Embedding planning systems in real-world domains has led to the necessity of Distributed Continual Planning (DCP) systems where planning activities are distributed across multiple agents and plan generation may occur concurrently with plan execution. A key challenge in DCP systems is how to coordinate activities for a group of planning agents. This problem is compounded when these agents are situated in a real-world dynamic domain where the agents often encounter differing, incomplete, and possibly inconsistent views of their environment. To date, DCP systems have only focused on cases where agents’ behavior is designed to optimize a global plan. In contrast, this paper presents a temporal reasoning mechanism for self-interested planning ag...
Cooperative problem solving involves four key phases: (1) finding potential members to form a team, ...
Planning algorithms have traditionally been geared toward achievement goals in single-agent environm...
Interacting agents that interleave planning and execution must reach consensus on their commitments ...
This paper provides a theoretical basis for performing time limited planning within Belief-Desire-In...
This paper discusses the specifics of planning in multiagent environments. It presents the formal ...
This paper investigates how centralised, cooperative, multi-agent planning problems with concurrent ...
The problem of planning with partial observability in the presence of a single agent has been addres...
We address the problem of coordinating autonomous agents that have to come up with a joint plan and ...
The ability of temporal planners to find concurrent plans can potentially be exploited in multiagent...
Abstract—Multi-agent planning is a difficult, yet under investigated class of planning problems. In ...
Abstract. We describe a Multiagent Planning approach, named Social Continual Planning, that tackles ...
In this paper, we study a dialogue-based approach to multi-agent collaborative plan search in the fr...
Single-agent planning in a multi-agent environment is chal-lenging because the actions of other agen...
A multi agent system executing plans in an uncertain environment is presented. The agents execute a ...
Many applications of autonomous agents require groups to work in tight coordination. To be dependabl...
Cooperative problem solving involves four key phases: (1) finding potential members to form a team, ...
Planning algorithms have traditionally been geared toward achievement goals in single-agent environm...
Interacting agents that interleave planning and execution must reach consensus on their commitments ...
This paper provides a theoretical basis for performing time limited planning within Belief-Desire-In...
This paper discusses the specifics of planning in multiagent environments. It presents the formal ...
This paper investigates how centralised, cooperative, multi-agent planning problems with concurrent ...
The problem of planning with partial observability in the presence of a single agent has been addres...
We address the problem of coordinating autonomous agents that have to come up with a joint plan and ...
The ability of temporal planners to find concurrent plans can potentially be exploited in multiagent...
Abstract—Multi-agent planning is a difficult, yet under investigated class of planning problems. In ...
Abstract. We describe a Multiagent Planning approach, named Social Continual Planning, that tackles ...
In this paper, we study a dialogue-based approach to multi-agent collaborative plan search in the fr...
Single-agent planning in a multi-agent environment is chal-lenging because the actions of other agen...
A multi agent system executing plans in an uncertain environment is presented. The agents execute a ...
Many applications of autonomous agents require groups to work in tight coordination. To be dependabl...
Cooperative problem solving involves four key phases: (1) finding potential members to form a team, ...
Planning algorithms have traditionally been geared toward achievement goals in single-agent environm...
Interacting agents that interleave planning and execution must reach consensus on their commitments ...