Understanding the effect of individual parameters on the collective performance of swarm robotic systems in order to design and optimize individual robot behaviors is a significant challenge. In this paper we present a macroscopic probabilistic model of adaptive collective foraging in a swarm of robots, where each robot in the swarm is capable of adjusting its time threshold parameters following the rules described by Liu et al. 2007. The swarm adapts the ratio of foragers to resters (division of labor) in order to maximize the net swarm energy for a given food density. A probabilistic finite state machine (PFSM) and a number of difference equations are developed to describe collective foraging at a macroscopic level. To model adaptation we...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
The foraging task is one of the canonical testbeds for cooperative robotics, in which a collection o...
Designing effective behavioral controllers for mobile robots can be difficult and tedious; this proc...
Understanding the effect of individual parameters on the collective performance of swarm robotic sys...
Developing self-organised swarm systems capable of adapting to environmental changes as well as to d...
Inspired by the collective behavior observed in natural insects, swarm robotics is a new approach in...
Rapid performance recovery from unforeseen environmental perturbations remains a grand challenge in ...
Swarm robotic systems is still a new field of study, and exploration of its applications and making ...
This article presents a simple adaptation mechanism to automatically adjust the ratio of foragers to...
Robotics is making significant strides in its capabilities and is being integrated into many real-wo...
Swarm robotics utilizes a large number of simple robots to accomplish a task, instead of a single co...
It is a characteristic of swarm robotics that modelling the overall swarm behaviour in terms of the ...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
In this paper we describe the implementation of a Linux extension board for the e-puck educational m...
How groups of cooperative foragers can achieve efficient and robust collective foraging is of intere...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
The foraging task is one of the canonical testbeds for cooperative robotics, in which a collection o...
Designing effective behavioral controllers for mobile robots can be difficult and tedious; this proc...
Understanding the effect of individual parameters on the collective performance of swarm robotic sys...
Developing self-organised swarm systems capable of adapting to environmental changes as well as to d...
Inspired by the collective behavior observed in natural insects, swarm robotics is a new approach in...
Rapid performance recovery from unforeseen environmental perturbations remains a grand challenge in ...
Swarm robotic systems is still a new field of study, and exploration of its applications and making ...
This article presents a simple adaptation mechanism to automatically adjust the ratio of foragers to...
Robotics is making significant strides in its capabilities and is being integrated into many real-wo...
Swarm robotics utilizes a large number of simple robots to accomplish a task, instead of a single co...
It is a characteristic of swarm robotics that modelling the overall swarm behaviour in terms of the ...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
In this paper we describe the implementation of a Linux extension board for the e-puck educational m...
How groups of cooperative foragers can achieve efficient and robust collective foraging is of intere...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
The foraging task is one of the canonical testbeds for cooperative robotics, in which a collection o...
Designing effective behavioral controllers for mobile robots can be difficult and tedious; this proc...