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  1. Artikel ; Online: Robot swarms neutralize harmful Byzantine robots using a blockchain-based token economy.

    Strobel, Volker / Pacheco, Alexandre / Dorigo, Marco

    Science robotics

    2023  Band 8, Heft 79, Seite(n) eabm4636

    Abstract: Through cooperation, robot swarms can perform tasks or solve problems that a single robot from the swarm could not perform/solve by itself. However, it has been shown that a single Byzantine robot (such as a malfunctioning or malicious robot) can disrupt ...

    Abstract Through cooperation, robot swarms can perform tasks or solve problems that a single robot from the swarm could not perform/solve by itself. However, it has been shown that a single Byzantine robot (such as a malfunctioning or malicious robot) can disrupt the coordination strategy of the entire swarm. Therefore, a versatile swarm robotics framework that addresses security issues in inter-robot communication and coordination is urgently needed. Here, we show that security issues can be addressed by setting up a token economy between the robots. To create and maintain the token economy, we used blockchain technology, originally developed for the digital currency Bitcoin. The robots were given crypto tokens that allowed them to participate in the swarm's security-critical activities. The token economy was regulated via a smart contract that decided how to distribute crypto tokens among the robots depending on their contributions. We designed the smart contract so that Byzantine robots soon ran out of crypto tokens and could therefore no longer influence the rest of the swarm. In experiments with up to 24 physical robots, we demonstrated that our smart contract approach worked: The robots could maintain blockchain networks, and a blockchain-based token economy could be used to neutralize the destructive actions of Byzantine robots in a collective-sensing scenario. In experiments with more than 100 simulated robots, we studied the scalability and long-term behavior of our approach. The obtained results demonstrate the feasibility and viability of blockchain-based swarm robotics.
    Sprache Englisch
    Erscheinungsdatum 2023-06-28
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ISSN 2470-9476
    ISSN (online) 2470-9476
    DOI 10.1126/scirobotics.abm4636
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  2. Artikel ; Online: A blockchain-based information market to incentivise cooperation in swarms of self-interested robots.

    Van Calck, Ludéric / Pacheco, Alexandre / Strobel, Volker / Dorigo, Marco / Reina, Andreagiovanni

    Scientific reports

    2023  Band 13, Heft 1, Seite(n) 20417

    Abstract: Robot swarms are generally considered to be composed of cooperative agents that, despite their limited individual capabilities, can perform difficult tasks by working together. However, in open swarms, where different robots can be added to the swarm by ... ...

    Abstract Robot swarms are generally considered to be composed of cooperative agents that, despite their limited individual capabilities, can perform difficult tasks by working together. However, in open swarms, where different robots can be added to the swarm by different parties with potentially competing interests, cooperation is but one of many strategies. We envision an information market where robots can buy and sell information through transactions stored on a distributed blockchain, and where cooperation is encouraged by the economy itself. As a proof of concept, we study a classical foraging task, where exchanging information with other robots is paramount to accomplish the task efficiently. We illustrate that even a single robot that lies to others-a so-called Byzantine robot-can heavily disrupt the swarm. Hence, we devise two protection mechanisms. Through an individual-level protection mechanism, robots are more sceptical about others' information and can detect and discard Byzantine information, at the cost of lower efficiency. Through a systemic protection mechanism based on economic rules regulating robot interactions, robots that sell honest information acquire over time more wealth than Byzantines selling false information. Our simulations show that a well-designed robot economy penalises misinformation spreading and protects the swarm from Byzantine behaviour. We believe economics-inspired swarm robotics is a promising research direction that exploits the timely opportunity for decentralised economies offered by blockchain technology.
    Sprache Englisch
    Erscheinungsdatum 2023-11-21
    Erscheinungsland England
    Dokumenttyp Journal Article
    ZDB-ID 2615211-3
    ISSN 2045-2322 ; 2045-2322
    ISSN (online) 2045-2322
    ISSN 2045-2322
    DOI 10.1038/s41598-023-46238-1
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  3. Artikel ; Online: Blockchain Technology Secures Robot Swarms: A Comparison of Consensus Protocols and Their Resilience to Byzantine Robots.

    Strobel, Volker / Castelló Ferrer, Eduardo / Dorigo, Marco

    Frontiers in robotics and AI

    2020  Band 7, Seite(n) 54

    Abstract: Consensus achievement is a crucial capability for robot swarms, for example, for path selection, spatial aggregation, or collective sensing. However, the presence of malfunctioning and malicious robots (Byzantine robots) can make it impossible to achieve ...

    Abstract Consensus achievement is a crucial capability for robot swarms, for example, for path selection, spatial aggregation, or collective sensing. However, the presence of malfunctioning and malicious robots (Byzantine robots) can make it impossible to achieve consensus using classical consensus protocols. In this work, we show how a swarm of robots can achieve consensus even in the presence of Byzantine robots by exploiting blockchain technology. Bitcoin and later blockchain frameworks, such as Ethereum, have revolutionized financial transactions. These frameworks are based on decentralized databases (blockchains) that can achieve secure consensus in peer-to-peer networks. We illustrate our approach in a collective sensing scenario where robots in a swarm are controlled via blockchain-based smart contracts (decentralized protocols executed via blockchain technology) that serve as "meta-controllers" and we compare it to state-of-the-art consensus protocols using a robot swarm simulator. Additionally, we show that our blockchain-based approach can prevent attacks where robots forge a large number of identities (Sybil attacks). The developed robot-blockchain interface is released as open-source software in order to facilitate future research in blockchain-controlled robot swarms. Besides increasing security, we expect the presented approach to be important for data analysis, digital forensics, and robot-to-robot financial transactions in robot swarms.
    Sprache Englisch
    Erscheinungsdatum 2020-05-12
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article
    ZDB-ID 2781824-X
    ISSN 2296-9144 ; 2296-9144
    ISSN (online) 2296-9144
    ISSN 2296-9144
    DOI 10.3389/frobt.2020.00054
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  4. Buch: Entwicklung und Bau eines Inkubators für die Zellkultivierung für den Einsatz in BIOTEX auf der D-2-Mission (ZINK)

    Kübler, Ulrich / Strobel, Volker

    Abschlußbericht

    1991  

    Verfasserangabe Verf.: Kübler, Ulrich; Strobel, Volker
    Sprache Nicht zu entscheiden
    Umfang 31 Bl, Ill., graph. Darst
    Verlag Dornier Deutsche Aerospace
    Erscheinungsort Friedrichshafen
    Dokumenttyp Buch
    Anmerkung Förderkennzeichen BMFT 01 QV 8859
    Datenquelle Katalog der Technische Informationsbibliothek Hannover

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  5. Buch: Experiment- und Missionsunterstützung BIOLABOR auf D-2

    Strobel, Volker / Kreimer, Johannes / Kübler, Ulrich

    zweite deutsche Spacelab-Mission : Schlußbericht

    1995  

    Verfasserangabe [Volker Strobel; Ulrich Kübler; Johannes Kreimer]. Biolabor Cell Cultivation
    Sprache Deutsch
    Umfang [81] Bl, Ill., graph. Darst
    Verlag Dornier GmbH
    Erscheinungsort Friedrichshafen
    Dokumenttyp Buch
    Anmerkung Förderkennzeichen BMFT 51 QV 9100
    Datenquelle Katalog der Technische Informationsbibliothek Hannover

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