issued by the Iowa Committee on Practice Ethics regarding a lawyer's use of cloud computing services. The committee determined that using cloud computing would be permissible if lawyers take reasonable precautions to protect client data and ensure ongoing access to the data. The committee provided guidance on factors lawyers should consider, such as the security, access and control policies of cloud computing services. The committee took a flexible approach focused on the data protection goals of the ethics rules, rather than prohibiting new technologies.
Blockchain technology is a distributed database across a network. Furthermore, it maintains the records of each & every transaction that has been made across the network around the world. Blockchain development deals with making blockchain protocols, implementing smart contracts, and developing decentralized applications. For More Information, Read More...
https://bit.ly/3PePTr4
Blockchain and its impact on agriculture is discussed. Key points include:
- Blockchain can improve food provenance by providing a digital tag to trace items from producer to customer. This allows for detection of fraudulent items and reduced recalls.
- Supply chain management in agriculture can benefit from blockchain by enabling instant payments, removing middlemen, increasing traceability, and improving efficiency of co-op operations through smart contracts.
- Community supported agriculture faces challenges of governance, credibility, and logistics that blockchain aims to address through better governance models, continuous monitoring, and improved stakeholder transactions.
Blockchain notes b tech aktu by krazy kreation (kulbhushan)rahulmondol
Blockchain is a distributed ledger technology that records transactions in blocks of data that are linked using cryptography. Each transaction added to the blockchain is validated by multiple computers on the peer-to-peer network. Key characteristics of blockchain include being open, distributed, efficient, permanent, time-saving, cost-saving, secure, and transparent. Blockchains use cryptography to securely record transactions, with each new block building on the previous blocks in the chain. Common applications of blockchain technology include cryptocurrencies, smart contracts, voting, and healthcare records.
Blockchain technology has several important uses including facilitating secure transactions, lowering compliance costs, and accelerating data processing. It can be applied to smart contracts, money transfers, digital media, IoT, and more. Specific companies in each sector are utilizing blockchain, such as BurstIQ for healthcare data sharing, Propy for real estate transactions, and Circle for cryptocurrency investments and exchanges. Blockchain works by recording transactions in distributed ledgers called blocks that are verified across a network.
4IRE Labs’ main focus is on finTech and supply chain. We have created an array of branded white-label products serving the crowdfunding, private blockchains and other applications. The Blockchain platforms we have experience with include: Ethereum, Quorum, Solidity, Hyperledger Fabric, Multichain, NEO, R3, Exonum, Monax.
This document discusses smart contracts and blockchains. It begins by defining a blockchain as a database maintained by a network of computers not owned by any single entity that stores transaction data in blocks organized sequentially in a chain. It then discusses how blockchains enable secure, traceable, and resilient transactions without requiring trust. The document outlines some uses of blockchains like virtual currencies, managing access to records, and building self-executing smart contracts using code on a blockchain. It also discusses some types of smart contracts being developed and limitations around self-enforcement, enforceability, privacy, and autonomy of smart contracts.
Emprender en Blockchain: Introducción y Lean CanvasFederico Ast
Esta presentación proporciona una introducción exhaustiva al emprendimiento en blockchain, destacando su potencial transformador y las oportunidades que presenta en la economía digital actual. El contenido abarca los siguientes temas clave:
1. Conceptos Fundamentales de Blockchain:
• Explicación de la tecnología blockchain y su relevancia como una base de datos distribuida, compartida e inviolable.
• Ejemplos históricos y contemporáneos de aplicaciones blockchain.
2. Modelos de Gobernanza Digital:
• Exploración de nuevos modelos de gobernanza en la era digital.
• Discusión sobre cómo la justicia y los procesos automatizados pueden beneficiarse de las tecnologías descentralizadas.
3. Caso de Estudio: Kleros:
• Introducción a Kleros, un sistema de justicia descentralizado.
• Mecanismos de resolución de disputas y el uso de tokens criptográficos para incentivar comportamientos honestos y evitar abusos.
4. Lean Canvas para Proyectos Blockchain:
• Guía paso a paso para desarrollar un Lean Canvas.
• Identificación de problemas, métricas clave, soluciones, ventajas injustas, canales, segmentos de clientes, estructura de costos y flujos de ingresos.
• Ejercicios prácticos para aplicar el Lean Canvas a proyectos específicos.
5. Experiencias y Lecciones de Silicon Valley:
• Anécdotas y aprendizajes de la experiencia en Silicon Valley.
• Inspiración para emprendedores a través de ejemplos reales y casos de éxito.
Objetivo:
Proveer a los emprendedores y estudiantes con las herramientas y conocimientos necesarios para desarrollar y escalar proyectos basados en blockchain, desde la identificación de problemas hasta la implementación de soluciones innovadoras y sostenibles.
Ideal para:
• Emprendedores y startups interesados en la tecnología blockchain.
• Estudiantes y profesionales en busca de una comprensión profunda sobre cómo utilizar el Lean Canvas para planificar sus proyectos.
• Innovadores y tecnólogos que desean explorar nuevas formas de gobernanza y justicia digital.
Contact Information:
Federico Ast, CEO, Kleros.
federico@kleros.io
Social Media:
@federicoast | @kleros_io
Introduction to Kleros - King's College LondonFederico Ast
Kleros is a decentralized justice system that uses blockchain, game theory, and crowdsourced juries to resolve disputes online. It aims to provide a cheaper, faster, and more transparent alternative to traditional arbitration. The system works by having users stake the PNK token to participate as jurors. Jurors are incentivized to vote independently while aligning with the majority to reach a decision. This combines the security of blockchain with collective intelligence and cryptoeconomic incentives to resolve disputes in a decentralized manner. However, challenges remain around potential collusion, legal acceptance, fairness, and how different types of disputes are best solved.
"KLEROS 2.0: SCALING FROM 1,000 TO 1 BILLION CASES"
I explain how this new version of the protocol, completely rebuilt from scratch, brings radical performance improvements:
- Way cheaper.
- 1 person 1 vote courts.
- Better selection processes for jurors.
- More flexible decision making logics to handle non-binary cases.
- More!
Resolución de Disputas en Propiedad Intelectual, Kleros y la Justicia Descent...Federico Ast
Este es el deck de mi clase en la Universidad Católica Argentina el 15 de noviembre de 2023. El tema fue el uso de Kleros en la resolución de disputas de propiedad intelectual.
Introduction to Kleros - Ohio State UniversityFederico Ast
Kleros is a platform for decentralized justice that uses blockchain, game theory, and crowdsourced juries to resolve disputes. Key features include:
1. The system is secured on the blockchain for transparency and security.
2. It utilizes collective intelligence by having disputes resolved by randomized juries selected from a pool of users who stake a token to participate.
3. Cryptoeconomic incentives are used, where jurors are rewarded or penalized based on their votes to encourage independent and majority-aligned decisions, and discourage gaming the system.
La Historia de la Politica y Lecciones de GobernanzaFederico Ast
Deck de la presentación de Federico Ast sobre las lecciones de la historia del pensamiento político para el gobierno de organizaciones descentralizadas de Web3.
Video de la charla aquí:
https://www.youtube.com/live/lD1lbVV0Tig?si=loQCG3Rh9HJ556x6
"The Kleros Mediation Bridge: Blending Traditional Mediation & Blockchain Arbitration"
The slide deck of my presentation with Robert Dean at the ArbTech community and our proposal to use Kleros as a mediation support tool.
The History of Politics and DAO GovernanceFederico Ast
Slide deck of my talk at the Ethereum Paris Conference on the history of politics and its lesson for building constitutions in blockchain DAO governance.
Here's a link to the talk:
https://www.youtube.com/live/TIcZj-Oxcgc?feature=share
Kleros es una plataforma de justicia descentralizada que utiliza blockchain, inteligencia colectiva y mecanismos de incentivos criptoeconómicos para resolver disputas de manera rápida, barata y transparente. El documento describe los cuatro pilares de la justicia descentralizada, cómo funciona el sistema de Kleros para arbitrar casos, y cómo los tokens y mecanismos de incentivos aseguran resultados justos.
Este documento describe la necesidad de sistemas de justicia descentralizados para resolver disputas en entornos de Web3, y presenta a Kleros como una solución a este problema. Kleros utiliza un enfoque basado en tokens y jurados para arbitrar casos de manera eficiente, transparente y a bajo costo. También presenta nuevas tecnologías como Proof of Humanity para verificar identidades únicas y evitar ataques sibil en sistemas de gobernanza descentralizados.
The document introduces decentralized autonomous organizations (DAOs) as digital cooperatives built on blockchain that allow people to collaborate and govern projects in a decentralized way. It discusses some of the governance challenges for DAOs, such as how to resolve disputes and make rules given the risk of sybil attacks undermining voting systems. It also raises questions around the legal status of DAOs and compares their governance models to corporations and nation states. The document promotes Kleros as a decentralized court system that can help resolve disputes within the Web3 ecosystem.
How to Build in Web3 - Lesson 3 - Network EffectsFederico Ast
This is the third lesson of Kleros course "How to Build in Web3". The instructor is Federico Ast, co-founder and President at the Kleros Cooperative.
Web3 protocols typically operate as multi-sided platforms connecting different types of users. Their growth potential typically depends on their ability to create network effects. In this lesson, you will learn how to study your market structure and your different user types in order to create a network effects strategy.
The video to which this deck refers is this:
https://youtu.be/nA2Aq3XEY2A
Want to build on Web3? Apply to the Kleros Incubator here!
https://kleros.io/incubator/
Como Construir en Web3 - Clase 2 - Diseño de EstrategiaFederico Ast
Este es el deck de la segunda clase del curso de Kleros "Cómo Construir en Web3". El docente es Federico Ast, cofundador y Presidente de la Cooperativa Kleros.
El video al que se refiere el deck es el siguiente:
https://youtu.be/2UIN1IFQdA4
¿Quieres construir en Web3? ¡Aplica a la Incubadora de Kleros!
https://kleros.io/incubator/
Ready to Unlock the Power of Blockchain!Toptal Tech
Imagine a world where data flows freely, yet remains secure. A world where trust is built into the fabric of every transaction. This is the promise of blockchain, a revolutionary technology poised to reshape our digital landscape.
Toptal Tech is at the forefront of this innovation, connecting you with the brightest minds in blockchain development. Together, we can unlock the potential of this transformative technology, building a future of transparency, security, and endless possibilities.
Discover the benefits of outsourcing SEO to Indiadavidjhones387
"Discover the benefits of outsourcing SEO to India! From cost-effective services and expert professionals to round-the-clock work advantages, learn how your business can achieve digital success with Indian SEO solutions.
HijackLoader Evolution: Interactive Process HollowingDonato Onofri
CrowdStrike researchers have identified a HijackLoader (aka IDAT Loader) sample that employs sophisticated evasion techniques to enhance the complexity of the threat. HijackLoader, an increasingly popular tool among adversaries for deploying additional payloads and tooling, continues to evolve as its developers experiment and enhance its capabilities.
In their analysis of a recent HijackLoader sample, CrowdStrike researchers discovered new techniques designed to increase the defense evasion capabilities of the loader. The malware developer used a standard process hollowing technique coupled with an additional trigger that was activated by the parent process writing to a pipe. This new approach, called "Interactive Process Hollowing", has the potential to make defense evasion stealthier.