In this paper, the application of the distributed control architecture using low-cost hybrid wired/wireless control network in the electroplating line control system design is described. The feasibility of implementing condition monitoring under this proposed control platform for increasing the system reliability and reducing the scrape rate is also discussed.
DurneyL.J. (Eds), Electroplating Engineering Handbook 4th Edition 1984, Van Nostrand Reinhold
2.
GrooverM.P., Automation, Production Systems, and Computer-Integrated Manufacturing 3rd Ed, Prentice-Hall International
3.
CoulourisG.DillimoreJ, Distributed Systems - Concepts and Design, Addison-Wesley
4.
Philips Semiconductors, CAN specification version 2.0, 1991
5.
SealDavid (Eds), ARM Architecture Reference ManualSecond Edition, Addison-Wesley
6.
Atmel, Quick reference guide for AVR 8bit Microcontroller, Atem Corporation
7.
LinChin E.YenHung-Ming, “A Prototype Dual Can-Bus Avionics System For Small Aricaraft Transportation System”, IEEE/AIAA 25th Digital Avionics Systems Conference 2006, 15–19 Oct. 2006, pp 1–10.
8.
JanschekaKlausBrauneaAnnerose, “Application of industrial CAN bus technology for LEO-satellites”, Acta Astronautica, Vol 46, Issues 2–6, January–March 2000, pp. 313–317.
9.
BergnoliA.BertolinA.BrugneraR.CarraraE.CazesA.Dal CorsoF.DusiniS.FeliciG.GarfagniniA.LonghinA.MantelloU.MengucciA.PaoloniA.StancoL.SugonyaevV.TerranovaF.VenturaM., “The OPERA Spectrometer Slow Control System”, IEEE Transactions On Nuclear Science, VOL. 55, NO. 1, February 2008, pp 349–355.
10.
SebastianR.YevesF.CastroM.MiguezJ.V., “Generalized Distributed Control System based on CAN bus for Wind Diesel Hybrid Systems”, IEEE International Symposium on Industrial Electronics 2004, 4–7 May 2004, Vol 1, pp 603–608
11.
EganD.“The emergence of ZigBee in building automation and industrial control”, Computing & Control Enginnering Journal, April–May 2005, Volume: 16, pp 14–19
12.
GutierrezJose A.CallawayEdgar H.Jr.BarrettRaymond L.Jr.., Low-Rate Wireless Personal Area Networks: Enabling Wireless Sensors with IEEE 802. I 5.4, IEEE Press, 2003
13.
DissanayakeS.D.KarunasekaraP.P.C.LakmanaarachchiD.D.RathnayakaA.SamarasingheA.T.L., “Zigbee Wireless Vehicular Identification and Automation System”, 4th International Conference on Information and Automation for Sustainability, 2008. ICIAFS 2008, 12–14 Dec. 2008 Page(s):257–260. 260.
14.
HwangII-KyuBaekJin-Wook, “Wireless Access Monitoring and Control System based on Digital Door Lock”, IEEE Transactions on Consumer Electronics, Vol. 53, No. 4, NOVEMBER 2007, Page(S):1724–1730.
15.
Pinedo-FraustoE.D.Garcia-MaciasJ.A., “An experimental analysis of Zigbee networks”, 33rd IEEE Conference on Local Computer Networks, 14–71 Oct. 2008, pp 723–729.
16.
Freescale, MC 13192 Reference Manual, Freescale Semiconductor Inc.
17.
Freescale, SMAC User's Guide (SMACRM), Freescale Semiconductor Inc.
18.
YardleyE.D. (Eds), Condition Monitoring-Engineering the Practice, Bury St Edmunds: Professional Engineering Publishing, ISBN: 180658361 X, 2002
19.
YanJihongLeeJay, “A Hybrid Method for On-line Performance Assessment and Life Prediction in Drilling Operations”, Proceedings of the IEEE International Conference on Automation and Logistics August 18–21, 2007, Jinan, China
20.
SandersD., “Enviromental sensors and networks of sensors”, Sensor Review, Vol. 28, No. 4, 2008, pp 273–274
