Volume 30 Issue 2
Apr.  2021
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HUANG Yun, LIU Gang, YANG Yinan, DING Xingwen, CHANG Hongyu. A Novel Serially Concatenated GMSK System for Satellite Communications[J]. Chinese Journal of Electronics, 2021, 30(2): 390-396. doi: 10.1049/cje.2021.02.007
Citation: HUANG Yun, LIU Gang, YANG Yinan, DING Xingwen, CHANG Hongyu. A Novel Serially Concatenated GMSK System for Satellite Communications[J]. Chinese Journal of Electronics, 2021, 30(2): 390-396. doi: 10.1049/cje.2021.02.007

A Novel Serially Concatenated GMSK System for Satellite Communications

doi: 10.1049/cje.2021.02.007
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  • Author Bio:

    HUANG Yun   was born in Weinan Shannxi Province, China. He is pursing the M.S. degree in Electronics and Communication Engineering at Xidian University. His research interests include Signal processing and wireless communication technology. (Email: huangyun1227@126.com)

    YANG Yinan   is Undergraduate Students in Xidian University. Her research interests include wireless communication technology. (Email: 1374836321@qq.com)

    DING Xingwen   is a researcher in Beijing Research Institute of Telemetry. His research interests include Space communication technology. (Email: dingxw@brit.com.cn)

    CHANG Hongyu   is a researcher in Beijing Research Institute of Telemetry. Her research interests include Space communication technology. (Email: shiji916@163.com)

  • Corresponding author: LIU Gang   (corresponding author) is Associate Professor in Xidian University, his research interests include Broadband wireless transmission and its key technologies (Email: lgliu@163.com)
  • Received Date: 2019-07-10
  • Accepted Date: 2020-01-17
  • Publish Date: 2021-03-01
  • A novel serially concatenated GMSK system is proposed for satellite communications subject to low SNR, limited power and spectrum resources. First, we design a Nonrecursive continuous-phase encoder (NRCPE) based GMSK based on the Rimoldi's decomposition. Then, a corresponding pilot-aided quasi-coherent demodulation algorithm is developed, whose basic principle is that a modified BCJR-based detection performs on the received signals with initial and ending trellisstates being determined using the very limited pilot overhead. Finally, we choose proper modulation parameters for the NRCPE based Gaussian minimum shift keying GMSK signaling according to the trade-offs between the power and spectral efficiency. The simulation results show that the LDPC coded GMSK system using the proposed algorithm can achieve excellent performance and can also work well in the presence of the large Doppler shifts and some burst errors.
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