INSPEC Accession Number: 19986957Path planning is important for robot action execution, since a path or a motion trajectory for a particular action has to be defined first before the action can be executed. Most of the current approaches are iterative methods where the trajectory is generated by predicting the next state based on the current state. Here we propose a novel method by utilising a fully convolutional neural network, which allows generation of complete paths even for several agents with one network prediction iteration. We demonstrate that our method is able to successfully generate optimal or close to optimal paths (less than 10% longer) in more than 99% of the cases for single path predictions in 2D and 3D environments. Furthe...
This paper presents the application of multilayer perceptrons to the robot path planning problem, an...
Robotic path planning and obstacle avoidance has been the subject of intensive research in recent ye...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Article no. 600984Path planning plays a crucial role in many applications in robotics for example fo...
Effective communication is key to successful, de- centralized, multi-robot path planning. Yet, it is...
Fast and efficient path generation is critical for robots operating in complex environments. This mo...
Path planning plays a significant role in autonomous navigation for robots in complex environments a...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
Path planning plays an important role in navigation and motion planning for robotics and automated d...
We present a new approach to the multi-robot path planning problem, where a number of robots are to ...
This paper introduces an innovative deep learning framework for robotic path planning. This framewor...
Multi-robot motion planning without a central coordinator usually relies on the sharing of planned t...
Reducing costs in the acquisition of industrial robots and their benefit in continuous production wo...
The importance of path planning is very significant in the field of robotics. This paper presents th...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
This paper presents the application of multilayer perceptrons to the robot path planning problem, an...
Robotic path planning and obstacle avoidance has been the subject of intensive research in recent ye...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Article no. 600984Path planning plays a crucial role in many applications in robotics for example fo...
Effective communication is key to successful, de- centralized, multi-robot path planning. Yet, it is...
Fast and efficient path generation is critical for robots operating in complex environments. This mo...
Path planning plays a significant role in autonomous navigation for robots in complex environments a...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
Path planning plays an important role in navigation and motion planning for robotics and automated d...
We present a new approach to the multi-robot path planning problem, where a number of robots are to ...
This paper introduces an innovative deep learning framework for robotic path planning. This framewor...
Multi-robot motion planning without a central coordinator usually relies on the sharing of planned t...
Reducing costs in the acquisition of industrial robots and their benefit in continuous production wo...
The importance of path planning is very significant in the field of robotics. This paper presents th...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
This paper presents the application of multilayer perceptrons to the robot path planning problem, an...
Robotic path planning and obstacle avoidance has been the subject of intensive research in recent ye...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...