(Updated in September 2017. Note: Paper downloading for academic research purpose only.)

    [Book and Book Chapters]

    1.  David Grace and Honggang Zhang, Cognitive Communications - Distributed Artificial Intelligence (DAI), Regulatory Policy & Economics, Implementation, Wiley Press, ISBN: 9781119951506, August 2012. (http://as.wiley.com/WileyCDA/WileyTitle/productCd-111995150X.html)

    2.  Jinsong Wu, Sundeep Rangan, and Honggang Zhang, Green Communications - Theoretical Fundamentals, Algorithms and Applications, CRC Press, ISBN: 9781466501072, September 2012. (http://www.amazon.com/Green-Communications-Theoretical-Fundamentals-Applications/dp/1466501073) (http://www.crcpress.com/product/isbn/9781466501072)

                       

       

    3.  Tao Chen, Honggang Zhang, Yang Yang, and Kari Horneman, Network Energy Saving Techniques in Wireless Networks - Green Radio Communication Networks (edited by Ekram Hossain, V. K. Bhargava, and G. Fettweis), Cambridge University Press, August 2012. 

    4. Tao Chen, Honggang Zhang, and Zhifeng Zhao, Control Channel Management in Dynamic Spectrum Access-based Ad Hoc Networks - Cognitive Radio Mobile Ad Hoc Networks (edited by F. Richard Yu), Springer Press, Sept. 2011.

    5.  Honggang Zhang, Xiaofei Zhou, and Tao Chen, Ultra-Wideband Cognitive Radio for Dynamic Spectrum Accessing Networks - Cognitive Radio Networks (edited by Yang Xiao and Fei Hu), AUERBACH, CRC Press, Sept. 2008.

    6.  Tao Chen, Honggang Zhang, Xiaofei Zhou, Gian Mario Maggio, and Imrich Chlamtac, CogMesh: A Cluster Based Cognitive Radio Mesh Network Cognitive Wireless Networks: Concepts, Methodologies and Visions    (edited by Frank Fitzek and Marcos Katz), Springer Press, Sept. 2007.

    7Honggang Zhang, Wireless Broadband Home Networking - Reliability, Survivability and Quality of Large Scale Telecommunication Systems  (edited by Peter Stavroulakis), John Wiley & Sons Press, 2003.

    8.  Xiaofei Zhou and  Honggang Zhang, Cognitive Radio: Theories and Applications (in Chinese)
       BUPT Press, March 2007.
           
         

    [Journal and International Conference Papers]   

  1. Xianfu Chen, Z. Han, Honggang Zhang, G. Xue, Y. Xiao, and M. Bennis, “Wireless Resource Scheduling in Virtualized Radio Access Networks Using Stochastic Learning," IEEE Trans. Mobile Computing, August 2017.

  2. Rongpeng Li, Zhifeng Zhao, Jianchao Zheng, Chengli Mei, Yueming Cai, and Honggang Zhang, “The Learning and Prediction of Application-level Traffic Data in Cellular Networks,” IEEE Trans. Wireless Communications, March 2017.

  3. Rongpeng Li, Zhifeng Zhao, Xuan Zhou, G. Ding, Yan Chen, Z. Wang, and Honggang Zhang, “Intelligent 5G: When Cellular Networks Meet Artificial Intelligence,” IEEE Wireless Communications, March 2017.

  4. Yifan Zhou, Zhifeng Zhao, Rongpeng Li, Honggang Zhang, and Yves Louet, "Cooperation Based Probabilistic Caching Strategy in Clustered Cellular Networks, IEEE Communications Letters, June 2017.

  5. Chao Yuan, Zhifeng Zhao, Rongpeng Li, M. Li, and Honggang Zhang, “The Emergence of Scaling Law, Fractal Patterns and Small-World in Wireless Networks,” IEEE Access, March 2017.

  6. S. Darak, Honggang Zhang, Jacques Palicot, and Christophe Moy, “Decision Making Policy for RF Energy Harvesting Enabled Cognitive Radios in Decentralized Wireless Networks,” Digital Signal Processing (Elsevier), January 2017.

  7. Xuan Zhou, Rongpeng Li, Tao Chen, and Honggang Zhang, “Network Slicing as a Service: Enabling Enterprises' Own Software-Defined Cellular Networks," IEEE Communications Magazine, vol. 54, no. 7, pp. 146 - 153, July 2016.

  8. Luca Chiaraviglio, Francesca Cuomo, Maurizio Maisto, Andrea Gigli, Josip Lorincz, Yifan Zhou, Zhifeng Zhao, Chen Qi, and Honggang Zhang, “What is the Best Spatial Distribution to Model Base Station Density? A Deep Dive in Two European Mobile Networks," IEEE Access, May 2016. (PDF)

  9. Jianchao Zheng, Honggang Zhang, Yueming Cai, Rongpeng Li, and Alagan Anpalagan, "Game-Theoretic Multi-Channel Multi-Access in Energy Harvesting Wireless Sensor Networks," IEEE Sensors Journal, vol. 16, no. 11, pp. 4587-4594, June 2016.

  10. Chi Liu, J. Zhao, Honggang Zhang, S. Guo, K. K. Leung, and Jon Crowcroft, “Energy-efficient Event Detection by Participatory Sensing under Budget Constraints,” IEEE Systems Journal, March 2016.

  11. Luca Chiaraviglio, Francesca Cuomo, Andrea Gigli, Maurizio Maisto, Yifan Zhou, Zhifeng Zhao, and Honggang Zhang, “A Reality Check of Base Station Spatial Distribution in Mobile Networks," Proc. IEEE INFOCOM 2016 (Poster), San Francisco, Apr. 2016.

  12. Yifan Zhou, Rongpeng Li, Zhifeng Zhao, Xuan Zhou, and Honggang Zhang, “On the alpha-Stable Distribution of Base Stations in Cellular Networks," IEEE Communications Letters, vol. 19, no. 10, pp. 1750-1753, Oct. 2015.

  13. Yifan Zhou, Zhifeng Zhao, Yves Louet, Qianlan Ying, Rongpeng Li, Xuan Zhou, Xianfu Chen, and Honggang Zhang, “Large-scale Spatial Distribution Identification of Base Stations in Cellular Networks," IEEE Access, vol. 3, pp. 2987-2999, Dec. 2015.  

  14. Rongpeng Li, Zhifeng Zhao, Chen Qi, Xuan Zhou, Yifan Zhou, and Honggang Zhang, "Understanding the Traffic Nature of Mobile Instantaneous Messaging in Cellular Networks: A Revisiting to alpha-Stable Models," IEEE Access, vol. 3, pp. 1416-1422, 2015.

  15. Xianfu Chen, Jinsong Wu, Yueming Cai, Honggang Zhang, and Tao Chen, "Energy-Efficiency Oriented Traffic Offloading: A Brief Survey for Wireless Networks and a Learning Approach for Heterogeneous Cellular Networks," IEEE Journal Sel. Areas Commun. (JSAC), Vol. 33, No. 4, pp. 627-640, Apr. 2015.

  16. Jianchao Zheng, Yueming Cai, Xianfu Chen, Rongpeng Li, and Honggang Zhang, "Optimal Base Station Sleeping in Green Cellular Networks: A Distributed Cooperative Framework Based on Game Theory," IEEE Transactions Wireless Communications, vol. 14, no. 8, pp. 4391–4406, Aug. 2015.

  17. Guoru Ding, Jinlong Wang, Qihui Wu, Yu-Dong Yao, Rongpeng Li, Honggang Zhang, and Yulong Zou, “On the Limits of Predictability in Real-World Radio Spectrum State Dynamics: From Entropy Theory to 5G Spectrum Sharing," IEEE Communications Magazine, vol. 53, no. 7, pp. 178–183, Jul. 2015.

  18. Sumit Darak, Sumedh Dhabu, Christophe Moy, Honggang Zhang, Jacques Palicot, and Vinod Prasad, "Low Complexity and Efficient Dynamic Spectrum Learning and Tunable Bandwidth Access for Heterogeneous Decentralized Cognitive Radio Networks," Elsevier Digital Signal Processing, February 2015.

  19. Tao Chen, Honggang Zhang, Xianfu Chen, and Olav Tirkkonen, "SoftMobile: Control Evolution for Future Heterogeneous Mobile Networks," IEEE Wireless Communications, December 2014.

  20. Xuan Zhou, Zhifeng Zhao, Rongpeng Li, Yifan Zhou, Tao Chen, Zhisheng Niu, and Honggang Zhang, "Towards 5G: When Explosive Bursts Meet Soft Cloud," IEEE Network, November 2014.

  21. Sumit Darak, Jacques Palicot, Honggang Zhang, A. P. Vinod, and Christophe Moy, "Reconfigurable Filter Bank with Complete Control over Subband Bandwidths for Multistandard Wireless Communication Receivers," IEEE Transactions on Very Large Scale Integration (VLSI) Systems, September 2014.

  22. Rongpeng Li, Zhifeng Zhao, Xianfu Chen, Jacques Palicot, and Honggang Zhang, "TACT: A Transfer Actor-Critic Learning Framework for Energy Saving in Cellular Radio Access Networks," IEEE Trans. Wireless Communications, Vol. 13, No. 4, pp. 2000-2011, April 2014.

  23. Dongheon Lee, Sheng Zhou, Xuan Zhou, Xiaofeng Zhong, Zhisheng Niu, and Honggang Zhang, "Spatial Modeling of the Traffic Density in Cellular Networks," IEEE Wireless Communications, March 2014.

  24. Xianfu Chen, Honggang Zhang, Allen B. MacKenzie, and Marja Matinmikko,"Predicting Spectrum Occupancies Using a Non-stationary Hidden Markov Model," IEEE Wireless Communications Letters, April 2014.

  25. Rongpeng Li, Zhifeng Zhao, Xuan Zhou, Jacques Palicot, and Honggang Zhang,"The Predictability Analysis of Cellular Networks Traffic: From Entropy Theory to Networking Practice," IEEE Communications Magazine, June 2014.

  26. Rongpeng Li, Zhifeng Zhao, Yuan Zhang, Jacques Palicot, and Honggang Zhang, "Adaptive Multi-Task Compressive Sensing for Localization in Wireless LANs," IET Communications, July 2014.

  27. Sumit Darak, A. P. Vinod, E. M-K. Lai, Jacques Palicot, and Honggang Zhang, "Linear Phase VDF Design with Unabridged Bandwidth Control over the Nyquist Band," IEEE Trans. on Circuits and Systems II, June 2014.

  28. Xianfu Chen, Honggang Zhang, Marko Hoyhtya, Mika Lasanen, and Jacques Palicot, "Reciprocally Opportunistic Spectrum Access," European Transactions on Emerging Telecommunications Technologies (ETT), DOI: 10.1002/ett.2810, March 2014.

  29. Xuan Zhou, Zhifeng Zhao, Rongpeng Li, Yifan Zhou, Jacques Palicot, and Honggang Zhang, "Understanding the Nature of Social Mobile Instant Messaging in Cellular Networks," IEEE Communications Letters, February 2014.

  30. Jacques Palicot, Honggang Zhang, and Christophe Moy, "On the Road towards Green Radio," URSI Radio Science Bulletin, December 2013 (invited paper).

  31. Xuan Zhou, Zhifeng Zhao, Rongpeng Li, Yifan Zhou, Jacques Palicot, and Honggang Zhang, "Human Mobility Patterns in Cellular Networks," IEEE Communications Letters, October 2013. (download in PDF)

  32. Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, "Stochastic Power Adaptation with Multi-agent Reinforcement Learning for Cognitive Wireless Mesh Networks,” IEEE Transactions on Mobile Computing, November 2013. (download in PDF)

  33. Xin Tao, Zhifeng Zhao, Rongpeng Li, Jacques Palicot, and Honggang Zhang, "Downlink Interference Minimization in Cooperative Cognitive LTE-Femtocell Networks," EURASIP Journal on Wireless Communications & Networking, July 2013. (Highly Accessed Article in EURASIP Journal, http://jwcn.eurasipjournals.com/content/2013/1/194, download in PDF)

  34. Jacques Palicot, Steve McLaughlin, Honggang Zhang, and H. Vincent Poor, "Special Issue on Green Radio," EURASIP Journal on Wireless Communications & Networking, Feb. 2013. ("Special Issue on Green Radio" - IEEE Best Readings in Green Communications`s\乿l VE(`s\乿l Vst-readings/green, Top 100 Highly Accessed Article in EURASIP Journal)

  35. Rongpeng Li, Zhifeng Zhao, Xuan Zhou, and Honggang Zhang, “Energy Savings Scheme in Radio Access Network via Compressed Sensing Based Traffic Load Prediction,” European Transactions on Emerging Telecommunications Technologies (ETT), November 2012. (http://onlinelibrary.wiley.com/doi/10.1002/ett.2583/full,  download in PDF)

  36. Rongpeng Li, Zhifeng Zhao, Xianfu Chen, and Honggang Zhang, “Energy Saving through a Learning Framework in Greener Cellular Radio Access Networks,” IEEE Globecom 2012, Anaheim, USA, December 2012.

  37. Rongpeng Li, Zhifeng Zhao, Yan Wei, Xuan Zhou, and Honggang Zhang, "GM-PAB: A Grid-based Energy Saving Scheme with Predicted Traffic Load Guidance for Cellular Networks,” Proc. IEEE ICC 2012, Ottawa, Canada, June 2012.

  38. Xianfu Chen, Zhifeng Zhao, Honggang Zhang, and Tao Chen, “Conjectural Variations in Multi-agent Reinforcement Learning for Energy-Efficient Cognitive Wireless Mesh Networks,”Proc. IEEE WCNC 2012, Paris, France, April 2012.

  39. Xuan Zhou, Zhifeng Zhao, Rongpeng Li, Yifan Zhou, and Honggang Zhang, “The Predictability of Cellular Networks Traffic,” Proc. IEEE ISCIT 2012, Gold Coast, Australia, October 2012.

  40. Xianjie He, Zhifeng Zhao, and Honggang Zhang, “A Pilot-aided Channel Estimation Method for FBMC/OQAM Communications System,” Proc. IEEE ISCIT 2012, Gold Coast, Australia, October 2012.

  41. Yuan Zhang, Zhifeng Zhao, and Honggang Zhang, “Adaptive Bayesian Compressed Sensing Based Localization in Wireless Networks,” Proc. ChinaCom 2012, Kunming, China, August 2012. (Best Student Paper Award, Download in PDF)

  42. Qian Wen, Zhifeng Zhao, Rongpeng Li, and Honggang Zhang, “Spatial-Temporal Compressed Sensing Based Traffic Prediction in Cellular Networks,” Proc. IEEE ICCC 2012 (SGCNet Workshop), Beijing, China, August 2012.

  43. Tao Chen, Yang Yang, Honggang Zhang, Haesik Kim, and Kari Horneman, "Network Energy Saving Technologies for Green Wireless Access Networks," IEEE Wireless Communications (Feature Topics Issue on Green Radio Communication Networks), October 2011.

  44. Xiao Wang, Zhifeng Zhao, Yu Xia, and Honggang Zhang, Compressed Sensing for Efficient Random Routing in Multi-hop Wireless Sensor Networks,International Journal of Communication Networks and Distributed Systems, vol. 7, no. 3/4, pp. 275 – 292, DOI:10.1504/IJCNDS.2011.042380, 2011.

  45. Tao Chen, Marja Matinmikko, and Honggang Zhang, “A Novel Control Channel Management In CogMesh Networks,” Proc. 2011 IEEE 74th Vehicular Technology Conference (VTC 2011- Fall), San Francisco, USA, September 2011.

  46. Yan Wei, Zhifeng Zhao, and Honggang Zhang, "Dynamic Energy Savings in Heterogeneous Cellular Networks Based on Traffic Prediction Using Compressive Sensing,” Proc. IEEE ISCIT 2011,October 2011.

  47. Guangchao Zhang, Zhifeng Zhao, and Honggang Zhang, "Removing Impulse Noise Influence in FBMC System by Compressive Sensing,”Proc. IEEE ISCIT 2011, October 2011.

  48. Jie Yang, Zhifeng Zhao, and Honggang Zhang, "Energy Efficient Data Gathering Based on Distributed iLT Coding,” Proc. IEEE ISCIT 2011, October 2011.

  49. Yu Xia, Zhifeng Zhao, and Honggang Zhang, "Distributed Anomaly Event Detection in Wireless Networks Using Compressed Sensing,” Proc. IEEE ISCIT 2011, October 2011.

  50. Longwei Wang, Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, "Exploration vs Exploitation for Distributed Channel Access in Cognitive Radio Networks: A Multiuser Case Study,” Proc. IEEE ISCIT 2011, October 2011.

  51. Longwei Wang, Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, "Collaborative Spectrum Sharing Based on Information Pooling for Cognitive Radio Networks with Channel Heterogeneity,” Proc. IEEE ISCIT 2011, October 2011.

  52. Yun Cui, Zhifeng Zhao, and Hongagng Zhang, “An Efficient Filter Banks Based Multicarrier Systemin Cognitive Radio Networks,Radioengineering Journal,vol. 19, No. 4, pp. 479-487, December 2010.

  53. Xianfu Chen, Zhifeng Zhao, Honggang Zhang, and Tao Chen,“Reinforcement Learning Enhanced Iterative Power Allocation in Stochastic Cognitive Wireless Mesh Networks," Wireless Personal Communications Journal (Springer), Special Issue on "Cognitive Radio Networks and Communications", DOI 10.1007/s11277-010-0008-6, April 2010. (http://www.springerlink.com/content/h37541u5j4767p43/)

  54. Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, “Power Entangling and Matching in Cognitive Wireless Mesh Networks by Applying Conjecture Based Multi-agent QQ-learning Approach,” Proc. IEEE Globecom 2010 (MCECN Workshop), Miami, USA, December 2010. (Download in PDF)

  55. Sida Lv, Zhifeng Zhao, and Honggang Zhang, “Reliable Data Transmission Using IBRC and LT Codes Over the AWGN Channel Approach,” Proc. IEEE Globecom 2010 (MCS Workshop), Miami, USA, December 2010. (Download in PDF)

  56. Xiao Wang, Zhifeng Zhao, Yu Xia, and Honggang Zhang, “Compressed Sensing for Efficient Random Routing in Multi-hop Wireless Sensor Networks,” Proc. IEEE Globecom 2010 (ASIT Workshop), Miami, USA, December 2010. (Download in PDF)

  57. Yun Cui, Zhifeng Zhao, and Honggang Zhang, “Adaptive Threshold Enhanced Filter Banks for Wireless Microphone Detection in IEEE 802.22 WRAN,” Proc. IEEE PIMRC 2010, Turkey,September 2010. (Download in PDF)

  58. Xianfu Chen, Zhifeng Zhao, Honggang Zhang, and Tao Chen “Applying Multi-agent Q-learning Scheme in Cognitive Wireless Mesh Networks for Green Communications,” Proc. IEEE PIMRC 2010 (W-Green Workshop), Turkey, September 2010. (Download in PDF)

  59. Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, “Green Transmit Power Assignment for Cognitive Radio Networks by Applying Multi-agent Q-learning Approach,” Proc. European Wireless Technology Conference 2010 (European Microwave Week 2010), Paris, France, September 2010. (Download in PDF)

  60. Sida Lv, Zhifeng Zhao, and Honggang Zhang, “LT Coding over the Network,” Proc. WCSP 2010 (The 2010 International Conference on Wireless Communications & Signal Processing), Suzhou, China, October 2010. (Best Paper Award, Download in PDF)

  61. Tao Chen, Honggang Zhang, Zhifeng Zhao, and Xianfu Chen, “Towards Green Wireless Access Networks,” Proc. ChinaCom 2010, Beijing, August 2010. (Invited Paper, Download in PDF)

  62. Xiao Wang, Zhifeng Zhao, Yu Xia, and Honggang Zhang, “Efficient Random Routing Based on Compressed Sensing in Multi-hop Wireless Sensor Networks,” Proc. IEEE ISCIT 2010 (The 10th IEEE International Symposium on Communications and Information Technologies), Tokyo, Japan, October 2010.

  63. Yun Cui, Zhifeng Zhao, and Honggang Zhang, "An Efficient Transform Decomposition Method for Sparse Input Points DFT in Multiple-Carriers Cognitve Radio System," Proc. IEEE ISCIT 2010 (The 10th IEEE International Symposium on Communications and Information Technologies), Tokyo, Japan, October 2010.

  64. Xianfu Chen, Zhifeng Zhao, Tao Jiang, David Grace, and Honggang Zhang, "Intercluster Connection in Cognitive Wireless Mesh Networks Based on Intelligent Network Coding,” EURASIP Journal on Advances in Signal Processing, Special Issue on "Dynamic Spectrum Access for Wireless Networking", November 2009. (www.hindawi.com/journals/asp/aip.141097.pdf,http://www.hindawi.com/journals/asp/2009/141097.html)

  65. Tao Chen, Honggang Zhang, Marko Hoyhty, and Marcos Kartz, “Spectrum Coexistence in Cognitive Wireless Access Networks,” Proc. IEEE GLOBECOM 2009, Hawaii, USA, December 2009.

  66. Xianfu Chen, Zhifeng Zhao, Tao Jiang, David Grace, and Honggang Zhang, “Inter-Cluster Connection in Cognitive Wireless Mesh Networks Based on Intelligent Network Coding,” Proc. IEEE PIMRC 2009, Tokyo, Japan, September 2009.

  67. Xianfu Chen, Zhifeng Zhao, and Honggang Zhang, “Distributed Iterative Power Allocation in Cognitive Wireless Mesh Networks,” Proc. the 2009 International Conference on Wireless Communications and Signal Processing (WCSP 2009), Nanjing, China, November 2009.

  68. Tao Chen, Honggang Zhang, Marja Matinmikko, and Marcos Kartz, “CogMesh: Cognitive Wireless Mesh Networks,” Proc. IEEE GLOBECOM 2008 (Workshop on Wireless Mesh and Sensor Networks), New Orleans, USA, November 2008.

  69. Tao Chen, Honggang Zhang, Marcos Kartz, and Zhen Zhou, “Swarm Intelligence Based Dynamic Control Channel Assignment in CogMesh,” Proc. IEEE ICC 2008 (CoCoNets Workshop), Beijing, China, May 19-23, 2008.

  70. Wenzhong Wang, Weixia Zou, Zheng Zhou, Honggang Zhang, and Yabin Ye, “Decision Fusion of Cooperative Spectrum Sensing for Cognitive Radio under Bandwidth Constraints,” Proc. ICCIT 2008 (Third International Conference on Convergence and Hybrid Information Technology 2008), November 2008.

  71. Wenzhong Wang, Weixia Zou, Zheng Zhou, Honggang Zhang, and Yabin Ye, “Improving Spectrum Sensing by Counting Rules for Cognitive Radio,Proc. Third International Conference on Communications and Networking in China (ChinaCom 2008), October 2008.

  72. Tao Chen, Honggang Zhang, G. M. Maggio, and Imrich Chlamtac, “Topology Management in CogMesh: A Cluster-based Cognitive Radio Mesh Network,Proc. IEEE ICC 2007, Glasgow, UK, June, 2007.

  73. Tao Chen, Honggang Zhang, G. M. Maggio, and Imrich Chlamtac, “CogMesh: A Cluster-based Cognitive Radio Network,” Proc. the 2007 IEEE Symp. on New Frontiers in Dynamic Spectrum Access Networks (IEEE DySPAN 2007), Dublin, Ireland, April 17-20, 2007.

  74. Xiaofei Zhou, Honggang Zhang, and Imrich Chlamtac, “Transmit Power Allocation among Orthogonal Pulse Wavelets for BER Performance Improvement in Cognitive UWB Radio,” Proc. the First IEEE Workshop on Cognitive Radio Networks (IEEE CCNC 2007 Workshop), Las Vegas, USA, January 2007.

  75. Xiaofei Zhou, Honggang Zhang, Tao Chen, and Imrich Chlamtac, “Distributed Transmit Power Control among Cooperative Relaying Nodes in Ultra-Wideband Cognitive Radio Networks,” Proc. the 2007 IEEE International Conference on Ultra-Wideband (ICUWB 2007), September 24-26, 2007, Singapore. (Invited Paper)

  76. Chihong Cho, Honggang Zhang, and Masao Nakagawa, “A Short Delay Relay Scheme Using Shared Frequency Repeater for UWB Impulse Radio,” IEICE Trans. Fundamentals of Electronics, Communications and Computer Sciences, Vol E90-A, No 7, pp 1444-1451, June 2007.

  77. Honggang Zhang, Xiaofei Zhou, K. Y. Yazdandoost, and Imrich Chlamtac, “Multiple Signal Waveforms Adaptation in Cognitive Ultra-Wideband Radio Evolution,” IEEE Journal on Selected Areas of Communications (IEEE-JSAC), vol. 24, no. 4, pp. 878-884, April 2006.

  78. F. Granelli, Honggang Zhang, Xiaofei Zhou, and S. Maranò, “Research Advances in Cognitive Ultra Wide Band Radio and their Applications to Sensor Networks,” ACM/Springer Journal on Mobile Networks and Applications (MONET), special issue on Ultra Wide Band for Sensor Networks, vol.11, Issue 4, pp. 487-499, August 2006.

  79. Chihong Cho, Honggang Zhang, and Masao Nakagawa, “PSWF-based Direct-Sequence UWB Transmission Using Orthogonal Ternary Code Sets,” IEICE Trans. Fundamentals of Electronics, Communications and Computer Sciences, E89-A, pp. 3042-3049, November 2006.

  80. C. Cho, M. Nakagawa, Honggang Zhang, and Zheng Zhou, “PSWF-based Direct-Sequence UWB Transmission Using Orthogonal Ternary Code Sets,” Proc. 2006 IEEE Consumer Communications & Networking Conference (CCNC 2006), vol. 2, pp. 686-690, Las Vegas, January 2006.

  81. K. Y. Yazdandoost, Honggang Zhang, and Ryuji Kohno, “Ultra-wideband Antenna and Pulse Waveform for UWB Applications,” Proc. 6th International Conference on ITS Telecommunications (ITST 2006), Chengdu, China, June 2006.

  82. Xiaofei Zhou, Honggang Zhang, and Imrich Chlamtac, “Transmit Power Allocation among PSWF-based Pulse Wavelets in Cognitive UWB Radio,” Proc. First International Conference on Cognitive Radio Oriented Wireless Networks and Communications (CrownCom 2006), Mykonos Island, Greece, June 2006.

  83. Tao Chen, Honggang Zhang, and Imrich Chlamtac, “High Speed Orthogonal Waveform Based Indoor Wireless Transmission by UWB and 60 GHz Dual Band System,” Proc. 3rd IEEE International Symposium on Wireless Communication Systems (ISWCS’06), Valencia, Spain, September 2006.

  84. Xiaofei Zhou, K. Y. Yazdandoost, Honggang Zhang, and Imrich Chlamtac, “Cognospectrum: Spectrum Adaptation and Evolution in Cognitive Ultra-Wideband Radio,” Proc. 2005 IEEE International Conference on Ultra-Wideband (ICUWB 2005), Zurich, Switzerland, September 2005.

  85. Xiaofei Zhou, Honggang Zhang, and Imrich Chlamtac, “Space-Frequency Coded Cooperative Scheme among Distributed Nodes in Cognitive UWB Radio,” Proc. 16th IEEE International Symposium on Personal Indoor and Mobile Radio Communications Wireless Communications and Networking Conference (PIMRC2005), Berlin, September 2005.

  86. I. Carreras, I. Chlamtac, H. Woesner, and Honggang Zhang, “Nomadic Sensor Networks,” Proc. 2nd European Workshop on Wireless Sensor Networks (EWSN), Istanbul, Turkey, January 2005.

  87. F. Granelli and Honggang Zhang, “Cognitive Ultra Wide Band Radio: A Research Vision and Its Open Challenges,” Proc. 2nd International Workshop on Networking with Ultra Wide Band and Workshop on Ultra Wide Band for Sensor Networks (NEUWB2), Rome, Italy, pp. 55-59, July 2005.

  88. K. Usuda, Honggang Zhang, and Masao Nakagawa, “M-ary pulse shape modulation for PSWF-based UWB systems in multipath fading environment,” Proc. IEEE Globecom 2004, pp. 3498-3504, Dallas, USA, December 2004.

  89. Honggang Zhang and Ryuji Kohno, “SSA Realization in UWB Multiple Access Systems Based on Prolate Spheroidal Wave Functions,” Proc. IEEE Wireless Communications and Networking Conference 2004 (WCNC2004), C1-3, Atlanta, March 2004.

  90. Chihong Cho, Honggang Zhang, and M. Nakagawa, “A UWB Repeater with a Short Relaying-delay for Range Extension,” Proc. IEEE Wireless Communications and Networking Conference 2004 (WCNC2004), B11-4, Atlanta, March 2004.

  91. Kazuto Usuda, Honggang Zhang, and M. Nakagawa, “Pre-Rake Performance for Pulse Based UWB System in a Standardized UWB Short-Range Channel,” Proc. IEEE Wireless Communications and Networking Conference 2004 (WCNC2004), B1-5, Atlanta, March 2004.

  92. Kazuto Usuda, Honggang Zhang, and Masao Nakagawa, “Pre-Rake Scheme for UWB-IR System with Guard-Time in Multipath Fading Channel,” IEICE Trans. Fundamentals of Electronics, Communications and Computer Sciences, vol.E87-A, no. 10, pp. 2631-2638, October 2004.

  93. Masao Nakagawa, Honggang Zhang, and Hideaki Sato, “Ubiquitous Homelinks Based on IEEE 1394 and Ultra Wideband Solutions,” IEEE Communications Magazine, vol. 41, no. 4, pp. 74-82, April 2003.

  94. Chihong Cho, Honggang Zhang, and M. Nakagawa, “The Pulse-Position-Modulation UWB Repeater with a Short Relaying-delay,” Technical Report of IEICE, DSP2002-144, pp. 35-40, January 2003.

  95. M. Nakagawa, Honggang Zhang, and Hideaki Sato, “Ubiquitous Homelinks: 1394 Over UWB,” IEEE 1394 Developers’ Conference 2003, Tokyo, June 2003.

  96. Honggang Zhang and Ryuji Kohno, “Soft Spectrum Adaptation in UWB Impulse Radio,” Proc. 14th IEEE International Symposium on Personal, Indoor & Mobile Radio Communications (PIMRC2003), pp. 289-293, Beijing, September 2003.

  97. Honggang Zhang and Ryuji Kohno, “Re-configurable Soft-Spectrum UWB Receiving Scheme with Multi-rate and Multi-mode Adaptation,” Proc. 6th International Symposium on Wireless Personal Multimedia Communications (WPMC’03), pp. 131-135, Yokosuka, October 2003.

  98. Honggang Zhang, T. Kobayashi, and Ryuji Kohno, “On Timing Jitter and Tracking of Soft-Spectrum UWB System in IEEE 802.15.3 Multipath Fading Channel,” Proc. 6th International Symposium on Wireless Personal Multimedia Communications (WPMC’03), pp. 136-140, Yokosuka, October 2003.

  99. Honggang Zhang and Ryuji Kohno, “Realization of Soft-Spectrum Adaptation in UWB Multiple Access Systems Based on Prolate Spheroidal Wave Functions,” Technical Report of IEICE, WBS2003-59, pp. 13-18, October 2003.

  100. Honggang Zhang and Ryuji Kohno, “Coexistence Model and Interference Avoidance Using Soft-Spectrum Adaptation for Ultra Wideband Wireless Systems,” Proc. Ultra Wide Band Summit’03, Paris, December 2003.

  101. K. Takahashi, T. Udagawa, Honggang Zhang, T. Arita, and Masao Nakagawa, “Intra-Vehicle Wireless 1394 Systems,” IEICE Trans. Communications, vol. E85-B, no. 5, pp. 938-945, May 2002.

  102. K. Kobayashi, T. Udagawa, Honggang Zhang, T. Arita, and Masao Nakagawa, “Pipeline Repeater for Wireless Homelink,” IEICE Trans. Communications, vol. E85-B, no. 7, pp. 1283-1292, July 2002.

  103. Honggang Zhang, T. Udagawa, T. Arita, and M. Nakagawa, “A Statistical Model for the Small-scale Multipath Fading Characteristics of Ultra Wideband Indoor Channel,” Proc. of 2002 IEEE Conference on Ultra Wideband Systems and Technologies (UWBST’02), pp. 65-71, Baltimore, U.S.A., May 20-24, 2002.

  104. Honggang Zhang, T. Udagawa, T. Arita, and M. Nakagawa, “Home Entertainment Network: Combination of IEEE 1394 and Ultra Wideband Solutions,” Proc. of 2002 IEEE Conference on Ultra Wideband Systems and Technologies (UWBST’02), pp. 297-301, Baltimore, U.S.A., May 20-24, 2002.

  105. H. Tanada, T. Udagawa, T. Arita, Honggang Zhang, and M. Nagagawa, “Dynamic Intelligent Hub Station for Wireless 1394,” Proc. the 13th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC2002), Lisboa, Portugal, September 15-18, 2002.

  106. K. Kobayashi, T. Udagawa, Honggang Zhang, T. Arita, and M. Nakagawa, “Pipeline Repeater for Wireless 1394,” Proc. the 4th European Personal Mobile Communications Conference (EPMCC2001), Vienna, Austria, February 2001.

  107. Honggang Zhang, T. Udagawa, T. Arita, J. Tsuji, K. Okada, I. Sasase, and M. Nakagawa, “Wireless 1394: a New Standard for Integrated Wireless Broadband Home Networking,” Proc. the IEEE 53rd Vehicular Technology Conference (VTC2001 Spring), pp.1124-1128, Rhodes, Greece, May 2001.

  108. T. Udagawa, Honggang Zhang, T. Arita, T. Nasu, and M. Nakagawa, “Impact of Shadowing Effect and its Countermeasure Methods for Wireless 1394 Home Network,” Proc. the IEEE 53rd Vehicular Technology Conference (VTC2001 Spring), pp.357-361, Rhodes, Greece, May 2001.

  109. Honggang Zhang, T. Udagawa, T. Arita, K. Kobayashi, and M. Nakagawa, “Performance Improvement of Wireless 1394 Using Multiple-Element Antenna Systems,” Proc. the IEEE 53rd Vehicular Technology Conference (VTC2001 Spring), pp.459-463, Rhodes, Greece, May 2001.

  110. Honggang Zhang, T. Udagawa, T. Arita, K. Takahashi, and M. Nakagawa, “5.2 GHz Propagation Characteristics and Mutual Interference of Wireless 1394-based Intra-vehicle Networks,” Proc. the 2001 IEEE Intelligent Vehicles Symposium (IV 2001), pp. 477-482, Tokyo, Japan, May 14-17, 2001.

  111. T. Arita, T. Udagawa, Honggang Zhang, J. Tsuji, and M. Nakagawa, “Wireless1394 System -Home Network Evolution,” Proc. the 4th International Symposium on Wireless Personal Multimedia Communications (WPMC’01), pp. 1159-1164, Aalborg, Denmark, September 9-12, 2001.

  112. T. Udagawa, Honggang Zhang, H. Tanada, and M. Nakagawa, “Propagation Characteristics for Wireless 1394,” Proc. the 4th International Symposium on Wireless Personal Multimedia Communications (WPMC’01), pp. 1363-1368, Aalborg, Denmark, September 9-12, 2001.

  113. Honggang Zhang, T. Udagawa, T. Arita, and M. Nakagawa, “BER Performance Evaluation of POCA-NAZU Fading for Inter-vehicle Propagation Channels,” Proc. the 2nd International Workshop on ITS Telecommunications (ITST2001), pp. 297-301, YRP, Japan, October 25-27, 2001.

  114. Honggang Zhang, T. Udagawa, T. Arita, H. Ono, K. Kobayashi, and Masao Nakagawa, “A Case Study on 5 GHz Radio Propagation Characteristics in Wireless 1394 Home Environment,” Proc. the 7th International Workshop on Mobile Multimedia Communications (MoMuC2000), p-5-1, Tokyo, Japan, October 2000.

  115. T. Udagawa, Honggang Zhang, T. Arita, K. Kobayashi, and M. Nakagawa, “Propagation Characteristics of Wireless 1394 Home Network at 5 GHz,” Proc. the 2000 International Conference on Broadband Wireless Access Systems (WAS’2000), pp.110-115, San Francisco, USA, December 2000.

  116. T. Udagawa, T. Arita, J. Tsuji, Honggang Zhang, Masao Nakagawa, and I. Sasase, “Wireless Homelink (Wireless 1394),” Journal of Institute of Electronics, Information and Communication Engineers (IEICE), vol. 83, no. 12, pp. 934-937, December 2000. (Invited Paper, In Japanese)

  117. Honggang Zhang, T. Hayashida, T. Yoshino, S. Ito, and Y. Nagasawa, “A Deterministic Model for UHF Radio Wave Propagation through Building Windows in Cellular Environments,” IEICE Trans. Communications, vol. E82-B, no. 6, pp. 234-241, June 1999.

  118. Honggang Zhang, T. Yoshino, S. Ito, Y. Nagasawa, H. Ando, and R. Sato, “The Prediction of Attenuation Due to Aircraft’s Flying Across the Earth-Satellite Link at SHF,” IEICE Trans. Communications, vol. E81-B, no. 8, pp. 1687-1695, August 1998.

  119. Honggang Zhang, H. Ando, R. Sato, T. Yoshino, S. Ito, and Y. Nagasawa, “Propagation Impairment Caused by Aircraft’s Flying Across the Earth-Satellite Link,” Proc. the 9th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC’98), 398H011, Boston, USA, September 1998.

  120. Honggang Zhang, T. Yoshino, S. Ito, and Y. Nagasawa, “A UTD-based Approach to Predicting Diffraction by Buildings for Cellular Mobile Communications,” Proc. the 1998 IEEE-APS Conference on Antennas and Propagation for Wireless Communications (APWC1998), pp. 13-16, Waltham, MA, USA, November 1998.

  121. Honggang Zhang, T. Hayashida, T. Yoshino, S. Ito, and Y. Nagasawa, “Predictions and Measurements of UHF Wave Penetration Loss through Building Windows for Cellular Communications,” Proc. the 1998 Asia-Pacific Microwave Conference (APMC’98), pp. 941-944, Yokohama, Japan, December 1998.

  122. Tao Chen, Honggang Zhang, and Marcos Kartz, “Cloud Networking Formation in CogMesh Environment,” arXiv.org>cs> arXiv:0904.2028 (http://arxiv.org/abs/0904.2028), April 2009. (Note: No Reviewing Process)