Multi-robot motion planning without a central coordinator usually relies on the sharing of planned trajectories among the robots via wireless communication in order to achieve predictive collision avoidance. Path planners found in the literature that feature this scheme usually boast levels of performance comparable with their centralized counterparts. However, in practice, communication tends to be unreliable and lead to significant performance degradation, which may eventually result in collisions among robots.This thesis proposes a data-driven decentralized approach for multi-robot motion planning in dynamic environments. Instead of requiring robots to share their intentions with each other, a model based on recurrent neural networks (RN...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
An exploration task can be performed by a team of mobile robots more efficiently than human counterp...
Decentralized multi-robot systems typically perform coordinated motion planning by constantly broadc...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Abslrucl- A new motion planning framework is presented that enables multiple mobile robots with limi...
Planning safe motions for multi-robot systems is crucial for deploying them in real-world applicatio...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
The ability to decide and adjust actions according to motion prediction of dynamic obstacles offers ...
A new motion planning framework is presented that enables multiple mobile robots with limited ranges...
Robotic navigation in environments shared with other robots or humans remains challenging because th...
Existing motion planning algorithms for multi-robot systems must be improved to address poor coordin...
A new motion planning framework is presented that enables multiple mobile robots with limited ranges...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
This paper contributes a method to design a novel navigation planner exploiting a learning-based col...
Effective communication is key to successful, de- centralized, multi-robot path planning. Yet, it is...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
An exploration task can be performed by a team of mobile robots more efficiently than human counterp...
Decentralized multi-robot systems typically perform coordinated motion planning by constantly broadc...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
Abslrucl- A new motion planning framework is presented that enables multiple mobile robots with limi...
Planning safe motions for multi-robot systems is crucial for deploying them in real-world applicatio...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
The ability to decide and adjust actions according to motion prediction of dynamic obstacles offers ...
A new motion planning framework is presented that enables multiple mobile robots with limited ranges...
Robotic navigation in environments shared with other robots or humans remains challenging because th...
Existing motion planning algorithms for multi-robot systems must be improved to address poor coordin...
A new motion planning framework is presented that enables multiple mobile robots with limited ranges...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
This paper contributes a method to design a novel navigation planner exploiting a learning-based col...
Effective communication is key to successful, de- centralized, multi-robot path planning. Yet, it is...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
An exploration task can be performed by a team of mobile robots more efficiently than human counterp...
Decentralized multi-robot systems typically perform coordinated motion planning by constantly broadc...