We consider the problem of cooperative multiagent planning under uncertainty, formalized as a decentralized partially observable Markov decision process (Dec-POMDP). Unfortunately, in these models optimal planning is provably intractable. By communicating their local observations before they take actions, agents synchronize their knowledge of the environment, and the planning problem reduces to a centralized POMDP. As such, relying on communication significantly reduces the complexity of planning. In the real world however, such communication might fail temporarily. We present a step towards more realistic communication models for Dec-POMDPs by proposing a model that: (1) allows that communication might be delayed by one or more time steps,...
Multi-agent planning in stochastic environments can be framed formally as a decentralized Markov dec...
Multi-agent planning in stochastic environments can be framed formally as a decen-tralized Markov de...
Decentralized POMDPs (Dec-POMDPs) provide a rich, attractive model for planning under uncertainty an...
We consider the problem of cooperative multiagent plan-ning under uncertainty, formalized as a decen...
We consider the problem of cooperative multiagent plan-ning under uncertainty, formalized as a decen...
peer reviewedDecentralized partially observable Markov decision processes (DEC-POMDPs) form a genera...
A problem of planning for cooperative teams under uncertainty is a crucial one in multiagent systems...
In this paper we focus on distributed multiagent planning under uncertainty. For single-agent planni...
We propose an online algorithm for planning under uncertainty in multi-agent settings modeled as DEC...
We consider the problem of communication planning for human-machine cooperation in stochastic and pa...
Planning under uncertainty is an important and challenging problem in multiagent systems. Multiagent...
Distributed Partially Observable Markov Decision Processes (DEC-POMDPs) are a popular planning frame...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
Decentralized partially observable Markov decision processes (Dec-POMDPs) constitute an expressive f...
Multi-agent planning in stochastic environments can be framed formally as a decentralized Markov dec...
Multi-agent planning in stochastic environments can be framed formally as a decen-tralized Markov de...
Decentralized POMDPs (Dec-POMDPs) provide a rich, attractive model for planning under uncertainty an...
We consider the problem of cooperative multiagent plan-ning under uncertainty, formalized as a decen...
We consider the problem of cooperative multiagent plan-ning under uncertainty, formalized as a decen...
peer reviewedDecentralized partially observable Markov decision processes (DEC-POMDPs) form a genera...
A problem of planning for cooperative teams under uncertainty is a crucial one in multiagent systems...
In this paper we focus on distributed multiagent planning under uncertainty. For single-agent planni...
We propose an online algorithm for planning under uncertainty in multi-agent settings modeled as DEC...
We consider the problem of communication planning for human-machine cooperation in stochastic and pa...
Planning under uncertainty is an important and challenging problem in multiagent systems. Multiagent...
Distributed Partially Observable Markov Decision Processes (DEC-POMDPs) are a popular planning frame...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
Decentralized partially observable Markov decision processes (Dec-POMDPs) constitute an expressive f...
Multi-agent planning in stochastic environments can be framed formally as a decentralized Markov dec...
Multi-agent planning in stochastic environments can be framed formally as a decen-tralized Markov de...
Decentralized POMDPs (Dec-POMDPs) provide a rich, attractive model for planning under uncertainty an...