Fault Resilient Real-Time Design for NoC Architectures

Zimmer, Christopher; Mueller, Frank

doi:10.1109/iccps.2012.16

Cited by 3 publications

(1 citation statement)

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“…[18] proposed and discusses a modeling framework for embodied anticipatory behavior systems. In the real-time system, [19] developed a framework for Fault Observant and Correcting Real-Time Embedded design (Forte) that utilizes massive multi-core NoC designs to reduce overhead by up to an order of magnitude and to lower jitter in systems via utilizing message passing instead of shared memory as the means for intra-processor communication. [20] proposed a control-theoretic design methodology which permits a system designer to specify a set of hard-real-time performance modes under which the system may operate.…”

Section: Relation Workmentioning

confidence: 99%

Research on Human Sensory Architecture for Cyber Physical Systems

Kuang¹,

Hu²,

Zhang³

2013

JNW

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CPS is complex distributed systems, which contain computing, communications, and control. CPS is a product of the combination of physical world and the cyber world. The cyber world needs a lot of physical equipment to deal with perception and communication, then collect and transfer the information in the real environment, and by computation to forecast what might happen in future real environment, at last through the control strategy to achieve the optimal solution. In short, cyber physical system is the complex systems combination with computation system, sensory system and control system. Cyber physical system through more extensive connection, the physical world more thorough cognition, more effectively control the physical world, make the information world and the physical world closer integration, realize coordination awareness and control of the physical world. The paper through the analysis of the human perception system, build a cyber-physical fusion system based on human perception architecture.

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Section: Relation Workmentioning

confidence: 99%