Developing a Statistical Model for Electromagnetic Environment for Mobile Wireless Networks
The analysis of electromagnetic environment using
deterministic mathematical models is characterized by the
impossibility of analyzing a large number of interacting network
stations with a priori unknown parameters, and this is characteristic,
for example, of mobile wireless communication networks. One of the
tasks of the tools used in designing, planning and optimization of
mobile wireless network is to carry out simulation of electromagnetic
environment based on mathematical modelling methods, including
computer experiment, and to estimate its effect on radio
communication devices. This paper proposes the development of a
statistical model of electromagnetic environment of a mobile
wireless communication network by describing the parameters and
factors affecting it including the propagation channel and their
statistical models.
[1] Donald R. J. White. Electromagnetic compatibility of radio electronic
equipment and unwanted interference. Moscow: Soviet Radio, 1977.
[2] Knyazev A.D. Elements of the theory and practice for electromagnetic
compatibility of radio electronic equipment. - M.: Radio and
Communications, 1984.
[3] Vladimirov V.I, Doctorov A.L, Elizarov F. V. et al. Electromagnetic
compatibility of radio electronic equipment and systems. Edited by
N.M. Tsarkova. - M.: Radio and Communications, 1985.
[4] Petrovsky, V. I., Sedelnikov U.E. Electromagnetic compatibility of
radio electronic equipment: A manual for higher institutions. M.: Radio
and Communications, 1986.
[5] ITU-R M.1634.
[6] Alter L.S. The probability of intermodulation interference in mobile
radio communication systems receivers. Mobile systems. 2003. 12.
pp.55-58.
[7] Aporovich A.F. The statistical theory of electromagnetic compatibility
of radio electronic equipment, Edited by V.Y. Averyanova. - Mn.:
Science and Technology, 1984.
[8] Nyah C. Temaneh. Monte-Carlo technique estimation of a probability of
intermodulation interference in a cellular wireless communication
network. Proceedings from the IEEE Region 8 International Conference
on Computational Technologies in Electrical and Electronics
Engineering SIBIRCON-2010, Irkutsk - Russia, Volume 1, pp. 329-33.
[9] A. Dementiev. Reliable methods of estimating the spatial distribution of
the load in cellular networks. Telecommunication journal Ôäû 2 in 2002.
[10] Petrovsky V.I., Sedelnikov U.E. Electromagnetic compatibility of radio
electronic devices. Moscow: Radio and communication, 1986.
[1] Donald R. J. White. Electromagnetic compatibility of radio electronic
equipment and unwanted interference. Moscow: Soviet Radio, 1977.
[2] Knyazev A.D. Elements of the theory and practice for electromagnetic
compatibility of radio electronic equipment. - M.: Radio and
Communications, 1984.
[3] Vladimirov V.I, Doctorov A.L, Elizarov F. V. et al. Electromagnetic
compatibility of radio electronic equipment and systems. Edited by
N.M. Tsarkova. - M.: Radio and Communications, 1985.
[4] Petrovsky, V. I., Sedelnikov U.E. Electromagnetic compatibility of
radio electronic equipment: A manual for higher institutions. M.: Radio
and Communications, 1986.
[5] ITU-R M.1634.
[6] Alter L.S. The probability of intermodulation interference in mobile
radio communication systems receivers. Mobile systems. 2003. 12.
pp.55-58.
[7] Aporovich A.F. The statistical theory of electromagnetic compatibility
of radio electronic equipment, Edited by V.Y. Averyanova. - Mn.:
Science and Technology, 1984.
[8] Nyah C. Temaneh. Monte-Carlo technique estimation of a probability of
intermodulation interference in a cellular wireless communication
network. Proceedings from the IEEE Region 8 International Conference
on Computational Technologies in Electrical and Electronics
Engineering SIBIRCON-2010, Irkutsk - Russia, Volume 1, pp. 329-33.
[9] A. Dementiev. Reliable methods of estimating the spatial distribution of
the load in cellular networks. Telecommunication journal Ôäû 2 in 2002.
[10] Petrovsky V.I., Sedelnikov U.E. Electromagnetic compatibility of radio
electronic devices. Moscow: Radio and communication, 1986.
@article{"International Journal of Electrical, Electronic and Communication Sciences:53317", author = "C. Temaneh Nyah", title = "Developing a Statistical Model for Electromagnetic Environment for Mobile Wireless Networks", abstract = "The analysis of electromagnetic environment using
deterministic mathematical models is characterized by the
impossibility of analyzing a large number of interacting network
stations with a priori unknown parameters, and this is characteristic,
for example, of mobile wireless communication networks. One of the
tasks of the tools used in designing, planning and optimization of
mobile wireless network is to carry out simulation of electromagnetic
environment based on mathematical modelling methods, including
computer experiment, and to estimate its effect on radio
communication devices. This paper proposes the development of a
statistical model of electromagnetic environment of a mobile
wireless communication network by describing the parameters and
factors affecting it including the propagation channel and their
statistical models.", keywords = "Electromagnetic Environment, Statistical model,
Wireless communication network.", volume = "6", number = "1", pages = "57-4", }