• Associate professor
• Supervisor of Master's Candidates
• Academic Titles:院长助理
• Gender:Male
• Education Level:博士研究生
• Degree:Doctoral Degree in Engineering
• Business Address:机电信息实验大楼A619
• E-Mail:8779894a751e884bfb31c8fb2f9fde1c581e632345cccbcbbfea8eadf7da69193929cd6638395085f6630fe43ec2fcb21a7f88987fdd27c4035bbebfb88a2810af23643a277b4f77e4c807528343c1463f3ba10fd7d4e55e0e7b3e21fc7601d5b8687ae58b55eb1cdffa2dc463e1f2b9114a5e56e17dad4bcd9bb70beb1e4c6a
• Status:在岗
• Other Post:电子通信实验中心主任

• QQ:44692793c71cca76bc669e045d31db33b912c7077c81e0e818afff6ec9e3e22e1a14b0be2881a3e701ecc1775eeded1681a7369fdc51144f894ba30a1ee67bbfdef1053985c28d1bf581b0587a5eda69699119c5d01e0e5ba12b3a30781a1d8409e243424f1beab5085a6720d51dc63bca0253dc3ebb8247f75bae834b516f1f

【个人简介】周林，男，河南南阳人，华侨大学信息科学与工程学院通信工程系副教授、硕士生导师、院长助理，IEEE高级会员、福建省通信学会无线通信与智能感知专委会副主任，厦门市科技局、厦门市工信局、厦门科技交流合作协会、厦门市知识产权协会等单位评审专家。长期致力于信源信道编码、无线通信、工业互联网和人工智能等领域的研究工作，主持或参与几十项科研项目。其中作为项目负责人，主持和完成国家自然科学基金项目1项、福建省项目2项、泉州市高层次人才项目1项、厦门市科技计划项目2项、华侨大学高层次人才项目1项，企业横向开发项目多项。在国际、国内期刊和会议发表学术论文80余篇，发明专利已授权9项，实用新型专利已授权3项，10余项专利正在审核中。 【近年来的主要研究方向】[1] B5G/6G通信中的LDPC码、Polar码等；[2] 未来通信系统中的新型编码调制；[3] 人工智能技术在图像和视频信息处理中的应用；[4] 人工智能技术在通信和信息处理中的应用;[5] 工业互联网与数字孪生技术。 【教育经历】·2007-2011，西安电子科技大学/综合业务网理论及关键技术（ISN）国家重点实验室，信息与通信工程，博士·2004-2007，西安电子科技大学/通信工程学院，通信与信息系统，硕士·2000-2004，西安电子科技大学通信工程学院，通信工程，学士 【工作经历】·2021-至今，华侨大学，电子与通信实验中心，主任·2020-至今，华侨大学，信息科学与工程学院，院长助理·2017-至今，华侨大学，信息科学与工程学院，副教授·2011-2017，华侨大学，信息科学与工程学院，讲师 【硕士研究生招生专业及方向】 ·学硕：0810信息与通信工程·专硕：0854电子信息[方向：新一代电子信息技术（含量子技术等）] 【非全日制研究生名单】 张敏、王招治、蔡育星、王燕平、林晓萍、吴志芳、陈汝斌【全日制研究生名单及就业去向】（2024年更新）姓名入学时间就业单位卢进2012级橙色魔方（深圳）黄伟成2013级公务员（驻马店）陈晓鹏2014级泉州市知识产权保护中心邱丽鹏2014级锐捷网络股份有限公司(福州)鲁紫君2015级华侨大学（厦门）吴淼2016级陆军步兵学院（南昌）江梓弘2016级公务员（泉州）张亚坤2017级中国电信天翼云科技有限公司（北京）李晓磊2017级菏泽医学专科学校李赛2018级商汤智能科技有限公司（上海）张娅妹2018级百度（上海）石旭2018级公务员（常德）唐益多2019级恒生电子股份有限公司（杭州）张树颖2019级公务员（三明）陆一鸣2020级中国移动云能力中心（苏州）练秋芳2020级华侨大学（厦门）徐磊2020级先临三维科技股份有限公司（杭州）王聪意2020级南大通用数据技术有限公司（天津）廖国军2021级北京邮电大学出版社有限公司李育鹏2021级厦门天马微电子有限公司孙钰2021级中国人民财产保险股份有限公司（上海）代瑶瑶2021级厦门狄耐克智能科技股份有限公司郑琳潇2021级华侨大学（厦门）安燃2022级贺基辰2022级王一2022级刘奕清2022级舒旭童2022级邵梦如2023级陈彦婷2023级李世尧2023级吴敏福2023级陈翘2023级林桑浦2023级 【英文论文】 [1] G. -J. Liao, L. Zhou, R. An, C. Chen and X. -Z. Xie, "Probabilistic Shaped Joint Source-Channel Polar-Coded Modulation," in IEEE Signal Processing Letters, vol. 31, pp. 1560-1564, June. 2024（中科院二区）[2] Jichen He, Qiufang Lian, Chen Chen,QiwangChen, Lin Zhou. Probability Shaping for High-Order Systems with DSC-LDPC Code.In: The 9th International Conference on Computer and Communications (ICCC 2023). Chengdu, China, 2023. (EI会议)[3] Linxiao Zheng, Yu Sun, Jinwei Zeng, Yiqing Liu, Lin Zhou. Stroke rehabilitation action recognition based on MY_SlowFast. In 2023 2nd International Conference on Artificial Intelligence and Intelligent Information Processing (AIIIP). Zhejiang, China, 2023.(EI会议)[4] Yiqing Liu, Linxiao Zheng, Zijun Lu, Lin Wang, Lin Zhou.Gesture Recognition Model Based on YOLOv8-AW.In: The 9th International Conference on Computer and Communications (ICCC 2023). Chengdu, China, 2023. (EI会议)[5] Ran An, Guojun Liao, Qiufang Lian, Sanya Liu, Lin Zhou. Joint Source-Channel Polarization Successive Cancellation Decoding. In:IEEE International Conference on Computer and Communications (ICCC 2023). Chengdu, China. (EI会议)[6] Y. Sun, L. Zheng, Z. Lu, Q. Lian and L. Zhou. A Bolt Rust Detection System for Smart Construction Sites. In: 2023 8th International Conference on Image, Vision and Computing (ICIVC), Dalian, China, 2023. (EI会议) [7] C. Chen, Q. Chen, S. Liu, and L. Zhou, “Adaptive Bit-Labeling Design for Probabilistic Shaping Based on Residual Source Redundancy,” Entropy, vol. 25, no. 4, p. 586, Mar. 2023（中科院三区）[8] Guojun Liao, Lin Zhou, Qiwang Chen, Lin Wang, Xi Wang. Joint source-channel coding based on polar code. In: 2023 6th International Conference on Intelligent Computing, Communication & Devices(ICCD 2023). Hong Kong, China, 1270303(2023). (EI会议)[9] Yupeng Li, Lin Zhou, Qiwang Chen, Lin Wang, Xi Wang. Quasi-Cyclic Concatenated Spatially Coupled LDPC Codes Based Joint Source-Channel. In: 2nd International Joint Conference on Information and Communication Engineering (JCICE). Chendu, China. (EI会议)[10] Yaoyao Dai, Lin Zhou, Xutong Shu,Jianyong Chen,Yi Wang,Yidong Ke. Research on Flexible Job-shop Scheduling Problem Based on Genetic Algorithm and Flower Pollination Algorithm. In: 2023 11th International Conference on Intelligent Computing and Wireless Optical Communications (ICWOC 2023),Chongqing,China,2023. (EI会议) [11] Q. Chen, Y. Ren, L. Zhou, C. Chen, and S. Liu, “Design and Analysis of Joint Group Shuffled Scheduling Decoding Algorithm for Double LDPC Codes System,” Entropy, vol. 25, no. 2, p. 357, Feb. 2023 （中科院三区）[12] Q.-F.Lian, Q.Chen, L.Zhou, Y.-C. He and X.Xie, "Adaptive Decoding Algorithm With Variable Sliding Window for Double SC-LDPC Coding System," in IEEE Communications Letters, vol.27, no.2, pp.404-408, Feb.2023（中科院三区）[13] Q.Chen, Y.C.He, -C. Chen and L.Zhou, "Optimization of Protograph LDPC Codes via Surrogate Channel for Unequal Power Allocation," in IEEE Transactionson Communications, vol.71, no.3, pp.1284-1295, March2023.(中科院二区Top)[14] WangCongyi, ZhouLin, XuLei, ChenQiwang, etal. Performance Analysis of Probabilistic Shaped Polar Code in 5G [C]. In: 5th International Conference on Wireless Communications and Applications(ICWCA). Haikou, China, 2023.87-94.（EI会议）[15] LuYiming, ZhouLin, ChenChen, etal. Nonbinary LDPC Coded OTFS System Over Mobile Multipath Channels [C]. In: 5th International Conference on Wireless Communications and Applications(ICWCA). Haikou, China, 2023.45-52.（EI会议）[16] LianQiufang, ZhouLin, ChenQiwang, etal. Spatially Coupled LDPC Codes Based Joint Source-Channel Coding [C]. In: 5th International Conference on Wireless Communications and Applications(ICWCA). Haikou, China, 2023.67-75.（EI会议）[17] XuL, ZhouL, WangL, etal. Simplified Design of Multilevel Coding Scheme with Polar Codes for High Order Modulation[C] In: 5rd International Conference on Wireless Communications and Applications(ICWCA). Haikou, China, 2022:77-85.(EI会议)[18] YiduoTang, LinZhou, ShuyingZhang, etal. Normalized Neural Network for Belief Propagation LDPC Decoding[C]. In: 2021 IEEE International Conference on Networking, Sensingand Control(ICNSC). Xiamen, China:IEEE, 2021.1-5.(EI会议)[19] YiduoTang, LinZhou, ShuyingZhang, etal. Modern-Driven Deep Learning for Belief Propagation LDPC Decoding[C]. In: 4rd International Conference on Wireless Communications and Applications(ICWCA). Sanya, China: Springer, 2022.251-257.(EI会议)[20] ShuyingZhang, LinZhou, ZizhuoZhao, etal. Blind Recognition of Channel Coding Based on Deep Learning[C]. In: Proceedings of 4th International Conference on Wireless Communications and Applications(ICWCA). Sanya, China: Springer, 2022.259-265.(EI会议)[21] Shuying.Zhang, Lin.Zhou, Yiduo.Tang, etal. "Blind Recognition of Channel Coding Based on CNN-BLSTM," 2021 IEEE International Conference on Networking, Sensingand Control(ICNSC), Xiamen, China, 2021, pp.1-5.(EI会议)[22] Z.Dong, Y.Chen, D.Zou, X.Zhao, L.Zhou and F.Li, "DMT Transmission in Short-Reach Optical Interconnection Employing a Novel Bit-Class Probabilistic Shaping Scheme, "Journal of Lightwave Technology, vol.39, no.1, pp. 98-104, 1Jan.1, 2021.(中科院二区Top)[23] LiSai, ZhouLin, ZhangShuying, etal. Research on the performance of ldpc codes in 5g communication system[C]. The 3rd International Conference on Wireless Communications and Applications(ICWCA). Haikou, China, 2021, 191:25-31.(EI会议)[24] ZhangYamei, ZhouLin, ZhangShuying, etal. Improved Window Decoding of Spatially Coupled LDPC Codes[C]. The 3rd International Conference on Wireless Communications and Applications. HaiNan, China: 2021, 190:85-91.(EI会议)[25] ShiXu, ZhouLin, etal. Performance Analysis of Interleaver for Polar Coding in Bit-Interleaved Coded Modulation System[C]. The 3rd International Conferenceon Wireless Communications and Applications. HaiNan, China: 2021, 190:101-107(EI会议)[26] Y.Chen, H.He, X.Zhao, Z.Cao, L.Zhou, andZ.Dong, "Low-complexity probabilistic shaping based on bit-weighted distribution matching in DMT-WDM-PON," Opt.Express, vol.28, no.15, pp.21814-21824, 2020.(中科院二区Top)[27] X.Zhao, Y.Chen, H.He, L.Zhou and Z.Dong, "LDPC-Coded Probabilistic Shaping PAM8 Employing a Novel Bit-Weighted Distribution Matching in WDM-PON," Journal of Lightwave Technology, vol.38, no.17, pp.4641-4647, 1Sept.1, 2020.(中科院二区Top)[28] H.He, Y.Chen, Q.Xiao, L.Zhou and Z.Dong, "LDPC-Coded Probabilistic Shaping PAM4 Based on Many-to-One Mapping in WDM-PON," Journal of Lightwave Technology, vol.38, no.15, pp.3918-3925, 1Aug.1, 2020.(中科院二区Top)[29] Z.Cao, Y.Chen, X.Zhao, L.Zhou and Z.Dong, "Probabilistic Shaping 44QAM Based on Many-to-One Mapping in DMT-WDM-PON," IEEE Photonics Technology Letters, vol.32, no.11, pp.639-642, 1June, 2020.(中科院三区)[30] Y.Ni, S.Peng, L.Zhou and X.Yang, "Blind Identification of LDPC Code Based on Deep Learning," 2019 6th International Conference on Dependable Systems and Their Applications(DSA), Harbin, China, 2020, pp.460-464.(EI会议)[31] L.Zhou, H.He, Y.Zhang, Y.Chen, Q.Xiao and Z.Dong, "Enhancement of Spectral Efficiency and Power Budget in WDN-PON Employing LDPC-Coded Probabilistic Shaping PAM8," IEEE Access, vol.8, pp.45766-45773, March2020.(中科院二区)[32] Q.Xiao, Y.Chen, S.Lin, H.He, X.Wu, J.You, Y.Zeng, L.Zhou and Z.Dong, "DFT-Spread DMT-WDM-PON Employing LDPC-Coded Probabilistic Shaping 16 QAM," in Journal of Lightwave Technology, vol.38, no.4, pp.714-722, 15Feb.15, 2020.(中科院二区Top)[33] J.Shao, L.Zhou and Y.Sun, "Entanglement-assisted nonbinary quantum LDP Ccodes with finite field method," 2018 13th IEEE Conference on Industrial Electronics and Applications(ICIEA), Wuhan, 2018, pp.99-103.(EI会议)[34] ZijunLu, ZihongJiang, LinZhou and YuchengHe, "Design of ACM system based on non-greedy punctured LDPC codes[C]", in Proc. International Conferenceon Green Energy and Sustainable Development(GESD2017), Chongqing, China, May. 2017, pp.020140-1-6.(EI会议)[35] L.Zhou, W.Huang, R.Zhao and Y.He, "Anon-greedy puncturing method for rate-compatible LDPC codes," in Journal of Communications and Networks, vol.19, no.1, pp.32-40, February2017.(中科院四区)[36] LipengQiu, XiaopengChen, LinZhou, YuchengHe， "FPGA implementation of Reed-Solomon Codes Based on Visible Light Wireless Communication System[C]" in Proc. ISAEECE 2016, GuangZhou, China, May. 2016. pp.234-237.(EI会议)[37] XiaopengChen, LinZhou, RuiZhao and YuchengHe, "Construction of Regular and Irregular QC-LDPC Codes: a Finite Field Approach and Masking[C]," in Proc. ISAEECE 2016, GuangZhou, China, May. 2016, pp.216-220.doi: 10.2991/isaeece-16.2016.41.(EI)[38] YuchengHe, JingjingZhang, RuiZhao and LinZhou, "Iterative noncoherent block detection of coded MPSK for cooperative relay systems," in China Communications, vol.13, no.7, pp.1-6, July2016. doi: 10.1109/CC.2016.7559069.(中科院三区)[39] LinZhou, WeichengHuang, ShengliangPeng, YanChen and YuchengHe. “An Improved Design of Gallager Mapping for LDPC-coded BICM-ID System[J]”, Electronics, 2016, 20(1):16-21. doi: 10.7251/ELS1620062L.(EI期刊)[40] Y.He, Y.Qiao and L.Zhou, "Generalized maximum likelihood noncoherent block detection for decode-and-forward relay systems," in China Communications, vol.11, no.4, pp.163-171, April2014. doi: 10.1109/CC.2014.6827578.(中科院三区)[41] LinZhou, KankanWu, RuiZhao, CanhuiCai, LinWang, "Design of shortened Turbo product codes and their improved decoding[J]", Procedia Engineering, vol.15, pp.2538-2544, Dec.2011. doi: 10.1016/j.proeng.2011.08.477.(EI期刊)[42] JunhuShao, BaomingBai, WeiLin and LinZhou. "Jointly-check iterative decoding algorithm for quantum sparse graph codes[J]", Chinese Physics B, 2010, 19(08):116-122. doi： 10.1088/1674-1056/19/8/080307.(中科院三区)[43] L.Zhou, B.Bai and M.Xu, "Design of Nonbinary Rate-Compatible LDPC Codes Utilizing Bit-Wise Shortening Method," in IEEE Communications Letters, vol.14, no.10, pp.963-965, October 2010. doi: 10.1109/LCOMM.2010.083110.100911.(中科院三区)[44] L.Zhou, B.Bai, M.Xu and C.Chen, "Bit-wise shortening of nonbinary LDP Ccodes using their binary images," 2009 Fourth International Conference on Communications and Networking in China, Xian, 2009, pp.1-3. doi: 10.1109/CHINACOM.2009.5339905.(EI会议) 【中文论文】 [1] 吴舒婷,贺玉成,张良梅,周林.D2D辅助的协作中继NOMA系统中TSRS策略及其中断性能分析[J].信号处理,2022,38(05):1001-1008.DOI:10.16798/j.issn.1003-0530.2022.05.012.[2] 张良梅,贺玉成,吴舒婷,周林.非理想SIC下SWIPT-CR-NOMA网络中断性能分析[J].信号处理,2022,38(03):619-631.DOI:10.16798/j.issn.1003-0530.2022.03.020.[3] 乔宇航,张良梅,贺玉成,周林.功率受限CR-NOMA协作V2X中断性能分析[J].西安电子科技大学学报,2022,49(02):97-107.DOI:10.19665/j.issn1001-2400.2022.02.012.[4] 杨键泉,贺玉成,马梦欢,周林.全双工认知NOMA网络下中继选择策略性能分析[J].信号处理,2021,37(09):1719-1726.DOI:10.16798/j.issn.1003-0530.2021.09.016.[5] 方毓恺,贺玉成,杨键泉,周林.混合双工主动窃听系统中的干扰端优化研究[J].信号处理,2021,37(11):2200-2206.DOI:10.16798/j.issn.1003-0530.2021.11.022.[6] 陈辰,周林,陈启望,陈燕,贺玉成.联合编码的中继系统不等错误保护机制[J].北京邮电大学学报,2021,44(01):59-65.DOI:10.13190/j.jbupt.2020-099.[7] 何雅萍,贺玉成,周林.纠正稳定和非稳定突发擦除错误的置换码[J].西安电子科技大学学报,2021,48(03):49-55.DOI:10.19665/j.issn1001-2400.2021.03.006.[8] 乔宇航,贺玉成,张良梅,周林.两阶段中继选择策略下SWIPT-CR-NOMA网络的中断性能分析[J].信号处理,2021,37(01):40-48.DOI:10.16798/j.issn.1003-0530.2021.01.005.[9] 路晓华,贺玉成,张良梅,周林.智能窃听下协作NOMA网络的性能分析[J].信号处理,2021,37(01):148-157.DOI:10.16798/j.issn.1003-0530.2021.01.018.[10] 张娅妹,周林,陈辰,陈启望,贺玉成.瑞利衰落信道中SC-LDPC码滑窗译码算法[J].西安电子科技大学学报,2020,47(06):78-83.DOI:10.19665/j.issn1001-2400.2020.06.012.[11] 张亚坤,张娅妹,周林,贺玉成.高斯白噪声信道下SC-LDPC码的结构设计[J].北京邮电大学学报,2020,43(01):35-39.DOI:10.13190/j.jbupt.2019-087.[12] 张娅妹,周林,陈辰,郭荣新,贺玉成.窗口可变的空间耦合LDPC码滑窗译码算法[J].西安电子科技大学学报,2020,47(03):128-134.DOI:10.19665/j.issn1001-2400.2020.03.018.[13] 傅玉青,段琦,周林.GammaGamma强海洋湍流和瞄准误差下水下无线光通信系统的性能研究[J].红外与激光工程,2020,49(02):110-117.[14] 乔宇航,贺玉成,杨键泉,周林.两级中继选择的协作CR-NOMA网络性能分析[J].信号处理,2020,36(02):196-202.DOI:10.16798/j.issn.1003-0530.2020.02.005.[15] 石旭,周林,张树颖,陈辰,傅玉青,贺玉成.改进交织的单层极化码高阶编码调制系统[J].信号处理,2020,36(02):210-216.DOI:10.16798/j.issn.1003-0530.2020.02.007.[16] 方毓恺,贺玉成,蔡静,周林.主动窃听系统中的多窃听用户选择技术研究[J].信号处理,2020,36(02):297-303.DOI:10.16798/j.issn.1003-0530.2020.02.018.[17] 李赛,周林,唐益多,陈辰,傅玉青,贺玉成.面向5G标准的低延时LDPC编码器设计[J].信号处理,2020,36(02):224-232.DOI:10.16798/j.issn.1003-0530.2020.02.009.[18] 乔宇航,贺玉成,周林.全双工窃听者主动干扰的协作NOMA网络性能分析[J].无线电通信技术,2020,46(02):180-185.[19] 路晓华,贺玉成,周林.自适应窃听下NOMA用户协作干扰的物理层安全研究[J].无线电通信技术,2020,46(02):192-198.[20] 方毓恺,贺玉成,周林.能量采集技术在主动窃听系统中的应用研究[J].无线电通信技术,2020,46(02):205-209.[21] 蔡静,贺玉成,乔宇航,周林.中继协作下认知NOMA网络性能分析[J].信号处理,2019,35(12):2029-2035.DOI:10.16798/j.issn.1003-0530.2019.12.011.[22] 张娅妹,陈燕,周林,贺玉成.空间耦合LDPC码在AWGN信道下的性能分析[J].无线电通信技术,2020,46(01):77-81.[23] 石旭,李晓磊,周林,贺玉成.5G通信中的极化码在高阶调制下的应用[J].无线电通信技术,2020,46(01):63-67.[24] 张亚坤,周林,陈辰,贺玉成.速率无损失的空间耦合LDPC码[J].电子学报,2019,47(12):2590-2595.[25] 邵军虎,孙莹,刘晓楠,周林.强湍流条件下软切换FSO/RF混合链路中HARQ方案的对比分析[J].激光杂志,2019,40(06):162-166.DOI:10.14016/j.cnki.jgzz.2019.06.162.[26] 何雅萍,贺玉成,周林.闪存等级调制移位错误的多重置换纠错码构造[J].信号处理,2019,35(04):686-692.DOI:10.16798/j.issn.1003-0530.2019.04.020.[27] 张勇建,贺玉成,蔡静,周林.多用户选择与协作干扰的安全性能分析[J].信号处理,2019,35(03):334-341.DOI:10.16798/j.issn.1003-0530.2019.03.003.[28] 李晓磊,石旭,周林,贺玉成.新型级联Polar码设计[J].信号处理,2019,35(03):516-521.DOI:10.16798/j.issn.1003-0530.2019.03.025.[29] 李晓磊,石旭,周林,贺玉成.Polar码在加性高斯白噪声信道下的性能分析[J].中国科技论文,2019,14(03):239-242.[30] 贾丽君,贺玉成,周林.自适应窃听和干扰下机会式中继和协作干扰技术的安全性能分析[J].南京理工大学学报,2019,43(01):29-34.DOI:10.14177/j.cnki.32-1397n.2019.43.01.004.[31] 蔡静,贺玉成,周林.基于能量收集和人工加扰的认知无线电网络安全中断性能分析[J].通信技术,2019,52(03):608-614.[32] 何雅萍,贺玉成,周林.纠单个有序删除和擦除错误码的构造方法[J].通信技术,2019,52(03):544-548.[33] 苏华玲,贺玉成,周林.基于码率兼容LDPC码的多中继协作自适应传输[J].北京邮电大学学报,2018,41(06):58-64.DOI:10.13190/j.jbupt.2018-077.[34] 吴新星,张凯明,张惠忠,周林,董泽.基于DFT扩频技术的低峰均比OOFDM系统研究[J].光通信技术,2018,42(08):18-21.DOI:10.13921/j.cnki.issn1002-5561.2018.08.005.[35] 吴淼,邱丽鹏,周林,贺玉成.高效低复杂度的QC-LDPC码全并行分层结构译码器[J].重庆邮电大学学报(自然科学版),2018,30(03):354-361.[36] 张勇建,贺玉成,周林.基于机会式中继传输策略的安全性能分析[J].计算机应用,2018,38(10):2908-2912+2970.[37] 张勇建,贺玉成,周林.基于三阶段双向中继系统的功率分配问题研究[J].通信技术,2018,51(05):1091-1096.[38] 江梓弘,陈晓鹏,周林,贺玉成.QC-LDPC码构造及其在BICM-ID系统中的应用[J].通信技术,2018,51(03):511-515.[39] 许永峰,贺玉成,周林.软件滤波的示波血压测量算法及Android实现[J].华侨大学学报(自然科学版),2017,38(04):567-572.[40] 赵睿,贺玉成,周林,谢维波.基于人工噪声预编码的多天线中继安全性能分析[J].电子与信息学报,2016,38(10):2575-2581.[41] 赵睿,林鸿鑫,贺玉成,彭盛亮,周林.Nakagami信道下MIMO解码转发中继系统的安全性能分析[J].电子与信息学报,2016,38(08):1913-1919.[42] 孙文文,周林,韩文亮,冯加良,于志强,傅家谟.电子垃圾拆解对台州氯代/溴代二噁英浓度和组成的影响[J].生态毒理学报,2016,11(02):330-338.[43] 周林,黄伟成,贺玉成,蔡灿辉.多元速率兼容LDPC码的自适应编码调制系统研究[J].信号处理,2015,31(07):815-822.[44] 李琪,周林,张博,白宝明.适用于BICM-ID系统的星座成形方法[J].通信学报,2015,36(06):153-160.[45] 乔莹,贺玉成,周林.新型信道自适应编码协作体制[J].计算机应用,2015,35(05):1218-1223.[46] 许永峰,贺玉成,周林.血压脉搏振荡波的三重软件滤波提取算法[J].电子测量与仪器学报,2015,29(03):454-459.DOI:10.13382/j.jemi.2015.03.019.[47] 吴晓龙,赵睿,周林,简贵胄.采用最优放大因子的全双工中继选择方案[J].信号处理,2014,30(05):583-590.[48] 周林,卢进,彭盛亮,蔡灿辉.可变速率多元LDPC码高阶调制系统[J].信号处理,2013,29(10):1368-1375.[49] 彭盛亮,赖美玲,周林,蔡灿辉.认知无线网络中硬合并协同频谱感知的融合准则优化[J].信号处理,2013,29(10):1416-1422.[50] 周林,白宝明,邵军虎,林伟.多元LDPC码的速率兼容技术研究[J].西安电子科技大学学报,2011,38(01):147-152.[51] 邵军虎,白宝明,林伟,周林.多元量子LDPC码的构造与译码[J].西安电子科技大学学报,2010,37(06):1005-1010.[52] 周林、白宝明、王晶.基于CT-TCM的自适应编码调制技术[J].通信学报，2008，29(11A)：82-86. 【授权发明专利】 [1] 周林、唐益多、陈辰、陈启望、刘三亚.“一种LDPC码神经网络训练、译码方法及其系统”.发明专利. 授权日期：2024.07.09，专利号：202111172359.3[2] 周林、吴淼、贺玉成、江梓弘、李晓磊、张亚坤.“全并行双向递归流水线LDPC编码器及方法”.发明专利.授权日期：2023.04.07，专利号：ZL201810873042.4[3] 周林、王聪意、石旭、董泽、陈辰、陈启望.“一种基于Polar码编码的概率整形4-PAM调制系统及其调制方法”.发明专利，授权日期：2023.04.05，专利号：ZL202110540960.7[4] 周林、李赛、石旭、张娅妹、唐益多、张树颖、陈辰、贺玉成.“一种速率兼容的5GLDPC码的编码装置及编码方法”.授权日期：2023.03.17,申请号：ZL202010070456.0[5] 周林、张亚坤、贺玉成、李晓磊、石旭、张娅妹、李赛.“一种码率无损失的空间耦合LDPC码的耦合方法”.发明专利.授权日期：2023.03.03,专利号：ZL201910345399.X[6] 周林、张娅妹、张亚坤、陈辰、贺玉成、李晓磊、李赛、石旭.“一种空间耦合LDPC码滑窗译码方法”.发明专利.授权日期：2023.03.03,专利号：ZL201911054648.6[7] 周林、黄伟成、贺玉成、陈晓鹏、邱丽鹏、鲁紫君.“一种有限长LDPC码的打孔算法”.发明专利.授权日期：2019.06.04，专利号：ZL201510856740.X.[8] 周林、黄伟成、贺玉成、陈晓鹏、邱丽鹏、鲁紫君.“一种基于重要性采样技术的LDPC码打孔方法.发明专利.授权日期：2019.03.12，专利号：ZL201510859069.4.[9] 白宝明、周林、马啸、李颖、孙蓉、郑贱平.“基于比特交织编码调制系统的映射器及其映射方法”，发明专利.授权日期：2012.02.08，专利号：ZL200810232448.0.[10] 白宝明、周林、马啸、李颖、郑贱平、孙蓉.“基于非规则比特级缩短的多元码速率兼容方法”，发明专利.授权日期：2012.01.04，专利号：ZL200910022285.8.