Add to ORKG15 pagesIn this paper, we address the problem of K-out-of-L exclusion, a generalization of the mutual exclusion problem, in which there are $\ell$ units of a shared resource, and any process can request up to $\mathtt k$ units ($1\leq\mathtt k\leq\ell$). We propose the first deterministic self-stabilizing distributed K-out-of-L exclusion protocol in message-passing systems for asynchronous oriented tree networks which assumes bounded local memory for each process
AbstractA new paradigm for the design of self-stabilizing distributed algorithms, called local detec...
International audienceWe propose a general scheme to compute tree-based data structures on arbitrary...
We present a space- and time-optimal self-stabilizing algorithm, SSDS, for a given synchronization p...
In this paper, we address the problem of k-out-of- ` exclusion, a generalization of the mutual exclu...
AbstractOur work presents a self-stabilizing solution to the ℓ-exclusion problem. This problem is a ...
. Our purpose in this paper is to propose a new protocol that can ensure mutual exclusion between ne...
A self-stabilizing system is a system such that it autonomously converges to a legitimate system sta...
This paper investigates the complexity of self-stabilizing mutual exclusion protocols for distribute...
The mutual exclusion problem is a problem of arbitrating access conflicts for resources. The problem...
Designers of distributed algorithms have to contend with the problem of making the algorithms tolera...
Distributed algorithms aim to achieve better performance than sequential algorithms in terms of time...
Self-stabilizing protocols enable distributed systems to recover correct behavior starting from any ...
A new distributed mutual exclusion algorithm, using a token and based upon an original rooted tree s...
Self-stabilizing and silent distributed algorithms for token distribution in rooted tree networks ar...
: We present a deterministic distributed depth-first token passing protocol on a rooted network. Thi...
AbstractA new paradigm for the design of self-stabilizing distributed algorithms, called local detec...
International audienceWe propose a general scheme to compute tree-based data structures on arbitrary...
We present a space- and time-optimal self-stabilizing algorithm, SSDS, for a given synchronization p...
In this paper, we address the problem of k-out-of- ` exclusion, a generalization of the mutual exclu...
AbstractOur work presents a self-stabilizing solution to the ℓ-exclusion problem. This problem is a ...
. Our purpose in this paper is to propose a new protocol that can ensure mutual exclusion between ne...
A self-stabilizing system is a system such that it autonomously converges to a legitimate system sta...
This paper investigates the complexity of self-stabilizing mutual exclusion protocols for distribute...
The mutual exclusion problem is a problem of arbitrating access conflicts for resources. The problem...
Designers of distributed algorithms have to contend with the problem of making the algorithms tolera...
Distributed algorithms aim to achieve better performance than sequential algorithms in terms of time...
Self-stabilizing protocols enable distributed systems to recover correct behavior starting from any ...
A new distributed mutual exclusion algorithm, using a token and based upon an original rooted tree s...
Self-stabilizing and silent distributed algorithms for token distribution in rooted tree networks ar...
: We present a deterministic distributed depth-first token passing protocol on a rooted network. Thi...
AbstractA new paradigm for the design of self-stabilizing distributed algorithms, called local detec...
International audienceWe propose a general scheme to compute tree-based data structures on arbitrary...
We present a space- and time-optimal self-stabilizing algorithm, SSDS, for a given synchronization p...