I Think Therefore You Are

IF 2 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS ACM Transactions on Cyber-Physical Systems Pub Date : 2020-06-18 DOI:10.1145/3375403
Lukas Esterle, John N. A. Brown
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引用次数: 2

Abstract

Cyber-physical systems operate in our real world, constantly interacting with the environment and collaborating with other systems. The increasing number of devices will make it infeasible to control each one individually. It will also be infeasible to prepare each of them for every imaginable rapidly unfolding situation. Therefore, we must increase the autonomy of future Cyber-physical Systems. Making these systems self-aware allows them to reason about their own capabilities and their immediate environment. In this article, we extend the idea of the self-awareness of individual systems toward networked self-awareness. This gives systems the ability to reason about how they are being affected by the actions and interactions of others within their perceived environment, as well as in the extended environment that is beyond their direct perception. We propose that different levels of networked self-awareness can develop over time in systems as they do in humans. Furthermore, we propose that this could have the same benefits for networks of systems that it has had for communities of humans, increasing performance and adaptability.
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我思故我在
网络物理系统在我们的现实世界中运行,不断与环境互动,并与其他系统合作。设备数量的增加将使单独控制每个设备变得不可行。为每一个可以想象的迅速发展的局势做好准备也是不可行的。因此,我们必须提高未来网络物理系统的自主权。让这些系统具有自我意识可以让他们对自己的能力和直接环境进行推理。在本文中,我们将个体系统的自我意识的概念扩展到网络化的自我意识。这使系统能够推理自己在感知环境中以及在超出直接感知范围的扩展环境中如何受到他人行为和互动的影响。我们提出,随着时间的推移,不同水平的网络自我意识可以在系统中发展,就像在人类中一样。此外,我们提出,这对系统网络的好处与对人类社区的好处相同,可以提高性能和适应性。
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来源期刊
ACM Transactions on Cyber-Physical Systems
ACM Transactions on Cyber-Physical Systems COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
5.70
自引率
4.30%
发文量
40
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