This paper deals with the modeling and the evaluation of a multiplicative phase noise influence on the bit error ratio in a general space communication system. Our research is focused on systems with multi-state phase shift keying modulation techniques and it turns out, that the phase noise significantly affects the bit error rate, especially for higher signal to noise ratios. These results come from a system model created in Matlab environment and are shown in a form of constellation diagrams and bit error rate dependencies. The change of a user data bit rate is also considered and included into simulation results. Obtained outcomes confirm theoretical presumptions.
[1] O. Baran, M. Kasal, "Modeling of the simultaneous influence of the
thermal noise and the phase noise in space Communication systems,"
Radioengineering, 2010, vol. 19, no. 4, pp. 618-626. ISSN: 1210- 2512.
[2] W. Jeong, J. Lee, D. Yoon, "New BER Expression of MPSK," IEEE
Transactions on Vehicular Technology, May 2011, vol. 60, no. 4. pp.
1916-1924. ISSN: 0018-9545.
[3] J. Lassing, E. G. Störm, E. Agrell, T. Ottosson, "Computation of the
Exact Bit-Error Rate of Coherent M-ary PSK With Gray Code Bit
Mapping," IEEE Transactions on Communications, November 2003,
vol. 51, no. 11. pp. 1758-1760. ISSN: 0090-6778.
[4] J. P. Lee, "Computation of the Bit Error Rate of Coherent M-ary PSK
Gray Code Bit Mapping," IEEE Transactions on Communications, May
1986, vol. 34, no. 5. pp. 488-491. ISSN: 0090-6778.
[5] S. Park, S. H. Cho, "Computing the Average Symbol Error Probability
of the MPSK System Having Quadrature Error," ETRI Journal, vol. 28,
no. 6, December 2006. pp. 793-795. ISSN: 1225-6463.
[6] J. G. Proakis, Digital Communications (4th Edition), New York:
McGraw-Hill, 2000, 1024 pages. ISBN 0-07-232111-3.
[7] O. Baran, M. Kasal, P. Vágner, T. Urbanec, "Modeling of the Phase
Noise Influence in the General M-PSK System," In Proceedings of 5th
International Conference on Recent Advances in Space Technologies.
Istanbul: 2011. pp. 393-398. ISBN: 978-1-4244-9615- 0.
[8] O. Baran, M. Kasal, "Modeling of the Phase Noise in Space
Communication Systems," Radioengineering, 2010, vol. 19, no. 1, pp.
141-148. ISSN: 1210- 2512.
[9] K. Chang, Encyclopedia of RF and Microwave Engineering, New
Jersey: John Willey & Sons, 2005. ISBN 0-471-27053-9.
[10] W. J. Riley, Handbook of Frequency Stability Analysis, Beaufort:
Hamilton Technical Services, 2007, 158 pages. (Online) Cited 2012-03-
07. Available at: <http://www.stable32.com/Handbook.pdf>.
[11] A. Bar-Guy, Oscillator phase noise model, Matlab Central, An open
exchange for the Matlab and Simulink user community. (Online) Cited
2012-03-07. Available at:
<http://www.mathworks.com/matlabcentral/fileexchange/8844>.
[12] D. Banerjee, PLL Performance, Simulation, and Design (4th Edition),
August 2006. (Online) Cited 2012-03-07. Available at:
<http://www.national.com/appinfo/wireless/files/deansbook4.pdf>.
[13] Ansoft Designer/Nexxim, version 3.0.0, 2006. Ansoft Designer System
Simulator Help.
[1] O. Baran, M. Kasal, "Modeling of the simultaneous influence of the
thermal noise and the phase noise in space Communication systems,"
Radioengineering, 2010, vol. 19, no. 4, pp. 618-626. ISSN: 1210- 2512.
[2] W. Jeong, J. Lee, D. Yoon, "New BER Expression of MPSK," IEEE
Transactions on Vehicular Technology, May 2011, vol. 60, no. 4. pp.
1916-1924. ISSN: 0018-9545.
[3] J. Lassing, E. G. Störm, E. Agrell, T. Ottosson, "Computation of the
Exact Bit-Error Rate of Coherent M-ary PSK With Gray Code Bit
Mapping," IEEE Transactions on Communications, November 2003,
vol. 51, no. 11. pp. 1758-1760. ISSN: 0090-6778.
[4] J. P. Lee, "Computation of the Bit Error Rate of Coherent M-ary PSK
Gray Code Bit Mapping," IEEE Transactions on Communications, May
1986, vol. 34, no. 5. pp. 488-491. ISSN: 0090-6778.
[5] S. Park, S. H. Cho, "Computing the Average Symbol Error Probability
of the MPSK System Having Quadrature Error," ETRI Journal, vol. 28,
no. 6, December 2006. pp. 793-795. ISSN: 1225-6463.
[6] J. G. Proakis, Digital Communications (4th Edition), New York:
McGraw-Hill, 2000, 1024 pages. ISBN 0-07-232111-3.
[7] O. Baran, M. Kasal, P. Vágner, T. Urbanec, "Modeling of the Phase
Noise Influence in the General M-PSK System," In Proceedings of 5th
International Conference on Recent Advances in Space Technologies.
Istanbul: 2011. pp. 393-398. ISBN: 978-1-4244-9615- 0.
[8] O. Baran, M. Kasal, "Modeling of the Phase Noise in Space
Communication Systems," Radioengineering, 2010, vol. 19, no. 1, pp.
141-148. ISSN: 1210- 2512.
[9] K. Chang, Encyclopedia of RF and Microwave Engineering, New
Jersey: John Willey & Sons, 2005. ISBN 0-471-27053-9.
[10] W. J. Riley, Handbook of Frequency Stability Analysis, Beaufort:
Hamilton Technical Services, 2007, 158 pages. (Online) Cited 2012-03-
07. Available at: <http://www.stable32.com/Handbook.pdf>.
[11] A. Bar-Guy, Oscillator phase noise model, Matlab Central, An open
exchange for the Matlab and Simulink user community. (Online) Cited
2012-03-07. Available at:
<http://www.mathworks.com/matlabcentral/fileexchange/8844>.
[12] D. Banerjee, PLL Performance, Simulation, and Design (4th Edition),
August 2006. (Online) Cited 2012-03-07. Available at:
<http://www.national.com/appinfo/wireless/files/deansbook4.pdf>.
[13] Ansoft Designer/Nexxim, version 3.0.0, 2006. Ansoft Designer System
Simulator Help.
@article{"International Journal of Electrical, Electronic and Communication Sciences:56541", author = "Ondrej Baran and Miroslav Kasal and Petr Vagner and Tomas Urbanec", title = "Phase Noise Impact on BER in Space Communication", abstract = "This paper deals with the modeling and the evaluation of a multiplicative phase noise influence on the bit error ratio in a general space communication system. Our research is focused on systems with multi-state phase shift keying modulation techniques and it turns out, that the phase noise significantly affects the bit error rate, especially for higher signal to noise ratios. These results come from a system model created in Matlab environment and are shown in a form of constellation diagrams and bit error rate dependencies. The change of a user data bit rate is also considered and included into simulation results. Obtained outcomes confirm theoretical presumptions.
", keywords = "Additive thermal noise, AWGN, BER, bit error rate,
multiplicative phase noise, phase shift keying.", volume = "6", number = "9", pages = "976-6", }
