Add to ORKGWe present a means in which individual members of a multi-robot team may allocate themselves into specialist and generalist niches in a multi-foraging task where there may exist a cost for generalist strategies. Through the use of reinforcement learning, we show that the members can allocate themselves into effective distributions consistent with those distributions predicted by optimal foraging theory. These distributions are established without prior knowledge of the environment, without direct communication between team members, and with minimal state
Task partitioning is the decomposition of a task into two or more sub-tasks that can be tackled sepa...
Specialization is a common feature in animal societies that leads to an improvement in the fitness o...
An ability to adjust to changing environments and unforeseen circumstances is likely to be an import...
We examine a canonical multi-robot foraging task, in which multiple objects must be located, collect...
In this work, we study behavioral specialization in a swarm of autonomous robots. In the studied swa...
Foraging in a swarm of robots has been investigated by many researchers, where the prevalent techniq...
Abstract. This paper presents a simple adaptation mechanism to automatically adjust the ratio of for...
The development of mechanisms that enable robot teams to autonomously generate cooperative behaviour...
This paper describes research investigating behavioral specialization in learning robot teams. Each...
This article presents a simple adaptation mechanism to automatically adjust the ratio of foragers to...
This research seeks to quantify the impact of the choice of reward function on behavioral diversity...
Abstract. Reinforcement learning (RL) is a fundamental process by which organisms learn to achieve a...
Abstract Collective self-organization of animal groups is a recurring phenomenon in nature which has...
The formation of collaborative robotic teams for task execution often requires coordination in both ...
One of the most elusive but important goals of swarm robotics is to reproduce the emergent collabora...
Task partitioning is the decomposition of a task into two or more sub-tasks that can be tackled sepa...
Specialization is a common feature in animal societies that leads to an improvement in the fitness o...
An ability to adjust to changing environments and unforeseen circumstances is likely to be an import...
We examine a canonical multi-robot foraging task, in which multiple objects must be located, collect...
In this work, we study behavioral specialization in a swarm of autonomous robots. In the studied swa...
Foraging in a swarm of robots has been investigated by many researchers, where the prevalent techniq...
Abstract. This paper presents a simple adaptation mechanism to automatically adjust the ratio of for...
The development of mechanisms that enable robot teams to autonomously generate cooperative behaviour...
This paper describes research investigating behavioral specialization in learning robot teams. Each...
This article presents a simple adaptation mechanism to automatically adjust the ratio of foragers to...
This research seeks to quantify the impact of the choice of reward function on behavioral diversity...
Abstract. Reinforcement learning (RL) is a fundamental process by which organisms learn to achieve a...
Abstract Collective self-organization of animal groups is a recurring phenomenon in nature which has...
The formation of collaborative robotic teams for task execution often requires coordination in both ...
One of the most elusive but important goals of swarm robotics is to reproduce the emergent collabora...
Task partitioning is the decomposition of a task into two or more sub-tasks that can be tackled sepa...
Specialization is a common feature in animal societies that leads to an improvement in the fitness o...
An ability to adjust to changing environments and unforeseen circumstances is likely to be an import...