Abstract
We propose a SPAM (simultaneous planning and mapping) technique for a manipulator-type robot working in an uncertain environment via a novel Best Next Move algorithm. Demands for a smart decision to move a manipulator such as humanoid arms in uncertain or crowded environments call for a simultaneous planning and mapping technique. In the present work, we focus more on rapid map generation rather than global path search to reduce ignorance level of a given environment. The motivation is that the global path quality will be improved as the ignorance level of the unknown environment decreases. The 3D sensor introduced in the previous work has been improved for better mapping capability and the real-time rehearsal idea is used for c-space cloud point generation. Captured cloud points by 3D sensors, then, create an instantaneous c-space map whereby the Best Next Move algorithm directs the local motion of the manipulator. The direction of the Best Next Move utilizes the gradient of the density distribution of the k-nearest-neighborhood sets in c-space. It has a tendency of traveling along the direction by which the point clouds spread in space, thus rendering faster mapping of c-space obstacles possible. The proposed algorithm is compared with a sensor-based algorithm such as sensor-based RRT for performance comparison. Performance measures, such as mapping efficiency, search time, and total number of c-space point clouds, are reported as well. Possible applications include semiautonomous telerobotics planning and humanoid arm path planning.
Highlights
Manipulator motion planning in unknown environments is a challenging task in path planning study
The most common form is the EKF by which a nonlinear system estimation becomes feasible [10]. When it comes to a probabilistic path planning for a manipulator-type robot, localization is not an issue, but mapping is still important for planning purpose since planning can only take place as the ignorance level of the environment reduces over time
We proposed a simultaneous planning and mapping (SPAM) technique for a manipulator-type robot working in an uncertain environment via a Best Move algorithm
Summary
Manipulator motion planning in unknown environments is a challenging task in path planning study. Due to the limited sensing range or visual occlusion caused by today’s sensing devices, an optimal path planning for a manipulator in unknown environments is either hindered or limited Trends in this area are moving toward a rapid map generation strategy in local motion and, achieve optimality in global path search with better environmental information. The most common form is the EKF by which a nonlinear system estimation becomes feasible [10] When it comes to a probabilistic path planning for a manipulator-type robot, localization is not an issue, but mapping is still important for planning purpose since planning can only take place as the ignorance level of the environment reduces over time. For a rapid map building and path planning, we use the skin-type sensors that completely encompass the entire body of a manipulator Such sensor can generate real-time point clouds of obstacles, thereby making a real-time local c-space construction feasible.
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