In this work we show the Lyapunov stability and convergence of an adaptive and decentralized coverage control for a team of mobile sensors. This new approach assumes nonholonomic sensors rather than the usual holonomic sensors found in the literature. The kinematics of the unicycle model and a nonlinear control law in polar coordinates are used in order to prove the stability of the controller applied over a team of mobile sensors. This controller is adaptive, which means that the mobile sensors are able to estimate and map a density function in the sampling space without a previous knowledge of the environment. The controller is decentralized, which means that each mobile sensor has its own estimate and computes its own control input base...
Abstract — In this paper, we discuss the realization of a robotic mobile sensor network that allows ...
Abstract — Sensor networks are deployed to meet objectives such as minimizing power consumption and ...
A robotic sensor network is advantageous in performing a coverage task compared to the static sensor...
DOI: 10.1109/CDC.2010.5717058 We show the Lyapunov stability and convergence of an adaptive and dece...
This work deals with decentralized control of multiple nonholonomic mobile sensors for optimal cover...
Abstract — A decentralized, adaptive control law is presented to drive a network of mobile robots to...
© Springer International Publishing Switzerland 2017. This paper presents a distributed control algo...
In this paper, we deal with the problem of distributed target tracking with heterogeneous mobile ro...
This paper addresses the problem of coverage control of a network of mobile sensors. In the current ...
Abstract—In this paper we propose centralized feedback con-trol laws for mobile sensor networks so t...
A team of coordinating mobile robots equipped with operation specific sensors canperform different c...
The self deployment of a decentralized mobile sensor network has been addressed in this thesis. The ...
This paper presents a novel model and distributed algorithms for the cooperation and redeployment of...
Abstract — A decentralized controller is presented that causes a network of robots to converge to an...
This paper investigates control laws allowing mobile, autonomous agents to optimally position themse...
Abstract — In this paper, we discuss the realization of a robotic mobile sensor network that allows ...
Abstract — Sensor networks are deployed to meet objectives such as minimizing power consumption and ...
A robotic sensor network is advantageous in performing a coverage task compared to the static sensor...
DOI: 10.1109/CDC.2010.5717058 We show the Lyapunov stability and convergence of an adaptive and dece...
This work deals with decentralized control of multiple nonholonomic mobile sensors for optimal cover...
Abstract — A decentralized, adaptive control law is presented to drive a network of mobile robots to...
© Springer International Publishing Switzerland 2017. This paper presents a distributed control algo...
In this paper, we deal with the problem of distributed target tracking with heterogeneous mobile ro...
This paper addresses the problem of coverage control of a network of mobile sensors. In the current ...
Abstract—In this paper we propose centralized feedback con-trol laws for mobile sensor networks so t...
A team of coordinating mobile robots equipped with operation specific sensors canperform different c...
The self deployment of a decentralized mobile sensor network has been addressed in this thesis. The ...
This paper presents a novel model and distributed algorithms for the cooperation and redeployment of...
Abstract — A decentralized controller is presented that causes a network of robots to converge to an...
This paper investigates control laws allowing mobile, autonomous agents to optimally position themse...
Abstract — In this paper, we discuss the realization of a robotic mobile sensor network that allows ...
Abstract — Sensor networks are deployed to meet objectives such as minimizing power consumption and ...
A robotic sensor network is advantageous in performing a coverage task compared to the static sensor...