Add to ORKGAbstract—In this paper, we consider a dynamic coverage problem where a team of mobile robots needs to cover a set of time-varying Points of Interest (POIs), while maintaining their connectivity to a remote station in a realistic communication environment. Our goal is to design the motion and communi-cation strategies of the robots such that they periodically visit the POIs, communicate the gathered information to a remote station, minimize their total energy costs, including motion, sensing and communication energy, and satisfy other system constraints. In our previous work [1], we have shown how to pose this problem as a Mixed Integer Linear Program (MILP), which is computationally expensive. In this paper, we focus on designing a consider...
In this paper, we consider the problem of exploring an unknown environment with a team of mobile rob...
International audienceWireless communications is nowadays an important aspect of robotics. There are...
Abstract—For the first time, the problem of optimizing energy for communication and motion is invest...
Abstract—We consider the scenario where a mobile robot needs to visit a number of Points of Interest...
Abstract—We propose algorithms to automatically de-ploy a group of mobile robots and provide coverag...
There has been considerable interest in the area of communication-aware robotics in recent years, wh...
We propose algorithms to automatically deploy a group of mobile robots and provide coverage of a non...
The traditional approach to measure the eciency of a (static) coverage task is the ratio of the inte...
Abstract — We study a path planning problem which arises when multiple robots are used to gather dat...
International audienceWe consider wireless sensor network applications where mobile robots serving a...
In many sensing applications, including environmental monitoring, measurement systems must cover a ...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We propose distributed algorithms to automatically deploy a team of mobile robots to partition and p...
Distributed coverage aims to deploy a team of robots to move around a target area to perform sensing...
Abstract: In this paper, our focus is on certain applications for mobile robotic networks, where rec...
In this paper, we consider the problem of exploring an unknown environment with a team of mobile rob...
International audienceWireless communications is nowadays an important aspect of robotics. There are...
Abstract—For the first time, the problem of optimizing energy for communication and motion is invest...
Abstract—We consider the scenario where a mobile robot needs to visit a number of Points of Interest...
Abstract—We propose algorithms to automatically de-ploy a group of mobile robots and provide coverag...
There has been considerable interest in the area of communication-aware robotics in recent years, wh...
We propose algorithms to automatically deploy a group of mobile robots and provide coverage of a non...
The traditional approach to measure the eciency of a (static) coverage task is the ratio of the inte...
Abstract — We study a path planning problem which arises when multiple robots are used to gather dat...
International audienceWe consider wireless sensor network applications where mobile robots serving a...
In many sensing applications, including environmental monitoring, measurement systems must cover a ...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We propose distributed algorithms to automatically deploy a team of mobile robots to partition and p...
Distributed coverage aims to deploy a team of robots to move around a target area to perform sensing...
Abstract: In this paper, our focus is on certain applications for mobile robotic networks, where rec...
In this paper, we consider the problem of exploring an unknown environment with a team of mobile rob...
International audienceWireless communications is nowadays an important aspect of robotics. There are...
Abstract—For the first time, the problem of optimizing energy for communication and motion is invest...