狠狠撸shows by User: tokenengineering
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Thu, 29 Nov 2018 08:55:52 GMT狠狠撸Share feed for 狠狠撸shows by User: tokenengineeringERC 725 Public On-Chain Identity
/slideshow/erc-725-public-onchain-identity/124350651
erc-725identity-181129085611 Presentation by Fabian Vogelsteller, LUKSO, Founder and Developer
ERC 725 is gaining traction as a concept for on-chain identity. What is it, how does it work and why does it matter?
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Presentation by Fabian Vogelsteller, LUKSO, Founder and Developer
ERC 725 is gaining traction as a concept for on-chain identity. What is it, how does it work and why does it matter?
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Thu, 29 Nov 2018 08:55:52 GMT/slideshow/erc-725-public-onchain-identity/124350651tokenengineering@slideshare.net(tokenengineering)ERC 725 Public On-Chain Identity tokenengineeringPresentation by Fabian Vogelsteller, LUKSO, Founder and Developer
ERC 725 is gaining traction as a concept for on-chain identity. What is it, how does it work and why does it matter?
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/erc-725identity-181129085611-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Fabian Vogelsteller, LUKSO, Founder and Developer
ERC 725 is gaining traction as a concept for on-chain identity. What is it, how does it work and why does it matter?
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6491https://cdn.slidesharecdn.com/ss_thumbnails/erc-725identity-181129085611-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0SocioTechnical Systems: Engineering & Analysis
/slideshow/sociotechnical-systems-engineering-analysis/122546684
t-eng-berlin-oct25-181109113750 Presentation by Michael Zargham, BlockScience, Founder and CEO
Token Engineering relies heavily on the principles of optimization as they apply across game theory, artificial intelligence and evolutionary algorithms. Most of the focus placed on the objective which encode the goals of a system but a complete characterization of an optimization paradigm also include constraints which encode feasible states of the system. While constraining an optimization problem may seem counter-intuitive it is a well known property that an optimization objective will drive a system to sacrifice any other property in exchange for gains in the objective. In complex systems this can lead to cannibalizing critical structure, arbitrage of externalities or other adverse effects which ultimately result in late stage effects undermine the health of the eco-system despite early success.This talk introduces the framework for encoding constraints and using them to ensure system safety requirements as part of a token design and validation process.]]>
Presentation by Michael Zargham, BlockScience, Founder and CEO
Token Engineering relies heavily on the principles of optimization as they apply across game theory, artificial intelligence and evolutionary algorithms. Most of the focus placed on the objective which encode the goals of a system but a complete characterization of an optimization paradigm also include constraints which encode feasible states of the system. While constraining an optimization problem may seem counter-intuitive it is a well known property that an optimization objective will drive a system to sacrifice any other property in exchange for gains in the objective. In complex systems this can lead to cannibalizing critical structure, arbitrage of externalities or other adverse effects which ultimately result in late stage effects undermine the health of the eco-system despite early success.This talk introduces the framework for encoding constraints and using them to ensure system safety requirements as part of a token design and validation process.]]>
Fri, 09 Nov 2018 11:37:50 GMT/slideshow/sociotechnical-systems-engineering-analysis/122546684tokenengineering@slideshare.net(tokenengineering)SocioTechnical Systems: Engineering & AnalysistokenengineeringPresentation by Michael Zargham, BlockScience, Founder and CEO
Token Engineering relies heavily on the principles of optimization as they apply across game theory, artificial intelligence and evolutionary algorithms. Most of the focus placed on the objective which encode the goals of a system but a complete characterization of an optimization paradigm also include constraints which encode feasible states of the system. While constraining an optimization problem may seem counter-intuitive it is a well known property that an optimization objective will drive a system to sacrifice any other property in exchange for gains in the objective. In complex systems this can lead to cannibalizing critical structure, arbitrage of externalities or other adverse effects which ultimately result in late stage effects undermine the health of the eco-system despite early success.This talk introduces the framework for encoding constraints and using them to ensure system safety requirements as part of a token design and validation process.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/t-eng-berlin-oct25-181109113750-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Michael Zargham, BlockScience, Founder and CEO
Token Engineering relies heavily on the principles of optimization as they apply across game theory, artificial intelligence and evolutionary algorithms. Most of the focus placed on the objective which encode the goals of a system but a complete characterization of an optimization paradigm also include constraints which encode feasible states of the system. While constraining an optimization problem may seem counter-intuitive it is a well known property that an optimization objective will drive a system to sacrifice any other property in exchange for gains in the objective. In complex systems this can lead to cannibalizing critical structure, arbitrage of externalities or other adverse effects which ultimately result in late stage effects undermine the health of the eco-system despite early success.This talk introduces the framework for encoding constraints and using them to ensure system safety requirements as part of a token design and validation process.
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2592https://cdn.slidesharecdn.com/ss_thumbnails/t-eng-berlin-oct25-181109113750-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Token Engineering from an Economic Perspective
/slideshow/token-engineering-from-an-economic-perspective/122259010
20181021tokenengineeringtalkworkshop1-181107085143 Presentation by Shermin Voshmgir & Krzysztof Paruch, Cryptoeconomics Research Lab, Vienna University of Economics
How can we develop instruments and methods suitable for formalization of design, architecture, parameters and behavior of agents in a tokenized network, with focus on purpose-driven tokens that incentivize participants of an ecosystem to achieve cooperative behavior? We will explain how economics and mathematics have already developed various models and approaches to formalize economic motives and mannerisms of rational agents, which have been by national governments, regulators and institutions. We build on the assumption that crypto-economic systems and their rules, agents, nodes, token and governance structures resemble nation states consisting of laws, inhabitants, corporations, currencies and institutions. To what extent can these economic models be applied in crypto-economic applications? The aim ist therefore to model and design crypto-economies with the instruments and tools available in Macro- and Microeconomics. In order to achieve that we will describe the properties of x (one, two,...) current models in Economics and discuss possible and necessary adaptations to capture crypto-economic dynamics.]]>
Presentation by Shermin Voshmgir & Krzysztof Paruch, Cryptoeconomics Research Lab, Vienna University of Economics
How can we develop instruments and methods suitable for formalization of design, architecture, parameters and behavior of agents in a tokenized network, with focus on purpose-driven tokens that incentivize participants of an ecosystem to achieve cooperative behavior? We will explain how economics and mathematics have already developed various models and approaches to formalize economic motives and mannerisms of rational agents, which have been by national governments, regulators and institutions. We build on the assumption that crypto-economic systems and their rules, agents, nodes, token and governance structures resemble nation states consisting of laws, inhabitants, corporations, currencies and institutions. To what extent can these economic models be applied in crypto-economic applications? The aim ist therefore to model and design crypto-economies with the instruments and tools available in Macro- and Microeconomics. In order to achieve that we will describe the properties of x (one, two,...) current models in Economics and discuss possible and necessary adaptations to capture crypto-economic dynamics.]]>
Wed, 07 Nov 2018 08:51:43 GMT/slideshow/token-engineering-from-an-economic-perspective/122259010tokenengineering@slideshare.net(tokenengineering)Token Engineering from an Economic Perspective tokenengineeringPresentation by Shermin Voshmgir & Krzysztof Paruch, Cryptoeconomics Research Lab, Vienna University of Economics
How can we develop instruments and methods suitable for formalization of design, architecture, parameters and behavior of agents in a tokenized network, with focus on purpose-driven tokens that incentivize participants of an ecosystem to achieve cooperative behavior? We will explain how economics and mathematics have already developed various models and approaches to formalize economic motives and mannerisms of rational agents, which have been by national governments, regulators and institutions. We build on the assumption that crypto-economic systems and their rules, agents, nodes, token and governance structures resemble nation states consisting of laws, inhabitants, corporations, currencies and institutions. To what extent can these economic models be applied in crypto-economic applications? The aim ist therefore to model and design crypto-economies with the instruments and tools available in Macro- and Microeconomics. In order to achieve that we will describe the properties of x (one, two,...) current models in Economics and discuss possible and necessary adaptations to capture crypto-economic dynamics.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/20181021tokenengineeringtalkworkshop1-181107085143-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Shermin Voshmgir & Krzysztof Paruch, Cryptoeconomics Research Lab, Vienna University of Economics
How can we develop instruments and methods suitable for formalization of design, architecture, parameters and behavior of agents in a tokenized network, with focus on purpose-driven tokens that incentivize participants of an ecosystem to achieve cooperative behavior? We will explain how economics and mathematics have already developed various models and approaches to formalize economic motives and mannerisms of rational agents, which have been by national governments, regulators and institutions. We build on the assumption that crypto-economic systems and their rules, agents, nodes, token and governance structures resemble nation states consisting of laws, inhabitants, corporations, currencies and institutions. To what extent can these economic models be applied in crypto-economic applications? The aim ist therefore to model and design crypto-economies with the instruments and tools available in Macro- and Microeconomics. In order to achieve that we will describe the properties of x (one, two,...) current models in Economics and discuss possible and necessary adaptations to capture crypto-economic dynamics.
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1491https://cdn.slidesharecdn.com/ss_thumbnails/tokenengineeringaparanoidviewver05-181105135639-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Introducing the world's first token engineering framework
/slideshow/introducing-the-worlds-first-token-engineering-framework/121932377
6aronvanammers-181105130629 Presentation by Aron van Ammers, Outlier Ventures, CTO and Founding Partner
Outlier Ventures launches their report into the 3 D's of Token Design. Aron shares the insights, methodologies and mechanisms pioneered by his dedicated cryptoeconomics team and a global community of peers based on their direct experience designing of a number of high profile token ecosystems.
How can we bring together the capital, compute power, data, people, their assets and their digital representatives at scale, to decentralise the web? He explains the skills and competencies required such as economics, game theory, machine learning and systems design to realize sustainable digital economies that allow the coordination of open source distributed networks of resources.
Token Ecosystem Creation can be found here --> https://outlierventures.io/wp-content/uploads/2018/03/Token-Ecosystem-Creation-Outlier-Ventures-1.pdf]]>
Presentation by Aron van Ammers, Outlier Ventures, CTO and Founding Partner
Outlier Ventures launches their report into the 3 D's of Token Design. Aron shares the insights, methodologies and mechanisms pioneered by his dedicated cryptoeconomics team and a global community of peers based on their direct experience designing of a number of high profile token ecosystems.
How can we bring together the capital, compute power, data, people, their assets and their digital representatives at scale, to decentralise the web? He explains the skills and competencies required such as economics, game theory, machine learning and systems design to realize sustainable digital economies that allow the coordination of open source distributed networks of resources.
Token Ecosystem Creation can be found here --> https://outlierventures.io/wp-content/uploads/2018/03/Token-Ecosystem-Creation-Outlier-Ventures-1.pdf]]>
Mon, 05 Nov 2018 13:06:29 GMT/slideshow/introducing-the-worlds-first-token-engineering-framework/121932377tokenengineering@slideshare.net(tokenengineering)Introducing the world's first token engineering frameworktokenengineeringPresentation by Aron van Ammers, Outlier Ventures, CTO and Founding Partner
Outlier Ventures launches their report into the 3 D's of Token Design. Aron shares the insights, methodologies and mechanisms pioneered by his dedicated cryptoeconomics team and a global community of peers based on their direct experience designing of a number of high profile token ecosystems.
How can we bring together the capital, compute power, data, people, their assets and their digital representatives at scale, to decentralise the web? He explains the skills and competencies required such as economics, game theory, machine learning and systems design to realize sustainable digital economies that allow the coordination of open source distributed networks of resources.
Token Ecosystem Creation can be found here --> https://outlierventures.io/wp-content/uploads/2018/03/Token-Ecosystem-Creation-Outlier-Ventures-1.pdf<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/6aronvanammers-181105130629-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Aron van Ammers, Outlier Ventures, CTO and Founding Partner
Outlier Ventures launches their report into the 3 D's of Token Design. Aron shares the insights, methodologies and mechanisms pioneered by his dedicated cryptoeconomics team and a global community of peers based on their direct experience designing of a number of high profile token ecosystems.
How can we bring together the capital, compute power, data, people, their assets and their digital representatives at scale, to decentralise the web? He explains the skills and competencies required such as economics, game theory, machine learning and systems design to realize sustainable digital economies that allow the coordination of open source distributed networks of resources.
Token Ecosystem Creation can be found here --> https://outlierventures.io/wp-content/uploads/2018/03/Token-Ecosystem-Creation-Outlier-Ventures-1.pdf
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4901https://cdn.slidesharecdn.com/ss_thumbnails/6aronvanammers-181105130629-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Token Engineering Community
/slideshow/token-engineering-community/121920864
20181025intrototokenengineeringcommunity-181105111019 Presentation by Trent McConaghy, Ocean Protocol, Founder and Founder & CTO, BigchainDB
What is token engineering? Who is a part of the community and what are we trying to accomplish?
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Presentation by Trent McConaghy, Ocean Protocol, Founder and Founder & CTO, BigchainDB
What is token engineering? Who is a part of the community and what are we trying to accomplish?
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Mon, 05 Nov 2018 11:10:19 GMT/slideshow/token-engineering-community/121920864tokenengineering@slideshare.net(tokenengineering)Token Engineering Community tokenengineeringPresentation by Trent McConaghy, Ocean Protocol, Founder and Founder & CTO, BigchainDB
What is token engineering? Who is a part of the community and what are we trying to accomplish?
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/20181025intrototokenengineeringcommunity-181105111019-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Trent McConaghy, Ocean Protocol, Founder and Founder & CTO, BigchainDB
What is token engineering? Who is a part of the community and what are we trying to accomplish?
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1571https://cdn.slidesharecdn.com/ss_thumbnails/20181025intrototokenengineeringcommunity-181105111019-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Protocol Tokens 2.0
/tokenengineering/protocol-tokens-20
1rahulrumalla-181105110520 Presentation by Rahul Rumalla, Paperchain.io, CTO and Co-Founder
Cryptosystems are paving the way for a new age of financial engineering and tokenized protocols. However, does every protocol need its own token? Although tokenization models inherently allow value to be captured directly from the protocol layer, in most cases it severely restricts overlying products from effectively extracting it due to the unavoidable frictions a token imposes. In this talk, we will explore how some protocols have effectively captured value while others have not and outline what the Token Engineering community needs to overcome the obstacles imposed through protocol tokens.
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Presentation by Rahul Rumalla, Paperchain.io, CTO and Co-Founder
Cryptosystems are paving the way for a new age of financial engineering and tokenized protocols. However, does every protocol need its own token? Although tokenization models inherently allow value to be captured directly from the protocol layer, in most cases it severely restricts overlying products from effectively extracting it due to the unavoidable frictions a token imposes. In this talk, we will explore how some protocols have effectively captured value while others have not and outline what the Token Engineering community needs to overcome the obstacles imposed through protocol tokens.
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Mon, 05 Nov 2018 11:05:20 GMT/tokenengineering/protocol-tokens-20tokenengineering@slideshare.net(tokenengineering)Protocol Tokens 2.0tokenengineeringPresentation by Rahul Rumalla, Paperchain.io, CTO and Co-Founder
Cryptosystems are paving the way for a new age of financial engineering and tokenized protocols. However, does every protocol need its own token? Although tokenization models inherently allow value to be captured directly from the protocol layer, in most cases it severely restricts overlying products from effectively extracting it due to the unavoidable frictions a token imposes. In this talk, we will explore how some protocols have effectively captured value while others have not and outline what the Token Engineering community needs to overcome the obstacles imposed through protocol tokens.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1rahulrumalla-181105110520-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Rahul Rumalla, Paperchain.io, CTO and Co-Founder
Cryptosystems are paving the way for a new age of financial engineering and tokenized protocols. However, does every protocol need its own token? Although tokenization models inherently allow value to be captured directly from the protocol layer, in most cases it severely restricts overlying products from effectively extracting it due to the unavoidable frictions a token imposes. In this talk, we will explore how some protocols have effectively captured value while others have not and outline what the Token Engineering community needs to overcome the obstacles imposed through protocol tokens.
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1801https://cdn.slidesharecdn.com/ss_thumbnails/1rahulrumalla-181105110520-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Sweetbridge Token Design & Discount Token
/slideshow/sweetbridge-token-design-discount-token/121920114
4micharoon-181105110240 Presentation by Micha Roon, Sweetbridge, Principal Blockchain Developer
SweetCoin proposes an innovative approach to the fields of loyalty programs and bonus points. Where current systems leave companies with a liability for each loyalty point distributed, Sweetcoin provides with only assets. Sweetcoin is a simple and efficient way for participant companies and their customers to benefit from loyalty programs. Customers benefit from discounts and cashbacks whereas companies get rewarded for growing the economy and on boarding new companies.
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Presentation by Micha Roon, Sweetbridge, Principal Blockchain Developer
SweetCoin proposes an innovative approach to the fields of loyalty programs and bonus points. Where current systems leave companies with a liability for each loyalty point distributed, Sweetcoin provides with only assets. Sweetcoin is a simple and efficient way for participant companies and their customers to benefit from loyalty programs. Customers benefit from discounts and cashbacks whereas companies get rewarded for growing the economy and on boarding new companies.
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Mon, 05 Nov 2018 11:02:40 GMT/slideshow/sweetbridge-token-design-discount-token/121920114tokenengineering@slideshare.net(tokenengineering)Sweetbridge Token Design & Discount TokentokenengineeringPresentation by Micha Roon, Sweetbridge, Principal Blockchain Developer
SweetCoin proposes an innovative approach to the fields of loyalty programs and bonus points. Where current systems leave companies with a liability for each loyalty point distributed, Sweetcoin provides with only assets. Sweetcoin is a simple and efficient way for participant companies and their customers to benefit from loyalty programs. Customers benefit from discounts and cashbacks whereas companies get rewarded for growing the economy and on boarding new companies.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/4micharoon-181105110240-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Presentation by Micha Roon, Sweetbridge, Principal Blockchain Developer
SweetCoin proposes an innovative approach to the fields of loyalty programs and bonus points. Where current systems leave companies with a liability for each loyalty point distributed, Sweetcoin provides with only assets. Sweetcoin is a simple and efficient way for participant companies and their customers to benefit from loyalty programs. Customers benefit from discounts and cashbacks whereas companies get rewarded for growing the economy and on boarding new companies.
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2502https://cdn.slidesharecdn.com/ss_thumbnails/4micharoon-181105110240-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0https://cdn.slidesharecdn.com/profile-photo-tokenengineering-48x48.jpg?cb=1543481602Creating tokenized ecosystems is hard. How do we figure out what we want? How do we manifest that intent with block rewards and other crypto building blocks? How do we simulate and validate the design? How do we anticipate attacks and respond to them? Given that these systems are wildly powerful, how can we better take responsibility for their design & deployment?
We'd love to see token ecosystem design become an engineering discipline: Token Engineering (TE). This implies a body of theory, practice, tools and a sense of responsibility. We aim to do this collectively as a community in a decentralized, permissionless, open-source fashion that all can contribute to and all can use. tokenengineering.net/https://cdn.slidesharecdn.com/ss_thumbnails/erc-725identity-181129085611-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/erc-725-public-onchain-identity/124350651ERC 725 Public On-Chai...https://cdn.slidesharecdn.com/ss_thumbnails/t-eng-berlin-oct25-181109113750-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/sociotechnical-systems-engineering-analysis/122546684SocioTechnical Systems...https://cdn.slidesharecdn.com/ss_thumbnails/20181021tokenengineeringtalkworkshop1-181107085143-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/token-engineering-from-an-economic-perspective/122259010Token Engineering from...