Abstract We provide effective (i.e., recursive) characterizations of the relations that can be computed on networks where all processors use the same algorithm, start from the same state, and know at least a bound on the network size. Three activation models are considered (synchronous, asynchronous, interleaved).
We propose a model for deterministic distributed function computation by a network of identical and ...
We propose a model for deterministic distributed function computation by a network of identical and ...
We consider the anonymous broadcast model: a set of n anonymous processes communicate via send-to-al...
We provide characterizations of the relations that can be computed with arbitrary knowledge on netwo...
We consider a scenario in which anonymous, finite-state sensing devices are deployed in an ad-hoc co...
We consider a scenario in which anonymous, finite-state sensing devices are deployed in an ad-hoc c...
We propose a model for deterministic distributed function computation by a network of identical and ...
We conduct a systematic study of asynchronous models of distributed computing consisting of identica...
In the paper we shall evaluate various aspects of anonymity properties afforded by practical anonymo...
AbstractSense of direction refers to a set of global consistency constraints of the local labeling o...
AbstractWe consider the following problem: Each processor of the network has assigned a (not necessa...
We study the power of reliable anonymous distributed systems, where processes do not fail, do not h...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
This article presents a theoretical investigation of computation beyond the Turing barrier from emer...
AbstractWe study the bit-complexity of computing Boolean functions on anonymous networks. Let N be t...
We propose a model for deterministic distributed function computation by a network of identical and ...
We propose a model for deterministic distributed function computation by a network of identical and ...
We consider the anonymous broadcast model: a set of n anonymous processes communicate via send-to-al...
We provide characterizations of the relations that can be computed with arbitrary knowledge on netwo...
We consider a scenario in which anonymous, finite-state sensing devices are deployed in an ad-hoc co...
We consider a scenario in which anonymous, finite-state sensing devices are deployed in an ad-hoc c...
We propose a model for deterministic distributed function computation by a network of identical and ...
We conduct a systematic study of asynchronous models of distributed computing consisting of identica...
In the paper we shall evaluate various aspects of anonymity properties afforded by practical anonymo...
AbstractSense of direction refers to a set of global consistency constraints of the local labeling o...
AbstractWe consider the following problem: Each processor of the network has assigned a (not necessa...
We study the power of reliable anonymous distributed systems, where processes do not fail, do not h...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
This article presents a theoretical investigation of computation beyond the Turing barrier from emer...
AbstractWe study the bit-complexity of computing Boolean functions on anonymous networks. Let N be t...
We propose a model for deterministic distributed function computation by a network of identical and ...
We propose a model for deterministic distributed function computation by a network of identical and ...
We consider the anonymous broadcast model: a set of n anonymous processes communicate via send-to-al...