In this paper, we describe a method for coordinating multiple robots in a pursuit-evasion domain. We examine the problem of multiple robotic pursuers attempting to locate a non-adversarial mobile evader in an indoor environment. Unlike many other approaches to this problem, our method seeks to minimize expected time of capture rather than guaranteeing capture. This allows us to examine the performance of our algorithm in complex and cluttered environments where guaranteed capture is difficult or impossible with limited pursuers. We present a probabilistic formulation of the problem, discretize the environment, and define cost heuristics for use in planning. We then propose a scalable algorithm using an entropy cost heuristic that searches p...
This paper is concerned with multi-robot hunting in dynamic environments. A BCSLA approach is propos...
This paper addresses the problem of planning the motion of one or more pursuers in a polygonal envir...
This paper contains two main results: First, we revisit the well-known visibility based pursuit-evas...
Abstract — In this paper, we describe a method for coordinating multiple robots in a pursuit-evasion...
This paper examines the problem of coordinating multiple robotic pursuers in locating and tracking a...
Abstract: this paper addresses the problem of coordinating multiple robotic pursuers in tracking and...
This paper addresses the problem of coordinating multiple robotic pursuers in tracking and catching ...
This paper considers the scenario that a team of autonomous robots pursues a smart evader while conc...
This paper addresses the problem of coordinating multiple mobile robots in searching for and capturi...
We consider a pursuit-evasion problem with a heterogeneous team of multiple pursuers and multiple ev...
We consider a pursuit-evasion problem with a heterogeneous team of multiple pursuers and multiple ev...
We propose an algorithm for a visibility-based pursuit-evasion problem in a simply-connected two-dim...
We propose an algorithm for a visibility-based pursuit-evasion problem in a simply-connected two-dim...
This dissertation examines the problem of designing large scale multi-robot systems for pursuit-evas...
Abstract—This paper presents a distributed algorithm for multiple robots to move as a group in a clu...
This paper is concerned with multi-robot hunting in dynamic environments. A BCSLA approach is propos...
This paper addresses the problem of planning the motion of one or more pursuers in a polygonal envir...
This paper contains two main results: First, we revisit the well-known visibility based pursuit-evas...
Abstract — In this paper, we describe a method for coordinating multiple robots in a pursuit-evasion...
This paper examines the problem of coordinating multiple robotic pursuers in locating and tracking a...
Abstract: this paper addresses the problem of coordinating multiple robotic pursuers in tracking and...
This paper addresses the problem of coordinating multiple robotic pursuers in tracking and catching ...
This paper considers the scenario that a team of autonomous robots pursues a smart evader while conc...
This paper addresses the problem of coordinating multiple mobile robots in searching for and capturi...
We consider a pursuit-evasion problem with a heterogeneous team of multiple pursuers and multiple ev...
We consider a pursuit-evasion problem with a heterogeneous team of multiple pursuers and multiple ev...
We propose an algorithm for a visibility-based pursuit-evasion problem in a simply-connected two-dim...
We propose an algorithm for a visibility-based pursuit-evasion problem in a simply-connected two-dim...
This dissertation examines the problem of designing large scale multi-robot systems for pursuit-evas...
Abstract—This paper presents a distributed algorithm for multiple robots to move as a group in a clu...
This paper is concerned with multi-robot hunting in dynamic environments. A BCSLA approach is propos...
This paper addresses the problem of planning the motion of one or more pursuers in a polygonal envir...
This paper contains two main results: First, we revisit the well-known visibility based pursuit-evas...