Finding optimal path through a graph efficiently is central to many problems; including route planning for a mobile robot. BDD-based incremental heuristic search method uses heuristics to focus their search and reuses BDD-based information from previous searches to find solutions to series of similar search problems much faster than solving each search problem from scratch. In this paper, we apply BDD-based incremental heuristic search to robot navigation in unknown terrain, including goal-directed navigation in unknown terrain and mapping of unknown terrain. The resulting BDD-based dynamic A* (BDDD*) algorithm is capable of planning paths in unknown, partially known and changing environments in an efficient, optimal, and complete manner. W...
© 2014, The Author(s). Situated agents frequently need to solve search problems in partially known t...
In many real-world applications (e.g., human-robot collaboration), the environment changes rapidly, ...
Path planning is an essential task in autonomous mobile robotics that demands to navigate following ...
Mobile robots often operate in domains that are only incompletely known, for example, when they have...
known, for example, when they have to move from given start coordinates to given goal coordinates in...
Abstract — For solving problems of robot navigation over unknown and changing terrain, many algorith...
Incremental heuristic search methods can often replan paths much faster than incremental or heurist...
In this chapter, we present one of the most crucial branches in motion planning: search-based planni...
Recently proposed Dynamic Z* heuristic search algorithm enables mobile robots navigating on uneven t...
Mobile robots are often utilized in remote and hostile outdoor environments with uncertainties and u...
Path planning plays an essential role in mobile robot navigation, and the A* algorithm is one of the...
Incremental search methods reuse information from previous searches to find solutions to a series of...
Path planning is an important part of the navigation of autonomous mobile robots. Mobile robots ofte...
Navigation planning is one of the most vital aspects of an autonomous mobile robot. The problem of n...
We describe a practical path-planning algorithm that gener-ates smooth paths for an autonomous vehic...
© 2014, The Author(s). Situated agents frequently need to solve search problems in partially known t...
In many real-world applications (e.g., human-robot collaboration), the environment changes rapidly, ...
Path planning is an essential task in autonomous mobile robotics that demands to navigate following ...
Mobile robots often operate in domains that are only incompletely known, for example, when they have...
known, for example, when they have to move from given start coordinates to given goal coordinates in...
Abstract — For solving problems of robot navigation over unknown and changing terrain, many algorith...
Incremental heuristic search methods can often replan paths much faster than incremental or heurist...
In this chapter, we present one of the most crucial branches in motion planning: search-based planni...
Recently proposed Dynamic Z* heuristic search algorithm enables mobile robots navigating on uneven t...
Mobile robots are often utilized in remote and hostile outdoor environments with uncertainties and u...
Path planning plays an essential role in mobile robot navigation, and the A* algorithm is one of the...
Incremental search methods reuse information from previous searches to find solutions to a series of...
Path planning is an important part of the navigation of autonomous mobile robots. Mobile robots ofte...
Navigation planning is one of the most vital aspects of an autonomous mobile robot. The problem of n...
We describe a practical path-planning algorithm that gener-ates smooth paths for an autonomous vehic...
© 2014, The Author(s). Situated agents frequently need to solve search problems in partially known t...
In many real-world applications (e.g., human-robot collaboration), the environment changes rapidly, ...
Path planning is an essential task in autonomous mobile robotics that demands to navigate following ...