Analysis of a cellular network’s capacity by using the CDMA method in fixed wireless environments
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Abstract
The following article presents the analysis of a wireless cellular network’s capacity, typically from a fixed Wireless application environment, in which through a simulation model with discrete events, the capacity of the network is determined under nonideal conditions, represented by the power control error model and the human voice activity factor model.
Keywords
Cellular telephone systems, code division multiple Access, discrete event systemsTelefonía celular, acceso múltiple por división de código, sistemas de tiempo discreto
References
BAIOCCHI, A. Improving the Erlang capacity of a CDMA cellular network Ander bursty user mobility. IEEE, 2006, pp. 194-199.
COMISIÓN DE REGULACIÓN DE TELECOMUNICACIONES (CRT). Relación minuto impulso en el servicio de TPBCL en Colombia. Bogotá, 2004, pp. 1-12.
EVANS, S. and EVERITT, D. On the teletraffic capacity of CDMA cellular network. IEEE Transactions on Vehicular Technology. 1999, vol. 48, núm. 1, pp. 153-165.
GILHOUSEN, K.; JACOBS, I. M.; PADOVANI, R.; VITERBI, A. J.; WEAVER, L. A. Jr. And WHEATLEY, C. E. On the capacity of a cellular CDMA system. IEEE Transactions on Vehicular Technology. 1991, vol. 40, núm. 2, pp. 303-312.
GOODMAN, D. Wireless personal communication system. New York: Wesley, 1997.
HAYKIN, S. Modern wireless communications. New York: Pearson Pretince Hall, 2003.
JANSEN, M and PRASAD, R. Throughput analysis of a slotted CDMA system with imperfect power control. IEE Colloquium on Spread Spectrum Techniques for Radio Communication Systems. 1993, pp. 8/1-8/4.
—. Capacity, throughput, and delay analysis of a cellular DS CDMA systems with imperfect power control and imperfect sectorization. IEEE Transactions on Vehicular Technology. 1995, vol. 44, núm. 1, pp. 67-75.
—. Throughput and delay analysis of a cellular slotted DS CDMA system with imperfect power control and sectorization. International Symposium on Spread Spectrum Techniques and Applications, 1994. IEEE ISSSTA apos;94., IEEE Third Telecommun and Traffic-Control Systems Group. 1994, vol. 2, pp. 420-424.
JUNG, P.; BAIER, P. W. and STEIL, A. Advantages of CDMA and Spread spectrum techiniques over FDMA and TDMA in Cellular mobile radio applications. IEEE Transactions on Vehicular Technology. 1993, vol. 42, núm. 3, pp. 357-364.
LEE, W. Overview of cellular CDMAp. IEEE Transactions on Vehicular Technology. 1991, vol. 40, pp. 291-301.
LÓPEZ, J. Análisis de desempeño de una red inalámbrica fija con método de acceso DS-CDMA. s. l.: s. e., 2008.
PICKHOLTZ, R.; MILSTEIN, L. B. and SCHILLING, D. L. Spread spectrum for mobile communications. IEEE Transactions on Vehicular Technology. 1991, vol. 40, núm. 2, pp. 313-322.
WEBER, C. L.; HUGH, G. K. and BATSON, B. H. Performance considerations of code division multiple-access systems. IEEE Transactions on Vehicular Technology. 1981, vol. 30, núm. 2, pp. 3-10.
COMISIÓN DE REGULACIÓN DE TELECOMUNICACIONES (CRT). Relación minuto impulso en el servicio de TPBCL en Colombia. Bogotá, 2004, pp. 1-12.
EVANS, S. and EVERITT, D. On the teletraffic capacity of CDMA cellular network. IEEE Transactions on Vehicular Technology. 1999, vol. 48, núm. 1, pp. 153-165.
GILHOUSEN, K.; JACOBS, I. M.; PADOVANI, R.; VITERBI, A. J.; WEAVER, L. A. Jr. And WHEATLEY, C. E. On the capacity of a cellular CDMA system. IEEE Transactions on Vehicular Technology. 1991, vol. 40, núm. 2, pp. 303-312.
GOODMAN, D. Wireless personal communication system. New York: Wesley, 1997.
HAYKIN, S. Modern wireless communications. New York: Pearson Pretince Hall, 2003.
JANSEN, M and PRASAD, R. Throughput analysis of a slotted CDMA system with imperfect power control. IEE Colloquium on Spread Spectrum Techniques for Radio Communication Systems. 1993, pp. 8/1-8/4.
—. Capacity, throughput, and delay analysis of a cellular DS CDMA systems with imperfect power control and imperfect sectorization. IEEE Transactions on Vehicular Technology. 1995, vol. 44, núm. 1, pp. 67-75.
—. Throughput and delay analysis of a cellular slotted DS CDMA system with imperfect power control and sectorization. International Symposium on Spread Spectrum Techniques and Applications, 1994. IEEE ISSSTA apos;94., IEEE Third Telecommun and Traffic-Control Systems Group. 1994, vol. 2, pp. 420-424.
JUNG, P.; BAIER, P. W. and STEIL, A. Advantages of CDMA and Spread spectrum techiniques over FDMA and TDMA in Cellular mobile radio applications. IEEE Transactions on Vehicular Technology. 1993, vol. 42, núm. 3, pp. 357-364.
LEE, W. Overview of cellular CDMAp. IEEE Transactions on Vehicular Technology. 1991, vol. 40, pp. 291-301.
LÓPEZ, J. Análisis de desempeño de una red inalámbrica fija con método de acceso DS-CDMA. s. l.: s. e., 2008.
PICKHOLTZ, R.; MILSTEIN, L. B. and SCHILLING, D. L. Spread spectrum for mobile communications. IEEE Transactions on Vehicular Technology. 1991, vol. 40, núm. 2, pp. 313-322.
WEBER, C. L.; HUGH, G. K. and BATSON, B. H. Performance considerations of code division multiple-access systems. IEEE Transactions on Vehicular Technology. 1981, vol. 30, núm. 2, pp. 3-10.
How to Cite
López-González, L. J., & Páez-Rueda, C. I. (2008). Analysis of a cellular network’s capacity by using the CDMA method in fixed wireless environments. Ingeniería Y Universidad, 12(2). Retrieved from https://revistas.javeriana.edu.co/index.php/iyu/article/view/943
Section
Articles
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