This thesis describes the development of the Delft Center for Systems and Control (DCSC) Networked Embedded Robotics Lab (NER) and a novel distributed formation control algorithm to showcase the lab’s experimental capabilities. The lab environment is built to support ground as well as aerial robotic platforms featuring a netted environment and state-of-the-art camera localization system. Both the hardware and software infrastructure considered in this work were chosen to provide an easy interface for students to run distributed experiments with a focus on code reusability. To this end, the Robot Operating System (ROS) was chosen as a software framework as it provides drivers for most robotics platforms, libraries for common tasks such as lo...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
Aimed at the problem that experimental verifications are difficult to execute due to lacking effecti...
The indoor multi-agent robotic testbed named TIGER Square at the LSU iCORE lab is aimed at experimen...
In this paper we introduce a formation control loop that maximizes the performance of the cooperativ...
In recent years, technology has evolved so rapidly that systems are becoming more and more complex. ...
In this paper we introduce a formation control loop that maximizes the performance of the cooperativ...
In the exploration and implementation of formation control strategies, communication range and bandw...
This thesis presents the design and developments of robotic and virtual SWARM testbeds within SWARM ...
This paper presents the development of a robotic testbed for investigating the formation control alg...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
Multi-robot system enjoys broad applications in civilian, industrial, and military areas, as team co...
Abstract A new algorithm for the control of formations of mobile robots is pre-sented. Formations wi...
The use of distributed multi-agent formation control for non-holonomic mobile robots shows great pro...
This thesis addresses several theoretical and practical problems related to formation-control of aut...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
Aimed at the problem that experimental verifications are difficult to execute due to lacking effecti...
The indoor multi-agent robotic testbed named TIGER Square at the LSU iCORE lab is aimed at experimen...
In this paper we introduce a formation control loop that maximizes the performance of the cooperativ...
In recent years, technology has evolved so rapidly that systems are becoming more and more complex. ...
In this paper we introduce a formation control loop that maximizes the performance of the cooperativ...
In the exploration and implementation of formation control strategies, communication range and bandw...
This thesis presents the design and developments of robotic and virtual SWARM testbeds within SWARM ...
This paper presents the development of a robotic testbed for investigating the formation control alg...
This paper investigates the problem of localizing a team of robots in an indoor environment while si...
Multi-robot system enjoys broad applications in civilian, industrial, and military areas, as team co...
Abstract A new algorithm for the control of formations of mobile robots is pre-sented. Formations wi...
The use of distributed multi-agent formation control for non-holonomic mobile robots shows great pro...
This thesis addresses several theoretical and practical problems related to formation-control of aut...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
The increasing implementation of autonomous robots in industries and daily life demands the developm...
Aimed at the problem that experimental verifications are difficult to execute due to lacking effecti...