Title :
Flexible microrobots for micro assembly tasks
Author :
Woern, H. ; Seyfried, J. ; St.Fahlbusch ; Buerkle, A. ; Schmoeckel, F.
Author_Institution :
Inst. of Process Control & Robotics, Karlsruhe Univ., Germany
Abstract :
A wide range of microcomponents can today be produced using various microfabrication techniques, The assembly of complex microsystems consisting of several single components (i.e., hybrid microsystems) is, however, a difficult task that is seen to be a real challenge for the robotic research community. It is necessary to conceive flexible, highly precise and fast microassembly methods. In this paper, the development of a microrobot-based microassembly station is presented. Mobile piezoelectric microrobots with dimensions of some cm3 and with at least 5 DOF can perform various manipulations either under a light microscope or inside the vacuum chamber of a scanning electron microscope. The components of the station developed and its control system are described. The latter comprises a vision-based sensor system for automatic robot control and user interfaces for semi-automated control and teleoperation. First results of the SEM-based micro assembly, handling of biological cells and integration of force microsensors into our microrobots are presented as well
Keywords :
CCD image sensors; assembly planning; biocontrol; biological techniques; expert systems; flexible manipulators; force sensors; graphical user interfaces; legged locomotion; microactuators; microassembling; micromanipulators; microrobots; motion control; object recognition; optical microscopy; robot vision; scanning electron microscopy; CCD camera; MINIMAN III; RobotMan; SEM-based microassembly; automatic robot control; complex microsystems; control system; depth recovery module; execution planning; fast microassembly methods; feedback position control; flexible microrobots; gripper; handling of biological cells; hybrid microsystems; integration of force microsensors; intelligent assembly planning; intelligent vision system; knowledge base; microassembly tasks; microcomponents production; microfabrication; micromanipulation; microrobot-based microassembly station; mobile piezoelectric microrobots; motion control; object recognition; optical microscope stage; semiautomated control; teleoperation; user interfaces; vision-based sensor system; walking process; Automatic control; Biological cells; Control systems; Electron mobility; Microassembly; Robot control; Robotic assembly; Scanning electron microscopy; Sensor systems; User interfaces;
Conference_Titel :
Micromechatronics and Human Science, 2000. MHS 2000. Proceedings of 2000 International Symposium on
Conference_Location :
Nagoya
Print_ISBN :
0-7803-6498-8
DOI :
10.1109/MHS.2000.903303
