Effective communication is key to successful, de- centralized, multi-robot path planning. Yet, it is far from obvious what information is crucial to the task at hand, and how and when it must be shared among robots. To side-step these issues and move beyond hand-crafted heuristics, we propose a combined model that automatically synthesizes local communication and decision-making policies for robots navigating in constrained workspaces. Our architecture is composed of a convolutional neural network (CNN) that extracts adequate features from local observations, and a graph neural network (GNN) that communicates these features among robots. We train the model to imitate an expert algorithm, and use the resulting model online in decentralized p...
Article no. 600984Path planning plays a crucial role in many applications in robotics for example fo...
In many applications in robotics, there exist teams of robots operating in dynamic environments requ...
Complex service robotics scenarios entail unpredictable task appearance both in space and time. This...
Mobile robots are already in use for mapping, agriculture, entertainment, and the delivery of goods ...
Multi-robot motion planning without a central coordinator usually relies on the sharing of planned t...
Mobile robots are already in use for mapping, agriculture, entertainment, and the delivery of goods ...
In many applications in robotics, there exist teams of robots operating in dynamic environments requ...
INSPEC Accession Number: 19986957Path planning is important for robot action execution, since a path...
Robots will play a crucial role in the future and need to work as a team in increasingly more comple...
Autonomous navigation is a key skill for assistive and service robots. To be successful, robots have...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
Autonomous navigation is a key skill for assistive and service robots. To be successful, robots have...
A neural network solution is proposed for solving path planning problems faced by mobile robots. The...
This work presents the modeling, control architecture and simulation of a decentralized multi-robot ...
Article no. 600984Path planning plays a crucial role in many applications in robotics for example fo...
In many applications in robotics, there exist teams of robots operating in dynamic environments requ...
Complex service robotics scenarios entail unpredictable task appearance both in space and time. This...
Mobile robots are already in use for mapping, agriculture, entertainment, and the delivery of goods ...
Multi-robot motion planning without a central coordinator usually relies on the sharing of planned t...
Mobile robots are already in use for mapping, agriculture, entertainment, and the delivery of goods ...
In many applications in robotics, there exist teams of robots operating in dynamic environments requ...
INSPEC Accession Number: 19986957Path planning is important for robot action execution, since a path...
Robots will play a crucial role in the future and need to work as a team in increasingly more comple...
Autonomous navigation is a key skill for assistive and service robots. To be successful, robots have...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
Autonomous navigation is a key skill for assistive and service robots. To be successful, robots have...
A neural network solution is proposed for solving path planning problems faced by mobile robots. The...
This work presents the modeling, control architecture and simulation of a decentralized multi-robot ...
Article no. 600984Path planning plays a crucial role in many applications in robotics for example fo...
In many applications in robotics, there exist teams of robots operating in dynamic environments requ...
Complex service robotics scenarios entail unpredictable task appearance both in space and time. This...