Browse > Article

System Diagnosis and MEMS Driving Circuits Design using Low Power Sensors  

Kim, Tae-Wan (Department of Communication Engineering, Myongji University)
Ko, Soo-Eun (Department of Communication Engineering, Myongji University)
Jabbar, Hamid (Department of Communication Engineering, Myongji University)
Lee, Jong-Min (Department of Communication Engineering, Myongji University)
Choi, Sung-Soo (KERI)
Lee, Jang-Ho (Department of Computer Engineering, Hongik University)
Jeong, Tai-Kyeong (Department of Communication Engineering, Myongji University)
Publication Information
Journal of the Institute of Electronics Engineers of Korea SC / v.45, no.1, 2008 , pp. 41-49 More about this Journal
Abstract
Many machineries and equipments are being changing to various and complicated by development of recent technology and arrival of convergence age in distant future. These various and complicate equipments need more precise outcomes and low-power consumption sensors to get close and exact results. In this paper, we proposed fault tolerance and feedback theorem for sensor network and MEMS circuit which has a benefit of energy efficiency through wireless sensor network. The system is provided with independent sensor communication if possible as unused action, using idle condition of system and is proposed the least number of circuits. These technologies compared system efficiency after examining product of each Moving Distance by developed sensor which gives effects to execution of system witch is reduced things like control of management side and requirement for hardware, time, and interaction problems. This system is designed for practical application; however, it can be applied to a normal life and production environment such as "Ubiquitous City", "Factory Automata ion Process", and "Real-time Operating System", etc.
Keywords
Low Power Sensors; Driving Circuits; MEMS; Design and Verification;
Citations & Related Records
연도 인용수 순위
  • Reference
1 F. L. LEWIS Wireless Sensor Networks, to appear in Smart Environments : Technologies, Protocols, and Applications Advanced Controls, Sensors, and MEMS Group, 2004
2 P. Levis, S. Madden, D. Gay, J. Polastre, R. Szewczyk, K. Whitehouse, A. Woo, J. Hill, M. Welsh, E. Brewer, and D. Culler 'TinyOS : An Operating System for Sensor Network', Ambient Intelligence. W. Wever, J. Rabaey, and E. Aarts (Eds.), springer-verlag 2004
3 N. Bulusu, D. Estrin, L. Girod, University of California at Los Angeles, John Heidemann USC/ISI, proc. of the 6th International Symposium on Communication Theory and Applications (ISCTA '01) Ambleside, UK, July, 2001.1
4 T. Jeong and A. Ambler, 'PESFA mission: Power efficiency System for Flight Applications' IEEE Trans. on Aerospace and Electronics System, vol. 42, no.4, pp.1510-1515, Oct. 2006
5 J. Hillet al, System Architecture Directions for Networked Sensors, 'Proc. 9th Intl Conf. Architectural Support for Programming Languages and Operating Systems' (ASPLOS 2000), ACM Press, pp. 93104. 2000
6 P. Hofstee, N. Aoki, et. al., 'A 1.0 GHz Single-Issue 64-bit PowerPC Processor,' proc. ISSCC, pp. 30-31, 186-187, Feb 1998., pp. 230-231, 1998., vol. 33, pp.1600-1608, 1998
7 A. Bharathidasan, V. Anand Sai Produru 'Sensor Networks : An Overview'
8 J.M. Vranish, R.McConnell, 'Driven-Shield Capacitive Sensor,' U.S. patent 5,166,679. Nov. 1992
9 http://change.oact.hq.nasa.gov/ft-tech- capaciflector-guided-mechs.html 'The National Aeronautics and Space Capaciflector-Based Technology'
10 A. Salhieh, J. Weinmann, M. Kochhal, L. Schwiebert 'Power Efficient Topologies for Wireless Sensor Networks' in the proceedings of the 2001 International Conference on Parallel Processing (ICPP), Valencia, spain pages 156-163, september 2001
11 H. Ngo and G. Carpenter, 'Low-power Phased locked Loop Concept and System,' 27th annual Int'l. symp. on Computer Architecture, pp. 83-94, Vancouver, BC, Canada, sep 10-14, 2001
12 K. Loincz, D. Malan, T. R. F. Fulford-Jones, A. Nawoj, A. Clavel, V. Shnayder, G. Mainland, S. Moulton, and M. Welsh 'Sensor Networks for Emergency Response : Challenges and OPportunities' In IEEE Pervasive Computing, Special Issue on Pervasive Computing for First Response Oct-Dec 2004
13 F. Herzel, H. Erzgraber, N. Ilkov, 'A new approach to fully intergrated CMOS LC-oscillators with a very large tuning range,' CICC, pp. 573-576, May 2000