Segmentation multi-dimensional crest factor reduction for multi-service supporting digital radio over fibre system

doi:10. 19682/ j. cnki. 1005-8885. 2018. 1002

JOURNAL OF CHINA UNIVERSITIES OF POSTS AND TELECOM ›› 2018, Vol. 25 ›› Issue (2): 10-22.doi: 10. 19682/ j. cnki. 1005-8885. 2018. 1002

• Wireless • Previous Articles Next Articles

Segmentation multi-dimensional crest factor reduction for multi-service supporting digital radio over fibre system

Wang Jie, Tao Xiuli, Hu Xiaoguang, Guan Enyi, Ding Zhushun, Li Wen

1. School of Automation Science and Electrical Engineering, Beihang University, Beijing 100191, China
2. Communication Technology Research Division, Beijing Institute of Aerospace Control Devices, Beijing 100039, China
3. Fifth Technology Department, Beijing Aerospace Times Optical-Electronic Technology Company Limited, Beijing 100039, China

Received:2017-11-13 Revised:2018-03-24 Online:2018-04-30 Published:2018-07-02
Contact: Wang Jie, E-mail: wangjack2006@126. com E-mail:wangjack2006@126.com
About author:Wang Jie, E-mail: wangjack2006@126. com
Supported by:
This work was supported by the projects of ‘Smart in-building Wireless System using Flexible Digital Transmission Technology (SWIFT) ‘ and ‘ Research on in-building Signal Coverage System of Mobile IOT Based on Cloud ‘. We would like to extend the sincere gratitude to all members of these projects.

Abstract

Abstract: A segmentation multi-dimensional crest factor reduction (SMD-CFR) algorithm is proposed for multi-service supporting digital radio over fibre (DRoF) system. Benefit from segmentation dynamic clipping threshold and clipping factor got basing on characteristics of all service bands, the SMD-CFR is able to get better peak clipping and peak to average power ratio (PAPR) reduction for multi-band combined signal. Simulation results show that SMD-CFR gets more than 2.3 reduction in PAPR for two-bands combined signal of long term evolution (LTE), which is much better than traditional one dimensional (1D)-CFR. Meanwhile, for 64-quadrature amplitude modulation (QAM) modulation and demodulation link, it has very small effect on bit error rate (BER) and error
vector magnitude (EVM), which are controlled less than 0.1% and 0.2% respectively. For hardware experiment, SMD-CFR obtains 4.5% increase in drain efficiency and about 4 dBc increase in adjacent channel leakage ratio (ACLR). These are very significant for the wide band power amplifier (PA) in multi-service supporting DRoF system.

Key words: CFR, multi-dimensional, dynamic crest factor, DRoF, multi-service supporting, LTE

CLC Number:

TN914

Wang Jie, Tao Xiuli, Hu Xiaoguang, Guan Enyi, Ding Zhushun, Li Wen. Segmentation multi-dimensional crest factor reduction for multi-service supporting digital radio over fibre system[J]. JOURNAL OF CHINA UNIVERSITIES OF POSTS AND TELECOM, 2018, 25(2): 10-22.

References

References
1. Dehuai Z. Discussion on indoor integration network of TD-LTE and GSM and TD-SCDMA. Mobile Communications, 2013, 2013(19): 31 -36 (in Chinese)
2. Du F H, Xia T, Ma H J, et al. Practice and case analysis on China tower‘s multi-mode co-site indoor distribution system construction project. Mobile Communications, 2015, 2015 (9): 37 -43 (in Chinese)
3. Wang Q N, Yang Y H. Adaptive peak detection algorithm for fiber bragg grating spectrum based on image processing. Navigation and Control, 2016, 15(1): 70 -74 (in Chinese)
4. Beena R B, Shikha N. Performance comparison of analogue and digital radio over fibre link. International Journal of Computer Science and Engineering Technology ( IJCSET), 2012, 3 (6): 193 -198
5. Seyedreza A, Hamed S A R, Thomas O. Binary-weighted photonic digital-to-analogueue converter. IET Optoelectronics, 2017, 11 (1): 20 -28
6. Almeida R P, Oliveira R S, Moritsuka N S, et al. Digital radio over fibre transmission based on SCM and WDM system for C-RAN architecture. Telecommunications Symposium (ITS), Sao Paulo, Brazil, 2014, November: 1 -5
7. Wang J, Zhao S L, Hua X G, et al. DDAS-DRoF based a new in-building signal coverage system supporting multiple services. Procedia Computer Science, 2017, 2017(107): 558 -563
8. Wang J, Hu X G, Guan E Y, et al. A novel feed-forward segmented digital AGC algorithm for LTE digital radio-over-fibre systems. IET Communications, 2017, 11(15): 2362 -2369
9. Li T, Crisp M, Penty R, et al. Transmission of an RF signal over a wired communications link. Uk Patent, WO2013156770, October, 2013
10. Li T, Penty R V, White I H. Novel digital radio over fibre for 4G-LTE. IEEE International Conference on Communication Workshop (ICCW), London, UK, June, 2015: 312 -317
11. Qian H, Huang H, Yao S. A general adaptive digital predistortion architecture for stand-alone RF power amplifiers. IEEE Trans Broadcast, 2013, 59(3): 528 -538
12. Deepaknair M V, Giofre R, Piazzon L, et al. Effects of windowing based crest factor reduction technique on digitally predistorted PAs for multicarrier WCDMA. Wireless Symposium, IEEE, 2015: 1 - 4
13. Zhao J M, Liu Y A, Yu C P, et al. A novel two-dimensional crest factor reduction for performance improvement of RF power amplifiers. IEEE Microwave and Wireless Components Letters, 2015, 25(12): 835 -837
14. Kim D W, An S S. Experimental analysis of PAPR reduction technique using hybrid peak windowing in LTE system. Eurasip Journal on Wireless Communications and Networking, 2015, 2015 (75): 1 -11
15. Sperlich R, Park Y, Copeland G, et al. Power amplifier linearization with digital pre-distortion and crest factor reduction. IEEE MTT-S International Microwave Symposium Digest, June 6-11, 2004: 669 -672
16. Mbaye A, Baudoin G, Gouba A, et al. Combining crest factor reduction and digital predistortion with automatic determination of the necessary crest factor reduction gain. IEEE, 44th European Microwave Conference, 2014: 837 -840
17. Neil B R. A combined approach to digital pre-distortion and crest factor reduction for the linearization of an RF power amplifier. IEEE Transactions on Microwave Theory and Techniques, 2013, 61(1): 291 -302
18. Fan Z F. Crest factor reduction for TD-LTE base station. IEEE Information Technology, Networking, Electronic and Automation Control Conference, September, 2016: 1005 -1008
19. Amiri M V, Helaoui M, Boulejfen N, et al. Optimized spectrum constrained crest factor reduction technique using polynomials. IEEE Transactions on Communications, 2015, 63 (7): 2555 - 2564
20. Silva P F G D, De L E G. Design of crest factor reduction techniques based on clipping and filtering for wireless communications systems. 26th Symposium on Integrated Circuits
and Systems Design (SBCCI), 2013: 1 -5
21. Huang Y Q, Zeng Z B. A simplified peak cancellation method for OFDM signals. Journal of Communication University of China Science and Technology, 2013, 20(1): 57 -61 (in Chinese)
22. Zhao J, Liu Y, Yu C, et al. A novel two-dimensional crest factor reduction for performance improvement of RF power amplifiers. Microwave and Wireless Components Letters IEEE, 2015, 25 (12): 835 -837
23. Chen X, Chen W, Huang F, et al. Systematic crest factor reduction and efficiency enhancement of dual-band power amplifier based transmitters. IEEE Journals and Magazines, 2017, 63(1): 111 -122
24. Piazza R, Bhavani S M R, Ottersten B. Generalized direct predistortion with adaptive crest factor reduction control. IEEE International Conference on Acoustics, Speech and Signal
Processing, 2015: 3242 -3246
25. Mbaye A, Baudoin G, Gouba A, et al. Combining crest factor reduction and digital predistortion with automatic determination of the necessary crest factor reduction gain. 44th European Microwave Conference IEEE, 2014: 837 -840
26. Chen H, Li J, Yin C, et al. Multi-dimensional crest factor reduction for multi-band directly-modulated radio-over-fiber links. International Topical Meeting on Microwave Photonics IEEE, 2014: 299 -302

Metrics

Comments

Copyright © 2020 The Journal of China Universities of Posts and Telecommunications
　 Adress: P.O. Box 231,Beijing University of Posts and Telecommunications,10 Xi Tucheng Road,Beijing 100876,P.R.China　Post Code: 100081
Tel：86-010-62282493　Fax： 86-010-62283461　E-mail: jchupt@bupt.edu.cn
Support by: Beijing Magtech Co.Ltd

[1]	Zheng Zhidong, Yu Yanming, Liu Ning, Yuan Honggang, Lou Ning. Low-complexity detection based on maximum cumulative measure and Laurent decomposition for multi-h CPM signal [J]. The Journal of China Universities of Posts and Telecommunications, 2022, 29(6): 64-72.
[2]	Wang Jie, Hu Xiaoguang, Guan Enyi, Ding Zhushun, Yao Yidong, Li Wen. SFD-AGC algorithm with ADC digitalizing bit fully utilized and stable PAR [J]. JOURNAL OF CHINA UNIVERSITIES OF POSTS AND TELECOM, 2017, 24(5): 8-15.
[3]	. Particle filtering based channel estimation in OFDM power line communication [J]. Acta Metallurgica Sinica(English letters), 2014, 21(5): 24-30.
[4]	ZHUANG Ling JI Xiang SHAO Kai WANG Guang-yu. Joint use of time-domain and windowed method for design of modulated DFT filter banks [J]. Acta Metallurgica Sinica(English letters), 2013, 20(5): 91-96.
[5]	. Data-aided efficient synchronization for UWB signals based on minimum average error probability [J]. Acta Metallurgica Sinica(English letters), 2008, 15(1): 6-10.
[6]	WANG Ye-qiu;LU Ying-hua;ZHANG Hong-xin;HE Peng-fei;ZHANG Li-kun. UWB multi-pulse position modulation for high data-rate wireless application [J]. Acta Metallurgica Sinica(English letters), 2006, 13(4): 19-23.
[7]	SONG Rong-fang; AI Si; LEUNG Shu-hung. A novel OFDM receiver with optimum second order polynomial nyquist windowing [J]. Acta Metallurgica Sinica(English letters), 2006, 13(2): 84-89.
[8]	ZHANG Shi-bing;CAO Shi-ke;ZHANG Li-jun. Performance analysis of anti-interference UWB-OFDM system [J]. Acta Metallurgica Sinica(English letters), 2006, 13(2): 6-9.
[9]	LIU Jun-shi; TANG Bi-hua; WANG Ya-chen,. A novel multiuser detection algorithm for CDMA-based MIMO-OFDM system [J]. Acta Metallurgica Sinica(English letters), 2006, 13(2): 90-94.
[10]	JIANG Guang-xing; ZHU Hong-bo; CAO Wei . A Novel Pulse Design Based on Hermite Functions for UWB Communications [J]. Acta Metallurgica Sinica(English letters), 2006, 13(1): 49-52.

Segmentation multi-dimensional crest factor reduction for multi-service supporting digital radio over fibre system

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 10

Recommended Articles

Metrics

Comments