Title :
Computational methods for design and control of MEMS micromanipulator arrays
Author :
Bohringer, Karl F. ; Donald, Bruce R. ; MacDonald, Noel C. ; Kovacs, Gregory T A ; Suh, John W.
Author_Institution :
Cornell Univ., Ithaca, NY, USA
Abstract :
As improvements in fabrication technology for microelectromechanical systems, or MEMS, increase the availability and diversity of these micromachines, engineers are defining a growing number of tasks to which they can be put. The idea of carrying out tasks using large coordinated groups of MEMS units motivates the development of automated, algorithmic methods for designing and controlling these groups of devices. We report on progress towards computational MEMS, taking on the challenge of design and control of massively parallel arrays of microactuators. Arrays of MEMS devices can move and position tiny parts, such as integrated circuit chips, in flexible and predictable ways by oscillatory or ciliary action. The theory of programmable force fields can model this action, leading to algorithms for various types of micromanipulation that require no sensing of where the part is. Experiments support the theory
Keywords :
circuit CAD; computerised control; micromechanical devices; semiconductor device manufacture; MEMS device arrays; MEMS micromanipulator array control; MEMS units; algorithmic methods; ciliary action; computational MEMS; fabrication technology; integrated circuit chips; large coordinated groups; massively parallel arrays; microactuator control; microelectromechanical systems; micromachines; micromanipulation; programmable force fields; Actuators; Algorithm design and analysis; Automatic control; Design methodology; Microactuators; Microelectromechanical devices; Micromanipulators; Micromechanical devices; Sensor arrays; Sensorless control;
Journal_Title :
Computational Science & Engineering, IEEE
