Title :
Haptically generated paths of an AFM-based nanomanipulator using potential fields
Author :
Ammi, Mehdi ; Ferreira, Antoine
Author_Institution :
Lab. Vision et Robotique, Bourges, France
Abstract :
This paper proposes a practical planning system for 2D assembly tasks at the micro/nano scale. To improve the real-time observation and manipulation, we proposed real-time 3-D reconstruction of the microworld using image processing and virtualized reality techniques. Then, a planner covers a whole range of problems in object assignment, obstacle detection and avoidance and path trajectory. We describe algorithms based on optimization theory and Voronoi graph construction. As automatic motion planners fail due to the difficulty of discovering critical configurations due to microdomain interactions, cooperation with the operator skills is able to solve a motion planning query. The feasible haptically-generated paths based on potentials fields reaction forces are selected for efficient pushing-based nanomanipulation without collisions.
Keywords :
assembling; atomic force microscopy; collision avoidance; computational geometry; haptic interfaces; image reconstruction; industrial manipulators; nanotechnology; object detection; optimisation; real-time systems; virtual reality; AFM based nanomanipulator; Voronoi graph construction; automatic motion planning; haptical generated paths; image processing; microdomain interactions; microscale 2D assembly; nanoscale 2D assembly; object assignment; obstacle avoidance; obstacle detection; optimization; path planning system; path trajectory; potential field reaction forces; real time 3D reconstruction; virtualized reality technique; Atomic force microscopy; Force feedback; Humans; Image processing; Nanoscale devices; Path planning; Piezoresistance; Robotic assembly; Three dimensional displays; Virtual reality;
Conference_Titel :
Nanotechnology, 2004. 4th IEEE Conference on
Print_ISBN :
0-7803-8536-5
DOI :
10.1109/NANO.2004.1392349
