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              当前位置: 首页>师资队伍
              教师详情
              • 个人信息
                戴晓明

                Dai xiaoming

                系      所:
                |通信工程系|
                职      称:
                教授  
                职      务:
                办公地点:
                网络楼113
                办公电话:
                电子邮箱:
                daixiaoming@ustb.edu.cn; cyjxiaoming@gmail.com
                本 科 课 程:
                无线电定位导航原理及应用
                研究生课程:
                信号检测与估计
                科 研 方 向:
                宽带无线通信 5G+/6G 人工智能 非正交多址接入 大数据处理
                学术与社会兼职:
                IMT-2020 (5G) 非正交传输组副组长 中南大学兼职研究生导师
              • 简   历

                戴晓明,博士,教授。以宽带无线通信系统理论与技术为主要研究方向,重点研究5G+/6G 关键技术,人工智能yobet体育官网,非正交多址接入,MIMO,ASIC芯片设计等。以第一作者在国际刊物和国际学术会议上发表40余篇学术论文,其中IEEE Trans. 系列期刊(SCI)文章15篇(JCR一区及二区期刊6篇)yobet体育官网,拥有/申请30余项国内国际发明专利。

                曾任多个国际学术会议专题分会主席yobet体育官网、特邀专题研讨组织者yobet体育官网、主持人yobet体育官网。由其提出的蜂窝系统导频设计方案被4G核心物理层标准采纳;提出图样分割多址(Pattern Division Multiple Access, PDMA[16]国际电信联盟(ITU)发表的未来地面无线通信技术发展趋势”(Future Technology Trends of Terrestrial IMT Systems)白皮书列为5G潜在应用的一项关键技术[16],其在多址接入的工作[13][17]ITU“未来地面无线通信技术发展趋势白皮书引用yobet体育官网;在MIMO接收机方面的研究工作被韩国Sejong大学电子工程系选作研究生文献阅读材料[18];5篇论文被欧盟第七框架计划FP77th Framework Program)核心项目引用;其研究工作被5G标准化组织3GPP中多篇方向性技术文稿(Way forward)引用[19]-[24]yobet体育官网yobet体育官网。

                承担过多项国家级973子专题、863课题,以及产学研等项目。目前接受华为技术,intel,中国移动研究院,中兴通讯,大唐移动,是德科技(Keysight,原安捷伦仪器),展讯通信,小米科技等公司资助开展无线通信前沿研究工作。

                如果您对我们的研究方向感兴趣yobet体育官网,请与我们联系。我们热诚欢迎来自全国乃至世界各地的优秀学生及科研人员作为师资博士后,研究生等等加入。

              • 代表性论文

                [1] X. Dai, Z. Zhang, S. Chen, S.Sun and B. Bai,“Pattern Division Multiple Access (PDMA): A New Multiple Access Technology for 5G,” IEEE Wire. Commun., vol. 25, no. 2, pp. 54-60, Apr. 2018. (JCR 一区, 影响因子 8.9)

                [2] X. Dai, “Allele gene based adaptive genetic algorithm to the code design,” IEEE Trans. Communi., vol. 59, no. 5, pp. 1253-1259, May 2011.

                [3] X. Dai, Kenichi Higuchi,Z. Zhang, K. Long, et al. “Enhancing the performance of the quasi-ml receiver (detector plus decoder) for coded MIMO systems via statistical information,” IEEE Trans. Vehi. Techno., vol. 65, no. 5, pp. 3765 - 3771, June. 2016.

                [4] X. Dai, R. Zou, S. Sun, and Y. Wang, “Reducing complexity of quasi-maximum-likelihood detectors through companding for coded MIMO systems,” IEEE Trans. Vehi. Tech., vol. 61, no. 3, pp. 1109-1123, Mar. 2012.

                [5] X. Dai, Kenichi Higuchi,Z. Zhang, K. Long, S. Sun, and Y. Wang, “Enhancing the performance of the quasi-ML receiver (detector plus decoder) for coded MIMO systems via statistical information,” IEEE Trans. Vehi. Tech., vol. 65, no. 5, pp. 3765 - 3771, June. 2016.

                [6] X. Dai, Z. Zhang, K. Long, S. Sun, and Y. Wang, “Unequal error correcting capability aware  iterative receiver for (parallel) turbo coded communications,” IEEE Trans. Vehi. Tech., vol. 63, no. 7, pp. 3446-3451, Sep. 2015.

                [7]  X. Dai, H. Zhang, and Y. Wang, “New sequence design criteria for multipath channels,”IEEE Trans. Vehi. Tech., vol. 58, no. 8, pp. 4149-4158, Oct. 2009.

                [8]  X. Dai, R. Zou, S. Sun, and Y. Wang, “Reducing complexity of quasi-ML detectors through simplified branch metric and accumulated branch metric based detection,” IEEE Communi. Lett. vol.17, no. 5, pp. 916-919, May 2013.

                [9] X. Dai, “Enhancing the performance of the SIC-MMSE iterative receiver for coded MIMO  systems via companding,” IEEE Communi. Lett. vol. 16, no. 6, pp. 921-924, June. 2012.

                [10] X. Dai, R. Zou, S. Sun, and Y. Wang, “Transceiver impairments on the performance of the LMMSE-PIC iterative receiver and its mitigation,” IEEE Communi. Lett. vol. 17, no. 8, pp. 1536-1539, 2013.

                [11] X. Dai, S. Sun, and Y. Wang, “Reduced-complexity (quasi-)maximum-likelihood detectors  with no performance degradation for S-QAM modulated MIMO systems,” Wire. Pers. Communi., vol. 66, no. 4, pp. 613-6273, Oct. 2012.

                [12] X. Dai “Successive interference cancellation amenable space-time codes with good  multiplexing-diversity tradeoff,” Wire. Pers. Communi., vol. 55, no. 4, pp. 645-654, 2010.

                [13] X. Dai “Successive interference cancellation amenable space-time codes with good  multiplexing-diversity tradeoff,” Wire. Pers. Communi., vol. 55, no. 4, pp. 645-654, 2010.

                [14] X. Dai, S. Sun, and Y. Wang, “Reduced-complexity performance-lossless (quasi-) maximum -likelihood detectors for S-QAM modulated MIMO Systems,” Electronics Lett., vol. 49, no. 11, pp. 724 -725, May 2013

                [15]  X. Dai, Shanzhi Chen, Shaohui Sun, et. al “Successive interference cancelation amenable multiple access (SAMA) for future wireless communications,” (invited paper) in Proc. IEEE ICCS, pp. 222-226, Nov. 12-15, 2014.

                [16] http://www.itu.int/dms_pub/itu-r/opb/rep/R-REP-M.2320-2014-MSW-E.docx

                [17] X. Dai, S. Sun, and Y. Wang, “Successive interference cancellation amiable space-time  codes with good multiplexing-diversity tradeoff,” (invited paper) IEEE APCC 2009, pp. 237-240, Oct. 15-18, 2009.

                [18]  http://sdc.sejong.ac.kr/Courses/Board/Data/201121_w_comm/Low%20Complexity%20Maximum-Likelihood%20Based%20QRD-M%20for%20MIMO%20Systems%20with%20S-QAM%20or%20APSK_(upload).pdf

                [19] 3GPP, R1-162226, “Receiver Details and Link Performance for MUSA , ZTE Microelectronics,”

                [20] 3GPP, R1-162226,Performance analysis on the effect of spreading signature matrix in 5G NR multiple access schemes, Spreadtrum Communications,

                http://www.3gpp.org/ftp/TSG_RAN/WG1_RL1/TSGR1_86/Docs/R1-167002.zip

                [21]3GPP, R1-162226, Discussion on multiple access for new radio interface, ZTE 

                  http://www.3gpp.org/ftp/tsg_ran/WG1_RL1/TSGR1_84b/Docs/R1-162226.zip

                [22] 3GPP, R1-1608755, LLS results of PDMA with realistic channel estimation, CATT

                http://www.3gpp.Org/ftp/tsg_ran/WG1_RL1/TSGR1_86b/Docs/R1-1608755.zip

                [23] 3GPP, R1-164247, Performance of LLS of PDMA, CATT

                http://www.3gpp.org/ftp/tsg_ran/WG1_RL1/TSGR1_86b/Docs/R1-1608756.zip

                [24] 3GPP, R1-164247, Performance of LLS of PDMA, CATT

                http://www.3gpp.org/ftp/tsg_ran/WG1_RL1/TSGR1_85/Docs/R1-164247.zip

                [25]  Xiaohui Sun, Dandan Zhang, X. Dai, “Performance Analysis of Full-Duplex Based Two-Way  Relaying” China Communi.,vol.13, no.11, pp.35-48, Dec.2016(*corresponding author)

                [26]  Zhuang, Jintao Li, Weibiao Geng, X. Dai, “Duplexer design for full-duplex based wireless communications,” China Communi.,vol.13, no.11, pp.1-13, Dec.2016 (*corresponding author)

                [27]   Zhenyu Zhang, Juan Wu , Xinli Ma, Yuanyuan Dong , Yingmin Wang, Shanzhi Chen, X. Dai; “Reviews of Recent Progress on Low-Complexity Linear Detection Via Iterative Algorithms for Massive MIMO Systems”  2016 IEEE/CIC International Conference on Communications in China(ICCC Workshops) pp.1-6, Jul.27-29,2016 (*corresponding author)

                [28]Xinyu Gao, Linglong Dai, Yuan Zhang, Tian Xie, X. Dai, and Zhaocheng Wang; “Fast Channel Tracking for Terahertz Beamspace Massive MIMO Systems” IEEE Trans. Vehi. Tech. vol. pp, no.99, pp.1-10, Oct.2016

                [29] Tian Xie; Linglong Dai, Xinyu Gao, X. Dai, Youping Zhao “Low-Complexity SSOR-Based Precoding for Massive MIMO Systems,IEEE Communi. Lett., vol. 20, no. 4, pp. 744-747, 2016.

                [30] Bin Zhong, Jiajia Zhang, Qian Zeng, X. Dai, “Coverage Probability Analysis for Full-Duplex Relay Aided Device-to-Device Communications Networks,” China Communi.,vol.13,no.11 pp.60-67,Dec.2016 (*corresponding author)

                Bin Ren, Yingmin Wang, X. Dai, Kai Niu, Wanwei Tang, “Pattern matrix design of PDMA for 5G UL applications,” China Communi.,vol.13, no.2, pp.1-13, Feb.2016

                [31] Bin Ren, Yingmin Wang, X. Dai, Kai Niu, Wanwei Tang, “Pattern matrix design of PDMA for 5G UL applications,” China Communi.,vol.13, no.2, pp.1-13, Feb.2016

                 [32] X. Dai, S. Sun, and Y. Wang, “Shedding new light on sequence design criteria for multipath channels,” in Proc. ICC, 2009, Dresden, Germany, pp. 1-6.

                [33]  X. Dai, “Low-complexity maximum-likelihood-based QRD-M for MIMO systems with  S-QAM or APSK,” IEEE ICC 2010, Cape Town, South Africa, pp.1-6.

                [34] Jin Xu, X. Dai, and Weiguo Ma, “A component-level soft interference cancellation based  iterative detection algorithm for coded MIMO systems,” in Proc. IEEE VTC2014 Fall, pp. 14-17, Sep 12-15, 2014

                [35] X. Dai,S. Sun, and Y. Wang, “Two high-rate space-time codes for three and four transmit antennas with good diversity-multiplexing tradeoffs,” ICST CHINACOM 2010, pp.1-6, Sep. 12-14, 2010.

                [36] Bin Ren, Xinwei Yue, Wanwei Tang, Yingmin Wang, Shaoli Kang, X. Dai, “Advanced IDD receiver for PDMA uplink system  2016 IEEE/CIC International Conference on Communications in China (ICCC Workshops) pp.1-6, Jul.27-29,2016

                [37] henyu Zhang, Yuanyuan Dong, Zhongshan Zhang, Xiyuan Wang, Xiaoming Dai, Linglong Dai and Haijun Zhang, "Low-Complexity MMSE Signal Detection Based on the AOR Iterative Algorithm for Uplink Massive MIMO Systems," 2017 EAI 5GWN, Beijing, 2017.

                [38] Zhenyu Zhang, Xiaoming Dai, Yuanyuan Dong, Xiyuan Wang and Tong Liu, "A Low-Complexity Signal Detection Utilizing AOR Iterative Method for Massive MIMO Systems," China Communication, 2017

                [39]  B. Ren et al., "Link Performance Estimation Technique for PDMA Uplink System," in IEEE Access, vol. 5, pp. 15571-15581, 2017.

                [40] B. Ren, Y. Wang, S. Sun, Y. Zhang, X. Dai and K. Niu, "Low-complexity MMSE-IRC algorithm for uplink massive MIMO systems," in Electronics Letters, vol. 53, no. 14, pp. 972-974, 7 6 2017

              • 科研业绩

                 

                华为技术有限公司 “5G通信关键技术研究负责人 

                中兴通讯股份有限公司面向5G的基于稀疏编码矩阵的非正交多址研究负责人      

                电信科学技术研究院   “新型多址接入关键技术研究”

                北京小米移动软件有限公司 “面向5G的关键技术研究”

                国家自然科学基金重点项目 时空一致性的无线接入架构与关键技术研究项目编号61431001yobet体育官网, 主要负责全双工干扰删除关键技术研究。

                       国家863计划重点项目“5G新型调制编码技术研究开发”。

                中国移动研究院项目关于5G总体设计yobet体育官网yobet体育官网、关键技术研究及标准化-新型多址技术评估与方案设计负责人

                展讯通信项目第五代通信中新型多址方案设计负责人        

                是德科技(Keysight,原安捷伦仪器)全球大学研究项目第五代非正交多址接入方案研究负责人

                中央高?;究蒲幸滴裣钅?ldquo;下一代移动通信系统(5G) 超密集组网关键技术研究”负责人

                 

              • 获得奖励/专利

                [1] 戴晓明 数据处理方法、无线通信发送装置和无线通信接收装置”专利号:CN200410095544.7 

                [2] 戴晓明“一种基于信道估计的速度测量方法及装置”申请号:CN201210359122.0

                [3] 戴晓明 “一种多输入多输出数据检测方法及装置” 申请号:CN201210361158.2

                 [4] 戴晓明 RI确定方法和设备” 申请号:CN201110316341.6

                 [5] 戴晓明 Code evaluating device, code evaluating method, wireless communication system, base station and mobile station 专利号EP1998460A4

                [6] 戴晓明张艳徐红艳周海军 “一种传输yobet体育官网、接收CDMA扩频符的方法及装置” 申请号:CN201210018894.8 申请日期:2012-01-20 公开号:CN103220237A 公开日: 2013-07-24 

                [7] 戴晓明黄琛唐胜志 “一种信号检测的方法及装置” 申请号:CN201110067978.6 申请日期:2011-03-21 公开号:CN102148779A 公开日:2011-08-10

                [8] 戴晓明谭凤鸣康绍莉周海军 “一种应用于CDMA系统的扩频通信方法及装置” 申请号:CN201210019195.5 申请日期:2012-01-20 公开号:CN103220013A 公开日:2013-07-24 

                      [9] 戴晓明黄琛唐胜志 “一种信道估计方法及装置” 申请号:CN201110405340.9 申请日期:2011-12-08 公开号: CN103166877A 公开日:2013-06-19

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