The AIRA project embodies the idea of responsive robot economics meaning that "lights-out" manufacturings and logistics are able to change their methods of work for working at more profitable markets.
Devcon5 robotics under ethereum computer controlSergey Lonshakov
Robotics can be controlled under Ethereum computer control. An early example is a 1997 article by Nick Szabo describing a smart contract for a vehicle lease that controls the car via locks and access for the owner and creditor based on payment. In 2015, the first experiment took place where a drone's control was transferred to the Ethereum blockchain after a user paid a transaction, causing the drone to fly to specified GPS coordinates. Ongoing research is exploring further applications of combining robotics and distributed ledgers.
This document discusses robotics integration with cryptocurrencies and smart contracts using the Robonomics platform. It provides an overview of Robonomics and its stages of development, including its current work integrating with Polkadot. Robonomics allows roboticists to offer robot services that can be paid for using cryptocurrencies, and provides users easy access to robotic services through the blockchain network.
My presentation from European Robotics Forum 2019 about R&D "Air and water quality control system based on IoT and Blockchain."
In 2018 Airalab R&D team did several experiments with mobile robotics and environmental sensors on board. As the information about air and water quality is sensitive in most cases of using, Airalab engineers decided to use public blockchain as an immutable and transparent ledger. In the presentation, we will speak about technical details and principal schemes of creating such a cyber-physical system that can be used as an independent observer of human activity.
This document summarizes a presentation given at the EU-Japan Conference on Smart Society and Beyond for the Super-Aging Era. The presentation discussed the transition to a fourth industrial revolution driven by connecting cyber-physical systems to each other and the internet. It also addressed issues around establishing an economy where robots can directly interact with digital markets and enter into contracts. The presentation argued for not creating barriers between the human economy and emerging robot economy.
This document discusses how to prepare Mars to be more habitable for a conference called Devcon50. It proposes using a distributed autonomous organization (DAO) and Ethereum network to coordinate various systems and actors to help keep global temperature rise below 2 degrees Celsius as called for in the Paris Agreement. Specifically, it envisions connecting manufacturers, smart cities, and "green humans" via an IoT sensor network and Ethereum validators running algorithms for carbon credit markets. This would represent the first planetary terraforming experiment driven by economic incentives on the blockchain. The document outlines current and planned work to test smart contracts for carbon markets, build carbon footprint sensors and validators, and engage Paris Agreement participants to explore integrating the proposed human-to-machine system for
Devcon5 robotics under ethereum computer controlSergey Lonshakov
Robotics can be controlled under Ethereum computer control. An early example is a 1997 article by Nick Szabo describing a smart contract for a vehicle lease that controls the car via locks and access for the owner and creditor based on payment. In 2015, the first experiment took place where a drone's control was transferred to the Ethereum blockchain after a user paid a transaction, causing the drone to fly to specified GPS coordinates. Ongoing research is exploring further applications of combining robotics and distributed ledgers.
This document discusses robotics integration with cryptocurrencies and smart contracts using the Robonomics platform. It provides an overview of Robonomics and its stages of development, including its current work integrating with Polkadot. Robonomics allows roboticists to offer robot services that can be paid for using cryptocurrencies, and provides users easy access to robotic services through the blockchain network.
My presentation from European Robotics Forum 2019 about R&D "Air and water quality control system based on IoT and Blockchain."
In 2018 Airalab R&D team did several experiments with mobile robotics and environmental sensors on board. As the information about air and water quality is sensitive in most cases of using, Airalab engineers decided to use public blockchain as an immutable and transparent ledger. In the presentation, we will speak about technical details and principal schemes of creating such a cyber-physical system that can be used as an independent observer of human activity.
This document summarizes a presentation given at the EU-Japan Conference on Smart Society and Beyond for the Super-Aging Era. The presentation discussed the transition to a fourth industrial revolution driven by connecting cyber-physical systems to each other and the internet. It also addressed issues around establishing an economy where robots can directly interact with digital markets and enter into contracts. The presentation argued for not creating barriers between the human economy and emerging robot economy.
This document discusses how to prepare Mars to be more habitable for a conference called Devcon50. It proposes using a distributed autonomous organization (DAO) and Ethereum network to coordinate various systems and actors to help keep global temperature rise below 2 degrees Celsius as called for in the Paris Agreement. Specifically, it envisions connecting manufacturers, smart cities, and "green humans" via an IoT sensor network and Ethereum validators running algorithms for carbon credit markets. This would represent the first planetary terraforming experiment driven by economic incentives on the blockchain. The document outlines current and planned work to test smart contracts for carbon markets, build carbon footprint sensors and validators, and engage Paris Agreement participants to explore integrating the proposed human-to-machine system for
Robot economics protocol by Airalab short presentationSergey Lonshakov
AIRA project implements the standard of economic interaction between human-robot and robot-robot via liability smart contract. Aira makes it possible to connect a variety of different robots to the market of robot's liabilities which existing on Ethereum for the direct sale of data from robot sensors, ordering of logistics services and organization ordering of personalized products at fully automated enterprises.
Взаимодействие человека и робота как двух автономных экономических агентовSergey Lonshakov
The document discusses experiments with blockchain technology and robotics. It describes creating a bridge between the robot operating system ROS and the Ethereum blockchain to allow a robot to interact autonomously as an economic agent on the blockchain. The experiments aim to test smart contracts and decentralized applications to facilitate transactions between robots, drones and other devices operating as autonomous agents.
Презентация к докладу 17 апреля 2016 года в Москве на мероприятии "FoundersDevelopers: Blockchain/Bitcoin Unicorns" (https://www.facebook.com/events/1003435819739445/)
Autonomous technologies for global commercial and civil uav vendorsSergey Lonshakov
This document discusses the development of blockchain and IoT technologies for autonomous drone systems. It describes Sergey Lonshakov's work leading the Aira project to create a decentralized air traffic control system using blockchain. Key aspects include using Ethereum networks and smart contracts to allow drone agents and air traffic control nodes to autonomously coordinate flight paths and tasks in a trustless manner. The system is being tested and improved with the goal of providing a global solution for civil drone operators.
Robot economics protocol by Airalab short presentationSergey Lonshakov
AIRA project implements the standard of economic interaction between human-robot and robot-robot via liability smart contract. Aira makes it possible to connect a variety of different robots to the market of robot's liabilities which existing on Ethereum for the direct sale of data from robot sensors, ordering of logistics services and organization ordering of personalized products at fully automated enterprises.
Взаимодействие человека и робота как двух автономных экономических агентовSergey Lonshakov
The document discusses experiments with blockchain technology and robotics. It describes creating a bridge between the robot operating system ROS and the Ethereum blockchain to allow a robot to interact autonomously as an economic agent on the blockchain. The experiments aim to test smart contracts and decentralized applications to facilitate transactions between robots, drones and other devices operating as autonomous agents.
Презентация к докладу 17 апреля 2016 года в Москве на мероприятии "FoundersDevelopers: Blockchain/Bitcoin Unicorns" (https://www.facebook.com/events/1003435819739445/)
Autonomous technologies for global commercial and civil uav vendorsSergey Lonshakov
This document discusses the development of blockchain and IoT technologies for autonomous drone systems. It describes Sergey Lonshakov's work leading the Aira project to create a decentralized air traffic control system using blockchain. Key aspects include using Ethereum networks and smart contracts to allow drone agents and air traffic control nodes to autonomously coordinate flight paths and tasks in a trustless manner. The system is being tested and improved with the goal of providing a global solution for civil drone operators.
3. Our values, choices, wants and needs change over time. How on earth can a "lights-out" manufacturing
comprehend changing human needs?
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4. The AIRA project embodies the idea of responsive robot economics meaning that "lights-out" manufacturings
and logistics are able to change their methods of work for working at more profitable markets.