Planners need to become faster as we seek to tackle increasingly complicated problems. Much of the recent improvements in computer speed is due to multi-core processors. For planners to take advantage of these types of architectures, we must adapt algorithms for parallel processing. There are a number of planning domains where state expansions are slow. One example is robot motion planning, where most of the time is devoted to collision checking. In this work, we present PA*SE, a novel, parallel version of A* (and weighted A*) which parallelizes state expansions by taking advantage of this property. While getting close to a linear speedup in the number of cores, we still preserve completeness and optimality of A* (bounded sub-optimality of ...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...
Planners need to become faster as we seek to tackle in-creasingly complicated problems. Much of the ...
Parallel search algorithms harness the multithreading capability of modern processors to achieve fas...
Parallel search algorithms have been shown to improve planning speed by harnessing the multithreadin...
In this paper we show that parallel search techniques derived from their sequential counterparts can...
Despite their near dominance, heuristic state search planners still lag behind disjunctive planners ...
For decades, humans have dreamed of making cars that could drive themselves, so that travel would be...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
Reinforcement learning is an important family of algo-rithms that have been extremely effective in f...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...
Planners need to become faster as we seek to tackle in-creasingly complicated problems. Much of the ...
Parallel search algorithms harness the multithreading capability of modern processors to achieve fas...
Parallel search algorithms have been shown to improve planning speed by harnessing the multithreadin...
In this paper we show that parallel search techniques derived from their sequential counterparts can...
Despite their near dominance, heuristic state search planners still lag behind disjunctive planners ...
For decades, humans have dreamed of making cars that could drive themselves, so that travel would be...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
One of the many features needed to support the activities of autonomous systems is the ability of mo...
Reinforcement learning is an important family of algo-rithms that have been extremely effective in f...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...
We present two problems in multiple-robot motion planning that can be quite naturally solved using t...