This thesis is concerned with the design and analysis of behaviors in swarm robotic systems using minimal information acquisition and processing. The motivation for this work is to contribute in paving the way for the implementation of swarm robotic systems at physically small scales, which will open up new application domains for their operation. At these scales, the space and energy available for the integration of sensors and computational hardware within the individual robots is at a premium. As a result, trade-offs in performance can be justified if a task can be achieved in a more parsimonious way. A framework is developed whereby meaningful collective behaviors in swarms of robots can be shown to emerge without the robots, in prin...
The coordination of a flock of robots is a high demand application in applications such as motion pl...
Demand for autonomous multi-robot systems, where robots can cooperate with each other without human ...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...
This paper presents a solution to the problem of self-organized aggregation of embodied robots that ...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
We introduce a method of designing behaviors for swarms of micro-robots based on observation of huma...
Minimalist robots are functionally highly restricted but well suited for swarm robotic applications ...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
In this thesis, we investigate the problem of path formation and prey retrieval in a swarm of robots...
Abstract — This work is primarily devoted to specific commu-nication and sensing approaches applied ...
Swarm robotics is the collaboration of a large number of robots to accomplish a set of specified tas...
Over the last years advantages in autonomous agent systems and technology have created many potentia...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
In this chapter, we present and discuss a number of types of fundamental collective behaviors studie...
In this thesis, a collective foraging method for a swarm of aerial robots is investigated. The metho...
The coordination of a flock of robots is a high demand application in applications such as motion pl...
Demand for autonomous multi-robot systems, where robots can cooperate with each other without human ...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...
This paper presents a solution to the problem of self-organized aggregation of embodied robots that ...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
We introduce a method of designing behaviors for swarms of micro-robots based on observation of huma...
Minimalist robots are functionally highly restricted but well suited for swarm robotic applications ...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
In this thesis, we investigate the problem of path formation and prey retrieval in a swarm of robots...
Abstract — This work is primarily devoted to specific commu-nication and sensing approaches applied ...
Swarm robotics is the collaboration of a large number of robots to accomplish a set of specified tas...
Over the last years advantages in autonomous agent systems and technology have created many potentia...
Tasks that require parallelism, redundancy, and adaptation to dynamic, possibly hazardous environmen...
In this chapter, we present and discuss a number of types of fundamental collective behaviors studie...
In this thesis, a collective foraging method for a swarm of aerial robots is investigated. The metho...
The coordination of a flock of robots is a high demand application in applications such as motion pl...
Demand for autonomous multi-robot systems, where robots can cooperate with each other without human ...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...