Simultaneous localization and mapping (SLAM) is a challenging and vital problem in robotics. It is important in tasks such as disaster response, deep-sea and cave exploration, in which robots must construct a map of an unknown terrain, and at the same time localize themselves within the map. The issue with single- robot SLAM is the relatively high rate of failure in a realistic application, as well as the time and energy cost. In this work, we propose a new approach to decentralized multi-robot SLAM which uses a robot swarm to map the environment. This system is capable of mapping an environment without human assistance and without the need for any additional infrastructure. We assume that 1) no robot possesses sufficient memory to store th...
A major goal in mobile robotics is to develop autonomous robots that can perform various tasks in un...
Spatial autonomy enables autonomous agents to interact with the environment intelligently and smooth...
International audienceThis paper presents a multi-vehicle decentralized SLAM algorithm. We expose th...
A robot swarm is a decentralized system characterized by locality of sensing and communication, self...
This thesis examines the use of multiple robots in cooperative simultaneous localization and mapping...
Planning tasks performed by a robotic agent require previous access to a map of the environment and ...
Planning tasks performed by a robotic agent require previous access to a map of the environment and ...
This paper presents a multi-robot mapping and localization system. Learning maps and efficient explo...
Multi-Agent Systems (MAS) can be used in the exploration and mapping of unknown environments. To coo...
Efficient exploration in multi-robot SLAM is a challenging task. This thesis describes the design of...
Multi-robot systems are an efficient method to explore and map an unknown environment. The simulatan...
Abstract – In this paper, we present a system for multi-robot exploration of an unknown environment,...
The chapter is devoted to the development of scalable algorithms for multi-agent solution of the SLA...
Collaborative robots represent an evolution in the field of swarm robotics that is pervasive in mode...
This thesis examines the use of multiple robots in cooperative simultaneous localization and mapping...
A major goal in mobile robotics is to develop autonomous robots that can perform various tasks in un...
Spatial autonomy enables autonomous agents to interact with the environment intelligently and smooth...
International audienceThis paper presents a multi-vehicle decentralized SLAM algorithm. We expose th...
A robot swarm is a decentralized system characterized by locality of sensing and communication, self...
This thesis examines the use of multiple robots in cooperative simultaneous localization and mapping...
Planning tasks performed by a robotic agent require previous access to a map of the environment and ...
Planning tasks performed by a robotic agent require previous access to a map of the environment and ...
This paper presents a multi-robot mapping and localization system. Learning maps and efficient explo...
Multi-Agent Systems (MAS) can be used in the exploration and mapping of unknown environments. To coo...
Efficient exploration in multi-robot SLAM is a challenging task. This thesis describes the design of...
Multi-robot systems are an efficient method to explore and map an unknown environment. The simulatan...
Abstract – In this paper, we present a system for multi-robot exploration of an unknown environment,...
The chapter is devoted to the development of scalable algorithms for multi-agent solution of the SLA...
Collaborative robots represent an evolution in the field of swarm robotics that is pervasive in mode...
This thesis examines the use of multiple robots in cooperative simultaneous localization and mapping...
A major goal in mobile robotics is to develop autonomous robots that can perform various tasks in un...
Spatial autonomy enables autonomous agents to interact with the environment intelligently and smooth...
International audienceThis paper presents a multi-vehicle decentralized SLAM algorithm. We expose th...