A general approach to real-time message scheduling over distributed broadcast channels

A general approach to real-time message scheduling over distributed broadcast channels

We introduce a class of real-time scheduling problems as they arise in distributed multiaccess broadcast communication channels. This class of problems is more general, hence more realistic, than the problems considered when assuming periodic or sporadic releases of messages. The authors examine the...

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Bibliographic Details
Published in:Proceedings 1995 INRIA/IEEE Symposium on Emerging Technologies and Factory Automation. ETFA'95 Vol. 1; pp. 191 - 204 vol.1
Main Authors: Hermant, J.-F., Le Lann, G., Rivierre, N.
Format: Conference Proceeding
Language:English
Published: Los Alamitos CA IEEE 1995
IEEE Computer Society Press
Subjects:
Access control
Algorithmics. Computability. Computer arithmetics
Applied sciences
Broadcasting
Communication channels
Computer science; control theory; systems
Computer systems and distributed systems. User interface
Exact sciences and technology
Jamming
Office automation, teleprocessing
Passive networks
Propagation delay
Protocols
Software
Theoretical computing
Upper bound
On line
Optimal algorithm
Distributed algorithm
Scheduling
Real time
Local network
Message transmission
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Summary:We introduce a class of real-time scheduling problems as they arise in distributed multiaccess broadcast communication channels. This class of problems is more general, hence more realistic, than the problems considered when assuming periodic or sporadic releases of messages. The authors examine the most popular algorithms and protocols, such as STDMA, polling and bus/ring token-passing. Contrary to widespread belief, the authors demonstrate that they cannot solve the class of real-time problems they are interested in. Adversary arguments are used for this purpose. The class of pure on-line distributed deadline-driven non-preemptive contention detection-and-resolution algorithms, referred to as D-NP-EDF/CDR, is shown to dominate any other class of algorithms for the problems considered. Consequently, optimal algorithms for the authors' problems can only belong to this class. The authors then show how to establish the desired timeliness properties as well as feasibility conditions for algorithms in the class D-NP-EDF/CDR.
ISBN:9780780325357
0780325354
DOI:10.1109/ETFA.1995.496774