Multi-mobile robot systems show great advantages over one single robot in many applications. However, the robots are required to form desired task-specified formations, making feasible motions decrease significantly. Thus, it is challenging to determine whether the robots can pass through an obstructed environment under formation constraints, especially in an obstacle-rich environment. Furthermore, is there an optimal path for the robots? To deal with the two problems, a novel graphbased motion planner is proposed in this paper. A mapping between workspace and configuration space of multi-mobile robot systems is first built, where valid configurations can be acquired to satisfy both formation constraints and collision avoidance. Then, an un...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
In this paper we present a method for navigating a multi-robot system through an environment while a...
This article presents a multi-robot trajectory planning method which guarantees optimization feasibi...
We present a constrained optimization method for multi-robot formation control in dynamic environmen...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
Abstract: This paper addresses a formation navigation issue for a group of mobile robots passing thr...
This paper is concerned with planning the motion of mobile robots in formation, which means certain ...
A novel multi-robot path planning approach is presented in this paper. Based on the standard Dijkstr...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Multi-robot cooperative navigation in real-world environments is essential in many applications, inc...
This paper addresses the control of a team of nonholonomic mobile robots navigating in a terrain wit...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
The labeled Multi-Robot Motion Planning (MRMP) problem, despite its wide range of different setups a...
In this paper we present a method for navigating a multirobot system through an environment while ad...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
In this paper we present a method for navigating a multi-robot system through an environment while a...
This article presents a multi-robot trajectory planning method which guarantees optimization feasibi...
We present a constrained optimization method for multi-robot formation control in dynamic environmen...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
Abstract: This paper addresses a formation navigation issue for a group of mobile robots passing thr...
This paper is concerned with planning the motion of mobile robots in formation, which means certain ...
A novel multi-robot path planning approach is presented in this paper. Based on the standard Dijkstr...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Multi-robot cooperative navigation in real-world environments is essential in many applications, inc...
This paper addresses the control of a team of nonholonomic mobile robots navigating in a terrain wit...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
The labeled Multi-Robot Motion Planning (MRMP) problem, despite its wide range of different setups a...
In this paper we present a method for navigating a multirobot system through an environment while ad...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
In this paper we present a method for navigating a multi-robot system through an environment while a...
This article presents a multi-robot trajectory planning method which guarantees optimization feasibi...