南京理工大学教师信息

关闭

1. 指导学科
2. 工作经历
3. 发表论文
4. 科研创新

硕士报考志愿采集更新日期：2023年10月29日

姓名	汪茂*	性别	男
出生年月	1962年5月	籍贯	浙江杭州市
民族	汉族	政治面貌	群众
最后学历	博士研究生毕业	最后学位	工学博士
技术职称	教授	导师类别	博士生导师
导师类型	外聘	兼职导师	是
行政职务		Email	wangmao@njust.edu.cn
工作单位	南京理工大学	邮政编码
通讯地址
单位电话
个人主页

指导学科

学科专业(主)	0810\|信息与通信工程	招生类别	博士	所在学院	电子工程与光电技术学院
研究方向

工作经历

汪茂 (Michael MaoWang)，毕业于东南大学无线电工程系 (1984年本科，1987年研究生)。1991年于美国肯塔基大学生物医学工程系/Wenner-Gren宇航实验室获生物医学工程(Biomedical Engineering)硕士学位，1995年于肯塔基大学电气与计算机工程系获电子与计算机(Electrical and Computer Engineering)博士学位。1995年加入美国摩托罗拉现代无线技术研究中心(Motorola Advanced Radio Technology, Arlington Heights，Illinois)任高级研究员，2003年至2015年，在美国高通研究中心(Qualcomm Research，San Diego，California)任高级主管研究员。2016年，加入东南大学信息科学与工程学院，移动通信国家重点实验室。汪茂教授在IEEE Transactions/Magazine等国际通信领域期刊发表论文五十余篇，迄今共拥有九十多项美国专利。加入东南大学信息科学与技术学院faculty后，汪茂教授致力于现代通信系统的教育与科研。主要研究方向是现代无线网络与移动通信理论与技术 (Wireless Networking and Mobile Communications)，目前具体内容有：宽带无线传输理论与多址接入技术 (wireless multiple access on the licensed and unlicensed spectrum)；地面及卫星通信(terrestrial and satellite communications); 4G LTE及5G移动通信 (4G LTE and 5G mobile communications)；物联网无线网络(machine-type communication for IoT)，包括车辆物联网(vehicular IoT)、海事物联网(maritime IoT)、能源物联网(energy IoT)；多输入多输出技术(MIMO networks); 无线通信网络仿真系统(wireless network simulations)。

发表论文

学术专著：

Michael Mao Wang and Jingjing Zhang, Machine-Type Communications for Maritime Internet of Things. New York: Springer, 2021.

IEEE Journals：

[1] Jingjing Zhang, Michael Mao Wang, Xiaohu You, Maritime autonomous surface shipping from a machine-type communication perspective, IEEE Communications Magazine, vol. 61, no. 10, pp. 184-190, October 2023.

[2] Michael Mao Wang, Jingjing Zhang, Xiaohu You, “Proximity-Based Maritime Internet of Things: A Service-Centric Design”, IEEE Access, vol. 11, pp. 101205-101240, 2023.

[3] Michael Mao Wang, Jingjing Zhang, Xiaohu You, “Ultra-low energy Internet of Things from a network and device perspective,” IEEE Communications Magazine, vol. 60, no. 12, pp. 50-55, Dec. 2022.

[4] Fenghui Zhang, Michael Mao Wang; Ruilong Deng; Xiaohu You, “QoS optimization for mobile ad hoc cloud: A multi-agent independent learning approach,” IEEE Transactions on Vehicular Communications, vol. 71, no. 1, pp. 1077-1082, Jan. 2022.

[5] Fenghui Zhang, Michael Mao Wang, “Centralized resource allocation and distributed power control for NOMA-integrated NR V2X,” IEEE Internet of Things Journal, vol. 8, no. 22, pp. 16522-16534, 15 Nov.15, 2021.

[6] Fenghui Zhang, Michael Mao Wang, “Stochastic congestion game for load balancing in mobile-edge computing,” IEEE Internet of Things Journal, vol. 8, no. 2, 2021.

[7] Fenghui Zhang, Michael Mao Wang, Ruilong Deng, “On reliability bound and improvement of sensing-based semi-persistent scheduling in LTE-V2X,” IEEE Internet of Things Journal, Vol. 8, No. 7, April 1, 2021.

[8] Fenghui Zhang, R. Deng, X. Zhao, and Michael Mao Wang, “Load balancing for distributed intelligent edge computing: A state-based game approach,” IEEE Transactions on Cognitive Communications and Networking, 10.1109/TCCN.2021.3087178.

[9] Xiaohu You, Cheng-Xiang Wang, Jie Huang, Xiqi Gao, Zaichen Zhang, Mao Wang, “Towards 6G wireless communication networks: vision, enabling technologies, and new paradigm shifts,” Science China Information Sciences, volume 64, Article number: 110301 (2021).

[10] Michael Mao Wang, Jingjing Zhang, and Xiaohu You, “Machine-type communication for maritime Internet of Things: A design,” IEEE Communications: Surveys and Tutorials, vol. 22, no. 4, pp 2550 – 2585, 2020.

[11] Jingjing Zhang, Michael Mao Wang, Tingting Xia, and Lei Wang, “Maritime IoT: An architectural and radio spectrum perspective,” IEEE Access, vol. 8, pp. 93109 - 93122, 2020.

[12] Tingting Xia, Michael Mao Wang, Jingjing Zhang, and Lei Wang, “Maritime Internet of Things: Challenges and solutions, ” IEEE Wireless Communications, vol. 27, no. 2, pp. 188-196, April 2020.

[13] Tingting Xia, Michael Mao Wang, Chengling Jiang, Lei Wang, and Xiaohu You, “Practical machine-type communication for energy Internet of Things,” IEEE Communications Standards Magazine, vol. 13, no. 1, pp 48-59, March 2019.

[14] Tingting Xia, Michael Mao Wang, and Xiaohu You, “Satellite machine-type communication for maritime Internet of Things: An interference perspective, ” IEEE Access, vol. 7, pp 76404-76415, 2019.

[15] Jingjing Zhang, Michael Mao Wang, and Tingting Xia, “Practical synchronization waveform for massive machine-type communications, IEEE Transactions on Communications, vol. 67, no. 2, pp. 1467-1479, February 2019.

[16] Jingjing Zhang, Mao Wang, Min Hua, Tingting Xia, Wenjie Yang, and Xiaohu You, “LTE on the license-exempt spectrum,” IEEE Communications: Surveys and Tutorials, vol. 20, no. 1, pp. 647-673, 2018.

[17] Jingjing Zhang, Mao Wang, Min Hua, Wenjie Yang, and Xiaohu You, “Robust synchronization waveform design for massive Internet of Things,” IEEE Transactions on Wireless Communications, vol. 16, no.11, pp. 7551-7559, November 2017.

[18] Wenjie Yang, Min Hua, Jingjing Zhang, Tingting Xia, Jun Zou, Chengling Jiang, Mao Wang, “Enhanced system acquisition for NB-IoT,” IEEE Access, vol.5, pp.13179-13191, 2017.

[19] Wenjie Yang, Mao Wang, Jingjing Zhang, Jun Zou, Min Hua, Tingting Xia, Xiaohu You, “Narrowband wireless access for low-power massive Internet of Things: A bandwidth perspective,” IEEE Wireless Communications, vol.24, no.3, pp138-145, June 2017.

[20] Mao Wang, Jingjing Zhang, Bingying Ren, Wenjie Yang, Jun Zou, Min Hua, Xiaohu You, “The evolution of LTE physical layer control channels,” IEEE Communications Surveys and Tutorials, vol. 18, no. 2, pp. 1336-1354, 2016.

[21] Bingying Ren, Mao Wang, Jingjing Zhang, Wenjie Yang, Jun Zou, Min Hua, Xiaohu You, “Cellular communications on license-exempt spectrum,” IEEE Communications Magazine, vol. 54, no. 5, pp. 146-153, May 2016.

[22] Mao Wang, Wenjie Yang, Jun Zou, Bingying Ren, Min Hua, Jingjing Zhang, Xiaohu You, “Cellular machine-type communications: Physical challenges and solutions,” IEEE Wireless Communications, vol. 23, no. 2, pp. 108-117, April 2016.

[23] Kingsley Jun Zou, Kristo Wenjie Yang, Mao Wang, Bingyin Ren, Jason Jinsong Hu, Jingjing Zhang, Min Hua, Xiaohu You, “Network synchronization for dense small cell networks,” IEEE Wireless Communications, vol. 22, No. 2, pp.108-117, April 2015.

[24] Min Hua, Mao Wang, Kristo Wenjie Yang, Kingsley Jun Zou, “Analysis of the frequency offset effect on Zadoff-Chu sequence timing performance”, IEEE Transactions on Communications, vol. 62, no. 11, pp. 4024-4039, November 2014.

[25] Kristo Wenjie Yang, Mao Wang, Kingsley Jun Zou, Min Hua, Jason Jinsong Hu, Jingjing Zhang, Weixing Sheng, Xiaohu You, “Device discovery for multi-hop cellular networks with its application in LTE,” IEEE Wireless Communications, vol. 21, no. 5, pp. 24-34, October 2014.

[26] Chunliang Yang, Jianxin Wang, Mao Wang, Kingsley Jun Zou, Kristo Wenjie Yang, Min Hua, “Over-the-air signaling in cellular communication systems,” IEEE Wireless Communications, vol. 21, no. 4, pp. 120-129, August 2014.

[27] Kinsley Jun Zou, Mao Wang, Kristo Wenjie Yang, Jingjing Zhang, Weixin Sheng, Qian Chen, Xiaohu You, “Proximity discovery for device-to-device communications over a cellular network,” IEEE Communications Magazine, vol. 52, no. 6, pp. 98-107, June 2014.

[28] Chunliang Yang, Mao Wang, Jianxin Wang, Feng Shu, Xiaohu You, “Single-tone signaling design for inter-cell interference management with applications to femtocell networks,” IEEE Transactions on Vehicular Technology, vol. 63, no. 3, pp. 1242-1255, March 2014.

[29] Min Hua, Mao Wang, Kristo Wenjie Yang, Xiaohu You, Feng Shu, Jianxin Wang, Weixing Sheng, Qian Chen, “Analysis of the frequency offset effect on random access signals,” IEEE Transactions on Communications, vol. 61, no. 11, pp. 4728-4740, November 2013.

[30] Kingsley Jun Zou, Mao Wang, Jingjing Zhang, Feng Shu, Jianxin Wang, Yuwen Qian, Weixing Sheng, QianChen, “Discovery signal design and its application to peer-to-peer communications in OFDMA cellular networks,” IEEE Transactions on Wireless Communications, vol. 12, no. 8, pp. 3995-4009, August 2013.

[31] Chengling Jiang, Michael Mao Wang, Chunliang Yang, Feng Shu, Jianxin Wang, Weixing Sheng, Qian Chen, “Multi-user MIMO with limited feedback using alternating codebooks,” IEEE Transactions on Communications, vol. 60, no. 2, pp. 333-338, February 2012.

[32] Chengling Jiang, Michael Mao Wang, Feng Shu, Jianxin Wang, Weixing Sheng, Qian Chen, “MIMO precoding using rotating codebooks,” IEEE Transactions on Vehicular Technology, 2011, vol. 60, no. 3, pp. 1222-1227, March 2011.

[33] Shu Feng, Michael Mao Wang, Wang Yaxi, Fan Haiqiang, Lu Jinhui, “An Efficient Power Allocation Scheme for Leakage-based Precoding in Multi-cell Multiuser MIMO Downlink,” IEEE Communications Letters, vol. 15, no. 10, pp. 1053-1055, October 2011.

[34] Qingchuan Zhang, Feng Shu, Mao Wang, Jintao Sun, “Relay selection schemes for precoded cooperative OFDM and their achievable diversity orders,” IEEE Signal Processing Letters, vol. 18, no. 4, pp. 231-234, April 2011.

[35] Shu Feng, Mao Wang, Liu Tingting, “Leakage-based precoding with power allocation for multicellular multiuser MIMO downlink,” IET Electronics Letters, vol. 46, no. 24, pp. 1629-1630, November 2010.

[36] Tingting Liu, Mao Wang, Yan Liang, Feng Shu, Jianxin Wang, Weixin Shen, Qian Chen, “A minimum complexity high-performance channel estimator for MIMO-OFDM communications,” IEEE Transactions on Vehicular Technology, vol. 59, no. 9, pp. 4634-4639, November 2010.

[37] Michael Mao Wang, “Dynamic gain management for on-channel repeaters,” IEEE Transactions on Broadcasting, vol. 59, no. 4, pp. 685-692, December 2013.

[38] Michael Mao Wang, Avneesh Agrawal, Aamod Khandekar, Sandeep Aedudodla, “Preamble design, system acquisition, and determination in modern OFDMA cellular Communications: An Overview,” IEEE Communications Magazine, vol. 49, no. 7, pp. 164-175, July 2011.

[39] Michael Mao Wang, Tingfang Ji, “Dynamic resource allocation for interference management in orthogonal frequency division multiple access cellular communications,” IET Communications， vol. 4, no. 6, pp. 675-682, June 2010.

[40] Michael Mao Wang, Tom Richardson, Ravi Palanki, Alex Gorokhov, “Beacon signaling and its application to inter-carrier handoff in OFDMA cellular communications,” IEEE Communications Letters, vol.13, pp.896-898, December 2009.

[41] Michael Mao Wang, Jaber Borron, Tom Richardson, Min Dong, “Interference management and handoff techniques,” IEEE Vehicular Technology Magazine, vol. 4, no. 4, pp.64-75, December 2009.

[42] Michael Mao Wang, Lei Xiao, Tyler Brown, Min Dong, “Optimal symbol timing for OFDM wireless communications,” IEEE Transactions on Wireless Communications, vol.8, pp.5328-5337, October 2009.

[43] Tyler Brown, Michael Mao Wang, “Performance analysis of orthogonal signaling over fast fading channels,” IEEE Transactions on Consumer Electronics, vol. 56, no. 4, pp. 2067-2071, November 2010.

[44] Michael Mao Wang, Tyler Brown, “Optimal blind transport format detection for UMTS uplink,” IEEE Transactions on Communications, vol. 56, no. 6, pp. 866-870, June 2008.

[45] Michael Mao Wang, Tyler Brown, Hua Xu, Phil Fleming, “Walsh code assignment and data structure for variable data rate communications,” IEEE Transactions on Communications, vol.56, no.3, pp. 339-343, March 2008.

[46] Tyler Brown, and Michael Mao Wang, “An iterative algorithm for single-frequency estimation,” IEEE Transactions on Signal Processing, vol.50, pp.2671-2682, November 2002.

[47] Michael Mao Wang, Weimin Xiao, Tyler Brown, “Soft decision metric generation for QAM with channel estimation error,” IEEE Transactions on Communications, vol. 50, pp. 1058-1061, July 2002.

[48] Fuyun Ling, Bob Love, Michael Mao Wang, Tyler Brown, Phil Fleming, Hua Xu, Behavior and performance of power controlled IS-95 reverse link under soft handoff,” IEEE Transactions on Vehicular Technology, vol. 49, pp. 1697-1704, September 2000.

[49] Michael Mao Wang, Joyce Evans, Laurence Hassebrook, Charles Knapp, A multistage, optimal active contour model,” IEEE Transactions on Image Processing, vol. 5, no. 11, pp. 1586-1591, November 1996.

[50] Mao Wang, Joyce Evans, Laurence Hassebrook, Charles Knapp, An optimized index of human cardiovascular adaptation to simulated weightlessness,” IEEE Transactions on Biomedical Engineering, vol.43, pp.502-511, May 1996.

[51] Mao Wang, Joyce Evans, Charles Knapp, Spectral patterns and frequency response characteristics in heart paced dogs,” IEEE Transactions on Biomedical Engineering, vol.42, pp.708-717, July 1995.

[52] D. K. Kevenhagen, Joyce M. Evans, Mao Wang, Charles F. Knapp, “Cardiovascular regulation in humans in response to oscillatory lower body negative pressure,” American Journal of Physiology, vol. 36, no. 2, pp. H593-H604, August 1994.

九十四项授权美国专利 (issued US patents)：

[1]Wanshi Chen, Peter Gaal, Aleksandar Damnjanovic, Michael Mao Wang, US 9985762 B2, Discovery signals and network synchronization signals design in LTE, May 29, 2018.

[2]Tao Luo, Peter Gaal, Aleksandar Damnjanovic, Hao Xu, Michael Mao Wang, US 10075266 B2, Data transmission scheme with unequal code block sizes, September 11, 2018.

[3]Wanshi Chen, Peter Gaal, Aleksandar Damnjanovic, Michael Mao Wang, US 9832629 B2, Discovery signals and network synchronization signals design in LTE , November 28, 2017.

[4]Tao Luo, Michael Mao Wang, Wanshi Chen, Peter Gaal, Yongbin Wei, Aleksandar Damnjanovic, Hao Xu, Taesang Yoo, US 9553706 B2, Channel estimate under non-uniform reference signal pattern, January 24, 2017.

[5]Michael Mao Wang, BojanV rcelj, Krishna Kiran Mukkavilli, Raghuraman Krishnamoorthi, Rajiv Vijayan, US 9356752 B2, Wide area and local Network ID transmission for communication systems, May 31, 2016.

[6]Ashok Mantravadi, Murali Ramaswamy Chari, Michael Mao Wang, Fuyun Ling, Rajiv Vijayan, Raghuraman Krishnamoorthi, US 9391751 B2, System and method for frequency diversity, December 7, 2016.

[7]Michael M. Wang, Ravi Palanki, Naga Bhushan, US 9277487 B2, Cell detection with interference cancellation, March 1, 2016.

[8]Michael Mao Wang, Murali Ramaswamy Chari, Ashok Mantravadi, Fuyun Ling, Rajiv Vijayan, Raghuraman Krishnamoorthi, US 9246728 B2, System and method for frequency diversity, January 26, 2016.

[9]Michael Mao Wang, US 9038140 B2, Preamble structure and acquisition for a wireless communication system, December 1, 2015.

[10]Michael Mao Wang, US 9204379 B2, Preamble structure and acquisition for a wireless communication system, December 1, 2015.

[11]Michael Mao Wang, US 9042212 B2, Method and apparatus for communicating network identifiers in a communication system, May 26, 2015.

[12]Alexei Gorokhov, Aamod Khandekar, Michael Mao Wang, US 9203466 B2, Acquisition pilots for wireless communication systems, December 1, 2015.

[13]Gwendolyn Denise Barriac, Dhananjay Ashok Gore, James Arthur Jr., Michael Mao Wang, Tao Tian, US 9020009 B2, Inserted pilot construction for an echo cancellation repeater, April 28, 2015.

[14]Michael Mao Wang, Fuyun Ling, Murali Ramaswamy Chari, Rajiv Vijayan, US 9003243 B2, System and method for modulation diversity, April 7, 2015.

[15]Michael Mao Wang, Bojan Vrcelj, Fuyun Ling, Rajiv Vijayan, US 8948329 B2, Apparatus and methods for timing recovery in a wireless transceiver, February 3, 2015.

[16]Michael Mao Wang, Ravi Palanki, US 8934569 B2, Highly detectable pilot structure, January 13, 2015.

[17]Michael Mao Wang, Ravi Palanki, US 8929479 B2, Highly detectable pilot structure, January 6, 2015.

[18]Michael Mao Wang, US 8929353 B2, Preamble structure and acquisition for a wireless communication system, Jan 6, 2015.

[19]Michael Mao Wang, Gwendolyn Denise Barriac, Dhananjay Ashok Gore, US 8886115 B2, Gain control metric pruning in a wireless repeater, November 11, 2014.

[20] Michael Mao Wang, Dhananjay Ashok Gore, Tadeusz Jarosinski, US 8867987 B2, Gain control metric computation in a wireless repeater, October 21, 2014.

[21]Michael Mao Wang, Naga Bhushan, Ravi Palanki, US 8848621 B2, Apparatus and method for cell-based highly detectable pilot multiplexing, September 30, 2014.

[22]Ravi Palanki, Michael Mao Wang, US 8837609 B2, Guard independent signal mapping, September 16, 2014.

[23]Michael Mao Wang, US 8780767 B2, Methods and apparatus for including mode information in a frame for system acquisition, July 15, 2014.

[24]Gordon Kent Walker, Bruce Collins, Christopher R. Wingert, Jai N. Subrahmanyam, Michael Mao Wang, US 8792865 B2, Method and apparaus for adjusting packet data content by sending null packets based on transmitter signal condition or requirement, July 29, 2014.

[25]Michael Mao Wang, Gwendolyn Denise Barriac, Dhananjay Ashok Gore, US 8774708 B2, Estimation of repeater loop delay for repeater gain control, July 8, 2014.

[26]Michael Mao Wang, Ravi Palanki, US 8711973 B2, Highly detectable pilot structure, April 29 2014.

[27]Michael Mao Wang, Gwendolyn Denise Barriac, Dhananjay Ashok Gore, Tao Tian, US 8687540 B2, Echo cancellation repeater using an inserted pilot with gain-based power level control scheme, April 1, 2014.

[28]Michael Mao Wang, Gwendolyn Denise Barriac, Dhananjay Ashok Gore, Tao Tian, US 8638835 B2, Wireless repeater implementing multi-parameter gain management, January 28, 2014.

[29]Bojan Vrcelj, Ashok Mantravadi, Fuyun Ling, Krishna Kiran Mukkavilli, Raghuraman Krishnamoorthi, Michael Mao Wang, US 8644214 B2, Timing synchronization and channel estimation at a transition between local and wide area waveforms using a designated TDM pilot, February 4, 2014.

[30]Aamod Khandekar, Alexel Gorokhov, Naga Bhushan, Michael Mao Wang, US 8630241 B2, Methods and apparatus for transmitting a frame structure in a wireless communication system, January 14, 2014.

[31]Michael Mao Wang, Dhananjay Ashok Gore, Gwendolyn Denise Barriac, US 8626060 B2, Beacon signals for repeaters within a wireless communications system, January 7, 2014.

[32] Dhananjay Ashok Gore, Gwendolyn Denise Barriac, Michael Mao Wang, US 8611227 B2, Channel estimation pruning in presence of large signal dynamics in an interference cancellation repeater, December 17, 2013.

[33]Michael Mao Wang, Dhananjay Ashok Gore, Gwendolyn Denise Barriac, US 8548375 B2, Gain control metric computation in a wireless repeater, October 1, 2013.

[34]Tadeusz Jarosinski, Chinnappa K. Ganapathy, Michael Mao Wang, US 8509859 B2, Apparatus and methods for control of sleep modes in a transceiver, August 13, 2013.

[35]Michael Mao Wang, Murali Ramaswamy Chari, Ashok Mantravadi, Fuyun Ling, Rajiv Vijayan, Raghuraman Krishnamoorthi, US20130156124 A1, System and method for frequency diversity, June 20, 2013.

[36]Michael Mao Wang, Dhananjay Ashok Gore, Gwendolyn Denise Barriac, US 8463176 B2, Stability indicator for a wireless repeater, June 11, 2013.

[37]Michael Mao Wang, Gordon Kent Walker, Gang Bao, Jun Wang, Xiaoxia Zhang, US20130235783 A1, Evolved multimedia broadcast multicast service capacity enhancements, September 12, 2013.

[38]Michael Mao Wang, Gwendolyn Denise Barriac, Dhananjay Ashok Gore, US 8452230 B2, Multi-metric gain control for wireless repeater, May 28, 2013.

[39]Michael Mao Wang, US 8442146 B2, Apparatus and methods for reducing channel estimation noise in a wireless transceiver, May 14, 2013.

[40]Michael Mao Wang, Bojan Vrcelj, Krishna Kiran Mukkavilli, Raghuraman Krishnamoorthi, Ashok Mantravadi, US 8432933 B2, Method for transmission of time division multiplexed pilot symbols to aid channel estimation, time synchronization, and AGC bootstrapping in a multicast wireless system, April 30, 2013.

[41]Dhananjay Ashok Gore, Michael Mao Wang, Gwendolyn Denise Barriac, James Arthur Proctor, Jr., US20130078907 A1, Per carrier gain control in a multi-carrier repeater, March 28, 2013.

[42]Michael Mao Wang, US 8396151 B2, Timing tracking in a multiple receive antenna system, March 12, 2013.

[43]Michael Mao Wang, US 8391410 B2, Methods and apparatus for configuring a pilot symbol in a wireless communication system, March 5, 2013.

[44]Steven J. Howard, Tadeusz Jarosinski, Dhananjay Ashok Gore, Gwendolyn Denise Barriac, Michael Mao Wang, Tao Tian, US 8380122 B2, Signal blanking for improved frequency domain channel estimation, February 19, 2013.

[45]Michael Mao Wang, US 20120263167 A1, Timing and frequency acquisition for wireless networks, October 18 2012.[46]Dhananjay Ashok Gore, Gwendolyn Denise Barriac, James Arthur Proctor, Jr., Steven J. Howard, Hakan Inanoglu, Kenneth M. Gainey, Michael Mao Wang, Tao Tian, US 8285201 B2, Wideband echo cancellation in a repeater, October 9, 2012.

[47]Michael Mao Wang, Dhananjay Ashok Gore, Gwendolyn Denise Barriac, US 8265546 B2, Gain adjustment stepping control in a wireless repeater, September 11, 2012.

[48]Michael Mao Wang, US 8223623 B2, Timing and frequency acquisition for OFDM systems, July 17, 2012.

[49]Bojan Vrcelj, Ashok Mantravadi, Fuyun Ling, Rajiv Vijayan, Michael Mao Wang, US 8175123 B2, Collection window positioning using time tracking information, May 8, 2012.

[50]Krishna Kiran Mukkavilli, Michael Mao Wang, Raghuraman Krishnamoorthi, US 8144818 B2, Apparatus and methods for determining timing in a communication system, March 27, 2012.

[51]Bojan Vrcelj, Ashok Mantravadi, Fuyun Ling, Rajiv Vijayan, Michael Mao Wang, US 8144824 B2, Trend influenced time tracking, March 27, 2012.

[52]Michael Mao Wang, US 8009551 B2, Initial pilot frequency selection, August 30, 2011.

[53]Michael Mao Wang, Ashok Mantravadi, Murali Ramaswamy Chari, US 7948907 B2, Selective network switching in a wireless broadcast network, May 24, 2011.

[54]Michael Mao Wang, Bojan Vrcelj, Krishna Kiran Mukkavilli, Raghuraman Krishnamoorthi, Rajiv Vijayan, US 7852822 B2, Wide area and local network ID transmission for communication systems, December 14, 2010.

[55]Dhananjay Ashok Gore, Tao Tian, Michael Mao Wang, James Arthur Proctor, Jr., Gwendolyn Denise Barriac, US20100284447, Frequency domain feedback channel estimation for an interference cancellation repeater including sampling of non-causal taps. November 11, 2010.

[56]Michael Mao Wang, US 7835460, Apparatus and methods for reducing channel estimation noise in a wireless transceiver, November 16, 2010.

[57]Michael Mao Wang, Bojan Vrcelj, Krishna Kiran Mukkavilli, Raghuraman Krishnamoorthi, Ashok Mantravadi, US 7813383, Method for transmission of time division multiplexed pilot symbols to aid channel estimation, time synchronization, and AGC bootstrapping in a multicast wireless system, October 12, 2010.

[58]Bojan Vrcelj, Ashok Mantravadi, Fuyun Ling, Krishna Mukkavilli, Raghuraman Krishnamoorthi, Michael Mao Wang, US 7782806 B2, Timing synchronization and channel estimation at a transition between local and wide area waveforms using a designated TDM pilot, August 24, 2010.

[59]Fuyun Ling, Murali Ramaswamy Chari, Rajiv Vijayan, Ashok Mantravadi, Alok Kumar Gupta, Krishna Kiran Mukkavilli, Michael Mao Wang, Bojan Vrcelj, Bruce Collins, US 7720027, System and method for a forward link only physical layer, May 18, 2010.

[60]Jai N Subrahmanyam, Kevin Stuart Cousineau, Michael Mao Wang, US 7693124, Slot-to-interlace and interlace-to-slot converters for an OFDM system, April 6, 2010.

[61]Michael Mao Wang, US 7706463, Method and apparatus for decoding frame packet data in a communication system, April 27, 2010.

[62]Bojan Vrcelj, Fuyun Ling, Michael Mao Wang, US 7623607 B2, Methods and apparatus for determining timing in a wireless communication system, November 24 2009.

[63]Michael Mao Wang, Fuyun Ling, Murali Ramaswamy Chari, Rajiv Vijayan, US 7583584, System and method for time diversity, September 1, 2009.

[64]Michael Mao Wang,Rajeev Agrawal, Xiangyang Chen, Ajoy K Singh,Tyler A Brown,US 7573964, Channel estimator with extended channel bandwidth, August 11, 2009.

[65]Michael Mao Wang, US20090116574, Methods and apparatus for receive power unification for MIMO and non-MIMO signaling, May 7, 2009.

[66]Michael Mao Wang, Chinnappa K. Ganapathy, Jinxia Bai, US 7529531, Apparatus and methods for estimating a sleep clock frequency, May 5, 2009.

[67]Michael Mao Wang, US20090067352, Methods and apparatus for including mode information in a frame for system acquisition, March 12, 2009.

[68]Michael Mao Wang, Fuyun Ling, Murali Ramaswamy Chari, Rajiv Vijayan, US20080317142, System and method for frequency diversity, December 25, 2008.

[69]Michael Mao Wang, Fuyun Ling, Rajiv Vijayan, US 7463910 B2, Apparatus and method for determining sleep clock timing, December 9, 2008.

[70]Gordon Kent Walker, Bruce Collins, Christopher R Wingert, Jai N Subrahmanyam, Michael Mao Wang, US20080002611, Managing null packets, January 3, 2008.

[71]Michael Mao Wang, US20070036065, Method and apparatus for communicating network identifiers in a communication system, February 15, 2007.

[72]Rapeepat Ratasuk, Amitava Ghosh, Michael Mao Wang, Weimin Xiao, US7145891, Method and apparatus to provide desired quality-of-service levels to multiple communication services, December5, 2006.

[73]Bojan Vrcelj, Ashok Mantravadi, Fuyun Ling, Rajiv Vijayan, Michael Mao Wang, US20060233097, Time tracking for a communication system, October 19, 2006.

[74]Michael Mao Wang, Fuyung Ling, Murali Ramaswamy Chari, Rajiv Vijayan, US 20060123310 A1 System and method for modulation diversity, June 8, 2006.

[75]Michael Mao Wang, Hao Bi, Tyler A Brown, US 7058039, Method and apparatus for selecting a modulation and coding scheme in a wireless communication system, June 6, 2006.

[76]Michael Mao Wang, Rajiv Vijayan, Murali Ramaswamy Chari, Fuyung Ling,US20060109781, System and method for frequency diversity, May 25, 2006.

[77]Michael Mao Wang, Louay A Jalloul, Tyler Brown, US 6856644, Method and apparatus for forward link power control bit generation in a spread-spectrum communication system, February 15, 2005.

[78]Michael Mao Wang, US 6834075 B2, Method for improving multipath searcher speed, December 21, 2004.

[79]Michael Mao Wang, Tyler A Brown, US 6813736, Blind transport format detection for communication, November 2, 2004.

[80]Michael Mao Wang, Tyler Brown, US 6799024, Method and apparatus for automatic gain control compensation in a wireless communication system, September 28, 2004.

[81]Tyler Brown, Michael M Wang, Vagan Shakhgildian, US 6728304, Method and apparatus for performing a signal detection and assignment in a wireless communication system, April 27, 2004.

[82]Michael Mao Wang, US 6683903, Method and apparatus for synchronization within a spread-spectrum communication system, January 27, 2004.

[83]William Morgan, Michael J Kinnavy, Michael Mao Wang, US 6622278 B1, Method and apparatus for formatting a message in a wireless communication system, September 16, 2003.

[84]Tyler Brown, Michael M Wang, US 6580769, Method and apparatus for backward recursion next state generation in recursive convolutional decoding, September 16, 2003.

[85]Tyler Brown, Michael Mao Wang, Fuyun Ling, US6498805, Apparatus and method for estimating channel phase using channel symbol reliability data, December 24, 2002.

[86]Terry Michael Shaffner, Michael Mao Wang, Tyler Brown, US 6463556, Method and apparatus for interleaving in a communication system, October 8, 2002.

[87]Michael Mao Wang, US 6137845, Method of determining an encoding rate in a communication system, October 24, 2000.

[88]Michael Mao Wang, Tyler Brown, US 6125137, Apparatus and method for performing a signal search in a coherent wireless communication system, September 26, 2000.

[89]Tyler A Brown, Michael Mao Wang, US 6108324, Apparatus and method for performing a signal search in a wireless communication system, August 22, 2000.

[90]Michael Mao Wang, Fuyun Ling, Robert T Love, Lee Michael Proctor, US 6084904, Method and apparatus for adjusting a power control setpoint threshold in a wireless communication system, July 4, 2000.

[91]Michael Mao Wang, Tyler Brown, William Morgan, US 5974079, Method and apparatus for encoding rate determination in a communication system, October 26, 1999.

[92]Michael Mao Wang, Fuyun Ling, US 5881093, Method of interleaving a convolutionally coded signal in a spread spectrum communication system, March 9, 1999.

[93]Michael Mao Wang, Fuyun Ling, Terry M Schaffner, US 5878098, Method and apparatus for rate determination in a communication system, March 2, 1999.

[94]Michael Mao Wang, Fuyun Ling, Kenneth A Stewart, US 5671255, Method and apparatus for determining coding rate in a wireless communication system, September 23, 1997.

德国专利 (issued German patent)：

[1] WANG MAO, LING FUYUN, LOVE T, PROCTOR MICHAEL，DE 69835018 D1, VERFAHREN ZUR EINSTELLUNG DER LEISTUNGSREGELUNGSSCHWELLE IN EINEM DRAHTLOSEN KOMMUNIKATIONSSYSTEM, 08/03/2006.

科研创新