Population protocols are a distributed computing model appropriate for describing massive numbers of agents with very limited computational power (finite automata in this paper), such as sensor networks or programmable chemical reaction networks in synthetic biology. A population protocol is said to require a leader if every valid initial configuration contains a single agent in a special "leader" state that helps to coordinate the computation. Although the class of predicates and functions computable with probability 1 (stable computation) is the same whether a leader is required or not (semilinear functions and predicates), it is not known whether a leader is necessary for fast computation. Due to the large number of agents n (synthetic m...
Population protocols are a formal model of computation by identical, anonymous mobile agents interac...
International audiencePopulation protocols have been introduced as a model of sensor networks consis...
AbstractWe recently obtained partial results on the computational power of population protocols when...
Population protocols were introduced by Angluin et al. in 2004 to study the theoretical properties o...
Population protocols are a well established model of distributed computation by mobile finite-state ...
Population protocols are a popular model of distributed computing, in which randomly-interacting age...
We study population protocols, a model of distributed computing appropriate for modeling well-mixed ...
We study population protocols: networks of anonymous agents that interact under a scheduler that pic...
We study leader election and population size counting for population protocols: networks of finite-s...
We study the problems of leader election and population size counting for population protocols: netw...
The population protocols model describes a population of n finite-state computational agents, whose ...
Population protocols are a popular model of distributed computing, in which n agents with limited lo...
We study population protocols: networks of anonymous agents whose pairwise interactions are chosen u...
Edited by Michael Köhler-Bussmeier, Ekkart Kindler, Heiko RölkeClassical population protocols manage...
Population protocols, roughly defined as systems consisting of large numbers of simple identical age...
Population protocols are a formal model of computation by identical, anonymous mobile agents interac...
International audiencePopulation protocols have been introduced as a model of sensor networks consis...
AbstractWe recently obtained partial results on the computational power of population protocols when...
Population protocols were introduced by Angluin et al. in 2004 to study the theoretical properties o...
Population protocols are a well established model of distributed computation by mobile finite-state ...
Population protocols are a popular model of distributed computing, in which randomly-interacting age...
We study population protocols, a model of distributed computing appropriate for modeling well-mixed ...
We study population protocols: networks of anonymous agents that interact under a scheduler that pic...
We study leader election and population size counting for population protocols: networks of finite-s...
We study the problems of leader election and population size counting for population protocols: netw...
The population protocols model describes a population of n finite-state computational agents, whose ...
Population protocols are a popular model of distributed computing, in which n agents with limited lo...
We study population protocols: networks of anonymous agents whose pairwise interactions are chosen u...
Edited by Michael Köhler-Bussmeier, Ekkart Kindler, Heiko RölkeClassical population protocols manage...
Population protocols, roughly defined as systems consisting of large numbers of simple identical age...
Population protocols are a formal model of computation by identical, anonymous mobile agents interac...
International audiencePopulation protocols have been introduced as a model of sensor networks consis...
AbstractWe recently obtained partial results on the computational power of population protocols when...