Titlebook: Biologically Inspired Cooperative Computing; IFIP 19th World Comp Yi Pan,Franz J. Rammig,Mauricio Solar Conference proceedings 2006 IFIP In

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https://doi.org/10.1007/978-0-387-34733-2artificial intelligence; computer; computer science; control; information system; networks; operating syst

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978-1-4419-4184-8IFIP International Federation for Information Processing 2006

后来

1868-4238 n technology, it is no longer the computer in the classical sense where the majority of IT applications is executed; computing is everywhere. More than 20 billion processors have already been fabricated and the majority of them can be assumed to still be operational. At the same time, virtually ever

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Knowledge Discovery in Spatial Datal interaction of humans, where the opinions of experts have greater impact on the overall opinion and are incorporated more exactly than those of newbies. The approach is successfully evaluated in a simulation in which mobile robots have to accomplish a task while taking care of timely recharging their resources.

深渊

An Immune System Paradigm for the Assurance of Dependability of Collaborative Self-organizing Systemof their functions. The probability of such harmful outputs is minimized by the application of a design principle called “the immune system paradigm” that provides individual agents with an all-hardware fault tolerance infrastructure. The paradigm and its application are described in this paper.

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Error Detection Techniques Applicable in an Architecture Framework and Design Methodology for Autonory signals to achieve fault-tolerance, self-healing and self-calibration in our Autonomic SoC architecture. The framework combines the monitors with a well-tailored design methodology that explores how the Autonomic SoC (ASoC) can cope with malfunctioning subcomponents.

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