Full-Duplex Communication in Cognitive Radio Networks: A Survey

Wireless networks with their ubiquitous applications have become an indispensable part of our daily lives. Wireless networks demand more and more spectral resources to support the ever increasing numbers of users. According to network engineers, the current spectrum crunch can be addressed with the introduction of cognitive radio networks (CRNs). In half-duplex (HD) CRNs, the secondary users (SUs) can either only sense the spectrum or transmit at a given time. This HD operation limits the SU throughput, because the SUs cannot transmit during the spectrum sensing. However, with the advances in self-interference suppression (SIS), full-duplex (FD) CRNs allow for simultaneous spectrum sensing and transmission on a given channel. This FD operation increases the throughput and reduces collisions as compared with HD-CRNs. In this paper, we present a comprehensive survey of FD-CRN communications. We cover the supporting network architectures and the various transmit and receive antenna designs. We classify the different SIS approaches in FD-CRNs. We survey the spectrum sensing approaches and security requirements for FD-CRNs. We also survey major advances in FD medium access control protocols as well as open issues, challenges, and future research directions to support the FD operation in CRNs.

[1]  Marwan Krunz,et al.  Exploiting self-interference suppression for improved spectrum awareness/efficiency in cognitive radio systems , 2013, 2013 Proceedings IEEE INFOCOM.

[2]  Zhi Chen,et al.  Estimate the Primary-Link SNR Using Full-Duplex Relay for Underlay Spectrum Sharing , 2016, IEEE Signal Processing Letters.

[3]  Morten Videbæk Pedersen,et al.  Kodo: An Open and Research Oriented Network Coding Library , 2011, Networking Workshops.

[4]  Zhi Zhang,et al.  Power allocation optimization for D2D communication underlaying cognitive full duplex relay networks , 2015 .

[5]  Caijun Zhong,et al.  Wireless Information and Power Transfer With Full Duplex Relaying , 2014, IEEE Transactions on Communications.

[6]  Ashutosh Sabharwal,et al.  Passive Self-Interference Suppression for Full-Duplex Infrastructure Nodes , 2013, IEEE Transactions on Wireless Communications.

[7]  Yang-Seok Choi,et al.  Full-Duplex Mobile Device - Pushing The Limits , 2014, ArXiv.

[8]  Athanasios V. Vasilakos,et al.  Full duplex techniques for 5G networks: self-interference cancellation, protocol design, and relay selection , 2015, IEEE Communications Magazine.

[9]  Ashutosh Sabharwal,et al.  Pushing the limits of Full-duplex: Design and Real-time Implementation , 2011, ArXiv.

[10]  Frank J. Effenberger,et al.  PON/xDSL hybrid access networks , 2014, Opt. Switch. Netw..

[11]  Mohamed-Slim Alouini,et al.  Overlay Spectrum Sharing Using Improper Gaussian Signaling , 2017, IEEE Journal on Selected Areas in Communications.

[12]  Matti Latva-aho,et al.  Precoding for Full Duplex Multiuser MIMO Systems: Spectral and Energy Efficiency Maximization , 2013, IEEE Transactions on Signal Processing.

[13]  Rahim Tafazolli,et al.  Network Coding Theory: A Survey , 2013, IEEE Communications Surveys & Tutorials.

[14]  Wenbo Wang,et al.  Full-duplex based spectrum sharing in cognitive two-way relay networks , 2015, 2015 IEEE 26th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC).

[15]  Sherali Zeadally,et al.  Integration of Cognitive Radio Technology with unmanned aerial vehicles: Issues, opportunities, and future research challenges , 2015, J. Netw. Comput. Appl..

[16]  Xi Zhang,et al.  Full Duplex Wireless Communications for Cognitive Radio Networks , 2011, ArXiv.

[17]  Gürkan Gür,et al.  Green wireless communications via cognitive dimension: an overview , 2011, IEEE Network.

[18]  Abraham O. Fapojuwo,et al.  Security threat assessment of simultaneous multiple Denial-of-Service attacks in IEEE 802.22 Cognitive Radio networks , 2016, 2016 IEEE 17th International Symposium on A World of Wireless, Mobile and Multimedia Networks (WoWMoM).

[19]  Erik G. Larsson,et al.  Spectrum Sensing for Cognitive Radio : State-of-the-Art and Recent Advances , 2012, IEEE Signal Processing Magazine.

[20]  Amr M. Youssef,et al.  Ultra-Dense Networks: A Survey , 2016, IEEE Communications Surveys & Tutorials.

[21]  Marwan Krunz,et al.  TSRA: An Adaptive Mechanism for Switching between Communication Modes in Full-Duplex Opportunistic Spectrum Access Systems , 2017, IEEE Transactions on Mobile Computing.

[22]  Zhu Han,et al.  Dogfight in Spectrum: Combating Primary User Emulation Attacks in Cognitive Radio Systems—Part II: Unknown Channel Statistics , 2010, IEEE Transactions on Wireless Communications.

[23]  Hans-Jürgen Zepernick,et al.  On Capacity of Full-Duplex Cognitive Cooperative Radio Networks with Optimal Power Allocation , 2017, 2017 IEEE Wireless Communications and Networking Conference (WCNC).

[24]  Xiaohuan Li,et al.  Adaptive Weighted Sensing With Simultaneous Transmission for Dynamic Primary User Traffic , 2017, IEEE Transactions on Communications.

[25]  M. Nandhini,et al.  Full Duplex Relay Based Cognitive Radio System with Physical Layer Network Coding , 2015, Wirel. Pers. Commun..

[26]  Ahmed E. Kamal,et al.  Hybrid Energy Harvesting-Based Cooperative Spectrum Sensing and Access in Heterogeneous Cognitive Radio Networks , 2017, IEEE Transactions on Cognitive Communications and Networking.

[27]  Kenneth N. Brown,et al.  Optimised QoS-Aware DBA Mechanisms in XG-PON for Upstream Traffic in LTE Backhaul , 2016, 2016 IEEE 4th International Conference on Future Internet of Things and Cloud Workshops (FiCloudW).

[28]  Amir K. Khandani,et al.  Two-way (true full-duplex) wireless , 2013, 2013 13th Canadian Workshop on Information Theory.

[29]  Pei Liu,et al.  Full duplex cellular systems: will doubling interference prevent doubling capacity? , 2015, IEEE Communications Magazine.

[30]  Oliver Holland Some Are Born With White Space, Some Achieve White Space, and Some Have White Space Thrust Upon Them , 2016, IEEE Transactions on Cognitive Communications and Networking.

[31]  Andrea J. Goldsmith,et al.  Breaking Spectrum Gridlock With Cognitive Radios: An Information Theoretic Perspective , 2009, Proceedings of the IEEE.

[32]  Dinan Gunawardena,et al.  Rethinking Indoor Wireless Mesh Design: Low Power, Low Frequency, Full-Duplex , 2010, 2010 Fifth IEEE Workshop on Wireless Mesh Networks.

[33]  Dusit Niyato,et al.  Competitive spectrum sharing in cognitive radio networks: a dynamic game approach , 2008, IEEE Transactions on Wireless Communications.

[34]  Jing Wang,et al.  Relay Opportunistic Spectrum Sharing Based on the Full‐Duplex Transceiver , 2015, IEEE Transactions on Vehicular Technology.

[35]  A. Shami,et al.  RPR-EPON-WiMAX hybrid network: A solution for access and metro networks , 2012, IEEE/OSA Journal of Optical Communications and Networking.

[36]  Martin Maier,et al.  Erratum to "A genetic algorithm-based methodology for optimizing multiservice convergence in a metro WDM network" , 2003 .

[37]  Ian F. Akyildiz,et al.  A survey on spectrum management in cognitive radio networks , 2008, IEEE Communications Magazine.

[38]  Shiwen Mao,et al.  Power Control in Full Duplex Underlay Cognitive Radio Networks: A Control Theoretic Approach , 2014, 2014 IEEE Military Communications Conference.

[39]  Lajos Hanzo,et al.  Cooperative Overlay Spectrum Access in Cognitive Radio Networks , 2017, IEEE Communications Surveys & Tutorials.

[40]  Tao Jiang,et al.  Duplex mode selection and channel allocation for full-duplex cognitive femtocell networks , 2015, 2015 IEEE Wireless Communications and Networking Conference (WCNC).

[41]  Symeon Chatzinotas,et al.  Application of Compressive Sensing in Cognitive Radio Communications: A Survey , 2016, IEEE Communications Surveys & Tutorials.

[42]  Mihaela van der Schaar,et al.  Spectrum Access Games and Strategic Learning in Cognitive Radio Networks for Delay-Critical Applications , 2009, Proceedings of the IEEE.

[43]  Ashutosh Sabharwal,et al.  Experiment-Driven Characterization of Full-Duplex Wireless Systems , 2011, IEEE Transactions on Wireless Communications.

[44]  Gianmarco Baldini,et al.  Security Aspects in Software Defined Radio and Cognitive Radio Networks: A Survey and A Way Ahead , 2012, IEEE Communications Surveys & Tutorials.

[45]  Bo Gao,et al.  An Overview of Dynamic Spectrum Sharing: Ongoing Initiatives, Challenges, and a Roadmap for Future Research , 2016, IEEE Transactions on Cognitive Communications and Networking.

[46]  Alexander M. Wyglinski,et al.  A Spectrum Surveying Framework for Dynamic Spectrum Access Networks , 2009, IEEE Transactions on Vehicular Technology.

[47]  Taneli Riihonen,et al.  Energy detection in full-duplex cognitive radios under residual self-interference , 2014, 2014 9th International Conference on Cognitive Radio Oriented Wireless Networks and Communications (CROWNCOM).

[48]  Dharma P. Agrawal,et al.  A framework for statistical wireless spectrum occupancy modeling , 2010, IEEE Transactions on Wireless Communications.

[49]  Ahmed El Shafie,et al.  Energy-efficient cooperative relaying protocol for full-duplex cognitive radio users and delay-aware primary users , 2015, 2015 International Conference on Computing, Networking and Communications (ICNC).

[50]  F AkyildizIan,et al.  NeXt generation/dynamic spectrum access/cognitive radio wireless networks , 2006 .

[51]  Mahmoud Al-Ayyoub,et al.  Software Defined Cognitive Radio Network Framework: Design and Evaluation , 2015, Int. J. Grid High Perform. Comput..

[52]  Wolfgang Kellerer,et al.  Control Plane Latency With SDN Network Hypervisors: The Cost of Virtualization , 2016, IEEE Transactions on Network and Service Management.

[53]  Yu Gong,et al.  Physical Layer Network Security in the Full-Duplex Relay System , 2015, IEEE Transactions on Information Forensics and Security.

[54]  Alagan Anpalagan,et al.  Decision-Theoretic Distributed Channel Selection for Opportunistic Spectrum Access: Strategies, Challenges and Solutions , 2013, IEEE Communications Surveys & Tutorials.

[55]  S. Venkatesan,et al.  A Full Duplex Multi-channel MAC Protocol for Multi-hop Cognitive Radio Networks , 2006, 2006 1st International Conference on Cognitive Radio Oriented Wireless Networks and Communications.

[56]  Sachin Katti,et al.  Full duplex radios , 2013, SIGCOMM.

[57]  Zhu Han,et al.  Listen-and-talk: Full-duplex cognitive radio networks , 2014, 2014 IEEE Global Communications Conference.

[58]  Tho Le-Ngoc,et al.  Self-interference pricing for Full-Duplex MIMO systems , 2013, 2013 IEEE Global Communications Conference (GLOBECOM).

[59]  Ian F. Akyildiz,et al.  Spectrum-Aware Mobility Management in Cognitive Radio Cellular Networks , 2012, IEEE Transactions on Mobile Computing.

[60]  Haythem Bany Salameh,et al.  A routing scheme for Cognitive Radio networks with Self-Interference Suppression capabilities , 2017, 2017 Fourth International Conference on Software Defined Systems (SDS).

[61]  Hien Quoc Ngo,et al.  Secure full-duplex small-cell networks in a spectrum sharing environment , 2016, IEEE Access.

[62]  Tao Huang,et al.  Delay minimization by exploring full-duplex capacity and relay-based cooperative scheduling in WLANs , 2014, J. Netw. Comput. Appl..

[63]  Luca De Nardis,et al.  Non-cooperative and Cooperative Spectrum Sensing in 5G Cognitive Networks , 2017 .

[64]  Sampath Rangarajan,et al.  The case for antenna cancellation for scalable full-duplex wireless communications , 2011, HotNets-X.

[65]  Kang G. Shin,et al.  Cognitive radios for dynamic spectrum access: from concept to reality , 2010, IEEE Wireless Communications.

[66]  P.D.L. Beasley,et al.  Solving the problems of a single antenna frequency modulated CW radar , 1990, IEEE International Conference on Radar.

[67]  Joonhyuk Kang,et al.  Cooperative spectrum sensing in non-time-slotted full duplex cognitive radio networks , 2016, 2016 13th IEEE Annual Consumer Communications & Networking Conference (CCNC).

[68]  Ivan Seskar,et al.  Design and implementation of an underlay control channel for NC-OFDM-based networks , 2016, 2016 Annual Conference on Information Science and Systems (CISS).

[69]  K. J. Ray Liu,et al.  Advances in Energy Harvesting Communications: Past, Present, and Future Challenges , 2016, IEEE Communications Surveys & Tutorials.

[70]  Ashutosh Sabharwal,et al.  Full-duplex wireless communications using off-the-shelf radios: Feasibility and first results , 2010, 2010 Conference Record of the Forty Fourth Asilomar Conference on Signals, Systems and Computers.

[71]  Matti Latva-aho,et al.  On the Spectral Efficiency of Full-Duplex Small Cell Wireless Systems , 2014, IEEE Transactions on Wireless Communications.

[72]  Mats Bengtsson,et al.  Virtual full-duplex buffer-aided relaying — Relay selection and beamforming , 2013, 2013 IEEE 24th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC).

[73]  Lingyang Song,et al.  X-Duplex: Adapting of Full-Duplex and Half-Duplex , 2015, 2015 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS).

[74]  Alexandros G. Fragkiadakis,et al.  A Survey on Security Threats and Detection Techniques in Cognitive Radio Networks , 2013, IEEE Communications Surveys & Tutorials.

[75]  Ding Xu,et al.  Resource allocation in underlay cognitive radio networks with full‐duplex cognitive base station , 2017, Int. J. Commun. Syst..

[76]  Insoo Koo,et al.  Throughput maximisation by optimising detection thresholds in full-duplex cognitive radio networks , 2016, IET Commun..

[77]  N. K. Shankaranarayanan,et al.  Design and Characterization of a Full-Duplex Multiantenna System for WiFi Networks , 2012, IEEE Transactions on Vehicular Technology.

[78]  Martin Reisslein,et al.  White space , 2016 .

[79]  Danda B. Rawat,et al.  Advances on Security Threats and Countermeasures for Cognitive Radio Networks: A Survey , 2015, IEEE Communications Surveys & Tutorials.

[80]  H. Vincent Poor,et al.  Power Splitting-Based SWIPT With Decode-and-Forward Full-Duplex Relaying , 2016, IEEE Transactions on Wireless Communications.

[81]  Zhi Chen,et al.  Optimal power allocation for AF full-duplex relay in cognitive radio networks , 2013, 2013 IEEE Globecom Workshops (GC Wkshps).

[82]  Dongkyu Kim,et al.  Bidirectional Full-Duplex Systems in a Multispectrum Environment , 2015, IEEE Transactions on Vehicular Technology.

[83]  Brian M. Sadler,et al.  A Survey of Dynamic Spectrum Access , 2007, IEEE Signal Processing Magazine.

[84]  Risto Wichman,et al.  In-Band Full-Duplex Wireless: Challenges and Opportunities , 2013, IEEE Journal on Selected Areas in Communications.

[85]  Dongkyu Kim,et al.  A Survey of In-Band Full-Duplex Transmission: From the Perspective of PHY and MAC Layers , 2015, IEEE Communications Surveys & Tutorials.

[86]  Hyungsik Ju,et al.  Optimal Resource Allocation in Full-Duplex Wireless-Powered Communication Network , 2014, IEEE Transactions on Communications.

[87]  Bongyong Song,et al.  Digitally Controlled Analog Wideband Interference Cancellation for In-Device Spectrum Sharing and Aggregation , 2016, IEEE Journal on Selected Areas in Communications.

[88]  M. H. Rehmani,et al.  White space : De fi nitional perspectives and their role in exploiting spectrum opportunities , 2016 .

[89]  Chen Zhang,et al.  A Survey on Large-Scale Software Defined Networking (SDN) Testbeds: Approaches and Challenges , 2017, IEEE Communications Surveys & Tutorials.

[90]  Frank J. Effenberger,et al.  Mobile-PON: A high-efficiency low-latency mobile fronthaul based on functional split and TDM-PON with a unified scheduler , 2017, 2017 Optical Fiber Communications Conference and Exhibition (OFC).

[91]  Lingyang Song,et al.  Robust cooperative spectrum sensing in full-duplex cognitive radio networks , 2015, 2015 Seventh International Conference on Ubiquitous and Future Networks.

[92]  Alex B. Gershman,et al.  Training-based MIMO channel estimation: a study of estimator tradeoffs and optimal training signals , 2006, IEEE Transactions on Signal Processing.

[93]  Martin Reisslein,et al.  FiWi Access Networks Based on Next-Generation PON and Gigabit-Class WLAN Technologies: A Capacity and Delay Analysis , 2014, IEEE/ACM Transactions on Networking.

[94]  Lingyang Song,et al.  Cooperative spectrum sensing for full-duplex cognitive radio networks , 2014, 2014 IEEE International Conference on Communication Systems.

[95]  Walaa Hamouda,et al.  Advances on Spectrum Sensing for Cognitive Radio Networks: Theory and Applications , 2017, IEEE Communications Surveys & Tutorials.

[96]  Petros Nicopolitidis,et al.  Architectures and Bandwidth Allocation Schemes for Hybrid Wireless-Optical Networks , 2015, IEEE Communications Surveys & Tutorials.

[97]  Frank H. P. Fitzek,et al.  Network Coding in Heterogeneous Multicore IoT Nodes With DAG Scheduling of Parallel Matrix Block Operations , 2017, IEEE Internet of Things Journal.

[98]  M. Reisslein,et al.  Offline and Online Multi-Thread Polling in Long-Reach PONs: A Critical Evaluation , 2013, Journal of Lightwave Technology.

[99]  Lei Ying,et al.  Power control and relay selection in Full-Duplex Cognitive Relay Networks: Coherent versus non-coherent scenarios , 2017, 2017 51st Annual Conference on Information Sciences and Systems (CISS).

[100]  Xuemin Shen,et al.  HC-MAC: A Hardware-Constrained Cognitive MAC for Efficient Spectrum Management , 2008, IEEE Journal on Selected Areas in Communications.

[101]  Long Bao Le,et al.  Design and Optimal Configuration of Full-Duplex MAC Protocol for Cognitive Radio Networks Considering Self-Interference , 2015, IEEE Access.

[102]  Ian F. Akyildiz,et al.  Primary User Activity Modeling Using First-Difference Filter Clustering and Correlation in Cognitive Radio Networks , 2011, IEEE/ACM Transactions on Networking.

[103]  Akihiro Nakao,et al.  AMPHIBIA: A Cognitive Virtualization Platform for End-to-End Slicing , 2011, 2011 IEEE International Conference on Communications (ICC).

[104]  Mohamed-Slim Alouini,et al.  Instantly Decodable Network Coding: From Centralized to Device-to-Device Communications , 2017, IEEE Communications Surveys & Tutorials.

[105]  Haiyan Cao,et al.  Performance Analysis for Opportunistic Full-Duplex Relay Selection in Underlay Cognitive Networks , 2015, IEEE Transactions on Vehicular Technology.

[106]  Yasir Saleem,et al.  SMART: A SpectruM-Aware ClusteR-based rouTing scheme for distributed cognitive radio networks , 2015, Comput. Networks.

[107]  Maria C. Yuang,et al.  Toward Wireless Backhaul Using Circuit Emulation Over Optical Packet-Switched Metro WDM Ring Network , 2013, Journal of Lightwave Technology.

[108]  Chunyan Feng,et al.  Advances on Exploiting Polarization in Wireless Communications: Channels, Technologies, and Applications , 2017, IEEE Communications Surveys & Tutorials.

[109]  Anant Sahai,et al.  What is a Spectrum Hole and What Does it Take to Recognize One? , 2009, Proceedings of the IEEE.

[110]  Zhu Han,et al.  Listen-and-Talk: Protocol Design and Analysis for Full-Duplex Cognitive Radio Networks , 2016, IEEE Transactions on Vehicular Technology.

[111]  George K. Karagiannidis,et al.  Full-duplex spectrum sharing in cooperative single carrier systems , 2015, WCNC.

[112]  Taneli Riihonen,et al.  Adaptive self-interference cancellation in wideband full-duplex decode-and-forward MIMO relays , 2013, 2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications (SPAWC).

[113]  Xiqi Gao,et al.  Cellular architecture and key technologies for 5G wireless communication networks , 2014, IEEE Communications Magazine.

[114]  Yiming Ma,et al.  A Method for Broadband Full-Duplex MIMO Radio , 2012, IEEE Signal Processing Letters.

[115]  Martin Reisslein,et al.  Requirements, Design Challenges, and Review of Routing and MAC Protocols for CR-Based Smart Grid Systems , 2017, IEEE Communications Magazine.

[116]  Björn E. Ottersten,et al.  Full-Duplex Cooperative Cognitive Radio with Transmit Imperfections , 2013, IEEE Transactions on Wireless Communications.

[117]  Ian F. Akyildiz,et al.  CRAHNs: Cognitive radio ad hoc networks , 2009, Ad Hoc Networks.

[118]  Theodore S. Rappaport,et al.  Millimeter Wave Mobile Communications for 5G Cellular: It Will Work! , 2013, IEEE Access.

[119]  Attahiru Sule Alfa,et al.  Decentralized channel assignment and power allocation in a full-duplex Cognitive radio network , 2016, 2016 13th IEEE Annual Consumer Communications & Networking Conference (CCNC).

[120]  Daesik Hong,et al.  Optimal Power Allocation and Outage Analysis for Cognitive Full Duplex Relay Systems , 2012, IEEE Transactions on Wireless Communications.

[121]  Mikko Valkama,et al.  Simultaneous Transmission and Spectrum Sensing in OFDM Systems Using Full-Duplex Radios , 2015, 2015 IEEE 82nd Vehicular Technology Conference (VTC2015-Fall).

[122]  Fabrizio Granelli,et al.  Standardization and research in cognitive and dynamic spectrum access networks: IEEE SCC41 efforts and other activities , 2010, IEEE Communications Magazine.

[123]  Lingyang Song,et al.  GRT-duplex: A Novel SDR Platform for Full-Duplex WiFi , 2016, Mob. Networks Appl..

[124]  Andrei V. Gurtov,et al.  Implementation of OpenFlow based cognitive radio network architecture: SDN&R , 2016, Wirel. Networks.

[125]  C. Cordeiro,et al.  IEEE 802.22: the first worldwide wireless standard based on cognitive radios , 2005, First IEEE International Symposium on New Frontiers in Dynamic Spectrum Access Networks, 2005. DySPAN 2005..

[126]  Hüseyin Arslan,et al.  A survey of spectrum sensing algorithms for cognitive radio applications , 2009, IEEE Communications Surveys & Tutorials.

[127]  Jong-Ho Lee,et al.  Full-Duplex Relay for Enhancing Physical Layer Security in Multi-Hop Relaying Systems , 2015, IEEE Communications Letters.

[128]  Tao Zhang,et al.  Physical-Layer Security for Full Duplex Communications With Self-Interference Mitigation , 2016, IEEE Transactions on Wireless Communications.

[129]  Mubashir Husain Rehmani,et al.  Network Coding in Cognitive Radio Networks: A Comprehensive Survey , 2017, IEEE Communications Surveys & Tutorials.

[130]  Jinho Choi,et al.  Non-Orthogonal Multiple Access in Downlink Coordinated Two-Point Systems , 2014, IEEE Communications Letters.

[131]  Nael B. Abu-Ghazaleh,et al.  Wireless Software Defined Networking: A Survey and Taxonomy , 2016, IEEE Communications Surveys & Tutorials.

[132]  Haitao Li,et al.  On the performance of full duplex cognitive anti-jamming receiver impaired by phase noise , 2015, 2015 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC).

[133]  Philip Schniter,et al.  Full-Duplex MIMO Relaying: Achievable Rates Under Limited Dynamic Range , 2011, IEEE Journal on Selected Areas in Communications.

[134]  Xiang Cheng,et al.  Graph Coloring Based Resource Sharing (GCRS) Scheme for D2D Communications Underlaying Full-Duplex Cellular Networks , 2017, IEEE Transactions on Vehicular Technology.

[135]  Matti Latva-aho,et al.  On the performance of cognitive full-duplex relaying under spectrum sharing constraints , 2015, EURASIP J. Wirel. Commun. Netw..

[136]  Biswanath Mukherjee,et al.  EPON protocol over coax (EPoC): overview and design issues from a MAC layer perspective? , 2013, IEEE Communications Magazine.

[137]  Long Bao Le,et al.  Multi-channel MAC protocol for full-duplex cognitive radio networks with optimized access control and load balancing , 2016, 2016 IEEE International Conference on Communications (ICC).

[138]  Zhu Han,et al.  Decentralized dynamic spectrum access in full-duplex cognitive radio networks , 2015, 2015 IEEE International Conference on Communications (ICC).

[139]  Sachin Katti,et al.  Full Duplex MIMO Radios , 2014, NSDI.

[140]  Long D. Nguyen,et al.  Outage probability of full-duplex cognitive relay networks with partial relay selection , 2017, 2017 International Conference on Recent Advances in Signal Processing, Telecommunications & Computing (SigTelCom).

[141]  Alexios Balatsoukas-Stimming,et al.  Sliding Window Spectrum Sensing for Full-Duplex Cognitive Radios with Low Access-Latency , 2016, 2016 IEEE 83rd Vehicular Technology Conference (VTC Spring).

[142]  Özgür B. Akan,et al.  Cognitive radio sensor networks , 2009, IEEE Network.

[143]  Walaa Hamouda,et al.  Resource Allocation for Underlay Cognitive Radio Networks: A Survey , 2017, IEEE Communications Surveys & Tutorials.

[144]  Marwan Krunz,et al.  Incorporating Self-Interference Suppression for Full-duplex Operation in Opportunistic Spectrum Access Systems , 2015, IEEE Transactions on Wireless Communications.

[145]  Adam Wolisz,et al.  A hybrid MAC protocol for a metro WDM network using multiple free spectral ranges of an arrayed-waveguide grating , 2003, Comput. Networks.

[146]  Xi Zhang,et al.  Full duplex spectrum sensing in non-time-slotted cognitive radio networks , 2011, 2011 - MILCOM 2011 Military Communications Conference.

[147]  Yasir Saleem,et al.  A survey on network coding: From traditional wireless networks to emerging cognitive radio networks , 2014, J. Netw. Comput. Appl..

[148]  Trung Q. Duong,et al.  Cognitive full-duplex relay networks under the peak interference power constraint of multiple primary users , 2017, EURASIP J. Wirel. Commun. Netw..

[149]  Rui Zhang,et al.  Full-duplex cooperative cognitive radio networks with wireless energy harvesting , 2017, 2017 IEEE International Conference on Communications (ICC).

[150]  Yonghong Zeng,et al.  Eigenvalue-based spectrum sensing algorithms for cognitive radio , 2008, IEEE Transactions on Communications.

[151]  Marko Höyhtyä,et al.  Spectrum Occupancy Measurements: A Survey and Use of Interference Maps , 2016, IEEE Communications Surveys & Tutorials.

[152]  Ayaz Ahmad,et al.  Broadcasting strategies for cognitive radio networks: Taxonomy, issues, and open challenges , 2016, Comput. Electr. Eng..

[153]  Ananthram Swami,et al.  Decentralized cognitive MAC for opportunistic spectrum access in ad hoc networks: A POMDP framework , 2007, IEEE Journal on Selected Areas in Communications.

[154]  Sampath Rangarajan,et al.  MIDU: enabling MIMO full duplex , 2012, Mobicom '12.

[155]  Philip Levis,et al.  Practical, real-time, full duplex wireless , 2011, MobiCom.

[156]  Carlo Cavazzoni,et al.  Comprehensive Survey on T-SDN: Software-Defined Networking for Transport Networks , 2017, IEEE Communications Surveys & Tutorials.

[157]  Jeffrey G. Andrews,et al.  Femtocell networks: a survey , 2008, IEEE Communications Magazine.

[158]  Daesik Hong,et al.  Power allocation and outage probability analysis for secondary users in cognitive full duplex relay systems , 2012, 2012 IEEE 13th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC).

[159]  Luiz A. DaSilva,et al.  Radar, TV and Cellular Bands: Which Spectrum Access Techniques for Which Bands? , 2014, IEEE Communications Surveys & Tutorials.

[160]  Sudharman K. Jayaweera,et al.  A Survey on Machine-Learning Techniques in Cognitive Radios , 2013, IEEE Communications Surveys & Tutorials.

[161]  Simon Haykin,et al.  Spectrum Sensing for Cognitive Radio , 2009, Proceedings of the IEEE.

[162]  Mohamed Deriche,et al.  Unveiling the Hidden Assumptions of Energy Detector Based Spectrum Sensing for Cognitive Radios , 2014, IEEE Communications Surveys & Tutorials.

[163]  Zhi Chen,et al.  Non-cooperative cross-channel gain estimation using full-duplex amplify-and-forward relaying in cognitive radio networks , 2016, 2016 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP).

[164]  H. Vincent Poor,et al.  Cognitive Medium Access: Exploration, Exploitation, and Competition , 2007, IEEE Transactions on Mobile Computing.

[165]  Victor C. M. Leung,et al.  In-Band Full-Duplex Relaying: A Survey, Research Issues and Challenges , 2015, IEEE Communications Surveys & Tutorials.

[166]  K. Kondepu,et al.  An SDN-based integration of green TWDM-PONs and metro networks preserving end-to-end delay , 2015, 2015 Optical Fiber Communications Conference and Exhibition (OFC).

[167]  Gee-Kung Chang,et al.  Flex-frame timing-critical passive optical networks for delay sensitive mobile and fixed access services , 2017, 2017 Optical Fiber Communications Conference and Exhibition (OFC).

[168]  Martin Reisslein,et al.  Upstream Polling Protocols for Flow Control in PON/xDSL Hybrid Access Networks , 2015, IEEE Transactions on Communications.

[169]  Timothy J. O'Shea,et al.  Applications of Machine Learning to Cognitive Radio Networks , 2007, IEEE Wireless Communications.

[170]  Hanif D. Sherali,et al.  Spectrum Sharing for Multi-Hop Networking with Cognitive Radios , 2008, IEEE Journal on Selected Areas in Communications.

[171]  Lingyang Song,et al.  Full-Duplex Communications and Networks , 2017 .

[172]  Amir Ghasemi,et al.  Fundamental limits of spectrum-sharing in fading environments , 2007, IEEE Transactions on Wireless Communications.

[173]  Mohamed-Slim Alouini,et al.  Full-Duplex opportunistic relay selection in future spectrum-sharing networks , 2015, 2015 IEEE International Conference on Communication Workshop (ICCW).

[174]  Feng Zhao,et al.  Outage performance of relay-assisted transmissions in cognitive full-duplex relay networks , 2015, EURASIP J. Wirel. Commun. Netw..

[175]  Haitao Li,et al.  Resource allocation for full duplex based cognitive radio network , 2012, Proceedings of 2012 2nd International Conference on Computer Science and Network Technology.

[176]  Tamer A. ElBatt,et al.  Full-duplex cooperative cognitive radio networks , 2015, 2015 13th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt).

[177]  Youngchul Sung,et al.  Superposition data transmission for cognitive radios: Performance and algorithms , 2008, MILCOM 2008 - 2008 IEEE Military Communications Conference.

[178]  F. Richard Yu,et al.  Wireless Network Virtualization: A Survey, Some Research Issues and Challenges , 2015, IEEE Communications Surveys & Tutorials.

[179]  Taneli Riihonen,et al.  Full-duplex amplify-and-forward relays with optimized transmission power under imperfect transceiver electronics , 2017, EURASIP J. Wirel. Commun. Netw..

[180]  Taneli Riihonen,et al.  Advanced self-interference cancellation and multiantenna techniques for full-duplex radios , 2013, 2013 Asilomar Conference on Signals, Systems and Computers.

[181]  Sherali Zeadally,et al.  Spectrum Assignment in Cognitive Radio Networks: A Comprehensive Survey , 2013, IEEE Communications Surveys & Tutorials.

[182]  Jianfeng Wang,et al.  Emerging cognitive radio applications: A survey , 2011, IEEE Communications Magazine.

[183]  Zhu Han,et al.  Full duplex cognitive radio: a new design paradigm for enhancing spectrum usage , 2015, IEEE Communications Magazine.

[184]  Günes Karabulut-Kurt,et al.  A tutorial on network coded cooperation , 2016, IEEE Communications Surveys & Tutorials.

[185]  Hiroshi Harada,et al.  Implementation of TV white space coexistence system based on IEEE 802.19.1 standard , 2015, 2015 IEEE Conference on Standards for Communications and Networking (CSCN).

[186]  H. T. Mouftah,et al.  Bandwidth Distribution Solutions for Performance Enhancement in Long-Reach Passive Optical Networks , 2012, IEEE Communications Surveys & Tutorials.

[187]  Athanasios V. Vasilakos,et al.  Full-Duplex Wireless Communications: Challenges, Solutions, and Future Research Directions , 2016, Proceedings of the IEEE.

[188]  Hiroshi Harada,et al.  IEEE Standard 802.19.1 for TV white space coexis tence , 2016, IEEE Communications Magazine.

[189]  S. Malarvizhi,et al.  Wide Band Full Duplex Spectrum Sensing with Self-Interference Cancellation–An Efficient SDR Implementation , 2017, Mob. Networks Appl..

[190]  E. Ahmed,et al.  Simultaneous transmit and sense for cognitive radios using full-duplex: A first study , 2012, Proceedings of the 2012 IEEE International Symposium on Antennas and Propagation.

[191]  Danda B. Rawat,et al.  Software Defined Networking Architecture, Security and Energy Efficiency: A Survey , 2017, IEEE Communications Surveys & Tutorials.

[192]  Philip Levis,et al.  Achieving single channel, full duplex wireless communication , 2010, MobiCom.

[193]  Rong Zheng,et al.  Full-duplex spectrum sensing and access in cognitive radio networks with unknown primary user activities , 2016, 2016 IEEE International Conference on Communications (ICC).

[194]  Abbas Jamalipour,et al.  Wireless communications , 2005, GLOBECOM '05. IEEE Global Telecommunications Conference, 2005..

[195]  Magnos Martinello,et al.  A Survey on SDN Programming Languages: Toward a Taxonomy , 2016, IEEE Communications Surveys & Tutorials.

[196]  Jim Esch,et al.  A Survey of Security Challenges in Cognitive Radio Networks: Solutions and Future Research Directions , 2012, Proc. IEEE.

[197]  Matti Latva-aho,et al.  An Adaptive Transmission Scheme for Cognitive Decode-and-Forward Relaying Networks: Half Duplex, Full Duplex, or No Cooperation , 2016, IEEE Transactions on Wireless Communications.

[198]  Kai-Kit Wong,et al.  Optimizing DF Cognitive Radio Networks With Full-Duplex-Enabled Energy Access Points , 2016, IEEE Transactions on Wireless Communications.

[199]  Shiwen Mao,et al.  On power control in full duplex underlay cognitive radio networks , 2016, Ad Hoc Networks.

[200]  Tharmalingam Ratnarajah,et al.  Transceiver Design in Full-Duplex MIMO Cognitive Radios Under Channel Uncertainties , 2016, IEEE Transactions on Cognitive Communications and Networking.

[201]  Yue Rong,et al.  MSE-Based Transceiver Designs for Full-Duplex MIMO Cognitive Radios , 2015, IEEE Transactions on Communications.

[202]  George K. Karagiannidis,et al.  Spectrum Sensing in Full-Duplex Cognitive Radio Networks Under Hardware Imperfections , 2017, IEEE Transactions on Vehicular Technology.

[203]  Pei Liu,et al.  Full Duplex Operation for Small Cells , 2014, ArXiv.

[204]  Anna Brunstrom,et al.  SDN/NFV-Based Mobile Packet Core Network Architectures: A Survey , 2017, IEEE Communications Surveys & Tutorials.

[205]  Moshe T. Masonta,et al.  Spectrum Decision in Cognitive Radio Networks: A Survey , 2013, IEEE Communications Surveys & Tutorials.

[206]  Mikko Valkama,et al.  Coexistence of LTE and WLAN in Unlicensed Bands: Full-Duplex Spectrum Sensing , 2015, CrownCom.

[207]  Dan Kreiser,et al.  Collision-free full-duplex UWB communication based on the Standard IEEE.802.15.4a , 2015, 2015 IEEE Wireless Communications and Networking Conference Workshops (WCNCW).

[208]  Marivi Higuero,et al.  A Survey on the Contributions of Software-Defined Networking to Traffic Engineering , 2017, IEEE Communications Surveys & Tutorials.

[209]  Valentin Rakovic,et al.  Medium Access Control Protocols in Cognitive Radio Networks: Overview and General Classification , 2014, IEEE Communications Surveys & Tutorials.

[210]  Shlomo Shamai,et al.  Full-Duplex Cloud Radio Access Networks: An Information-Theoretic Viewpoint , 2014, IEEE Wireless Communications Letters.

[211]  Michel Fattouche,et al.  Novel spectrum sensing scheme in cognitive radio by simultaneously sensing/transmitting at full-duplex Tx and BER measurements at Rx , 2014, 2014 IEEE 25th Annual International Symposium on Personal, Indoor, and Mobile Radio Communication (PIMRC).

[212]  Athanasios V. Vasilakos,et al.  Routing Metrics of Cognitive Radio Networks: A Survey , 2014, IEEE Communications Surveys & Tutorials.

[213]  Ashutosh Sabharwal,et al.  Empowering full-duplex wireless communication by exploiting directional diversity , 2011, 2011 Conference Record of the Forty Fifth Asilomar Conference on Signals, Systems and Computers (ASILOMAR).

[214]  Martin Reisslein,et al.  SDN-Based Smart Gateways (Sm-GWs) for Multi-Operator Small Cell Network Management , 2016, IEEE Transactions on Network and Service Management.

[215]  Martin Reisslein,et al.  Performance Comparison of R-PHY and R-MACPHY Modular Cable Access Network Architectures , 2018, IEEE Transactions on Broadcasting.

[216]  Wolfgang Kellerer,et al.  Survey on Network Virtualization Hypervisors for Software Defined Networking , 2015, IEEE Communications Surveys & Tutorials.

[217]  Chen Sun,et al.  IEEE 1900.6: spectrum sensing interfaces and data structures for dynamic spectrum access and other advanced radio communication systems standard: technical aspects and future outlook , 2011, IEEE Communications Magazine.

[218]  Ying-Chang Liang,et al.  Exploiting Multi-Antennas for Opportunistic Spectrum Sharing in Cognitive Radio Networks , 2007, IEEE Journal of Selected Topics in Signal Processing.

[219]  Lei Zhang,et al.  Virtual Full Duplex Wireless Broadcasting via Compressed Sensing , 2010, IEEE/ACM Transactions on Networking.

[220]  Xi Zhang,et al.  Full-duplex transmission in phy and mac layers for 5G mobile wireless networks , 2015, IEEE Wireless Communications.

[221]  Maria-Gabriella Di Benedetto,et al.  A Survey on MAC Strategies for Cognitive Radio Networks , 2012, IEEE Communications Surveys & Tutorials.

[222]  Symeon Chatzinotas,et al.  Cognitive Radio Techniques Under Practical Imperfections: A Survey , 2015, IEEE Communications Surveys & Tutorials.

[223]  Matti Latva-aho,et al.  Transmission strategies for full duplex multiuser MIMO systems , 2012, 2012 IEEE International Conference on Communications (ICC).

[224]  Ting Peng,et al.  Improved soft fusion-based cooperative spectrum sensing defense against SSDF attacks , 2016, 2016 International Conference on Computer, Information and Telecommunication Systems (CITS).

[225]  Li Sun,et al.  Secure Secondary Communications with Curious Primary Users in Cognitive Underlay Networks , 2016, 2016 IEEE 83rd Vehicular Technology Conference (VTC Spring).

[226]  M. E. Knox,et al.  Single antenna full duplex communications using a common carrier , 2012, WAMICON 2012 IEEE Wireless & Microwave Technology Conference.

[227]  Yu Gong,et al.  Dual Antenna Selection in Secure Cognitive Radio Networks , 2016, IEEE Transactions on Vehicular Technology.

[228]  Taneli Riihonen,et al.  Residual self-interference in full-duplex MIMO relays after null-space projection and cancellation , 2010, 2010 Conference Record of the Forty Fourth Asilomar Conference on Signals, Systems and Computers.

[229]  Lei Zhang,et al.  Virtual full-duplex wireless communication via rapid on-off-division duplex , 2010, 2010 48th Annual Allerton Conference on Communication, Control, and Computing (Allerton).

[230]  Nirwan Ansari,et al.  On Green-Energy-Powered Cognitive Radio Networks , 2014, IEEE Communications Surveys & Tutorials.

[231]  Jong-Ho Lee,et al.  Full-Duplex Relay based on Zero-Forcing Beamforming , 2011, IEICE Trans. Commun..

[232]  Sonia Aïssa,et al.  Full-duplex cognitive radio with packet fragmentation , 2014, 2014 IEEE Wireless Communications and Networking Conference (WCNC).

[233]  Jean-François Frigon,et al.  Improving the Reliability of Wireless Networks Using Cognitive Radios , 2011, IEEE Communications Surveys & Tutorials.

[234]  Lingyang Song,et al.  Joint spectrum access and power allocation in full-duplex cognitive cellular networks , 2015, 2015 IEEE International Conference on Communications (ICC).

[235]  Hui-Ming Wang,et al.  On physical-layer security in underlay cognitive radio networks with full-duplex wireless-powered secondary system , 2016, IEEE Access.

[236]  James C. Yee,et al.  Understanding wirele ss LAN performance trade-offs , 2002 .

[237]  Paul R. Prucnal,et al.  Full-duplex spectrum sensing in cognitive radios using optical self-interference cancellation , 2015, 2015 9th International Conference on Sensing Technology (ICST).

[238]  Mohamed Grissa,et al.  Location Privacy in Cognitive Radio Networks: A Survey , 2017, IEEE Communications Surveys & Tutorials.

[239]  Yunfei Chen,et al.  A Survey of Measurement-Based Spectrum Occupancy Modeling for Cognitive Radios , 2016, IEEE Communications Surveys & Tutorials.

[240]  Mubashir Husain Rehmani,et al.  A Survey of Channel Bonding for Wireless Networks and Guidelines of Channel Bonding for Futuristic Cognitive Radio Sensor Networks , 2016, IEEE Communications Surveys & Tutorials.

[241]  Filip De Turck,et al.  Network Function Virtualization: State-of-the-Art and Research Challenges , 2015, IEEE Communications Surveys & Tutorials.

[242]  Mingxin Zhou,et al.  Transmit-Receive Antenna Pair Selection in Full Duplex Systems , 2014, IEEE Wireless Communications Letters.

[243]  Long Bao Le,et al.  Distributed MAC Protocol Design for Full-Duplex Cognitive Radio Networks , 2014, GLOBECOM 2014.

[244]  Chungyong Lee,et al.  Non-orthogonal Multiple Access in a Downlink Multiuser Beamforming System , 2013, MILCOM 2013 - 2013 IEEE Military Communications Conference.

[245]  Paul R. Prucnal,et al.  A photonic integrated circuit for full duplex spectrum monitoring in cognitive radio , 2015, 2015 IEEE Summer Topicals Meeting Series (SUM).

[246]  Zhu Han,et al.  Byzantine Attack and Defense in Cognitive Radio Networks: A Survey , 2015, IEEE Communications Surveys & Tutorials.

[247]  Ashutosh Sabharwal,et al.  Spatial Self-Interference Isolation for In-Band Full-Duplex Wireless: A Degrees-of-Freedom Analysis , 2015, ArXiv.

[248]  An He,et al.  A Survey of Artificial Intelligence for Cognitive Radios , 2010, IEEE Transactions on Vehicular Technology.

[249]  Chunyan Feng,et al.  Exploiting polarization to resist phase noise for digital self-interference cancellation in full-duplex , 2016, 2016 IEEE International Conference on Communications (ICC).

[250]  Ghanshyam Singh,et al.  An overview of spectrum sharing techniques in cognitive radio communication system , 2015, Wireless Networks.

[251]  Gerhard Fettweis,et al.  5GNOW: Challenging the LTE Design Paradigms of Orthogonality and Synchronicity , 2012, 2013 IEEE 77th Vehicular Technology Conference (VTC Spring).

[252]  Ming Xiao,et al.  Proactive Cross-Channel Gain Estimation for Spectrum Sharing in Cognitive Radio Networks , 2017, 2017 IEEE Wireless Communications and Networking Conference (WCNC).

[253]  Tracey Ho,et al.  A Random Linear Network Coding Approach to Multicast , 2006, IEEE Transactions on Information Theory.

[254]  Wolfgang Kellerer,et al.  Software Defined Optical Networks (SDONs): A Comprehensive Survey , 2015, IEEE Communications Surveys & Tutorials.

[255]  Zhu Han,et al.  Full-Duplex MAC Protocol Design and Analysis , 2015, IEEE Communications Letters.

[256]  Chau Yuen,et al.  Energy Efficiency Tradeoff Mechanism Towards Wireless Green Communication: A Survey , 2016, IEEE Communications Surveys & Tutorials.

[257]  Marwan Krunz,et al.  Adaptive transmission-reception-sensing strategy for cognitive radios with full-duplex capabilities , 2014, 2014 IEEE International Symposium on Dynamic Spectrum Access Networks (DYSPAN).

[258]  Holger Claussen,et al.  Towards 1 Gbps/UE in Cellular Systems: Understanding Ultra-Dense Small Cell Deployments , 2015, IEEE Communications Surveys & Tutorials.

[259]  Philip Schniter,et al.  Full-duplex bidirectional MIMO: Achievable rates under limited dynamic range , 2011, 2011 Conference Record of the Forty Fifth Asilomar Conference on Signals, Systems and Computers (ASILOMAR).

[260]  Larry J. Greenstein,et al.  Propagation Issues for Cognitive Radio , 2009, Proceedings of the IEEE.

[261]  Lingyang Song,et al.  Flexible full-duplex cognitive radio networks by antenna reconfiguration , 2015, 2015 IEEE/CIC International Conference on Communications in China (ICCC).

[262]  Mohamed-Slim Alouini,et al.  Underlay Spectrum Sharing Techniques With In-Band Full-Duplex Systems Using Improper Gaussian Signaling , 2016, IEEE Transactions on Wireless Communications.

[263]  Jörg Widmer,et al.  Network coding for efficient communication in extreme networks , 2005, WDTN '05.

[264]  S. J. Thiruvengadam,et al.  Performance analysis of OFDM based full duplex cognitive AF relay network in the presence of narrowband interference , 2015, 2015 IEEE International Conference on Signal Processing, Informatics, Communication and Energy Systems (SPICES).

[265]  Tao Zhang,et al.  Secure Multiantenna Cognitive Wiretap Networks , 2017, IEEE Transactions on Vehicular Technology.

[266]  Yasir Saleem,et al.  Primary radio user activity models for cognitive radio networks: A survey , 2014, J. Netw. Comput. Appl..

[267]  Ron Schneiderman TV White Space Standards Open New Markets , 2015 .

[268]  Ian F. Akyildiz,et al.  NeXt generation/dynamic spectrum access/cognitive radio wireless networks: A survey , 2006, Comput. Networks.

[269]  Martin Reisslein,et al.  Cognitive Radio for Smart Grids: Survey of Architectures, Spectrum Sensing Mechanisms, and Networking Protocols , 2016, IEEE Communications Surveys & Tutorials.

[270]  Tao Zhang,et al.  Secure Full-Duplex Spectrum-Sharing Wiretap Networks With Different Antenna Reception Schemes , 2017, IEEE Transactions on Communications.

[271]  Xi Zhang,et al.  Full-Duplex Spectrum-Sensing and MAC-Protocol for Multichannel Nontime-Slotted Cognitive Radio Networks , 2015, IEEE Journal on Selected Areas in Communications.

[272]  Lutz H.-J. Lampe,et al.  Full-duplex spectrum sensing in broadband power line communications , 2017, 2017 IEEE International Symposium on Power Line Communications and its Applications (ISPLC).

[273]  Wen-Long Chin,et al.  Standardization and Security for Smart Grid Communications Based on Cognitive Radio Technologies—A Comprehensive Survey , 2017, IEEE Communications Surveys & Tutorials.

[274]  Zhu Han,et al.  Full-Duplex Meets Multiuser MIMO: Comparisons and Analysis , 2017, IEEE Transactions on Vehicular Technology.

[275]  Dawei Wang,et al.  Optimal Power Allocation for Hybrid Overlay/Underlay Spectrum Sharing in Multiband Cognitive Radio Networks , 2013, IEEE Transactions on Vehicular Technology.

[276]  Miao Pan,et al.  Cognitive Capacity Harvesting Networks: Architectural Evolution Toward Future Cognitive Radio Networks , 2017, IEEE Communications Surveys & Tutorials.

[277]  Tharmalingam Ratnarajah,et al.  Robust Transceiver Design in Full-Duplex MIMO Cognitive Radios , 2016, IEEE Transactions on Vehicular Technology.

[278]  Hirley Alves,et al.  Brief survey on full-duplex relaying and its applications on 5G , 2015, 2015 IEEE 20th International Workshop on Computer Aided Modelling and Design of Communication Links and Networks (CAMAD).

[279]  Martin Haenggi,et al.  Stochastic Geometry for Modeling, Analysis, and Design of Multi-Tier and Cognitive Cellular Wireless Networks: A Survey , 2013, IEEE Communications Surveys & Tutorials.

[280]  Zhongding Lei,et al.  IEEE 802.22: The first cognitive radio wireless regional area network standard , 2009, IEEE Communications Magazine.

[281]  Sang-Woon Jeon,et al.  Fundamental Limits of Spectrum Sharing Full-Duplex Multicell Networks , 2016, IEEE Journal on Selected Areas in Communications.