Korea has a vision to become the world's first ubiquitous ICT-based society by 2013 and rank among the top 20 economies by 2020. The government is pursuing this through its u-Korea initiative and 839 Strategy, which includes deploying technologies like RFID, wireless sensor networks, and ubiquitous computing applications across cities. One example is the Songdo u-City project, which will invest $1 billion to build a smart city of 200,000 residents integrated with ICT infrastructure and services. The u-City Forum is coordinating public-private partnerships to develop u-City models and technologies in cities like Seoul, Busan and Jeju.
Conecta latam2019 network challenges and business modeling for new low late...Alberto Boaventura
Intends to analyze the challenges for low latency services and upcoming new data opportunities. Describes the Internet data service waves: Internet Mobile; Internet of Things and now Tactile Internet, how low latency is becoming the king and new data services, the main attribute. Tactile Internet will open immersive services experience beyond current audiovisual ones, but it depends to understand the human sense reaction idiosyncrasies. Also for IoT, how latency will affect overall productive processes since new robotics control for Industry 4.0 to remote surgery. It introduces the Edge Computing as one the most important toll to reduce latency by facilitating data processing at or near the source of data generation. I.e., Edge Computing avoids the application data travels from the source to very far application and processing hosts. But the latency reduction does not have an unique strategy, and it requires to have transport network proper dimensioned and configured can certainly improve the network low latency. In addition, new transport architecture with simplification collapsing network layers, network aware multidomain control, automation etc. will be definitively imperative for optimizing latency for new critical applications. Improving processor performance using technologies beyond regular x86 servers, such as: GPUs, FPGA, DPDK etc, can reduce the time of workloads and delivering/returning data to user application with readiness.
In terms of low latency opportunities, accordingly to Chatan Sharma Consulting, Edge Internet economy will be over $4.1 Trillion worldwide. The initial growth will come from Edge serving existing use cases and will gradually be accelerated by the new use cases as the deployment becomes more widespread and developers learn to take advantage of the Edge Internet architecture for applications across industry domains in all major markets. But for MNOs, Edge Computing will open a several opportunities such as Service Integration, Managed Services, IaaS/PaaS/SaaS, new collocation business modelling etc. Besides latency, in general Edge Computing can bring an immediate benefit around local traffic offloading that implies in reducing overall CapEx cost. Higher Traffic Density can rapidly justify the Edge Computing deployment.
Who runs our future cities? It's the citizens. But they may not agree, not play along, not know. Rethinking cities requires rethinking the essence of our decisions, accountability and our responsibility to operate and participate in global marketplaces that are open and credible.
Citymart.com promotes a new approach to problem solving in cities, which has proven that by opening up problems, markets respond in entirely new ways - saving 80% of costs and delivering solutions to citizens 3x faster.
My first Qtel Group Keynote address at the Telecoms World Middle East 2012 conference in Dubai. Its been great fun to do this parting with Europe analysis and the Outlook for the next 8 years. As I will not be totally retired by 2020 please remember that you will be able to hold me accountable for some of my predictions ;-) The Good Ones, The Bad Ones and for sure The Ugly Ones ... Enjoy and shoot back!
Conecta latam2019 network challenges and business modeling for new low late...Alberto Boaventura
Intends to analyze the challenges for low latency services and upcoming new data opportunities. Describes the Internet data service waves: Internet Mobile; Internet of Things and now Tactile Internet, how low latency is becoming the king and new data services, the main attribute. Tactile Internet will open immersive services experience beyond current audiovisual ones, but it depends to understand the human sense reaction idiosyncrasies. Also for IoT, how latency will affect overall productive processes since new robotics control for Industry 4.0 to remote surgery. It introduces the Edge Computing as one the most important toll to reduce latency by facilitating data processing at or near the source of data generation. I.e., Edge Computing avoids the application data travels from the source to very far application and processing hosts. But the latency reduction does not have an unique strategy, and it requires to have transport network proper dimensioned and configured can certainly improve the network low latency. In addition, new transport architecture with simplification collapsing network layers, network aware multidomain control, automation etc. will be definitively imperative for optimizing latency for new critical applications. Improving processor performance using technologies beyond regular x86 servers, such as: GPUs, FPGA, DPDK etc, can reduce the time of workloads and delivering/returning data to user application with readiness.
In terms of low latency opportunities, accordingly to Chatan Sharma Consulting, Edge Internet economy will be over $4.1 Trillion worldwide. The initial growth will come from Edge serving existing use cases and will gradually be accelerated by the new use cases as the deployment becomes more widespread and developers learn to take advantage of the Edge Internet architecture for applications across industry domains in all major markets. But for MNOs, Edge Computing will open a several opportunities such as Service Integration, Managed Services, IaaS/PaaS/SaaS, new collocation business modelling etc. Besides latency, in general Edge Computing can bring an immediate benefit around local traffic offloading that implies in reducing overall CapEx cost. Higher Traffic Density can rapidly justify the Edge Computing deployment.
Who runs our future cities? It's the citizens. But they may not agree, not play along, not know. Rethinking cities requires rethinking the essence of our decisions, accountability and our responsibility to operate and participate in global marketplaces that are open and credible.
Citymart.com promotes a new approach to problem solving in cities, which has proven that by opening up problems, markets respond in entirely new ways - saving 80% of costs and delivering solutions to citizens 3x faster.
My first Qtel Group Keynote address at the Telecoms World Middle East 2012 conference in Dubai. Its been great fun to do this parting with Europe analysis and the Outlook for the next 8 years. As I will not be totally retired by 2020 please remember that you will be able to hold me accountable for some of my predictions ;-) The Good Ones, The Bad Ones and for sure The Ugly Ones ... Enjoy and shoot back!
Small Satellites: Landscape and Market - New Constellations - New Uses Cases ...Hugo Wagner
Constellations of small satellites—“smallsats”, i.e. low cost, low mass (1-150 kg) and small sized—
dominate the news today, touted in applications as wide-ranging as providing universal connectivity,
ubiquitous broadband coverage, and daily observation of the Earth. Today, a combination of
miniaturized commercial off-the-shelf components (COTS) and satellite technology, coupled with
advanced sensors, faster computing, and a need for better actionable imagery, have all acted to usher
in a new era for smallsats in the commercial market. In reality, increasingly reliable technology and
permissive regulation have enabled ambitious constellation projects that could threaten the
telecommunications industry and claim a non-negligible share of the emerging markets. This report
surveys the technical and entrepreneurial landscape and uses these insights to develop future
adoption scenarios for smallsats in key commercial applications. !
Silicon Valley is the locus of space entrepreneurship activity. From here, we observe
the following:
• smallsat companies want to provide worldwide internet access!
• smallsat companies are shaping a new wireless architecture!
• smallsat companies aim at providing cheaper data, voice and instant messaging services in remote areas!
• legacy satellite operators want to compete with cellular offers to provide connectivity to connected
cars, aircraft, and the Internet of Things ecosystem!
• satellite antenna manufacturers are bringing smaller, cheaper, more agile, and embedded antennas to
fit the market’s need for more mobility and capacity in order to allow for these applications.
"IT Sector Priorities in Brazil" - XII Encontro Nacional de Estudos Estratégicos (XII ENEE) - promovido pela Secretaria de Assuntos Estratégicos da Presidência da República (SAE/PR) em parceria com o Ministério da Defesa, nos dias 07, 08 e 09 de novembro de 2012, na Escola Naval, no Rio de Janeiro.
The term Intelligent Transportation Systems (ITS) was coined over two decades ago to designate applications of information and communication technologies to the operational management of transportation networks. The main promise of ITS has been very consistent over that period: network capacity can be freed up by optimizing traffic controls and empowering users with accurate travel information.
It can be debated how much faith practitioners and policy makers have placed in technology by investing their resources, as well as the extent to which Intelligent Transportation Systems have delivered on their promise. However, there is no question that steady and sometimes spectacular advances in computing technologies and usage trickle down to transportation applications in important ways. As a result, new products and services emerge continuously. They include systems that address the direct needs of networks managers, as well as others that are developed in tangential markets (e.g. automotive) or even through non-market mechanisms (e.g. many mobile web applications).
This talk presentation reviews major trends in information and communication technologies and demonstrate how each of them is driving innovative transportation services. We attempt to envision how those trends might develop in the future, so that we can finally examine some of their implications for travel demand and network management. There lie both challenges and opportunities for transportation engineers and planners, but either way, profound changes appear inevitable.
Future-Sat Africa, June 2016_concept documentAdrian Hall
Extensia's inaugural Satellite summit, scheduled for June 2016 in South Africa, will focus on satellite playing an essential role in Africa’s future digital communications strategy across all sectors.
De-risking the broadband business model was presented at Informa's Industry Outlook 2012. The starting point summarizes the challenges the incumbent Telco is facing with the emergence of the smartphone, mobile applications and social media. Then it takes you to the Digital Agenda 2020 for Europe and inspects what needs to happen to make it come through.
This presentation summarizes the many technology ideas and business models to achieve Ultra-efficient network operation while safeguarding customer quality and expectations. This work was presented at Informa's Broadband MEA conference in Dubai, 26th of Match 2012.
Perspectives on the optical fiber industry where do we go from herePulkit Bhatnagar
Strategy Paper on how successful countries and companies were driving Broadband (... and Optical Fiber usage) and what Fiber manufacturers could learn from these case studies.
First presented - June 2009
PRESENTATION FOR THE 2014 WORLD ENGINEERING CONFERENCE ON SUSTAINABLE INFRASTRUCTURE (WECSI) ORGANIZED BY WORLD FEDERATION OF ENGINEERING ORGANIZATIONS (WFEO) IN ASSOCIATION WITH THE NIGERIAN SOCIETY OF ENGINEERS (NSE) AT INTERNATIONAL CONFERENCE CENTER, ABUJA
2-7 NOVEMBER, 2014
Intelligent Transportation Trends chpt.9 - Prospective and ImplicationsNovavia Solutions
The term Intelligent Transportation Systems (ITS) was coined over two decades ago to designate applications of information and communication technologies to the operational management of transportation networks. The main promise of ITS has been very consistent over that period: network capacity can be freed up by optimizing traffic controls and empowering users with accurate travel information.
It can be debated how much faith practitioners and policy makers have placed in technology by investing their resources, as well as the extent to which Intelligent Transportation Systems have delivered on their promise. However, there is no question that steady and sometimes spectacular advances in computing technologies and usage trickle down to transportation applications in important ways. As a result, new products and services emerge continuously. They include systems that address the direct needs of networks managers, as well as others that are developed in tangential markets (e.g. automotive) or even through non-market mechanisms (e.g. many mobile web applications).
This talk presentation reviews major trends in information and communication technologies and demonstrate how each of them is driving innovative transportation services. We attempt to envision how those trends might develop in the future, so that we can finally examine some of their implications for travel demand and network management. There lie both challenges and opportunities for transportation engineers and planners, but either way, profound changes appear inevitable.
RFID F2F Anuga FoodTec 2012 - Speakers' Corner: RFID and WSN for food traceab...Marco Battistella
Farm to Fork is an open transnational food information framework which allows customers purchasing food products to access traceability information about the product.
Professor Robert Newman, from the University of Wolverhampton’s School of Technology (Project Coordinator), presented the RFID F2F project, that aims at showcasing to SMEs the benefits of Radio-frequency Identification from the producer to the consumer.
Two categories have been addressed and presented to the audience with focus with focus on wine and fish sectors (pilots by University of Vigo, Iñigo Cuiñas, and University of Ljubljana, Mira Trebar).
Small Satellites: Landscape and Market - New Constellations - New Uses Cases ...Hugo Wagner
Constellations of small satellites—“smallsats”, i.e. low cost, low mass (1-150 kg) and small sized—
dominate the news today, touted in applications as wide-ranging as providing universal connectivity,
ubiquitous broadband coverage, and daily observation of the Earth. Today, a combination of
miniaturized commercial off-the-shelf components (COTS) and satellite technology, coupled with
advanced sensors, faster computing, and a need for better actionable imagery, have all acted to usher
in a new era for smallsats in the commercial market. In reality, increasingly reliable technology and
permissive regulation have enabled ambitious constellation projects that could threaten the
telecommunications industry and claim a non-negligible share of the emerging markets. This report
surveys the technical and entrepreneurial landscape and uses these insights to develop future
adoption scenarios for smallsats in key commercial applications. !
Silicon Valley is the locus of space entrepreneurship activity. From here, we observe
the following:
• smallsat companies want to provide worldwide internet access!
• smallsat companies are shaping a new wireless architecture!
• smallsat companies aim at providing cheaper data, voice and instant messaging services in remote areas!
• legacy satellite operators want to compete with cellular offers to provide connectivity to connected
cars, aircraft, and the Internet of Things ecosystem!
• satellite antenna manufacturers are bringing smaller, cheaper, more agile, and embedded antennas to
fit the market’s need for more mobility and capacity in order to allow for these applications.
"IT Sector Priorities in Brazil" - XII Encontro Nacional de Estudos Estratégicos (XII ENEE) - promovido pela Secretaria de Assuntos Estratégicos da Presidência da República (SAE/PR) em parceria com o Ministério da Defesa, nos dias 07, 08 e 09 de novembro de 2012, na Escola Naval, no Rio de Janeiro.
The term Intelligent Transportation Systems (ITS) was coined over two decades ago to designate applications of information and communication technologies to the operational management of transportation networks. The main promise of ITS has been very consistent over that period: network capacity can be freed up by optimizing traffic controls and empowering users with accurate travel information.
It can be debated how much faith practitioners and policy makers have placed in technology by investing their resources, as well as the extent to which Intelligent Transportation Systems have delivered on their promise. However, there is no question that steady and sometimes spectacular advances in computing technologies and usage trickle down to transportation applications in important ways. As a result, new products and services emerge continuously. They include systems that address the direct needs of networks managers, as well as others that are developed in tangential markets (e.g. automotive) or even through non-market mechanisms (e.g. many mobile web applications).
This talk presentation reviews major trends in information and communication technologies and demonstrate how each of them is driving innovative transportation services. We attempt to envision how those trends might develop in the future, so that we can finally examine some of their implications for travel demand and network management. There lie both challenges and opportunities for transportation engineers and planners, but either way, profound changes appear inevitable.
Future-Sat Africa, June 2016_concept documentAdrian Hall
Extensia's inaugural Satellite summit, scheduled for June 2016 in South Africa, will focus on satellite playing an essential role in Africa’s future digital communications strategy across all sectors.
De-risking the broadband business model was presented at Informa's Industry Outlook 2012. The starting point summarizes the challenges the incumbent Telco is facing with the emergence of the smartphone, mobile applications and social media. Then it takes you to the Digital Agenda 2020 for Europe and inspects what needs to happen to make it come through.
This presentation summarizes the many technology ideas and business models to achieve Ultra-efficient network operation while safeguarding customer quality and expectations. This work was presented at Informa's Broadband MEA conference in Dubai, 26th of Match 2012.
Perspectives on the optical fiber industry where do we go from herePulkit Bhatnagar
Strategy Paper on how successful countries and companies were driving Broadband (... and Optical Fiber usage) and what Fiber manufacturers could learn from these case studies.
First presented - June 2009
PRESENTATION FOR THE 2014 WORLD ENGINEERING CONFERENCE ON SUSTAINABLE INFRASTRUCTURE (WECSI) ORGANIZED BY WORLD FEDERATION OF ENGINEERING ORGANIZATIONS (WFEO) IN ASSOCIATION WITH THE NIGERIAN SOCIETY OF ENGINEERS (NSE) AT INTERNATIONAL CONFERENCE CENTER, ABUJA
2-7 NOVEMBER, 2014
Intelligent Transportation Trends chpt.9 - Prospective and ImplicationsNovavia Solutions
The term Intelligent Transportation Systems (ITS) was coined over two decades ago to designate applications of information and communication technologies to the operational management of transportation networks. The main promise of ITS has been very consistent over that period: network capacity can be freed up by optimizing traffic controls and empowering users with accurate travel information.
It can be debated how much faith practitioners and policy makers have placed in technology by investing their resources, as well as the extent to which Intelligent Transportation Systems have delivered on their promise. However, there is no question that steady and sometimes spectacular advances in computing technologies and usage trickle down to transportation applications in important ways. As a result, new products and services emerge continuously. They include systems that address the direct needs of networks managers, as well as others that are developed in tangential markets (e.g. automotive) or even through non-market mechanisms (e.g. many mobile web applications).
This talk presentation reviews major trends in information and communication technologies and demonstrate how each of them is driving innovative transportation services. We attempt to envision how those trends might develop in the future, so that we can finally examine some of their implications for travel demand and network management. There lie both challenges and opportunities for transportation engineers and planners, but either way, profound changes appear inevitable.
RFID F2F Anuga FoodTec 2012 - Speakers' Corner: RFID and WSN for food traceab...Marco Battistella
Farm to Fork is an open transnational food information framework which allows customers purchasing food products to access traceability information about the product.
Professor Robert Newman, from the University of Wolverhampton’s School of Technology (Project Coordinator), presented the RFID F2F project, that aims at showcasing to SMEs the benefits of Radio-frequency Identification from the producer to the consumer.
Two categories have been addressed and presented to the audience with focus with focus on wine and fish sectors (pilots by University of Vigo, Iñigo Cuiñas, and University of Ljubljana, Mira Trebar).
This presentation gives the basic idea of Managerial Information System subject with the topic "RFID (Radio Frequency Identification) and Wireless Sensor System". It also includes the real-life applications of the same system.
WSN protocol 802.15.4 together with cc2420 seminars Salah Amean
WSN protocol 802.15.4 together with cc2420 seminars . It is based on the standand of ieee802.15.4 and data sheet of the radio transceiver cc2420.
Note that some slides are borrowed.
This slides about Wireless sensor network MAC protocol,
There are bunch of MAC protocol in research field.
It classify the MAC protocol and summarize the feature of typical sensor network MAC protcol
Intelligent Electric Power Management Using Zigbee with Advanced Metering Inf...Akbar Badusha
This project mainly focuses on reduction of power cut and power theft. The main reason for the power cut is shortage of power in the generation unit. We can rectify this problem through our project.
Whenever the generation falls behind a particular limit (it is set initially by EB) the power management system will automatically switched on. Power will be supplied to only the basic necessary equipment (as stated in the priority list) power to other load will be stopped so that huge amount of power can be saved without power cut.
In our project, this is achieved using NS2 software and using ZIGBEE. Whenever generation falls below the particular value, then the load will be automatically switched off based on priority. And it can also be done through an interrupt. Through ZIGBEE command the interrupt will be sent to microcontroller to cut the power to the particular load.
When microcontroller receiving the command, the relay will cut the power to the equipment. So the power will be saved.
In this project,the method to detect and to control the power theft is also stated. Other methods of power theft like damaging, by passing electrical power meter can also be detected and can be punished.
Man power can also be reduced. The power usage of the customer will be automatically updated in the EB station so there is no need of man power to take meter reading in the user side. After every two months the reading will be automatically resetted.
Intrusion detection in wireless sensor networkVinayak Raja
• Is a software application that monitors network or system activities for malicious activities policy violations and produces reports to a management station.
• OBJECTIVE: An Intrusion detection system (IDS) is software designed to detect unwanted attempts at accessing, manipulating, and/or disabling of computer mainly through a network, such as the Internet.
• PROBLEM SOLVED: Several types of malicious behaviors that can compromise the security and trust of a computer system. This includes network attacks against vulnerable services, data driven attacks on applications, host based attacks such as privilege escalation, unauthorized logins and access to sensitive files, and viruses. IDS solved this problem.
wireless sensor networks using zigbee and wifisunil raj kumar
the ppt presents a brief view of how we can transmit zigbee collected data to wifi transceiver and flow chart ,block diagram gives you a clear idea of how data are transmitting
Overview on security and privacy issues in wireless sensor networks-2014Tarek Gaber
Lecture Outlines
Why Security is Important for WSN
WSNs have many applications e.g.:
military, homeland security
assessing disaster zones
Others.
This means that such sensor networks have mission-critical tasks.
Security is crucial for such WSNs deployed in these hostile environments.
Why Security is Important for WSN
Moreover, wireless communication employed by WSN facilitates
eavesdropping and
packet injection by an adversary.
These mentioned factors require security for WSN during the design stage to ensure operation safety, secrecy of sensitive data, and privacy for people in sensor environments.
Algorithms to achieve security services
Symmetric Encryption
Asymmetric Encryption
Hash Function/Algorithm
Digital Signature
Why Security is Complex in WSN
Because of WSNs Characteristics:
Anti-jamming and physical temper proofing are impossible
greater design complexity and energy consumption
Denial-of-service (DoS) attack is difficult
Sensor node constraints
Sensor nodes are susceptible to physical capture
Deploying in hostile environment.
eavesdropping and injecting malicious message are easy
Using wireless communication
Why Security is Complex in WSN
Because of WSNs Characteristics:
maximization of security level is challenging
Resource consumption
asymmetric cryptography is often too expensive
Node constraints
centralized security solutions are big issue
no central control and constraints, e.g. small memory capacity.
Cost Issues
Overall cost of WSN should be as low as possible.
Typical Attacks to WSN
Physical Attacks
Environmental
Permanently destroy the node, e.g., crashing or stealing a node.
Attacks at the Physical Layer
Jamming: transmission of a radio signal to interfere with WSN radio frequencies.
Constant jamming: No message are able to be sent or received.
Intermittent jamming: Nodes are able to exchange messages periodically
Jamming Attack Countermeasure
Physical Attacks
Node Capture Attacks
routing functionalities
Countermeasure
tamper-proof features
Expensive solution
Self-Protection
disable device when attack detected
Attacks on Routing
Sinkhole attack
attacker tries to attract the traffic from a particular region through it
Solution:
Watchdog Nodes can start to trace the source of false routing information
Attacks on Routing
Sybil attack (Identity Spoofing)
attacker claims to have multiple identities or locations
provide wrong information for routing to launch false routing attacks
Solutions:
Misbehavior Detection.
Identity Protection
Privacy Attacks
Attempts to obtain sensitive information collected and communicated in WSNs
Eavesdropping
made easy by broadcast nature of wireless networks
Traffic analysis
used to identify sensor nodes of interest (data of interest),
WSN Privacy Issues Cont.
WSN Privacy Issues Attack
Trust and reputation in WSN
WSN Traditional Security Techniques
Cryptographic primitive
Big Data and Intel® Intelligent Systems Solution for Intelligent transportationOdinot Stanislas
Explications sur comment il est possible d'utiliser la puissance d'Hadoop pour analyser les vidéos des caméras présentent sur les réseaux routiers avec pour objectif d'identifier l'état du trafic, le type de véhicule en déplacement et même l'usurpation de plaques d'immatriculation.
U-City: New Trends of Urban Planning in Korea Based on Pervasive Ubiquitous G...Beniamino Murgante
U-City: New Trends of Urban Planning in Korea Based on Pervasive Ubiquitous Geotechnology and Geoinformation - Myungjun Jang - Institute of Urban Sciences, University of Seoul
Data is the next big revenue driver for Indian Telcos. This presentation provides the perspective on business, consumers, demographics, segmentation and broadband data.
Day 2 Chang-Hai Liu - China Telecom - Smart CityAdrian Hall
A smart city uses digital technologies to enhance
performance and well-being, to reduce costs and
resource consumption, and to engage more effectively
and actively with its citizens.
Unfolding the Industry Blueprint of an Intelligent World —Huawei Global Indus...Huawei Technologies
Huawei has released its Global Industry Vision (GIV) 2025, a new forward-looking report that provides quantitative and qualitative predictions about the future of industry and society.
Relying on Huawei's own business strengths and insights into industry trends, GIV 2025 has its own unique research methodology. It adopts a mix of data and trend analysis to elaborate on global ICT trends and lay out the blueprint for the ICT industry. The data used in GIV 2025 spans more than 170 countries and regions. This report covers three dimensions (all things connected, all things sensing, and all things intelligent) and 37 metrics, including the amount of data generated, the percentage of enterprises that adopt artificial intelligence (AI), and the number of personal smart devices.
According to the report, by 2025 all things will be able to sense and all things will be connected, bringing us all into a world where everything is intelligent. GIV 2025 predicts that by 2025, the number of personal smart devices will reach 40 billion and the total number of connections around the world will reach 100 billion, creating a digital economy worth US$23 trillion.
Digital Cities Conference 2007 - The Social and Economic Impact of a Metropol...Nirvesh Sooful
The 3rd Annual BMI-T Digital Cities Forum is a two day event held on the 4th and 5th of October 2007 .
The City of Cape Town is in the process of installing its own broadband telecommunications network. It is envisaged that not only will this network result in considerable cost savings for the City itself, but also has the potential to bring about significant social and economic benefits to the city at large. The objective of this presentation is to identify, explore and, where possible, quantify the potential economic and social benefits that would be generated as a result of the proposed broadband network.
Smart city can be understood as a city IT project. But City IT is quite different from office IT. This slide explains difference between City and Office IT and shows ways to build a smart city successfully based on experiences from Korea and Seoul in particular.
Similar to RFID & WSN Applications for u-City (20)
Intangible assets, which account for up to 90% of a company's value, especially patents, which make up the largest proportion of these assets, are hardly ever utilized for corporate value creation despite their value. In this presentation, I introduce patent management solutions for the development of patents that can contribute to corporate value creation, using the latest digital technologies such as AI, blockchain, and Web 3.0. I also introduce measures to maximize the financial use of patent assets secured through such patent management. In particular, I will look into the domestic and overseas trends of STO (Security Token Offering), which have recently been gaining attention in S. Korea, and learn about strategies and methods for patent asset STO.
The Metaverse x AI x Web3 x Sustainability convergence presents a future vision that transforms how we interact with the digital realm, combining the expansive, immersive qualities of the Metaverse, the advanced computational abilities of AI, the decentralized nature of Web3, and the global imperative of sustainability.
Metaverse and AI Integration: AI technologies shape the Metaverse to be an immersive, interactive, and deeply engaging digital universe. Tools like the Meta AI Builder Bot, Nvidia's GANverse3D/GET3D, and Magic3D create 3D environments and objects, contributing to the Metaverse's realism. Lifelike human avatars, AI-powered digital fashion design, and immersive shopping experiences further enrich user engagement. Additionally, the Metaverse can become a testing ground for AI innovation, enabling developers to leverage its vast data generation and system testing capabilities.
AI and Web3 Integration: AI fortifies the decentralized Web3 ecosystem, creating unique digital assets for Non-Fungible Tokens (NFTs) and potential markets within the Metaverse. Furthermore, AI's capability to automate DeFi processes paves the way for more efficient, accessible financial services in the decentralized digital economy.
Web3 and Metaverse Integration: Blockchain technologies, the backbone of Web3, could be woven into the fabric of the Metaverse, giving rise to novel, decentralized commerce systems. It can enable peer-to-peer transactions and build decentralized marketplaces, providing users with greater control over their economic interactions in the virtual realm.
Metaverse and Sustainability Integration: The Metaverse offers a virtual platform to drive sustainable initiatives, reducing real-world resource consumption. In the Metaverse, renewable energy systems could be simulated and managed, virtual stores could advocate for sustainable products, and virtual factories could optimize sustainable manufacturing processes and supply chains. Furthermore, it could serve as a prototyping platform for sustainable smart cities, providing an efficient way to plan, simulate, and refine before real-world implementation.
To conclude, the convergence of Metaverse, AI, Web3, and Sustainability initiates a transformative movement toward a digital ecosystem that's immersive, intelligent, decentralized, and sustainable. This synergy could redefine digital experiences, promote efficient and fair economic interactions, and support global sustainability goals, signifying a new dawn in our digital evolution.
Tokenization, securitization, and monetization of real-world assets refer to the process of converting traditional assets into digital assets that can be traded, managed, and invested in a new way. Tokenization involves the creation of a digital token that represents ownership or a proof of authenticity of a real-world asset. The token can be traded on blockchain-based platforms, providing a secure and transparent record of ownership and enabling the creation of new markets for these assets. Securitization refers to the process of pooling together a set of assets and creating new securities backed by the underlying assets. In the context of tokenization, securitization involves the creation of asset-backed tokens that represent ownership in a portfolio of assets. Monetization refers to the process of generating revenue from an asset. In the context of tokenization and securitization, monetization can involve selling tokens or securities, licensing assets, or generating income from the underlying assets.
This webinar is designed to explore the tokenization, securitization, and monetization of real-world assets that have the potential to revolutionize the way we trade, manage, and invest in real-world assets, and to create new markets and opportunities for investors and asset owners.
Agenda:
Asset‐Backed Tokens
Security Token Offering (STO)
Securitization of Real-World Assets
NFT & DeFi for Securitization and Monetization of Real-World Assets
Metaverse for Monetization of Real-World Assets
Case Studies: Real Estates, Securities, Intangible Assets
IP Asset Tokenization, Valuation, Monetization: IPwe SIAM Platform
Patent information can be utilized in various ways depending on how it is understood. I have devised a method to extract useful insights for the development of new products or services from patents in specific technology fields by using the analysis and cognition capabilities of GPT-4 based ChatGPT. I have applied this to the fields of generative AI, metaverse, and Web3-based fintech.
For the case study, in the generative AI field, I examined Google's patent US10452978 "Attention-based sequence transduction neural networks" (this patent describes the transformer architecture, which is the basis of most large language models (LLMs) for generative AI); in the metaverse field, I looked at Meta's patent US11302063 "3D conversations in an artificial reality environment"; and in the Web3-based fintech field, I explored nChain's patent US10776761 "Virtual currency system."
I input into ChatGPT a guideline consisting of five key steps: identifying the main purpose of the patent invention, summarizing the technological innovations in the patent claims, describing potential products or services based on the technology, identifying the main industry participants, and evaluating competitive advantages. For more details, please refer to the attached file and evaluate the level of results at your discretion.
The outputs generated from the method described can provide valuable insights for various business applications:
Patent licensing promotion: By identifying the main purpose, technological innovations, and potential products or services related to a patent, businesses can better understand the value proposition of their intellectual property. This information can be used to showcase the benefits of the patented technology to potential licensees, making it more appealing for them to enter into licensing agreements. Thus, you can more effectively promote patent licensing.
Finding potential infringement: Summarizing the technological innovations in the patent claims helps businesses clearly understand the scope of their intellectual property protection. By comparing this information with competing products or services in the market, they can identify potential infringement cases and take appropriate legal actions to protect their intellectual property.
M&A target identification: Evaluating competitive advantages and identifying the main industry participants can help businesses spot potential acquisition targets. Companies with complementary technologies, strong market presence, or unique intellectual property could provide strategic opportunities for growth through mergers and acquisitions.
Product or service market fit: Describing potential products or services based on the patented technology can help businesses identify new opportunities for product development or market expansion. By understanding the potential applications and market demand for a particular technology, businesses can better tailor their offerings to meet customer needs.
Represented by ChatGPT, Artificial Intelligence (AI) has become increasingly important in business over the past few years, and it has the potential to revolutionize many industries. One way to maximize the business value of AI is through patents. This webinar is designed to explore the strategy and practical ways to maximize the business value creation of AI utilizing patents.
Agenda
The state of the art AI innovation
AI innovation insight from patents
Commercial utilization of AI patents
Financial utilization of AI patents
AI patent development considering future technology/market evolution
IPwe SIAM platform for maximizing AI business value creation utilizing patents
Real-World Assets STO + Institutional DeFi Integration
Institutional DeFi refers to tokenize real-world assets with regulatory compliance and institutional-level controls for consumer protection. One of the main benefits of Institutional DeFi is the potential to transform the traditional financial system by making it more transparent, efficient, and accessible while maintaining the necessary safeguards for investor protection and financial stability. This can lead to new products, cost reduction, and faster settlement times for financial institutions.
STO (Security Token Offering) of real-world assets involves the issuance of security tokens that represent ownership of a real-world asset, such as a share of stock, bond, or real estate property. The tokenization and securitization process is carried out by an issuer who follows the necessary regulatory requirements. These security tokens can be listed, distributed, and traded on Institutional DeFi applications to automate various processes such as trading, settlement, and custody. This allows for greater security, efficiency, transparency, and liquidity.
#defi #fundraising #sto #tokenization #nft #securitization #security
Presentation of the Interoperable Metaverse x Web3 Development Webinar
Agenda:
Challenges in Building Interoperable Metaverse
3D Objects/Contents/Avatars/Assets Cross-Metaverse Interoperability
NFT Cross-Chain Interoperability
Interoperability in Metaverse Fashion
Metaverse Interoperability Standards
Speakers
Mikeldi Rodriguez, Metaverse Creative Technologist at Telefónica
"Avatar Interoperability Based On Metadata"
Leo Hilse, Founder at STYLE Protocol
"STYLE Protocol: NFT Inter-Metaverse Interoperability"
Alain Dessureaux, CTO at SpatialPort
"SpatialPort's Interoperable 3D eCommerce Platform"
This webinar is designed to explore the state of the art AI innovation and business applications for the web3 based metaverse development.
Agenda:
AI for Building Metaverse World
AI for 3D Objects/Contents/Avatars Creation
AI for Metaverse Commerce
AI for Metaverse Fashion
AI for NFT
AI for DAO
IP Issues with AI Created Assets
[Reminder] NFT•Web3•Metaverse Global Leaders Roundtable
Thais is a reminder that the NFT•Web3•Metaverse Global Leaders Roundtable will begin in three days on December 1 (Thursday) 2022, 12 pm ET (https://www.linkedin.com/events/nft-web3-metaversegloballeaders6988852388136640513/about/).
This roundtable is a hybrid Zoom + Metaverse event. At the start of the event, all participants will join the Zoom for a scheduled speaker introduction and networking. Those who want to participate in the metaverse event will join after the Zoom event.
Schedule:
12:00 - 12:05 EST "Introduction" Alex G. Lee, CEO & Founder at TechIPm
Part I. Zoom Meeting
12:05 - 12:20 EST “Reviews of NFT•Web3•Metaverse Global Leaders Presentations” Alex G. Lee
12:20 - 13:00 EST Speaker Introduction & Recap”
Matteo Gamberale, Founder & CEO at Zappy
Jens Laugesen, Founder at JENS_LAUGESEN DESIGN ADVISORY & KONsensX
Ofer Rubin, 3D/XR Executive Advisor at RealeyeZ3D
Erich Spangenberg, CEO & Co-Founder at IPwe
Tapan Lala, Founder at ZcureZ
Husam Yaghi, Group VP at Mawarid Media & Communications Group
Alex Bellesia, CEO & Founder at Spatial Port
Nick Cherukuri, CEO & Founder at ThirdEy
Doug Hohulin, Affiliate Faculty at Kansas University School of Nursing
Ruben Sananes, CEO & Founder at IMRSIVE
Se-Joon Chung, CEO & Co-Founder at AForm
James Costa, Founder at Clubhouse Archives
Tom Wallace, Founder at CreatedBy DAO
Aditya Mani, Founder at YOLOgram app
Aline Conus-Moulin, Managing Partner at E-NOTAM Ltd.
Vandana Taxali, Founder & CEO at Artcryption
Alex Di Giovanni, Founding Lawyer at Pando Law
13:00 - 13:15 EST
“Guidance for the Metaverse Event Places " Alex G. Lee
Part II. Metaverse Meeting
At the Metaverse Campus’ Lecture Hall (https://www.challau.com/college/techipm)
13:15 - 13:30 EST "Present and Future of NFT•Web3•Metaverse" Presentation by Doug Hohulin,
At the Metaverse Networking Place (https://www.challau.com/town-square/alex-g--lee)
13:30 - 14:00 EST “Networking with Speakers”
The fashion industry represents the estimated global revenues of $1.5T.
The global counterfeiting industry is expected to hit the $4.2T mark by 2022.
References
The fashion industry lost more than $50B in 2020 due to the sale of the counterfeit products:
Clothing appears to be the most counterfeited product followed by cosmetics and personal care, watches and jewelry, handbags and luggage.
The COVID-19 pandemic accelerates the digital transformation globally, and the fashion industry is no exception.
Citi expects the metaverse economy as large as $13T by 2030 and Gartner predicts that , and Gartner predicts that 25% of people will spend at least one hour a day
in the metaverse by 2026.
The creator economy has already exceeded a $100B market size. The NFT
market reaches $1.05T. The wearable NTF market is expected to be $11B in 2022.
Fashion industry lends well to the metaverse where the ecosystem includes metaverse fashion digitalization, metaverse fashion house/brand,
Ph i l f hi h d f hi k l il d h f hi k i d ygitalwear, metaverse fashion show and metaverse fashion marketplace/retail, and the metaverse fashion market is expected to increase
up to $55B by 2030.
As sustainability became the mainstream business the anti , the anti-sustainability and anti-circularity nature of the fashion business place
the sustainability as the top priority agenda in the fashion business practices.
Fashion digitalization and the metaverse fashion can be a potential solution for mitigating the anti-sustainability and anti-circularity nature
TechIPm, LLC
of the fashion business.
Gen Z and Gen Alpha become the future big spenders and sustainability advocates in fashion.
Schedule
12:00 - 12:10 EST
"Introduction" Alex G. Lee, CEO & Founder at TechIPm
12:10 - 12:25 EST
“JENS LAUGESEN X META\SENS Digital Collaboration in London Fashion Week” Jens Laugesen, Founder at JENS_LAUGESEN DESIGN ADVISORY
12:25 - 12:40 EST
"Ecoolska: Phygital Sustainable Fashion Brand" Olska Green, Founder at Ecoolska
12:40 - 12:55 EST
"WEARSPACES: Dress like a game-changer in Metaverse & IRL" Julien Chmilewsky, Co-Founder at WEARSPACES
12:55 - 13:10 EST
"Innovation in Fashion Brands Metaverse Shopping Experiences" Ruben Sananes, CEO & Founder at IMRSIVE
13:10 - 13:25 EST
"NEOMODEST: Inclusive, Accessible, Decentralized Metaverse Fashion" Afroja K, Founder at NEOMODEST
13:25 - 13:40 EST
"XTENDED iDENTiTY: The Experiential Digital Fashion Lab" Xing Yunjia, Co-Founder at XTENDED iDENTiTY
13:40 - 13:55 EST
“GAD (Garment Automated Digitisation)” Pietro Dalpane, CEO & Co-Founder at DeepGears
13:55 - 14:10 EST
"Fostering Interoperable Digital Fashion Through Graphics Technology" Se-Joon Chung, CEO & Co-Founder at AForm
14:10 - 14:25 EST Coffee Break
14:25 - 14:40 EST
“3D Garment Creation to Simulation - Connecting Digital Fashion with Digital Human” Kenneth Ryu, CSO at z-emotion
14:40 - 14:55 EST
"A Luxury Fashion Brand & Web3 Marketplace" James Costa, Founder at Clubhouse Archives
14:55 - 15:10 EST
"Marketing Digital Fashion with Avatar Generated Content" Diego Rios, Founder at Animalz
15:10 - 15:25 EST
"CreatedBy DAO: A Phygital NFT Ecosystem" Tom Wallace, Founder at CreatedBy DAO
15:25 - 15:40 EST
"MaisonDAO: Decentralized Digital Fashion Brand and ArtTech Collective" Elena Nazaroff, Co-Founder at MaisonDAO
15:40 - 16:05 EST
"Browzwear Innovative 3D Digital Fashion Solution" Afsha Iragorri, 3D Fashion Designer at 3D Fashion Solutions
16:05 - 16:20 EST
“Innovative 3D Digital Fashion Design” Olesya Pupchenko, Director at Global Rise Group
Agenda
Metaverse Fashion Design
Interoperable Metaverse Fashion
NFTs for Metaverse Fashion
Web3 for Metaverse Fashion
Metaverse Fashion Commerce
NFT financialization refers to bringing NFTs closer to financial use, mostly, by making NFT useful in DeFi protocols. NFT financialization is the most important element of NFT monetization innovation to overcome the low liquidity and high price volatility of almost all NFTs currently.
NFT Fractionalization splits a NFT into smaller fungible tokens that represent partial ownership of the NFT. The NFT is locked in a smart contract and the ownership remains with the original holder. Fractionalization can unlock liquidity for NFT owners and cheapens access to valuable NFTs, and improves the NFT market spectrum. An issue with fractionalization is a reconstitution after ractionalization. Buyout auctions alleviate the reconstitution problem to some extent.
*NFT fractionalization protocols: NFTX (https://nftx.io/), Fractional (https://fractional.art/), NFT20 (https://nft20.io/), Unic.ly (https://www.unic.ly/), Szns (https://www.szns.io/)
NFT Lending uses NFT as collateral for loans. In peer-to-peer lending, borrowers and lenders manually negotiate and come to an agreement for loan terms such as duration, interest rates and loan-to-value ratios in a peer-to-peer fashion. This lending enables a customizable loan terms without a need to rely on price oracles. Because the matching process is manual time-to-liquidity may be slow. In peer-to-pool lending, liquidity providers fungible tokens into pools and borrowers take up loans from these pools instantaneously. Borrowers should put up their NFTs as collateral by locking them in smart contracts (digital vaults). This lending, however, must rely on price oracles to automate loan terms.
*Peer-to-peer NFT lending protocols: NFTfi(https://www.nftfi.com/), Arcad (https://www.arcade.xyz/), MetaStreet (https://metastreet.xyz/)
*Peer-to-pool NFT lending protocols: Bridgesplit (https://www.bridgesplit.com/), BendDAO (https://www.benddao.xyz/en/, PINE (https://pine.loans/), JPEG’d (https://jpegd.io/)
NFT Rental market is where NFT owners can rent out their NFTs to receive income and renters can rent NFTs to use but without owning them. In collateral renting, renter has to put up collateral to rent the NFT to use (e.g., reNFT (https://www.renft.io/). Collateral-free renting separates ownership and utility of an NFT (e.g., IQ Protocol (https://iq.space/#top).
NFT Price Discovery uses AMMs (Automated Market Makers)/bonding curves for an automatic price discovery in DeFi exchange liquidity pools (e.g., Uniswap and Sushiswap).
*NFT Price Discovery protocols: Sudoswap (https://sudoswap.xyz/#/), Pilgrim (https://pilgrim.money/), Rootswap (https://rootswap.xyz/)
I. Metaverse Digital RevolutionMetaverse Revolution ImperativesMetaverse Present and Future InfographicsMetaverse Industry ApplicationsII. Metaverse Technology InnovationWhy Metaverse Now?Meta Metaverse XR Device PrototypesApple Metaverse XR Device Insights from PatentsRoblox Metaverse Game Platform Innovation Insights from PatentsDigital Twin Innovation Insights from PatentsMetaverse Patents Development Boom3D Metaverse Space Development: 3D Rendering 3D Metaverse Space Development: 2D to 3D Translation 3D Metaverse Object Development: 2D to 3D ConversionInteractive Experience Design: Multi-Sensory PerceptionVirtual Product Development: NFT Digital AssetsMeatavere Application Development: Retail ShoppingMeatavere Application Development: Automotive ShowroomMeatavere Application Development: TourMeatavere Application Development: MeetingMeatavere Application Development: Smart FactoryMetaverse Enterprise PlatformMetaverse Enterprise Platform System Components
III. Metaverse Business Development: Metaverse BM & InvestmentExperience EconomyMetaverse User Experiences (MUXs)Metaverse BM Innovation for New Experience EconomyMetaverse Angel/VC Investors IV. Metaverse Economic SystemNFT Functions and Legal Status NFT + DeFi ConvergenceMetaverse Economic System ComponentsMetaverse Economic System ArchitectureV. Metaverse + ESG ConvergenceESG/Sustainability ImperativeMetaverse Renewable Energy System ManagementMetaverse Factory for Sustainable Manufacturing/Supply ChainMetaverse for Sustainable Smart City Development Metaverse NFT/DeFi Based Sustainable FinancingDesigning Sustainable Metaverse Experiences (SMXs)Metaverse Impact on EnvironmentMetaverse Impact on People/Society
This webinar is designed to explore the innovative NFT monetization through the convergence of NFT securitization and DeFi.
Agenda
Reviews of NFT Monetization
NFT Valuation
NFT IP Licensing
NFT + DeFi Convergence: MetaFi, GameFi, DAOFi, ...
NFT Securitization Development
Legal Challenges of NFT Securitization
NFT Securitization Use Cases
NFT Securitization + DeFi Convergence
Schedule:
12:00 – 12:15 ET, Alex G. Lee
"Introduction & Overview"
12:15 – 12:30 ET, Ted Kim
"XBRIK: NFT Securitization & Brick Exchange & IBO DeFi Platform"
12:30 – 12:45 ET, Aditya Mani
"In-app monetization of NFTs for Style"
12:45 – 13:00 ET, Aline Conus-Moulin
"NFT Valuation: Challenges & Solutions"
13:00 – 13:15 ET, Yael Tamar
"NFTs in Real Estate"
13:15 – 13:30 ET, Vandana Taxali
"NFT IP Rights Licensing: Deep Dive"
13:30 – 13:45 ET, Joshua Hale
"NFTDAOs not spelled S A F E: Why the most interesting things you can do in crypto can land you in hot water!"
13:45 – 14:00 ET, Alex G. Lee
(Optional) Q&A/Discussion
KVA 한국기업·기술가치평가협회 주관으로 열린 웹3.0기반 메타버스 응용을 위한 NFT 가치개발과 가치평가 특강
내용:
메타버스, 웹3, NFT에 대한 기본을 이해하고 웹3 기반 메타버스 응용을 위한 NFT 가치개발에 대한 동향과 전망을 알아보고 NFT 수익화를 위한 NFT 지적재산(IP) 개발과 NFT 가치평가에 대해 알아본다.
세부내용:
기본과정 (1시간)
메타버스의 이해
웹3의 이해
NFT의 이해
고급과정 (1시간)
NFT 웹3 기반 메타버스 응용을 위한 가치개발
웹3 기반 메타버스 응용 NFT 지적재산 개발
웹3 기반 메타버스 응용 NFT에 의한 수익화
웹3 기반 메타버스 응용 NFT의 가치평가
This webinar is designed to explore the current status of the NFT ecosystem and monetization potentials exploiting the web3 based metaverse. If you are a tech-savvy IP legal professional, you will be interested in legal challenges and opportunities with the NFT/Web3/Metaverse/Cryptocurrency.
Please join on September 22 (Thu) at 12:00 ET to learn from legal experts in NFT, Web3, Metaverse, Tokenization, Intellectual Property:
"NFT IP Rights: Monetization Opportunities & Legal Challenges" from Vandana Taxali, Founder & CEO at Artcryption
"Legal Challenges of Web3 Gaming Studios and Platforms" from Andrew Cripps, Founder at MetaCounsel
Agenda:
Utility NFT for Metaverse Monetization
NFT for Customer Loyalty Program 3.0
NFT for X2E (Play-to-Earn, Wear-to-Earn, ...)
NFT Interoperability
NFT Valuation
NFT for Web2/Legacy to Web3/Metaverse Business Transition
NFT for Creator/Experience Tokenomics
NFT based Monetization for Metaverse Fashion & Other Industries
NFT for Monetizing IP Portfolio Development (NFT IP Securitization)
NFT IP Rights Legal Issues
NFT + DeFi Convergence: MetaFi, GameFi, DAOFi, ...
NFT for Physical + Virtual Convergence Economy/Commerce
Future of NFT: Composable NFT, Dynamic NFT, Consumable NFT, ...
Other speakers/topics:
"The Future of NFT" from Mohamed Hafiz, Advisor at First Abu Dhabi Bank
"NFT based Monetization for Metaverse Fashion & Other Industries" from Nova Lorraine, Director at Raine Drops NFT Art House
"Phygital Fashion with NFTs" from Fahmid Uddin, Founder at M3RCH.xyz
"Interoperable NFTs for GenZ: Gaming and Fashion" from Matteo Gamberale, Founder & CEO at Zappy
"NFT for Web2/Legacy to Web3/Metaverse Business Transition" from Gianfranco Lopane, President at Smarterverse
"Your Digital DNA & NFT: Monetization of Digital Identity in the Metaverse" from Kelvin Troy, CEO at Cross-Metaverse Avatars LLC
Fame Universe (https://fameuniverse.xyz/) is a platform builder that hyper connecting fashion “From Physical to Digital And From Digital to Physical.” Fame’s mission is to lead the “Sustainable Metaverse Fashion Ecosystem” that nourishes existing physical and digital fashion universes where we can build, create, enjoy, play, earn and shop in a sustainable way.
Fame Platform
Patent pending Fame platform is a sustainable metaverse fashion ecosystem building platform that provides a play ground where the ecosystem players and stakeholders can co-create a sustainable metaverse fashion ecosystem. Fame platform provides the interfaces for the ecosystem players and stakeholders can cooperate synergetically to build sustainable metaverse fashion ecosystem more efficiently and effectively. Fame platform provides/integrates the tools/solutions/knowledge/expertise for supporting a sustainable metaverse fashion ecosystem development.
Fame Fashion NFT Monetization Platform
Patent pending Fame fashion NFT monetization platform (FameFiTM) is a core element of the fame platform.
FameFiTM is designed to provide most innovative fashion monetization solution that can maximize opportunities and resolve many challenges in fashion NFT monetization.
FameFiTM is designed to employ various innovative monetization methods including fashion IP NFT licensing, securitization and NFTFi for maximizing monetary rewards to the Fame ecosystem/community members and for enabling financially sustainable Fame metaverse fashion ecosystem development.
FameFiTM is designed to resolve many legal issues in fashion NFT monetization and overcome several huddles in the fashion NFT valuation.
FameFiTM is designed to innovate the fashion NFT value creation through NFT scarcity, utility and sustainable tokenomics development.
C: The metaverse is designed to give like-minded communities of common interests digital sandboxes to play, earn, own, and socialize.
U: The decentralized economy is user controlled, not centrally governed.
T: The metaverse experience is possible through Web 3.0 technology, such as blockchain, 5G networks, VR, AR, and cloud computing.
E: Experiences and interactions give NFTs greater utility, which drives greater value.
R: A connection to the real world gives the metaverse value beyond entertainment as it augments real-world experiences and offers the potential for real financial gains as well.
Fame Universe (https://fameuniverse.xyz/)
Fame is a platform builder that hyper connecting fashion “From Physical to Digital And From Digital to Physical.”
Fame’s mission is to lead the “Sustainable Metaverse Fashion Ecosystem” that nourishes existing physical and digital fashion universes where we can build, create, enjoy, play, earn and shop in a sustainable way.
Fame Platform
Fame platform is a sustainable metaverse fashion ecosystem building platform that provides a play ground where the ecosystem players and stakeholders can co-create a sustainable metaverse fashion ecosystem.
Fame platform provides the interfaces for the ecosystem players and stakeholders can cooperate synergetically to build sustainable metaverse fashion ecosystem more efficiently and effectively.
Fame platform provides/integrates the tools/solutions/knowledge/expertise for supporting a sustainable metaverse fashion ecosystem development.
Fame Platform Design
Fame platform is designed to provide a simple way of embracing digital/web3 fashion business for legacy/web2 fashion business.
Fame platform is designed to provide a community building solution that the ecosystem players and stakeholders can participate with self-sovereignty and consensus.
Fame platform is designed to employ various innovative monetization methods for increasing market scalability.
Fame platform is designed to be modular considering current technology limitations and emerging technology expectations.
Fame platform is designed to resolve fashion’s inherent sustainability/circularity issues.
3. u-Korea Vision
Leading the ubiquitous ICT
based society
Inovative social system 10th in world's leading
world s
World's first ubiquitous ICT 15th in world's leading contury with 30,000$ GNP
based society contury with 25,000$ GNP
20th in world's leading u-Korea
contury with 20,000$ GNP u-Korea li ti
realization
development ( ‘13~)
‘13~
u-Korea
(‘08~‘12)
entry
(‘05~‘07)
IT 839 Strategy
8 Services 3 Infra 9 growth power
g p
• N-Mobile Com.
• WiBro
• Digital TV
• DMB
• BcN
B N •HHome Networks
N t k
• Digital Home
• IT SoC
• Tele-Car
Tele-
• USN(RFID, WSN) • N-PC
• RFID Applications
• Imbeded S/W
• W-CDMA
• IPv6 • Digital Contents
• DTV
• Telematics
• VolP
• Intelligent Robots Source: MIC
4. USN (RFID/WSN) Test Bed Projects
( ) j
Budget: 15 M$; Timeline: 2004-2006
Evolution form passive RFID to Active RFID & Wireless Sensors
government Ammunition Bio-hazardous
supply items management waste management
Gesung Korean Air Focrce
management
Trade Industy Park F-15K Fighter
logistics logistics system parts management
system
2005
2004 Korean beef
K b f
cattle National
tracking system Modern
Museum
Service
Beef products Incheon Airport
Incheon Airport freight management system
tracking system baggage management
Source: NCA
6. What is u-City?
u-City(ubiquitous computing city) is the quot;Korea's 21C ICT mediated Cityquot;,
in which advanced ICT infra and ubiquitous information services are
intrageted into the city space providing high convience and quility for
everyday city life, highly secured and well managed city environment, and
creation of new business.
Fostering the u-City project as korea's future ICT Strategy
Ubiquitous information services based on
advanced ICT i f create new city values
d d infra t it l
Considering the ICT infra and services at the
initial stage of city development
Concentrating the full effort of allied industries, academics,
government and civil experts for the development of u-City
8. u-City Forum
u-City is for creating ICT converged construction industries and securing
the growth phase of ICT industry by maximizing the synergy effect
between the world top level ICT infrastructure and the most active city
construction industry in Korea.
The u-City F
Th u-Cit Forum is a non-profit organization fostering the u-Cit
i non- fit i ti f t i th u-City
proliferation project as a Korea’s future economic growth strategy.
The main goal of the u-City Forum is to concentrate the full effort of allied
u-
industry, government and civil experts for the development of u-City
u-
application service models and related technology.
pp gy
The major members of the forum are high-tech heavyweights such as KT,
high-
SKT, Samsung, LG, government agencies including the NCA, MIC and
Ministry of Construction and Transportation, and city developers such as
the Korea Land Corp. and Korea Housing Corp.
11. Incheon Songdo u-City
Source: NSC LLC
209,000 sq km and total population of 200 K ubiquitous
computing model town in the songdo district will be
p g g
complete by 2014.
total $1 B investment from the NSC + LG CNS
RFID/WSN Industy Support Center Global retail DC
Time line : 2005~2010
Budget : 0.8B$(0.3B$ from the government) Park
Business Center
RFID/WSN Fab
RFID/WSN Chip Hospital
Packing Lab
RFID Tegs
School
WSN Prototype
IT Biz cluster
Test Lab
Certification Engineering Lab Techno-park
Tests
T
technical support
R&D facility BT cluster
new port
12. Busan u-City
Budget: 1 B$; Timeline: 2005-2010
u-Traffics(ITS)
•Yard
•Asset •Asset
info tracking •custom •Custom
C t
•active
•hosue
•logistics •RFID •control
•company •Asset •center •freight
Airport tracking •Airport
City Hall
•agency
g y
•Work order
•scheduling •Busan
u-Convention
Center •city
Busan BEXCO •WiFi
auto cluster
Port •/CDMA
u Port
u-Port
u-Logistics
Source: KT
14. u-City Applications
elderly
parking care
management
street tour
Everyday guide
management Traffics
Life
Environment
cleaning disaster
monitoring
it i
15. Mobile RFID Services
Mobile RFID Forum: 67 Companies including Samsung
Electonics & SKT
Source: Korea Mobile RFID Forum
18. System Architecture
y
Information Terminal
User
Handset Mobile
PDA PC
Phone
Application
Back-
end Monitoring &
Telemetry/ Multimedia video
System Control and various
Telematics
System sensing data can
be viewed and
Gateway, Switch, Router controlled from
user handset with
WIreless Wired easily installable
Network micro sensors and
Wireless
Wi l
CDMA/ Modem/xDS a handful size
LAN/ Ethernet gateway.
WiBro L
Zigbee
Input/Output & Communication Port
Sensing/Actuating, Identification Streaming
Device
Embedded
Sensor Actuator Video Audio
Active RFID
c ve
Source: Upiense
19. Smart Building Applications
Internet
maintain good work environment
Energy efficiency monitoring
Temperature, humidity, chemical,
illumination, dust, noise sensor Temperature, humidity, illumination,
heat sensor
Intruder detection
Infrared, oscillation,
acceleration, magnetism,
noise, image sensor
Air-
conditioning,
Heater
Power supply monitoring
Office/building
Monitoring center
Facility safety monitoring Property
Management
Heat, oscillation, DB
acceleration, magnetism
acceleration magnetism,
image sensor
Source: Upiense
22. Profile
Dr. Geunho Lee is a senior research fellow at u-City Forum and a Professor at SCH Univ.
in the field of pervasive computing and communications. He is also a co-founder and CEO
of UPIENCE Inc., which is a start-up for u-City business development consulting and
solutions.
solutions
After his Ph.D. from the Johns Hopkins University, he was in the field of ICT for 10 years
working in several government organizations, small to large companies, and university
research centers.
Recent his activities were for u-City (ubiquitous computing city) promotion in Korea by
consulting government and industry for R&D business strategy and industry policy He is
R&D, policy.
a well known speaker in major conferences related to Mobile Com., RFID, Wireless Sensors,
and ubiquitous computing. He published more than 50 articles and several books including
Korean translation of RFID Handbook, UMTS & Mobile Computing and Pervasive
Computing Handbook.
He was a senior advisor at Samsung Techwin, CJ Systems, and KT, research fellow at
Korea Electronic Payment Industry Association, visiting professor at Korea Polytech
Association
University, R&D director at Korea Wireless Networks Inc., research officer at Ministry of
Information & Communication, and visiting scholar at Georgia Institute of Technology.
His career covers ICT regulation & industrial policy development, standardization, R&D,
R&D planning, techno-business strategic planning, technology valuation, and business
development.