Title :
Improved BER performance in GSM by mitigating non-linear distortions in the receiver
Author :
Grimm, M. ; Sharma, Ratnesh K. ; Hein, Matthias ; Thoma, Reiner S. ; Zemmari, Reda
Author_Institution :
Inst. for Inf. Technol., Ilmenau Univ. of Technol., Ilmenau, Germany
Abstract :
This paper addresses non-linearly induced interference in GSM receiver, as well as its mitigation by using digital signal processing. Receiver non-linearities can cause an increase in the bit error rate, hence reducing the reliability of mobile communication due to dropped calls or even the loss of connectivity to the serving base station. The focus here is on mitigating non-linear distortions in the receiver in order to improve the bit error rate performance of a distorted GSM channel. A feed-forward algorithm with an adaptive filter has been implemented and applied to real measurement data containing a weak distorted desired GSM channel and two strong GSM neighbouring channels. The obtained results show that the bit error rate is reduced significantly by alleviating the effects of receiver non-linearity.
Keywords :
adaptive filters; cellular radio; error statistics; feedforward; intermodulation distortion; radio receivers; radiofrequency interference; telecommunication network reliability; wireless channels; BER performance improvement; GSM receiver; adaptive filter; bit error rate; connectivity loss; digital signal processing; dropped calls; feed-forward algorithm; interference cancellation; intermodulation distortion; mobile communication reliability reduction; nonlinear distortion mitigation; receiver nonlinearities; serving base station; strong GSM neighbouring channels; weak distorted desired GSM channel; Bit error rate; GSM; Interference; Nonlinear distortion; Radio frequency; Receivers; GSM; interference cancellation; intermodulation distortion; non-linear distortion; software defined radio;
Conference_Titel :
Microwave Conference (EuMC), 2013 European
Conference_Location :
Nuremberg
