International audienceThis paper demonstrates the usefulness of distributed local verification of proofs, as a tool for the design of self-stabilizing algorithms.In particular, it introduces a somewhat generalized notion of distributed local proofs, and utilizes it for improving the time complexity significantly, while maintaining space optimality. As a result, we show that optimizing the memory size carries at most a small cost in terms of time, in the context of Minimum Spanning Tree (MST). That is, we present algorithms that are both time and space efficient for both constructing an MST and for verifying it.This involves several parts that may be considered contributions in themselves.First, we generalize the notion of local proofs, tra...
We present a novel self-stabilizing algorithm for minimum spanning tree (MST) construction. The spac...
We present algorithms for distributed verification and silent-stabilization of a DFS(Depth First Sea...
Distributed algorithms aim to achieve better performance than sequential algorithms in terms of time...
International audienceWe present a novel self-stabilizing algorithm for minimum spanning tree (MST) ...
14 pages; International conférence; Uniform self-stabilizing variant of the problemInternational aud...
The minimum spanning tree (MST) construction is a classical problem in Distributed Computing for cre...
AbstractA new paradigm for the design of self-stabilizing distributed algorithms, called local detec...
We propose a general framework to build certified proofs of distributed self-stabilizing algorithms ...
An introduction to distributed algorithms, in particular local algorithms. Essentially a practice ta...
International audienceThe minimum spanning tree (MST) construction is a classical problem in Distrib...
International audienceSelf-stabilizing algorithms are distributed algorithms supporting transient fa...
International audienceRouting protocols are at the core of distributed systems performances...
International audienceThe minimum spanning tree (MST) construction is a classical problem in Distrib...
International audienceThis paper introduces the notion of distributed verification without preproces...
International audienceIt follows from the definition of silent self-stabilization, and from the defi...
We present a novel self-stabilizing algorithm for minimum spanning tree (MST) construction. The spac...
We present algorithms for distributed verification and silent-stabilization of a DFS(Depth First Sea...
Distributed algorithms aim to achieve better performance than sequential algorithms in terms of time...
International audienceWe present a novel self-stabilizing algorithm for minimum spanning tree (MST) ...
14 pages; International conférence; Uniform self-stabilizing variant of the problemInternational aud...
The minimum spanning tree (MST) construction is a classical problem in Distributed Computing for cre...
AbstractA new paradigm for the design of self-stabilizing distributed algorithms, called local detec...
We propose a general framework to build certified proofs of distributed self-stabilizing algorithms ...
An introduction to distributed algorithms, in particular local algorithms. Essentially a practice ta...
International audienceThe minimum spanning tree (MST) construction is a classical problem in Distrib...
International audienceSelf-stabilizing algorithms are distributed algorithms supporting transient fa...
International audienceRouting protocols are at the core of distributed systems performances...
International audienceThe minimum spanning tree (MST) construction is a classical problem in Distrib...
International audienceThis paper introduces the notion of distributed verification without preproces...
International audienceIt follows from the definition of silent self-stabilization, and from the defi...
We present a novel self-stabilizing algorithm for minimum spanning tree (MST) construction. The spac...
We present algorithms for distributed verification and silent-stabilization of a DFS(Depth First Sea...
Distributed algorithms aim to achieve better performance than sequential algorithms in terms of time...