This paper formulates a new scalable algorithm for motion planning and control of multiple point-mass robots. These autonomous robots are designated to move safely to their goals in a priori known workspace cluttered with fixed and moving obstacles of arbitrary positions and sizes. The control laws proposed for obstacle and collision avoidance and target convergence ensure that the equilibrium point of the given system is asymptotically stable. Computer simulations with the proposed technique and applications to a team of two planar (RP) manipulators working together in a common workspace are presented. Also, the robustness of the system in the presence of noise is verified through simulations
Deploying fleets of autonomous robots in real-world applications requires addressing three problems:...
Motion planning for robotics manipulation is an essential component for automating various tasks. In...
Abstract This paper presents a novel multi-robot manipulation algorithm which al-lows a large number...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
This paper proposes a solution to the motion planning and control problem of a point-mass robot whic...
This paper proposes a solution to the motion planning and control problem of a point-mass robot whic...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
A flexible operation of multiple robotic manipulators operating in a dynamic environment requires o...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
We study the motion-planning problem for pairs and triples of robots operating in a shared workspace...
This paper describes a holistic method for automatically synthesizing controllers for a team of robo...
We propose an algorithm as a solution to the problem of trajectory planning and posture control of m...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
Deploying fleets of autonomous robots in real-world applications requires addressing three problems:...
Motion planning for robotics manipulation is an essential component for automating various tasks. In...
Abstract This paper presents a novel multi-robot manipulation algorithm which al-lows a large number...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
This paper proposes a solution to the motion planning and control problem of a point-mass robot whic...
This paper proposes a solution to the motion planning and control problem of a point-mass robot whic...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
A flexible operation of multiple robotic manipulators operating in a dynamic environment requires o...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
We study the motion-planning problem for pairs and triples of robots operating in a shared workspace...
This paper describes a holistic method for automatically synthesizing controllers for a team of robo...
We propose an algorithm as a solution to the problem of trajectory planning and posture control of m...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
Deploying fleets of autonomous robots in real-world applications requires addressing three problems:...
Motion planning for robotics manipulation is an essential component for automating various tasks. In...
Abstract This paper presents a novel multi-robot manipulation algorithm which al-lows a large number...