The Influence of Noise Environment upon Voice and Data Transmission in the RF-CBTC System Minseok Kim/Sanghyeok Lee/Jongwoo Lee
International Journal of Railway, vol. 3, no. 2, pp.39-45, 2010
Abstract :
The RF-CBTC (Radio Frequency-Communication Based Train Control) System is a communication system in railroad
systems. The communication method of RF-CBTC system is the wireless between the wayside device and on-board
device. The wayside device collects its location and speed from each train and transmits the distance from the forwarding
train to the speed-limit position to it. The on-board device controlling device controls the speed optimum for the
train. In the case of the RF-CBTC system used in Korea, transmission frequency is 2.4 [GHz]. It is the range of
ISM(Industrial Scientific and Medical equipment) band and transmission of voice and data is performed by CDMA
(Code Division Multiple Access) method. So noises are made in the AWGN (Additive White Gaussian Noise) and fading
environment. Currently, the SNR (Signal to Noise Ratio) is about 20 [dB], so due to bit errors made by noises,
transmission of reliable information to the train is not easy. Also, in the case that two tracks are put to a single direction,
it is needed that two trains transmit reliable voice and data to a wayside device. But, by noises, it is not easy that
just a train transmits reliable information. In this paper, we estimated the BER (Bit Error Rate) related to the SNR of
voice and data transmission in the environment such as AWGN and fading from the RF-CBTC system using the
CDMA method. Also, we supposed the SNR which is required to meet the BER standard for voice and data transmission.
By increasing the processing gain that is a ratio of chip transmission to voice and data transmission, we made possible
voice and data transmission from maximally two trains to a wayside device, and demonstrated it by using Matlab
program.
Keyword :
Bit error rate, Code division multiple access, Processing gain, Radio frequency-communication based train
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