Performance analysis of SLM technique in MIMO OFDM using Turbo codes

  • Prabhakar Kota
Keywords: Peak to average power ratio(PAPR), orthogonal frequency division multiplexing(OFDM), bit error rate(BER), cumulative complementary distribution function(CCDF)

Abstract

The multiple inputs multiple outputs orthogonal frequency division multiplexing (MIMO-OFDM) is transmission technique which is recently considered in many wireless techniques. MIMO-OFDM techniques are used to enhance the system performance. High peak to average power ratio (PAPR) is a big problem of OFDM signal. SLM scheme can reduce the peak to average power ratio efficiently. SLM requires side information bits to detect the original data bits at receiver is main problem. Since SLM without side information for the detection of signal is proposed in this method. In the proposed method, turbo coding is used with SLM scheme. Turbo coding ensures the error detection and error correction between the transmitted and received phase sequences. Simulation result shows that the SLM scheme reduces PAPR and BER.

References

1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.


1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.



1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.






1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.

1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.







1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.

1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.






1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.

1. Ming Jiang and Lajos Hanzo, “Multiuser MIMO-OFDM for Next Generation wireless systems,” IEEE, Vol. 5, No. 7, July 2007.
2. S. H. HAN and J. H. LEE, “An Overview of Peak to Average Power Ratio Reduction Techniques for Multicarrier Transmission,” IEEE Wireless Communications, Vol. 12, April. 2005.
3. Ciya Thomas and C. D., “Effects of High PAPR and PAPR Reduction Techniques in OFDM Systems- A Survey,” International Journal of Advanced Research in Computer Science and Software Engineering (2015).
4. T. Jiang and Y. Wu, “An Overview: Peak to Average Power Ratio Reduction Techniques for OFDM Signals,” IEEE Transaction and Broadcasting, Vol. 54, June 2008.
5. H. Breiling, S. H. Muller-Weinfurtner and J. B. Huber, “SLM Peak-Power Reduction using Explicit Side Information,” IEEE Communication Letters, Vol. 5, No. 5, June 2001.
6. Mehul R. Amin and Sameer D. Trapasiya, “Space time scheme for MIMO system-Literature Survey,” Elsevier, 2012.
7. R. Fisher and J. Huber, “Reducing the peak to average power ratio of multicarrier modulation by selected mapping,” Elect. Letts, Vol. 32, Oct 1996.
8. Tincy Marry Mathew and Ekant Sharma, “Reduction of PAPR Performance in Alamouti coded MIMO-OFDM System using Selected Mapping techniques with BPSK modulation,” International Journal of Advanced Research in Computer Engineering & Technology,” Vol. 3, Issue 7, July 2014.
9. Basel Rihawi and Yves Louet, “PAPR Reduction Scheme with SOCP in MIMO-OFDM Systems,” I. J. Communications, Network and System Sciences, 2008.
10. M. Rangaswamy, “An Effective Approach for Peak to Average Power Reduction in multiple input multiple output OFDM Systems,” IJSRSET, Vol. 2, 2006.
11. Seoung-Sik Eom, “Low Complexity PAPR Reduction Scheme without Side Information in OFDM Systems,” IEEE Transaction on Signal Processing,” Vol. 60, July 2012.
12. Md. Salim Raja, “PAPR Reduction of OFDM Signal Using Sequential Phase Sequence SLM based Transceiver without Side Information,” I. J. Wireless Technologies, Published Online March 2015.
13. Pawan Sharma and Seema Verma, “PAPR reduction of OFDM signals using Selective mapping with turbo codes”, International journal of Wireless & Mobile networks (IJWMN), Vol. 3, No. 4, August 2011.
14. S. P. Vimal and K. R. Shankar Kumar, “Combined Selective Mapping and Turbo Codes for PAPR Reduction in OFDM Signals,” IRACST-IJCNWC, Vol. 2, No. 6, December 2012.
15. P. N. Kota, A. N. Gaikwad and B. P. Patil, “BER analysis of PAPR reduction techniques in SFBC OFDM system: A review,” IEEE, December 2015.
16. Asim M. Mazin and Garth V. Crosby, “ Reducing the peak to average power ratio of MIMO-OFDM Systems,” International Journals of Computer Networks and Communications, Vol. 5, No. 3, May 2013.
17. Shweta Jain, Vikas Gupta and Divya Jain, “PAPR reduction using Modified Selected Mapping technique and Turbo Coding,” International Journal of Advanced Engineering Technology, Vol.2, October-December 2011.
Published
2018-04-11
How to Cite
Kota, P. (2018, April 11). Performance analysis of SLM technique in MIMO OFDM using Turbo codes. ASIAN JOURNAL FOR CONVERGENCE IN TECHNOLOGY (AJCT ) -UGC LISTED, 4(I). Retrieved from http://asianssr.org/index.php/ajct/article/view/360
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