杨懋
时间:2024-04-06 01:39 来源: 作者: 点击:次
个人经历 personal experience 工作经历 教育经历 2016.06--今 西北工业大学电子信息学院 副教授(破格) 2014.07--2016.05 西北工业大学电子信息学院 讲师 2009.04--2010.08 华为技术有限公司 软件工程师 2010.08--2014.07 清华大学-电子工程系 信息与通信工程 工学博士 2006.08--2009.03 西安电子科技大学-通信工程学院 信息与通信工程 工学硕士 2002.08--2006.07 西安电子科技大学-通信工程学院 通信工程 工学学士 教育教学教育教学 Education and teaching 教育教学 招生信息 本科:《移动互联网》(双语) 春&秋研究生:《下一代无线网络与仿真》(The Next Generation Wireless Networks and Simulations) 秋 硕博士:- 课题组每年招收推免、考研(博)学生若干,名额充裕。- 课题组为每一位全日制统招统分的博硕士研究生提供具有竞争力的奖学金资助。为研究生安排具有行业前沿性质的科研方向或任务,保障学生充分的锻炼机会和毕业竞争力。鼓励研究生伴随科研任务从事学术研究,并撰写高水平学术论文。鼓励优秀的硕士生提前攻博。- 课题组毕业生就业去向具有明显竞争力,主要就职于国内通信和互联网领域龙头企业、国内著名研究所、国外著名学府深造等。本科:- 团队每年招收本科毕设学生若干,名额充裕。- 课题组为本科生进行行业前沿方向的解读和培训,并安排具有行业前沿性质的探索与锻炼任务,保障学生充分的锻炼机会和深造、就业竞争力。课题组鼓励本科生伴随前沿方向探索从事学术研究,并撰写高水平学术论文。鼓励优秀的本科生攻读博士、硕士研究生。课题组研究方向前沿、科研课题充裕、研究基础扎实、团队氛围融洽,欢迎加入! 荣誉获奖社会兼职 Social Appointments 协会会员IEEE 802.11标准委员会投票会员(Voting Member)IEEE会员IEEE通信学会(IEEE ComSoc)、车辆技术学会、云计算学会、软件定义网络(SDN)学会会员中国电子学会会员清华大学校友总会理事曾任清华大学研究生德育工作助理(2011-2014) 举办国际会议担任国际学术会议ChinaCom 2017、IoTaaS 2018、IoTaaS 2019、IoTaaS 2020组委会核心成员(TPC co-chair,web-chair等)担任International Workshop on the Space-based Internet of things大会共同主席(General Co-chair)担任International Workshop on Satellite Communications and Spatial Information Network (SC&SIN 2020)大会共同主席(General Co-chair)IEEE WCNC、ICC等旗舰会议TPC member审稿专家IEEE transactions on Vehicular TechnologyIEEE internet of Things JournalIEEE Communications Magazine IEEE Wireless CommunicationsJournal of Network and Computer ApplicationsIEEE Systems JournalMobile Networks & ApplicationsJournal of Communication and Networks 科学研究荣誉获奖 Awards Information 2017年 吴亚军优秀青年教师2014年 北京市优秀毕业生2014年 清华大学启航奖-金奖2013年 清华大学一二九优秀辅导员2012年 第八届中国研究生电子设计竞赛,全国二等奖,华北区一等奖2011-2012年 清华大学优秀研究生德育工作助理2011-2012年 清华大学优秀研究生共产党员2011年 Digilent电子设计大赛,中国区一等奖,全球第三名(决赛慕尼黑举行)2009年 华为西安研究所2009年优秀新员工2009年 华为西研所中射频与基站平台部优秀新员工 学术成果科学研究 Scientific Research 研究方向:下一代无线局域网及短距组网关键技术IEEE 802.11标准化未来移动和无线网络(5G和下一代WiFi)非正交多址接入技术(Non - Orthogonal Multiple Access)软件定义无线网络(Software Defined Wireless Network, SDWN)无线网络虚拟化(Wireless Network Virtualization, WNV) 主持/参与下述课题:国家自然科学基金-面上项目“非授权频段中基于小区间多关联协作的MU-MAC技术研究”(2019-2022,主持) 国家自然科学基金-青年项目“下一代WLAN中基于空间聚集群组的OFDMA接入技术研究”(2016-2018,主持) 中央高校基本科研业务费自由探索类项目“面向高密集场景的下一代WLAN上行多址接入技术研究”(主持)中央高校基本科研业务费自由探索类项目“面向5G稀疏码多址(SCMA)的跨域匹配资源优化技术”(主持)华为公司长期战略合作研究项目“下一代WiFi标准MAC关键技术研究”(2014-2023,核心参与) 华为公司其他合作研究项目:主持 2项,核心参与若干航空科学基金项目:主持 1项其他合作研究项目:若干(主持和核心参与)国家级项目“基于稀疏编码的5G新型多址技术研发与典型场景下的验证” (核心参与)国家级项目“第五代移动通信(5G)系统前期研究开发(二期)” 课题“毫米波超大容量室内无线接入技术研究与验证”(核心参与)国家级项目“第五代移动通信(5G)系统前期研究开发(一期)” 课题“ 5G移动通信技术评估与测试验证技术研究 ”(核心参与) 国家级项目“下一代WLAN关键技术研究、标准化与原型系统”(核心参与) 综合介绍学术成果 Academic Achievements 学术论文:发表或录用高水平学术论文100余篇,其中ESI高被引论文1篇,SCI/EI检索100余篇,第一作者/通信作者近100篇。目前学术论文累计被引用超过1000次。 以下列出部分论文[1]Mao Yang, Yong Li, Depeng Jin, Lieguang Zeng, Xin Wu, Athanasios V. Vasilakos. Software-Defined And Virtualized Future Mobile And Wireless Networks: A Survey[J]. Mobile Networks and Applications, 2015, 20(1): 4-18. (ESI高被引论文,引用200余次)[2]Mao Yang, Yong Li, Depeng Jin, Li Su, Shaowu Ma, Lieguang Zeng. OpenRAN: A Software-defined RAN Architecture Via Virtualization[J]. ACM SIGCOMM 2013/Computer communication review, 2013, 43(4): 549-550. (引用100余次)[3]Wensheng Lin, Bo Li, Mao Yang*, Qiao Qu, Zhongjiang Yan, Xiaoya Zuo, Bo Yang. Integrated Link-System Level Simulation Platform for the Next Generation WLAN --- IEEE 802.11ax[C]//2016 IEEE Global Communications Conference (GLOBECOM). IEEE, 2016: 1-7. (通信作者)[4]Mao Yang, Yong Li, Depeng Jin, Jian Yuan, Ilsun You, Lieguang Zeng. Opportunistic Sharing Scheme for Spectrum Allocation in Wireless Virtualization[J]. Soft Computing, 2014, 18(9): 1685-1696. [5]Mao Yang, Yong Li, Long Hu, Bo Li, Depeng Jin, Sheng Chen, Zhongjiang Yan. Cross-Layer Software-Defined 5G Network [J]. Mobile Networks and Applications, 2015, 20(3): 400-409. )[6]Mao Yang, Yong Li, Bo Li, Depeng Jin, Sheng Chen. Service Oriented 5G Network Architecture: An End-to-End Software Defining Approach[J]. International Journal of Communication Systems, 2016. [7]Mao Yang, Yong Li, Depeng Jin, Li Su, Lieguang Zeng. Opportunistic spectrum sharing in software defined wireless network[J]. Journal of Systems Engineering and Electronics, 2014, 25(6): 934-941.[8]Mao Yang, Yong Li, Jiaqiang Liu, Depeng Jin, Jian Yuan, Lieguang Zeng. Opportunistic Spectrum Sharing for Wireless Virtualization[C]//Wireless Communications and Networking Conference (WCNC 2014), 2014 IEEE, 1814-1819. [9]Mao Yang, Xu Yang, Yong Li, Depeng Jin, Li Su, Lieguang Zeng. Virtualization based software-defined radio access network architecture. Journal of Tsinghua University, 2014, 54(4): 443-448. [10]Mao Yang, Yong Li, Depeng Jin, Li Su, Lieguang Zeng. Karnaugh-map like online embedding algorithm of wireless virtualization[C]//Wireless Personal Multimedia Communications (WPMC), 2012 15th International Symposium on. IEEE, 2012: 594-598.[11]Mao Yang, Zhongjin Liu, Yong Li, Lieguang Zeng, Depeng Jin, Li Su. Control plane of a programmable hardware-based virtual router[J]. Journal of Tsinghua University, 2012, 52(5): 586-591. [12]Mao Yang, Yong Li, Depeng Jin, Jian Yuan, Li Su, Lieguang Zeng. Opportunistic Spectrum Sharing Based Resource Allocation for Wireless Virtualization[C]//Innovative Mobile and Internet Services in Ubiquitous Computing (IMIS), 2013 Seventh International Conference on. IEEE, 2013: 51-58. [13]Mao Yang, Yong Li, Lieguang Zeng, Depeng Jin, Li Su. Parallel selection algorithm for multiple applications in Network Virtualization[C]//Ubiquitous and Future Networks (ICUFN), 2011 Third International Conference on. IEEE, 2011: 321-326.[14]Mao Yang, Yong Li, Depeng Jin, Li Su, Lieguang Zeng. Virtualization Based Future Wireless Network Architecture. ACM CFI 2013. [15]Mao Yang, Yong Li, Lieguang Zeng, Depeng Jin, Li Su. An Isolated Wireless Network Virtualization Environment for 802.11 (Demo) [C]//Demo of the 17th annual international conference on Mobile computing and networking (Mobicom 2011). ACM, 2011[16]Zhongjin Liu, Mao Yang, Ye Zhou, Yong Li, Depeng Jin, Li Su, and Lieguang Zeng. Isorouter: A Complete Isolated, Virtualized Router with Programmable Hardware (poster) [C]//Poster of IEEE INFOCOM 2011.[17]Yongping Zhang, Bo Li, Mao Yang*, Zhongjiang Yan. Capacity Analysis of Dense Wireless Networks with Joint Optimization of Reservation and Cooperation[C]// Wireless Communications and Networking Conference (WCNC 2016), 2016 IEEE: 2461-2466.(通信作者)[18]Bo Yang, Bo Li, Zhongjiang Yan, Mao Yang. A distributed Multi-channel MAC Protocol with Parallel Cooperation for the Next Generation WLAN[C]// Wireless Communications and Networking Conference (WCNC 2016), IEEE: 1-6.[19]Yusheng Liang, Bo Li, Mao Yang*, Xiaoya Zuo, Zhongjiang Yan, Qingtian Xue. Mac Protocol Framework For The 5G Mmwave Backhaul Network. //Signal Processing, Communications and Computing (ICSPCC), 2016 IEEE International Conference on. IEEE, 2016: 1-6.(通信作者)[20]Qiao Qu, Bo Li, Mao Yang*, Zhongjiang Yan, Yongping Zhang. The Neighbor Channel Sensing Capability For Wireless Networks. //Signal Processing, Communications and Computing (ICSPCC), 2016 IEEE International Conference on. IEEE, 2016: 1-6.(通信作者)[21]Yi Xie, Bo Li, Xiaoya Zuo, Mao Yang, Zhongjiang Yan, Qingtian Xue. Rate Analysis For 5G Beamforming Heterogeneous Networks//Signal Processing, Communications and Computing (ICSPCC), 2016 IEEE International Conference on. IEEE, 2016: 1-6. [22]Qingtian Xue, Bo Li, Xiaoya Zuo, Zhongjiang Yan, Mao Yang. Cell Capacity For 5G Cellular Network With Inter-Beam Interference//Signal Processing, Communications and Computing (ICSPCC), 2016 IEEE International Conference on. IEEE, 2016: 1-6.[23]Bo Yang, Bo Li, Zhongjiang Yan, Mao Yang. A channel reservation based cooperative multi-channel MAC protocol for the next generation WLAN[J]. //Signal Processing, Communications and Computing (ICSPCC), 2016 IEEE International Conference on. IEEE, 2016: 1-6.[24]Hu Zhou, Bo Li, Zhongjiang Yan, Mao Yang. A Channel Bonding Based QoS-Aware OFDMA MAC Protocol for the Next Generation WLAN[J]. Mobile Networks and Applications, 2016: 1-11.[25]Yongping Zhang, Bo Li, Mao Yang, Zhongjiang Yan. Capacity Analysis of Wireless Ad Hoc Networks with Improved Channel Reservation[C]// Wireless Communications and Networking Conference (WCNC 2015), 2015 IEEE: 1175-1180.[26]Hu Zhou, Bo Li, Mao Yang, Zhongjiang Yan. QoE-aware admission control and MAC layer parameter configuration algorithm in WLAN[C]// Wireless Communications and Networking Conference (WCNC 2015), 2015 IEEE, 1052-1057. [27]Zhongjiang Yan, Bo Li, Xiaoya Zuo, Mao Yang. A Heuristic Clique Based STDMA Scheduling Algorithm for Spatial Concurrent Transmission in mmWave Networks[C]// Wireless Communications and Networking Conference (WCNC 2015), 2015 IEEE: 1036-1041.[28]Qiao Qu, Bo Li, Mao Yang, Zhongjiang Yan. An OFDMA based Concurrent Multiuser MAC for Upcoming IEEE 802.11ax[C]// IEEE WCNC 2015 Workshop on Next Generation WiFi Technology (IEEE WCNC NGWiFi 2015): 84-89.[29]Bo Li, Qiao Qu, Zhongjiang Yan, Mao Yang. Survey on OFDMA based MAC Protocols for the Next Generation WLAN[C]// IEEE WCNC 2015 Workshop on Next Generation WiFi Technology (IEEE WCNC NGWiFi 2015): 79-83.[30]Bo Yang, Bo Li, Zhongjiang Yan, Mao Yang, Xiaoya Zuo. A Cooperative Multi-Channel Mac Protocol With M-Step Channel Reservation For The Next Generation Wlan. [31]Qiao Qu, Bo Li, Mao Yang*, Zhongjiang Yan, Xiaoya Zuo. FuPlex: A Full Duplex MAC for the Next Generation WLAN[C]//11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015. (通信作者)[32]Yongping Zhang, Bo Li, Mao Yang*, Zhongjiang Yan, Xiaoya Zuo. Joint Optimization of Carrier Sensing Threshold and Transmission Rate in Wireless Ad Hoc Networks[C]// 11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015. (通信作者)[33]Bo Yang, Bo Li, Mao Yang*, Zhongjiang Yan, Xiaoya Zuo. Mi-MMAC: MIMO-Based Multi-Channel MAC Protocol for WLAN [C]// 11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015. (通信作者)[34]Bo Yang, Bo Li, Zhongjiang Yan, Mao Yang, Xiaoya Zuo. A Reliable Channel Reservation based Multi-channel MAC Protocol with A Single Transceiver[C]// 11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015.[35]Yi Xie, Bo Li, Xiaoya Zuo, Mao Yang, Zhongjiang Yan. A 3D Geometry-based Stochastic Model for 5G Massive MIMO Channels[C]// 11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015.[36]Hu Zhou, Bo Li, Zhongjiang Yan, Xiaoya Zuo, Mao Yang. A QoE Aware Fairness Bi-level Resource Allocation Algorithm for Multiple Video Streaming in WLAN[C]// 11th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness (QSHINE 2015), 2015.[37]Hu Zhou, Bo Li, Zhongjiang Yan, Mao Yang, Qiao Qu. An OFDMA based multiple access protocol with QoS guarantee for next generation WLAN[C]//Signal Processing, Communications and Computing (ICSPCC), 2015 IEEE International Conference on. IEEE, 2015: 1-6.[38]Zhongjin Liu, Yong Li, Mao Yang, Li Su, Depeng Jin, Lieguang Zeng. Design on data plane of programmable-based virtual router[J]. Acta Electronica Sinica, 2013, 41(7): 1268-1272. [39]李帅, 杨懋, 李勇. 分布式镜像存储环境下的虚拟机快速部署算法. 计算机仿真, 2014, 31(4): 232-237.[40]杨懋, 杨鹏, 方重良.基于OMNeT++的DMR高层通信协议仿真. 移动通信, 2008: 80-83.[41]杨懋, 朱敏, 杨家玮. DMR高层协议在数字对讲机上的实现, 现代电子技术, 2008(17): 15-17.[42]杨懋, 杨家玮, 程万灵. DMR通信协议与数字对讲机基带模块设计.单片机与嵌入式系统应用, 2008(7): 23-25.[43]朱敏, 杨懋, 杨家玮. 基于C++ Builder和MapObject的无线信道场强预测. 电子科技: 2009, 22(9): 20-24.[44]李伟, 杨鹏, 杨懋. DMR终端锁相调频接收机设计. 电子科技: 2009, 22(9): 20-24.[45]Yongping Zhang, Bo Li, Mao Yang, Zhongjiang Yan, Xiaoya ZuoAn OFDMA-based joint reservation and cooperation MAC protocol for the next generation WLAN(通信作者)2017[46]Qu Qiao, Li Bo, Yang Mao, Yan ZhongjiangPower Control Based Multiuser Full-Duplex MAC Protocol for the Next Generation Wireless Networks(通信作者)2017[47]Run Zhou, Bo Li, Mao Yang, Zhongjiang Yan, Xiaoya ZuoQoS-Oriented OFDMA MAC Protocol for the Next Generation WLAN(通信作者)2017[48]Mao Yang, Bo Li, Zhicheng Bai, Xiaoya Zuo, Zhongjiang Yan, Yusheng LiangSemi-granted Sparse Code Multiple Access (SCMA) for 5G Networks2017[49]Yongping Zhang, Bo Li, Mao Yang, Zhongjiang Yan, Xiaoya Zuo, Qiao QuAJRC-MAC: An ALOHA-based Joint Reservation and Cooperation MAC for Dense Wireless Networks(通信作者)2017[50]Qu Qiao, Li Bo, Yang Mao, Yan Zhongjiang, Xiaoya ZuoMU-FuPlex: a Multiuser Full-duplex MAC Protocol for the Next Generation Wireless Networks(通信作者)2017[51]Feiyu Chen, Li Bo, Yang Mao, Yan Zhongjiang, Xiaoya ZuoFairness Oriented MAC Protocol for The Next Generation WLAN(通信作者)2017[52]Zhicheng Bai, Li Bo, Yang Mao, Yan Zhongjiang, Xiaoya Zuo, Yongping ZhangFH-SCMA: Frequency-hopping based Sparse Code Multiple Access for Next Generation Internet of Thing(通信作者)2017[53]Zhenzhen Yan, Li Bo, Yang Mao, Yan Zhongjiang, Zhicheng BaiT-SCMA: Time Domain Sparse Code Multiple Access for Narrow Band Internet of Things (NB-IoT)(通信作者)2017[54]Run Zhou, Bo Li, Mao Yang, Zhongjiang YanSVC based Multiple Access Protocol with QoS Guarantee for Next Generation WLAN(通信作者)2017[55]Yong Li, Bo Li, Mao Yang, Zhongjiang YanSpatial Clustering Group Based OFDMA Multiple Access Scheme for the Next Generation WLAN(通信作者)2017[56]Tianjiao Xie, Bo Li, Mao Yang, Zhongjiang YanMemory Compact High-Speed QC-LDPC Decoder(通信作者)2017[57]李勇,李波,杨懋,闫中江,屈桥下一代WLAN中一种空间聚集群组的OFDMA接入协议(通信作者)2018[58]周润,李波,杨懋,闫中江基于OFDMA面向QoS保障的新型多址接入协议(通信作者)2018[59]谢天娇,李波,杨懋,闫中江高速码率兼容DVB-S2的LDPC译码器的FPGA实现(通信作者)2018[60]Annan Yang, Bo Li, Mao Yang, Zhongjiang YanConcept and Analysis of Capacity Entropy for Uplink Multi-User Media Access Control for the Next-Generation WLANs(通信作者)2019[61]Mao yang, Bo Li, Zhicheng Bai,Zhongjiang YanSGMA: Semi-granted multiple access for non-orthogonal multiple access (NOMA) in 5G networking2018[62]Zhao Shen, Bo Li, Mao Yang, Zhongjiang Yan, Xiaobo Li, Yi JinResearch and Performance Evaluation of Spatial Reuse Technology for Next Generation WLAN(通信作者)2018[63]Xuewei Cai, Bo Li, Mao Yang, Zhongjiang YanFractional Backoff Algorithm for the Next Generation WLAN(通信作者)2018[64]Peng Tan, Ding Wang, Mao Yang, Zhongjiang Yan, Bo LiCRJT Channel-Reservation-Based Joint Transmission MAC Protocol for the Next Generation(通信作者)2018[65]Shaoqian Wang, Bo Li, Mao Yang, Zhongjiang YanIntrusion Detection for WiFi Network: a Deep Learning Approach(通信作者)2018[66]Yuan Yan, Bo Li, Mao Yang and Zhongjiang YanESR: Enhanced Spatial Reuse Mechanism for the Next Generation WLAN - IEEE 802.11ax(通信作者)2018[67]Xuewei Cai, Bo Li, Mao Yang, Zhongjiang YanPSR-Probability based Spatial Reuse Mechanism for the Next Generation WLAN(通信作者)2018[68]Biao Chen, Qi Yang, Bo Li, Mao Yang and Zhongjiang YanMulti-cell Cooperative Transmission for the Next Generation Millimeter-Wave WiFi Network(通信作者)2018[69]Shaoqian Wang, Bo Li, Mao Yang and Zhongjiang YanMissing Data Imputation for Machine Learning(通信作者)2018[70]Yue Li, Ping Zhao, Bo Li, Mao Yang, Zhongjiang YanFull Duplex enabled Next Generation mmWave WiFi Network(通信作者)2018[71]Annan Yang, Bo Li, Mao Yang, Zhongjiang YanSpatial Clustering Group-Based OFDMA Multiple Access Protocol with Carrier Sensing for the Next-generation WLANs(通信作者)2018[72]Yinuo Qin, Bo Li, Mao Yang, Zhongjiang YanAttack Detection for Wireless Enterprise Network - a Machine Learning Approach(通信作者)2018[73]Guanxiong Feng, Bo Li, Mao Yang, Zhongjiang YanV-CNN: Data Visualizing based Convolutional Neural Network(通信作者)2018[74]Lei Lei, Bo Li, Mao Yang, Zhongjiang YanSystem Analysis and Performance Evaluation for the Next Generation mmWave WLAN: IEEE 802.11ay(通信作者)2018[75]周润, 李波, 杨懋, 闫中江下一代WLAN多用户址接入技术仿真研究(通信作者)2019[76]Run Zhou, Bo Li, Mao Yang, Zhongjiang Yan, Annan YangDRA-OFDMA: Double Random Access Based QoS Oriented OFDMA MAC Protocol for the Next Generation WLAN(通信作者)2019[77]Qiao Qu, Bo Li, Mao Yang, Zhongjiang Yan, Annan Yang, Der-Jiunn Deng, Kwang-Cheng ChenSurvey and Performance Evaluation of the Upcoming Next Generation WLANs Standard - IEEE 802.11ax(通信作者)2019[78]Huanhuan Cai, Bo Li, Mao Yang, Zhongjiang YanArrival Prediction based Reservation MAC for the Next Generation WLAN(通信作者)2019[79]Ning Wang, Bo Li, Mao Yang, Zhongjiang Yan, Ding WangTraffic Arrival Prediction for WiFi Network: a Machine Learning Approach(通信作者)2019[80]Zhaozhe Jiang, Bo Li, Mao Yang, Zhongjiang Yan, Qi YangFailure Reasons Identification for the Next Generation WLAN: a Machine Learning Approach(通信作者)2019[81]Luoting Gan, Bo Li, Mao Yang, Zhongjiang Yan, Qi YangOFDMA based Synchronization protocol for Distributed MIMO in the Next Generation WLAN(通信作者)2019[82]Kun Zhang, Bo Li, Mao Yang, Zhongjiang Yan, Qi YangResearch And Simulation Of Physical Layer Abstraction Model For Next Generation WiFi Integrated Simulation(通信作者)2019[83]Tianjiao Xie, Bo Li, Mao Yang, Zhongjiang Yan, Zhaozhe JiangAdaptive Block ACK for Large Delay of Space-Terrestrial Integrated Network(通信作者)2019[84]Jianfei Cheng, Bo Li, Mao Yang , Zhongjiang YanTraffic Load Perception based OFDMA MAC Protocol for the Next Generation WLAN(通信作者)2019[85]Yuan Yan, Bo Li, Mao Yang, Zhongjiang YanEnvironment sensing based adaptive acknowledgement and backoff for the next generation WLAN(通信作者)2019[86]Yue Li, Ping Zhao, Bo Li, Mao Yang, Zhongjiang YanMulti-BSS Association and Cooperation Based Handoff Scheme for the Next Generation mmWave WiFi: IEEE 802.11 ay(通信作者)2019[87]Yong Li, Bo Li, Mao Yang, Zhongjiang YanA Spatial clustering group division-based OFDMA access protocol for the Next Generation WLAN(通信作者)2019[88]Yong Li, Bo Li, Mao YangUnsaturated traffic oriented spatial clustering multiusers MAC protocol for the next generation WLAN(通信作者)2019[89]Annan Yang, Bo Li, Mao Yang, Zhongjiang YanUtility maximization of capacity entropy for multi-user access for the next generation WLANs(通信作者)2019[90]李勇,李波,杨懋,闫中江一种关联多小区的空间聚集群组多址接入协议(通信作者)2019[91]杨桉楠, 李波, 杨懋, 闫中江下一代WLAN中一种基于分组的上行OFDMA随机接入方法(通信作者)2020[92]Mao Yang, Bo Li, Zhongjiang Yan, Yuan YanAP Coordination and Full-duplex Enabled Multi-band Operation for the Next Generation WLAN: IEEE 802.11Be2019[93]Mao Yang, Bo Li, Zhongjiang YanMAC Technology of IEEE 802.11ax: Progress and Tutorial2020[94]Zhaozhe Jiang, Bo Li, Mao Yang, Zhongjiang YanLC-DFSA: Low Complexity Dynamic Frame Slotted Aloha Anti-Collision Algorithm for RFID system(通信作者)2020[95]Mao Yang, Bo LiSurvey and Perspective on Extremely High Throughput (EHT) WLAN2020[96]Annan Yang, Bo Li, Mao Yang, Zhongjiang Yan, Xuewei CaiUtility Maximization of Capacity Entropy for Dense IEEE 802.11ax WLANs based on Interference characteristics(通信作者)2020[97]Annan Yang, Bo Li, Mao Yang, Zhongjiang Yan, Yi XieUtility Optimization of Grouping-based Uplink OFDMA Random Access for the Next Generation WLANs(通信作者)2020[98]闫珍珍, 李波, 杨懋, 闫中江基于遗传算法的混叠式非正交多址接入方法(通信作者)2020[99]Bo Li, Ghaleb Abdullah Abdulwahab Mohammed, Mao Yang, Zhongjiang YanThe Design Methodology for MAC Strategies and Protocols Supporting Ultra-low Delay Services in Next Generation IEEE 802.11 WLAN(通信作者)2020[100]Jianfei Cheng, Bo Li, Mao Yang , Zhongjiang YanSoft Channel Reservation towards Latency Guarantee for the Next Generation WLAN: IEEE 802.11be(通信作者)2020[101]Peilin Liu, Mao Yang, Zhongjiang Yan, Bo LiCell Cooperation Based Channel Access Mechanism for LAA and WiFi Coexistence(通信作者)2020[102]Duoduo Hang, Mao Yang, Zhongjiang Yan, and Bo LiPower Control based Spatial Reuse for LAA and WiFi Coexistence(通信作者)2020[103]Huanhuan Cai, Bo Li, Mao Yang , and Zhongjiang YanCoordinated TDMA MAC Scheme Design and Performance Evaluation for the Next Generation WLAN: IEEE 802.11be(通信作者)2020[104]Luoting Gan, Bo Li, Mao Yang, Zhongjiang YanLow-latency Guarantee Protocol Based on Multi-links Scheduling Random Access in the Next Generation WLAN: IEEE 802.11be(通信作者)2020[105]Zhaozhe Jiang, Bo Li, Mao Yang, Zhongjiang Yan Latency Oriented OFDMA Random Access Scheme for the Next Generation WLAN: IEEE 802.11be(通信作者)2020[106]Zhiyong DING, Jianying LI, Mao YANG, Zhongjiang YAN, Bo LI, Wenhui CHENA Multi-channel Anti-collision Algorithm in Multi-reader RFID Networks(通信作者)2020[107]Ning Wang, Bo Li, Mao Yang, and Zhongjiang YanA Dynamic Priority Adjustment Scheme for the Next Generation WLAN Supporting Delay Sensitive Services(通信作者)2020[108]Zhaotun Feng, Yong Fang, Mao Yang, Zhongjiang Yan, Bo LiDynamic Time Slot Adjustment based Beamform Training for the Next Generation Millimeter Wave WLAN(通信作者)2020[109]Linlong Guo, Yong Fang, Mao Yang, Zhongjiang Yan, Bo LiGrouping based Beamform Training Scheme for the Next Generation Millimeter Wave WLAN(通信作者)2020[110]Qingyuan Miao, Yong Fang, Mao Yang, Zhongjiang Yan, Bo LiNOMA-based RFID Tag identification method(通信作者)2020 国际/国家发明专利授权/申请国际以及国家发明专利70余项,多数专利用于IEEE802.11标准推动,其中第一发明人近50项,以下仅列出部分方便公开专利:[1] 杨懋,左晓亚,雷蕾,白志城,闫中江,李波. 一种面向窄带物联网的时频二维稀疏码多址接入方法. 中国发明专利, 专利号: 201710129644.4, 授权日期: 2020.02.14, 申请日期: 2017.03.07. (已授权)[2] 杨懋,李波,姬励,闫中江. 一种基于多BSS关联的接入与传输方法. 中国发明专利, 专利号: 201610957479.7, 授权日期: 2019.11.03, 申请日期: 2016.11.03. (已授权)[3] 杨懋,刘中金,李勇,苏厉,金德鹏,曾烈光. 虚拟路由装置的控制平面结构及其控制方法. 中国发明专利, 专利号: 201110185315.4, 授权日期: 2013.07.10, 申请日期: 2011.07.04. (已授权)[4] 杨懋,刘中金,李勇,苏厉,金德鹏,曾烈光. 虚拟路由装置及其路由方法. 中国发明专利, 申请号: 201110185312.0, 申请日期:2011.07.04, 公开日期:2011.11.02,公开号: CN102231708A.[5] 杨懋,李勇,苏厉,金德鹏,曾烈光.一种基于机会共享的虚拟无线网络频谱资源分配方法. 中国发明专利, 申请号: 201410073830.7, 申请日期:2014.02.28.[6] 杨懋,李勇,苏厉,金德鹏,曾烈光. 一种基于定价的无线虚拟化资源调度方法. 中国发明专利, 申请号: 201410073792.5, 申请日期:2014.02.28.[7] 刘中金,杨懋,李勇,苏厉,金德鹏,曾烈光. 虚拟路由系统及方法. 中国发明专利, 申请号: 201110247229.1, 申请日期:2011.08.25, 公开日期:2013.03.06, 公开号: CN102957619A.[8] 刘中金,李勇,杨懋,苏厉,金德鹏,曾烈光. 一种基于比特粒度可编程的路由器及路由方法. 中国发明专利, 申请号: 201210324804.8[9] 丁婧, 杨家玮, 杨懋等. DMR物理层四电平调制解调器. 中国发明专利, 申请号: 20091002174.3IEEE 802.11标准提案:Multi-BSS Association for Edge Users Throughput Improvements. 2016.Fractional-Backoff Procedure and Dynamic CCA. 2016.Channel State Estimation based Bidirectional Initialized Random Access. 2016.IETF协议草案:[1] Layer 3 Cross-site VM Live Migration Scheme[2] ForCES inter-FE Consistent Control Scheme[3] Common Joint Control of Middleboxes and Forwarding Elements[4] Consistent Control Mechanism in Software Defined Network |