AbstractIn this article we investigate the expected time for Herman's probabilistic self-stabilizing algorithm in distributed systems: suppose that the number of identical processes in a unidirectional ring, say n, is odd and n⩾3. If the initial configuration of the ring is not “legitimate”, that is, the number of tokens differs from one, then execution of the algorithm made up of synchronous probabilistic procedures with a local parameter 0<r<1 results in convergence to a legitimate configuration with a unique token (Herman's algorithm). We then show that the expected time of the convergence is less than ((π2-8)/8r(1-r))n2. Note that if r=12 then it is bounded by 0.936n2. Moreover, there exists a configuration whose expected time is Θ(n2)....
International audienceWe consider the fundamental problem of clock synchronization in a synchronous ...
We present a self-stabilizing token circulation protocol on unidirectional anonymous rings. This pro...
International audienceA distributed algorithm is self-stabilizing if after faults and attacks hit th...
AbstractIn this article we investigate the expected time for Herman's probabilistic self-stabilizing...
Herman's algorithm is a synchronous randomized protocol for achieving self-stabilization in a token ...
Abstract. Herman’s self-stabilisation algorithm provides a simple randomised solution to the problem...
Herman's algorithm is a synchronous randomized protocol for achieving self-stabilization in a token ...
Herman’s self-stabilization algorithm, introduced 25 years ago, is a well-studied synchronous random...
Herman's Ring [Inform. Process. Lett. 35 (1990) 63; http://www.cs.uiowa.edu/ftp/selfstab/H90.ps.gz] ...
We present and prove the correctness of a probabilistic self-stabilizing algorithm that circulates a...
Self-stabilization algorithms are very important in designing fault-tolerant distributed systems. In...
We study the expected self-stabilization time of Herman's algorithm. For N processors the lower boun...
International audienceWe propose a new metric for effectively and accurately evaluating the performa...
We present a self-stabilizing token circulation protocol on unidirectional anonymous rings. The ring...
) Shlomi Dolev Abstract A randomized uniform self-stabilizing protocol that provides each (anonym...
International audienceWe consider the fundamental problem of clock synchronization in a synchronous ...
We present a self-stabilizing token circulation protocol on unidirectional anonymous rings. This pro...
International audienceA distributed algorithm is self-stabilizing if after faults and attacks hit th...
AbstractIn this article we investigate the expected time for Herman's probabilistic self-stabilizing...
Herman's algorithm is a synchronous randomized protocol for achieving self-stabilization in a token ...
Abstract. Herman’s self-stabilisation algorithm provides a simple randomised solution to the problem...
Herman's algorithm is a synchronous randomized protocol for achieving self-stabilization in a token ...
Herman’s self-stabilization algorithm, introduced 25 years ago, is a well-studied synchronous random...
Herman's Ring [Inform. Process. Lett. 35 (1990) 63; http://www.cs.uiowa.edu/ftp/selfstab/H90.ps.gz] ...
We present and prove the correctness of a probabilistic self-stabilizing algorithm that circulates a...
Self-stabilization algorithms are very important in designing fault-tolerant distributed systems. In...
We study the expected self-stabilization time of Herman's algorithm. For N processors the lower boun...
International audienceWe propose a new metric for effectively and accurately evaluating the performa...
We present a self-stabilizing token circulation protocol on unidirectional anonymous rings. The ring...
) Shlomi Dolev Abstract A randomized uniform self-stabilizing protocol that provides each (anonym...
International audienceWe consider the fundamental problem of clock synchronization in a synchronous ...
We present a self-stabilizing token circulation protocol on unidirectional anonymous rings. This pro...
International audienceA distributed algorithm is self-stabilizing if after faults and attacks hit th...