The open blockchain-aided multi-agent symbiotic cyber-physical systems

【Author】 Skowronski, Rafal

【Source】FUTURE GENERATION COMPUTER SYSTEMS-THE INTERNATIONAL JOURNAL OF ESCIENCE

【影响因子】7.307

【Abstract】Cyber-physical systems combine physical objects or systems with integrated computational facilities and data storage. From that perspective, Smart Grids are a mixture of physical actuators, sensors, physical communication networks; and cyber computational and communication protocols and algorithms. In our work, we propose to extend the applicability of decentralized blockchain consensus protocols to the broad field of Cyber-Physical systems. Our contribution includes a proposal of a new family of cyber-physical systems, an in-depth discussion of new possibilities and inherent shortcomings. The proposed coupling of the data storage mechanisms, communication and consensus protocols, allows for deployment of self-sustaining cyber-physical environments in which all the mission-critical aspects in both the cyber and physical layer are effectively incentivized, coordinated and maintained. This includes the essential data storage, data exchange, but also the production, transmission and distribution of energy. To the best of our knowledge, it is the first such a comprehensive undertaking toward symbiotic cyber-physical systems and environments. The proposed family of systems is decentralized and does not imply the necessity of reliance on trusted third parties. We propose and discuss an architecture which incorporates physical, blockchain-enabled sensors and actuators capable of monitoring and altering parameters of the underlying physical layer. We analyze a particular instance of a blockchain-aided CPS', where we are concerned with the power grid at both the micro and macro-grid level. At the macro-grid level we explore the possibility of utilizing blockchain-enabled physical actuators. These theoretical actuators are able to introduce savings by a near real-time routing of energy and enable for tracking of power losses thanks to decentralized accountability. At the micro-grid level we propose a network of blockchain-enabled smart meters to coordinate real-time auction-based energy trade. To glue together the elements of such an open, trustless, decentralized system, we discuss an intrinsic communication protocol capable of rewarding intermediaries of a data exchange for each transmitted byte. We tackle the feasibility, security and accountability challenges which we have faced and which will need to be considered by future architects of the new, exciting family of cyber-physical systems. (C) 2018 Elsevier B.V. All rights reserved.

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【发表时间】2019 MAY

【收录时间】2022-01-02

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