非正交码移键控和码索引调制算法

doi:10.3969/j.issn.1001-506X.2021.01.28

Abstract

Abstract:

To deal with the problem that the bit error rate(BER) performance degradation of orthogonal code shift keying(CSK) and the insufficiency that the non-orthogonal-code index modulation (N-CIM) cannot make full use of the autocorrelation of spread spectrum codes, an algorithm of the non-orthogonal-CSK-code index modulation (N-CSK-CIM) is proposed. The information bits of the transmitter are divided into modulation bits and spread spectrum code mapping bits; Modulation bits are used for symbol modulation, and mapping bits are mapped into spread spectrum code index and code phase index. Firstly, the symbol is modulated according to the modulation bits. Then, the same original spread spectrum code is selected by using the spread spectrum code index mapped by the mapping bits, and the new spread spectrum code is generated by code shift keying according to the code phase index. The real part and imaginary part of the modulated symbol are spread spectrum with this new spread spectrum code respectively. Simulation results show that the BER performance of N-CSK-CIM algorithm is better than that of N-CIM algorithm and orthogonal CSK algorithm in additive white Gaussian noise (AWGN) channel and Rayleigh fading channel with the same signal to noise ratio.

Key words: code shift keying (CSK), code index modulation (CIM), non-orthogonal, bit error rate (BER)

CLC Number:

TN929.5

Xueyong LIU, Xiaohui BA, Jie CHEN, Li MA, Qi XIAO. Algorithm for non-orthogonal code shift keying and code index modulation[J]. Systems Engineering and Electronics, 2021, 43(1): 232-236.

Figures/Tables 5

References 25

1	MEHBOODI S , JAMSHIDI A , FARHANG M . Spreading sequence estimation algorithms based on ML detector in DSSS communication systems[J]. IET Signal Processing, 2018, 12 (6): 802- 809. doi: 10.1049/iet-spr.2017.0129
2	JENKINS S N, KENNEY B A, MAJID A J, et al. CP-DSSS: a novel waveform for multiple access in IoT[C]//Proc.of the 2nd 6G Wireless Summit, 2020.
3	TANG A , CAREY R , VIRBILA G , et al. A delay-correlating direct-sequence spread-spectrum (DS/SS) radar system-on-chip operating at 183~205 GHz in 28 nm CMOS[J]. IEEE Trans.on Terahertz Science and Technology, 2020, 10 (2): 212- 220. doi: 10.1109/TTHZ.2020.2969105
4	QU F Z , QIN X Z , YANG L Q , et al. Spread-spectrum method using multiple sequences for underwater acoustic communications[J]. IEEE Journal of Oceanic Engineering, 2018, 43 (4): 1215- 1226. doi: 10.1109/JOE.2017.2750298
5	LIU X Q , CHEN H H , PENG M G , et al. Identical code cyclic shift multiple access——a bridge between CDMA and NOMA[J]. IEEE Trans.on Vehicular Technology, 2020, 69 (3): 2878- 2890. doi: 10.1109/TVT.2020.2965718
6	3GPP2 C.S0002-A-physical layer standard for CDMA2000 spread spectrum systems-release A[S]. USA: Third Generation Partnership Project 2, 2000.
7	李北明, 王俊, 薛伟, 等. 基于循环映射算法的并行组合扩频通信[J]. 系统工程与电子技术, 2016, 38 (7): 1654- 1659.
	LI B M , WANG J , XUE W , et al. Parallel combinatory sapread apectrum communication system with cyclic mapping algorithm[J]. Systems Engineering and Electronics, 2016, 38 (7): 1654- 1659.
8	DING X W, XIONG H L, GONG S, et al. M-ary orthogonal signal and BER performance in wireless communication systems[C]//Proc.of the IEEE 4th International Conference on Computer and Communications, 2018: 1268-1272.
9	XUAN G X, ZHANG Z Y, LIU C R. Design of QPSK sequences for M-ary spread spectrum OFDM systems[C]//Proc.of the 12th International Congress on Image and Signal Proces-sing, BioMedical Engineering and Informatics, 2019.
10	KILLOUGH S M, OLAMA M M, KURUGANTI T. Gold code-phase-shift keying: a power and bandwidth efficient communication scheme for smart buildings[C]//Proc.of the IEEE International Workshop Technical Committee on Communications Quality and Reliability, 2018.
11	GARCIA P A , AUBAULT R M , RIES L , et al. Code shift keying: prospects for improving GNSS signal design[J]. Inside GNSS, 2015, 10 (6): 52- 62.
12	靳舒馨, 姚铮, 贾深惠, 等. 高速率GNSS电文多进制编码调制技术[J]. 北京邮电大学学报, 2018, 41 (4): 97- 103.
	JIN S X , YAO Z , JIA S H , et al. High-speed non-binary coding and modulation techniques of GNSS message[J]. Journal of Beijing University of Posts and Telecommunications, 2018, 41 (4): 97- 103.
13	IS-QZSS-L6-001. Quasi-zenith satellite system interface specification centimeter level augmentation service[S]. Japan: Cabinet Office, Government of Japan and Quasi-Zenith Satellite System Services Inc., 2018.
14	邓雪群. 一种实用突发CSK/SS通信系统的设计与实现[J]. 无线电工程, 2018, 48 (5): 372- 377. doi: 10.3969/j.issn.1003-3106.2018.05.07
	DENG X Q . Design and realization of a practical burst CSK/SS system[J]. Radio Engineering, 2018, 48 (5): 372- 377. doi: 10.3969/j.issn.1003-3106.2018.05.07
15	于洋, 周锋, 乔钢, 等. 正交M元码元移位键控扩频水声通信[J]. 声学学报, 2014, 61 (1): 42- 48.
	YU Y , ZHOU F , QIAO G , et al. Orthogonal M-ary code shift keying spread spectrum underwater acoustic communication[J]. Acta Acustica, 2014, 61 (1): 42- 48.
16	KADDOUM G, SOUJERI E. On the comparison between code index modulation and spatial modulation techniques[C]//Proc.of the IEEE International Conference on Information and Communication Technology Research, 2015: 24-27.
17	KADDOUM G , AHMED M F A , NIJSURE Y . Code index modulation: a high data rate and energy efficient communication system[J]. IEEE Communications Letters, 2015, 19 (2): 175- 178. doi: 10.1109/LCOMM.2014.2385054
18	KADDOUM G , NIJSURE Y , TRAN H . Generalized code index modulation technique for high data rate communication systems[J]. IEEE Trans.on Vehicular Technology, 2016, 65 (9): 7000- 7009. doi: 10.1109/TVT.2015.2498040
19	葛利嘉, 江治林, 冯胜, 等. 非正交-码索引调制方法[J]. 电子与信息学报, 2018, 40 (10): 2331- 2336.
	GE L J , JIANG Z L , FENG S , et al. Non-orthogonal-code index modulation[J]. Journal of Electronics and Information Technology, 2018, 40 (10): 2331- 2336.
20	CHENG X , ZHANG M , WEN M W , et al. Index modulation for 5G: striving to do more with less[J]. IEEE Wireless Communications, 2018, 25 (2): 126- 132. doi: 10.1109/MWC.2018.1600355
21	TAN Y S , XU W K , HUANG T T , et al. A multilevel code shifted differential chaos shift keying scheme with code index modulation[J]. IEEE Trans.on Circuits and Systems Ⅱ: Express Briefs, 2018, 65 (11): 1743- 1747. doi: 10.1109/TCSII.2017.2764916
22	XU W K , HUANG T T , WANG L . Code-shifted differential chaos shift keying with code index modulation for high data rate transmission[J]. IEEE Trans.on Communications, 2017, 65 (10): 4285- 4294.
23	COGEN F, AYDIN E, KABAOGLU N, et al. Code index modulation and spatial modulation: a new high rate and energy efficient scheme for MIMO systems[C]//Proc.of the IEEE 41st International Conference on Telecommunications and Signal Processing, 2018.
24	COGEN F, AYDIN E, KABAOGLU N, et al. A novel MIMO scheme based on code-index modulation and spatial modulation[C]//Proc.of the 26th Signal Processing and Communications Applications Conference, 2018.
25	AYDIN E , COGEN F , BASAR E . Code-index modulation aided quadrature spatial modulation for high-rate MIMO systems[J]. IEEE Trans.on Vehicular Technology, 2019, 68 (10): 10257- 10261. doi: 10.1109/TVT.2019.2928378

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Algorithm for non-orthogonal code shift keying and code index modulation

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