Title :
Compatibility criteria for digital radio systems in nonlinear channels
Author :
Amanowicz, Marek ; Gajewski, Piotr
Author_Institution :
Electron. Fac., Mil. Univ. of Technol., Warsaw, Poland
Abstract :
The electromagnetical compatibility (EMC) criteria for radio systems engineering are discussed with multiple channel reuse for frequency, time and code division multiple access (FDMA, TDMA and CDMA) schemes in a mobile environment. The BER is usually used as a measure of digital signals transmission quality. In nonlinear radio-channels with multipath propagation, the dynamic BER is used to evaluate the communication range R, which is the basic parameter of cellular radio. The intrasystem interference level is a parameter, which mostly limits the channel reuse in cellular systems. To fulfil the EMC condition, the interference influence should be optimized. We discuss the structural solutions based on the co-channel reuse distance as well as the signals orthogonality, especially for direct sequence CDMA systems
Keywords :
cellular radio; code division multiple access; coding errors; digital radio; electromagnetic compatibility; error statistics; frequency allocation; frequency division multiple access; land mobile radio; multipath channels; pseudonoise codes; radiofrequency interference; spread spectrum communication; time division multiple access; EMC; FDMA; TDMA; cellular radio; cochannel reuse distance; code division multiple access; communication range; digital radio systems; digital signals transmission quality; direct sequence CDMA systems; dynamic BER; electromagnetical compatibility; frequency division multiple access; intrasystem interference level; mobile environment; multipath propagation; multiple channel reuse; nonlinear channels; nonlinear radio channels; radio systems engineering; signal orthogonality; time division multiple access; Bit error rate; Digital communication; Electromagnetic compatibility; Electromagnetic measurements; Frequency conversion; Frequency division multiaccess; Interference; Multiaccess communication; Systems engineering and theory; Time division multiple access;
Conference_Titel :
AFRICON, 1996., IEEE AFRICON 4th
Conference_Location :
Stellenbosch
Print_ISBN :
0-7803-3019-6
DOI :
10.1109/AFRCON.1996.563046
