K.H. Kim scite author profile

Decentralized approaches to processor-group maintenance (GMM) are aimed at facilitating every active node in a real-time LAN system to maintain timely and consistent knowledge about the health status of all cooperating nodes and to recognize newly joining nodes. A practical scheme for this decentralized GMM (DGMM) in TDMA (time division multiplexed access) bus based real-time LAN systems was formulated earlier by Kopetz et al. The scheme is called here the periodic reception history broadcast (PRHB) scheme. This scheme was initially formulated for the application environments where the fault frequency is relatively low such that no more than one node fails in any interval of two TDMA cycle duration. In this paper, we develop a major extension of the scheme called the PRHB with multiple fault detection (PRHBMD) scheme applicable to the environments where the fault frequency is much higher, to be more specific, where up to a half of the nodes may experience faults within any interval of three TDMA cycle duration. The scheme does not impose any limit on the number of transient faults of links that any one node may experience. The scheme yields the minimal detection delay for all major fault types and the delay does not exceed two TDMA cycles for the worst fault type. This detection delay characteristics is a significant improvement over those of previously developed DGMM schemes.

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K.H. Kim

Object structures for real-time systems and simulators

A real-time object model RTO.k and an experimental investigation of its potentials

An efficient decentralized approach to processor-group membership maintenance in real-time LAN systems: the PRHB/ED scheme

Realization of autonomous decentralized computing with the RTO.k object structuring scheme and the HU-DF inter-process-group communication scheme

Minimal-delay decentralized maintenance of processor-group membership in TDMA-bus LAN systems

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