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GENERIC REMOTE COMMUNICATION SYSTEMS FOR THE FACTORIES OF THE FUTURE

Journal Name:

  • Istanbul University Journal of Electrical & Electronics Engineering

Publication Year:

  • 2004

Key Words:

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
This paper reports on the benefits of the remote communication systems and presents two prototype systems for communication with microprocessor based machines and devices including household appliances. The wireless prototype version can also be used in remote and wireless programming of any device with a microprocessor or microcontroller. It is a known fact that the researchers often become too embraced with technical breakthroughs and forget about communicating with the audience for whom the findings of their research is intended. To this end, initial emphasis is on the benefits of the systems, but later in the paper the technical merits of the research work are explained. The prime aim of the project has been to develop the know-how for remote programming, control and up-dating of programs in microcontroller based devices using wired and wireless techniques. An earlier wireless communication system using laser encapsulation techniques developed for a factory of the future site [1] was revisited with a view to incorporate the latest technologies where appropriate. The earlier system adopting Code Division Multi Access with a Pseudo Random Noise Spectrum (CDMA-PRNS) incorporating wideband Spread Spectrum (SS) using Hierarchical Genetic Algorithm (HGA) was found to provide a basis for establishing a working Wireless Local Area Network (WLAN) for many applications including in the manufacturing, where noise has been a problem for their use.
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  • 1
1081-1089
  • English

REFERENCES

References: 

[1] R Ziarati and A Higginson, “Factory automation – the Development of Novel Communication” Keynote Paper SheMet ’92, 319. Proc. Inst. of Physics, International Conference on Sheet Metal, Birmingham, UK, April 1992.
[2] D.A. Hawbaker and T.S. Rappaport, “Indoor Wideband Radiowave Propagation measurements at 1.3 GHz and 4.3 GHz”; IEEE Electronics Letters, Vol 26 No. 21, pp 1800 –02, October 10. 1990.
[3] T.S. Rappaport “Characterisation of UHF Multipath Radio Channels in Factory Buildings”. IEEE Trans. on Antennas and Propag., Vol 37 No.8, pp 1058 –69, Aug. 1989.
Generic Remote Communication Systems for the Factories of the Future 1089
T. Efruz OZHUSREV, M. Semih UZUN, Reza ZIARATI
[4] S.S.H. Wijayasuriya, G.H. Norton & J.P. McGeehan “Sliding Window Decorrelating Algorithm for DS-CMDA Receivers” Vol 28, No.17, pp 1596-1598, Aug 1992.
[5] The Dawn of a New Era in PMR Communications – Linear Modulation, industry publication, securicor ltd. 1994
[6] Kit-Sang Tang, Kim-Fung Man and S. Kwong, “Wireless Communication Network Design in IC Factory” IEEE transaction on Industrial Electronics, Vol 48 no. 2, pp 452-459, April 2001.
[7] M. Anderson , connectBlue; Intelligent Industrial Automation Devices using Bluetooth and Internet Technologies; connectBlue White Paper. 2000.
[8] R. Ziarati, “Wireless Communications – Emerging Systems and Standards” Dogus University Seminar, 1998.
[9] G. Uzgören, Osman N. Ucan, Hakan A. Çırpan, “Blind Channel Equalization and Performance Analysis of modified/Quadrature Partial Response-Trellis Coded Modulation (M/QPR-TCM) Systems over Satellite Fading Environment” Istanbul University Research Project, Project No. 1077/031297.
[10] Osman N. Ucan “Trellis Coded Quantization /Modulation over Mobile Satellite Channel with Imperfect Phase Reference”, International Journal of Satellite Communications, 16, pp.169-175, 1998.
[11] Osman N. Ucan, M. Uysal , S. Paker, “Performance of Combined Trellis Coded Quantization /Modulation over Wireless Local Loop Environment”, A chapter of Wireless Local Loop: Theory and Applications, Edited by Peter Stavroulakis , John Wiley and Sons Ltd. Publications ( ISBN 0471 49746 7), 2001.
[12] Osman N. Ucan, M. Uysal, S. Paker, “Performance of Combined Trellis Coded Quantization /Modulation over Wireless Local Loop Environment ”International Journal of Communications, 13, pp.207-218, 2000.
[13] M. Ziarati, M., D. Stockton, E. Bilgili, E. and Osman N. Ucan , “Genetic Cellular Neural Network Applications For Prediction Purposes In Industry”, TAINN2002 conference, Istanbul,2002.
[14] M. Ziarati, M., D. Stockton, E. Bilgili, E. and Osman N. Ucan , “Application of Artificial Neural Networks in Logistics Systems”, FSSCIMIE2002 conference, Istanbul
[15] Ucan O.N., Osman O., Paker S., “Turbo coded signals over wireless local loop environment” International Journal of Electronics and Communications (AEU),Vol:56, No:3, pp:163-168, 2002.
[16] R Ziarati, “Data Transfer through Internet for Remote Programming of Microcontroller Based Products”. Dogus Motorola Microcontroller Competition 2002 Report, 2002.
[17] K. F. Man, K. S. Tang, and S. Kwong, Genetic Algorithms: Concepts and Designs. London, U. K.: Springer – Verlag, 1999
[18] I. J.Wickelgren, “Local-area Networks to wireless,” IEEE Spectrum, vol.33, pp. 34-40, Sept. 1996
[19] H. D. Sherali, C. M. Pendyala, and T.S. Rappaport, “Optimal location of transmitters for micro-cellularradio communication system design,” IEEE J. Select. Areas Commun., vol.14, pp. 662-672, May 1996.
[20] K. Pahlavan and A. H. Levesque, “Wireless data communications,” Proc. IEEE,
vol.82, pp. 1398-1430, Sept. 1994.
[21] R. Ziarati et al, “Design and Development of the Factory of the Future”, Proceedings of IEEE MED 2002 Conference, July 2002.

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