Architecture and implementation of distributed control system for MEMS-based intelligent motion surface

In the present work, the authors are focused on MEMS-based distributed systems, especially control methods applied to made it possible for a microactuator array to become an intelligent structure. Recently, couple control and distributed MEMS device is becoming an important topic in field of micro-and nanorobotic, as intelligent motion surface used in planar micromanipulation. Here, the authors propose to study a MEMS-based distributed micromanipulator using airflow force field that is still a challenging issue in the field. They chose architecture and implementation approach to define an appropriate distributed control system. Then, a control flow based on a hybrid centralized/decentralized approach is elaborated by applying principles of autonomous mobile robot, using CCD camera as feed-back distributed sensor. To implement the control model, a co-design software/hardware solution is chosen, with centralized controllers processing by PCU, and decentralized controllers integrated on a FPGA chip. VHDL models-based implementation results are given, just as experiment results by software emulation. Experimental results could show all presence of mind of the proposed control method.

[1]  Hiroyuki Fujita,et al.  Conveyor for Pneumatic Two-Dimensional Manipulation Realized by Arrayed MEMS and its Control , 2004, J. Robotics Mechatronics.

[2]  Y.A. Chapuis,et al.  A MEMS array for pneumatic conveyor and its control based on distributed system , 2005, 18th IEEE International Conference on Micro Electro Mechanical Systems, 2005. MEMS 2005..

[3]  John S. McCaskill,et al.  Molecular systems on-chip (MSoC) steps forward for programmable biosystems , 2004, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[4]  Roland Siegwart,et al.  Introduction to Autonomous Mobile Robots , 2004 .

[5]  Hyungpil Moon,et al.  Prediction of Equilibria of Lifted Logarithmic Radial Potential Fields , 2004, Int. J. Robotics Res..

[6]  M. R. Douglass,et al.  A MEMS-based projection display , 1998, Proc. IEEE.

[7]  Hiroyuki Fujita,et al.  Integrated control strategy for autonomous decentralized conveyance systems based on distributed MEMS arrays , 2004, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[8]  Yanmei Li,et al.  SACST: smart anthropomorphic contact surface technology , 2003, IEEE Robotics Autom. Mag..

[9]  Yui-Lam Chan,et al.  Edge oriented block motion estimation for video coding , 1997 .

[10]  Hugh F. Durrant-Whyte,et al.  Information-theoretic approach to decentralized control of multiple autonomous flight vehicles , 2000, SPIE Optics East.

[11]  D. S. Eddy,et al.  Application of MEMS technology in automotive sensors and actuators , 1998 .

[12]  Chih-Ming Ho,et al.  Unsteady aerodynamics and flow control for flapping wing flyers , 2003 .