Other Terms : Joint Radar Communications (JRC) / Joint Communication and Radar Sensing (JCAS) / Dual-Functional Radar Communications (DFRC)

Definition: A design paradigm and corresponding enabling technologies, in which sensing and comms systems are integrated to efficiently utilize congested wireless/hardware resources, and even to pursue mutual benefits.

Aims: include reproducible codes, good papers and a research libary.

Contributed by Yuanhao Cui, BUPT, and Fan Liu, SUSTech

Supported by IEEE ComSoc ISAC Emerging Technology Inititive (ETI) & IEEE SPS ISAC Technical Working Group (TWG)

1. Integrated Sensing and Communications: Towards Dual-functional Wireless Networks for 6G and Beyond. Arxiv, 2021. Journal.

   F. Liu, Y. Cui, C. Masouros, J. Xu, T. X. Han, Y. C. Eldar, S. Buzzi

2. Integrating Sensing and Communications for Ubiquitous IoT: Applications, Trends and Challenges. IEEE Network, 2021. Magazine.

   Y. Cui, F. Liu, X. Jing, J. Mu

3. Joint Radar and Communication Design: Applications, State-of-the-Art, and the Road Ahead. IEEE TCOM, 2020. Journal. Code

   F. Liu, C. Masouros, A. P. Petropulu, H. Griffiths, L. Hanzo

4. Waveform Design and Signal Processing Aspects for Fusion of Wireless Communications and Radar Sensing. Proceedings of the IEEE, 2011. Magazine.

   C. Sturm, W. Wiesbeck

5. Dual-Function Radar Communication Systems: A Solution to the Spectrum Congestion Problem. IEEE SPM, 2019. Magazine.

   A. Hassanien, M. G. Amin, E. Aboutanios, B. Himed

6. Radar-Communications Convergence: Coexistence, Cooperation, and Co-Design. IEEE TCCN, 2017. Journal

   A. R. Chiriyath, B. Paul, D. W. Bliss

1. An Overview of Signal Processing Techniques for Joint Communication and Radar Sensing. IEEE JSTSP, 2021. Journal.

   J. A. Zhang, F. Liu, C. Masouros, R. W. Heath, Z. Feng, L. Zhang, A. Petropulu

2. Toward Millimeter-Wave Joint Radar Communications: A Signal Processing Perspective. IEEE SPM, 2019. Magazine.

   K. V. Mishra, M. R. Bhavani Shankar, V. Koivunen, B. Ottersten, S. A. Vorobyov

3. Joint Radar-Communications Strategies for Autonomous Vehicles Combining Two Key Automotive Technologies. IEEE SPM, 2020. Magazine.

   D. Ma, N. Shlezinger, T. Huang, Y. Liu, Y. C. Eldar

4. Signaling Strategies for Dual-function Radar Communications: An Overview. IEEE AESM, 2016. Magazine.

   A. Hassanien, M. G. Amin, Y. D. Zhang, F. Ahmad

5. Radar and Communication Coexistence: An Overview: A Review of Recent Methods. IEEE SPM, 2019. Magazine.

   L. Zheng, M. Lops, Y. C. Eldar, X. Wang

6. MIMO Radar for Advanced Driver-Assistance Systems and Autonomous Driving: Advantages and Challenges. IEEE SPM, 2020. Magazine.

   S. Sun, A. P. Petropulu, H. V. Poor

7. Survey of RF Communications and Sensing Convergence Research. IEEE ACCESS, 2016. Journal.

   B. Paul, A. R. Chiriyath, D. W. Bliss

1. Enabling Joint Communication and Radio Sensing in Mobile Networks--A Survey. IEEE COMST, 2020. Journal.

   J. Zhang, Md. Rahman, K. Wu, X. Huang, Y. Guo, S. Chen, J. Yuan

2. A Tutorial on Joint Radar and Communication Transmission for Vehicular Networks - Part I, II, and III. IEEE COMML, 2020. Letter, Letter, Letter.

   F. Liu, C. Masouros

3. Perceptive Mobile Network: Cellular Networks With Radio Vision via Joint Communication and Radar Sensing. IEEE VTM, 2020. Magazine.

   A. Zhang, M. L. Rahman, X. Huang, Y. J. Guo, S. Chen, R. W. Heath

4. Leveraging Sensing at the Infrastructure for mmWave Communication. IEEE COMMAG, 2020. Magazine.

   A. Ali, N. Gonzalez-Prelcic, R. W. Heath, A. Ghosh

5. Internet of Radars: Sensing versus Sending with Joint Radar-Communications. IEEE COMMAG, 2020. Magazine.

   O. B. Akan, M. Arik

6. Full Duplex Radio/ Radar Technology: The Enabler for Advanced Joint Communication and Sensing. IEEE WCM, 2021. Magazine.

   C. B. Barneto, S. D. Liyanaarachchi, M. Heino, T. Riihonen, M. Valkama

7. Communications and Sensing: An Opportunity for Automotive Systems. IEEE SPM, 2020. Magazine

   R. W. Heath

1. WiFi Sensing with Channel State Information: A Survey. ACM CSUR, 2019. Journal.

   Y. Ma, G. Zhou, S. Wang

2. Wireless Sensing for Human Activity: A Survey. IEEE COMST, 2019. Journal

   J. Liu, H. Liu, Y. Chen, Y. Wang, C. Wang

3. Future Millimeter-Wave Indoor Systems: A Blueprint for Joint Communication and Sensing. IEEE Computer, 2019. Magazine

   M. Alloulah, H. Huang

4. Joint Design of Sensing and Communication Systems for Smart Homes. IEEE Network, 2020. Magazine

   Q. Huang, H. Chen, Q. Zhang

5. Device-Free Wireless Sensing: Challenges, Opportunities, and Applications. IEEE Network, 2018. Magazine

   J. Wang, Q. Gao, M. Pan, Y. Fang

1. Joint State Sensing and Communication: Optimal Tradeoff for a Memoryless Case. IEEE ISIT, 2018. Conference

   M. Kobayashi, G. Caire, G. Kramer

2. Joint Sensing and Communication over Memoryless Broadcast Channels. IEEE ISIT, 2020. Conference

   M.Ahmadipour, M.Wigger, M. Kobayashi

3. A Survey on Fundamental Limits of Integrated Sensing and Communication. Arxiv, 2021. Journal

   A. Liu, Z. Huang, M. Li, Y. Wan, W. Li, T. X. Han, C. Liu, R. Du, D. T. K. Ping, J. Liu, Y. Shen, F. Colone, K. Chetty

4. Joint Transmission and State Estimation: A Constrained Channel Coding Approach. IEEE TIT, 2011. Journal

   W. Zhang, S. Vedantam, U. Mitra

5. Inner Bounds on Performance of Radar and Communications Co-Existence. IEEE TSP, 2016. Journal

   A. R. Chiriyath, B. Paul, G. M. Jacyna, D. W. Bliss

6. On the Capacity of the AWGN Channel With Additive Radar Interference. IEEE TCOM, 2017. Journal

   S. Shahi, D. Tuninetti, N. Devroye

7. Performance Gains From Cooperative MIMO Radar and MIMO Communication Systems. IEEE SPL, 2018. Letter

   Q. He, Z. Wang, J. Hu, R. S. Blum

8. A Perspective on Degrees of Freedom for Radar in Radar-Communication Interference Channel. IEEE ACSSC, 2018. Conference

   Y. Cui, V. Koivunen, X. Jing

9. Performance Tradeoffs of Joint Radar-Communication Networks. IEEE WCL, 2018. Letter

   P. Ren, A. Munari, M. Petrova

10. Analysis of An LTE Waveform for Radar Applications. IEEE RADAR, 2014. Conference

    A. Evers, J. A. Jackson

11. Performance Tradeoff in a Unified Passive Radar and Communications System. IEEE SPL, 2017. Journal

    B. K. Chalise, M. G. Amin, B. Himed

12. Massive MIMO Radar for Target Detection. IEEE TSP, 2020. Journal

    S. Fortunati, L. Sanguinetti, F. Gini, M. S. Greco, B. Himed

13. The Shannon Channel Capacity of A Radar System. IEEE ACSSC, 2003. Conference

    P. Bidigare

1. IEEE 802.11ad-Based Radar: An Approach to Joint Vehicular Communication-Radar System. IEEE TVT, 2017. Journal

   P. Kumari, J. Choi, N. González-Prelcic, R. W. Heath

2. Full-Duplex OFDM Radar With LTE and 5G NR Waveforms: Challenges, Solutions, and Measurements. IEEE TMTT, 2019. Journal

   C. B. Barneto, T. Riihonen, M. Turunen, L. Anttiila, M. Fleischer, K. Stadius, J. Ryynanen, M, Valkama

3. Optimized Waveforms for 5G–6G Communication with Sensing: Theory, Simulations and Experiments. IEEE TWC, 2021. Journal

   S. D. Liyanaarachchi, T. Riihonen, C. B. Barneto, M. Valkama

4. LoRadar: Enabling Concurrent Radar Sensing and LoRa Communication. IEEE TMC, 2020. Journal

   Q. Huang, Z. Luo, J. Zhang, W. Wang, Q. Zhang

1. Uplink Sensing in Perceptive Mobile Networks with Asynchronous Transceivers. IEEE TSP, 2020. Journal

   Z. Ni, J. A. Zhang, X. Huang, K. Yang, J. Yuan

2. A mmWave Automotive Joint Radar-Communications System. IEEE TAES, 2019. Journal

   S. H. Dokhanchi, B. S. Mysore, K. V. Mishra, B. Ottersten

3. Multifunctional Transceiver for Future Radar Sensing and Radio Communicating Data-Fusion Platform. IEEE ACCESS, 2016. Journal

   J. Moghaddasi, K. Wu

4. Transmit Sequence Design for Dual-Function Radar-Communication System With One-Bit DACs. IEEE TWC, 2021. Journal

   Z. Cheng, S. Shi, Z. He, B. Liao

5. A Dual-Functional Massive MIMO OFDM Communication and Radar Transmitter Architecture. IEEE TVT, 2020. Journal

   M. Temiz, E. Alsusa, M. W. Baidas

6. Hybrid Beamforming for Multi-carrier Dual-Function Radar-Communication System. IEEE TCCN, 2021. Journal

   Z. Cheng, Z. He, B. Liao

7. Multifunctional Transceiver for Future Intelligent Transportation Systems. IEEE TMTT, 2011. Journal

   L. Han, K. Wu

8. RF Front-End Challenges for Joint Communication and Radar Sensing. IEEE JC&S, 2021. Conference

   F. Bozorgi, P. Sen, A. N. Barreto, G. Fettweis

1. Leveraging Sensing at the Infrastructure for mmWave Communication. IEEE COMMAG, 2020. Magazine

   A. Ali, N. Gonzalez-Prelcic, R. W. Heath, A. Ghosh

2. Framework for a Perceptive Mobile Network Using Joint Communication and Radar Sensing. IEEE TAES, 2019. Journal

   M. L. Rahman, J. A. Zhang, X. Huang, Y. J. Guo, R. W. Heath

3. Radar-assisted Predictive Beamforming for Vehicular Links: Communication Served by Sensing. IEEE TWC, 2021. Journal

   F. Liu, W. Yuan, C. Masouros, J. Yuan

4. Bayesian Predictive Beamforming for Vehicular Networks: A Low-Overhead Joint Radar-Communication Approach. IEEE TWC, 2021. Journal

   W. Yuan, F. Liu, C. Masouros, J. Yuan, D. W. K. Ng, N. González-Prelcic

5. Passive Radar at the Roadside Unit to Configure Millimeter Wave Vehicle-to-Infrastructure Links. IEEE TVT, 2020. Journal

   A. Ali, N. González-Prelcic, A. Ghosh

6. Toward Environment-Aware 6G Communications via Channel Knowledge Map. IEEE WCM, 2021. Journal

   Y. Zeng, X. Xu

7. Radar Aided Beam Alignment in MmWave V2I Communications Supporting Antenna Diversity. IEEE ITA, 2017. Conference

   N. González-Prelcic, R. Méndez-Rial, R. W. Heath

1. MU-MIMO Communications With MIMO Radar: From Co-Existence to Joint Transmission. IEEE TWC, 2018. Journal.Code

   F. Liu, C. Masouros, A. Li, H. Sun, L. Hanzo

2. Mutual Information based Radar Waveform Design for Joint Radar and Cellular Communication Systems. IEEE ICASSP, 2016. Conference

   M. Bică, K. Huang, V. Koivunen, U. Mitra

3. Joint Subcarrier Assignment and Power Allocation Strategy for Integrated Radar and Communications System Based on Power Minimization. IEEE Sensor Journal, 2019. Journal

   C. Shi, F. Wang, S. Salous, J. Zhou

4. Power Allocation and Co-Design of Multicarrier Communication and Radar Systems for Spectral Coexistence. IEEE TSP, 2019. Journal

   F. Wang, H. Li, M. A. Govoni

5. Radar Waveform Optimization for Target Parameter Estimation in Cooperative Radar-Communications Systems. IEEE TAES, 2018. Journal

   M. Bică, V. Koivunen

6. Multicarrier Radar-communications Waveform Design for RF Convergence and Coexistence. IEEE ICASSP, 2019. Conference

   M. Bică, V. Koivunen

7. On Mutual Interference Cancellation in a MIMO OFDM Multiuser Radar-Communication Network. IEEE TVT, 2017. Journal

   Y. L. Sit, B. Nuss, T. Zwick

8. Constrained Utility Maximization in Dual-Functional Radar-Communication Multi-UAV Networks. IEEE TCOM, 2020. Journal

   X. Wang, Z. Fei, J. Andrew Zhang, J. Huang, J. Yuan

9. Distributed Dual-Function Radar-Communication MIMO System with Optimized Resource Allocation. IEEE RadarConf, 2019. Journal

   A. Ahmed, Y. D. Zhang, B. Himed

10. Low Probability of Intercept-Based Optimal Power Allocation Scheme for an Integrated Multistatic Radar and Communication System. IEEE Sensor Journal, 2019. Journal

    C. Shi, F. Wang, M. Sellathurai, J. Zhou, S. Salous

11. Resource Allocation for a Wireless Powered Integrated Radar and Communication System. IEEE WCL, 2018. Letter

    Y. Zhou, H. Zhou, F. Zhou, Y. Wu, V. C. M. Leung

12. Bandwidth Sharing and Scheduling for Multimodal Radar with Communications and Tracking. IEEE SAM, 2012. Conference

    S. S. Bhat, R. M. Narayanan, M. Rangaswamy

1. Dual-Function Radar-Communications: Information Embedding Using Sidelobe Control and Waveform Diversity. IEEE TSP, 2015. Journal

   A. Hassanien, M. G. Amin, Y. D. Zhang, F. Ahmad

2. Simultaneous Radar and Communications Emissions from a Common Aperture, Part I,II. IEEE RadarConf, 2017. Conference, Conference

   P. M. McCormick, S. D. Blunt, J. G. Metcalf

3. MAJoRCom: A Dual-Function Radar Communication System Using Index Modulation. IEEE TSP, 2020. Journal

   T. Huang, N. Shlezinger, X. Xu, Y. Liu, Y. C. Eldar

4. Waveform Design and Accurate Channel Estimation for Frequency-Hopping MIMO Radar-Based Communications. IEEE TCOM, 2020. Journal

   K. Wu, J. Andrew Zhang, X. Huang, Y. Jay Guo, R. W. Heath

5. Intrapulse Radar-Embedded Communications. IEEE TAES, 2010. Journal

   S. D. Blunt, P. Yatham, J. Stiles

6. Intrapulse Radar-embedded Communications Via Multiobjective Optimization. IEEE TAES, 2015. Journal

   D. Ciuonzo, A. De Maio, G. Foglia, M. Piezzo

7. A Novel Radar Waveform Compatible with Communication. ICST ICCPS, 2011. Conference

   X. Chen, X. Wang, S. Xu, J. Zhang

8. Spatial Modulation for Joint Radar-Communications Systems: Design, Analysis, and Hardware Prototype. IEEE TVT, 2021. Journal

   D. Ma, N. Shlezinger, T. Huang, Y. Shavit, M. Namer, Y. Liu, Y. C. Eldar

9. Enabling Communication via Automotive Radars: An Adaptive Joint Waveform Design Approach. IEEE INFOCOM, 2020. Conference

   C. D. Ozkaptan, E. Ekici, O. Altintas

10. Reliable Frequency-Hopping MIMO Radar-based Communications with Multi-Antenna Receiver. IEEE TCOM, 2021. Journal

    K. Wu, J. Andrew Zhang, X. Huang, Y. Jay Guo, J. Yuan

11. Fusion of radar sensing and wireless communications by embedding communication signals into the radar transmit waveform. IET RSN, 2018. Journal

    Z. Geng, R. Xu, H. Deng, B. Himed

12. Opportunistic Sharing Between Rotating Radar and Cellular. IEEE JSAC, 2012. Journal

    R. Saruthirathanaworakun, J. M. Peha, L. M. Correia

13. Communications-Inspired Sensing: a Case Study on Waveform Design. IEEE TSP, 2009. Journal

    W. Zhang, L. Yang

1. Radar Signal Processing for Elderly Fall Detection: The Future for In-home Monitoring. IEEE SPM, 2016. Magazine

   M. G. Amin, Y. D. Zhang, F. Ahmad, K. C. D. Ho

2. Signal Processing for Passive Radar Using OFDM Waveforms . IEEE JSTSP, 2010. Journal

   C. R. Berger, B. Demissie, J. Heckenbach, P. Willett, S. Zhou

3. Radar Signal Processing for Sensing in Assisted Living: The Challenges Associated With Real-Time Implementation of Emerging Algorithms. IEEE SPM, 2019. Magazine

   J.L. Kernec, F. Fioranelli, C. Ding, H. Zhao, L. Sun, H. Hong, J. Lorandel, O. Romain

1. Toward Dual-functional Radar-Communication Systems: Optimal Waveform Design. IEEE TSP, 2018. Journal.Code

   F. Liu, L. Zhou, C. Masouros, A. Li, W. Luo, A. Petropulu

2. On the Effectiveness of OTFS for Joint Radar Parameter Estimation and Communication. IEEE TWC, 2020. Journal

   L. Gaudio, M. Kobayashi, G. Caire, G. Colavolpe

3. Multibeam for Joint Communication and Radar Sensing Using Steerable Analog Antenna Arrays. IEEE TVT, 2018. Journal

   J. A. Zhang, X. Huang, Y. J. Guo, J. Yuan, R. W. Heath

4. Joint Transmit Beamforming for Multiuser MIMO Communications and MIMO Radar. IEEE TSP, 2020. Journal

   X. Liu, T. Huang, N. Shlezinger, Y. Liu, J. Zhou, Y. C.

5. Adaptive Virtual Waveform Design for Millimeter-Wave Joint Communication–Radar. IEEE TSP, 2019. Journal

   P. Kumari, S. A. Vorobyov, R. W. Heath

6. Adaptive OFDM Integrated Radar and Communications Waveform Design Based on Information Theory. IEEE COMML, 2017. Letter

   Y. Liu, G. Liao, J. Xu, Z. Yang, Y. Zhang

7. Spatio-Temporal Power Optimization for MIMO Joint Communication and Radio Sensing Systems with Training Overhead. IEEE TVT, 2020. Journal

   X. Yuan, Z. Feng, A. Zhang, W. Ni, R. P. Liu, Z. Wei, C. Xu

8. On Unified Vehicular Communications and Radar Sensing in Millimeter-Wave and Low Terahertz Bands. IEEE WCM, 2019. Magazine

   V. Petrov, G. Fodor, J. Kokkoniemi, D. Moltchanov, J. Lehtomaki, S. Andreev, Y. Koucheryavy, M. Juntti, M. Valkama

9. Dual-Use Signal Design for Radar and Communication via Ambiguity Function Sidelobe Control. IEEE TVT, 2020. Journal

   J. Yang, G. Cui, X. Yu, L. Kong

10. Joint MIMO Communication and MIMO Radar Under Different Practical Waveform Constraints. IEEE TVT, 2020. Journal

    X. He, L. Huang

11. Constrained Utility Maximization in Dual-Functional Radar-Communication Multi-UAV Networks. IEEE TCOM, 2020. Journal

    X. Wang, Z. Fei, J. Andrew Zhang, J. Huang, J. Yuan

12. Joint Radar-Communication Waveform Designs Using Signals From Multiplexed Users. IEEE TCOM, 2020. Journal

    N. Cao, Y. Chen, X. Gu, W. Feng

13. Low-Complexity Beamformer Design for Joint Radar and Communications Systems. IEEE COMML, 2020. Letter

    F. Dong, W. Wang, Z. Hu, T. Hui

14. Joint Beamforming Design for Extended Target Estimation and Multiuser Communication. IEEE RadarConf, 2020. Conference

    F. Liu, C. Masouros

15. iRDRC: An Intelligent Real-time Dual-functional Radar-Communication System for Automotive Vehicles. IEEE WCL, 2020. Letter

    N. Q. Hieu, D. T. Hoang, N. C. Luong, D. Niyato

16. Joint Radar-Communication With Cyclic Prefixed Single Carrier Waveforms. IEEE TVT, 2020. Journal

    Y. Zeng, Y. Ma, S. Sun

17. Constrained Waveform Design for Dual-Functional MIMO Radar-Communication System. SP, 2020. Journal

    S. Shi ,Z. Wang ,Z. He, Z. Cheng

18. Integrated Radar and Communication Waveform Design Based on a Shared Array. SP, 2020. Journal

    M. Jiang, G. Liao, Z. Yang, Y. Liu, Y. Chen

19. Co-design of Joint Radar and Communications Systems utilizing Frequency Hopping Code Diversity. IEEE RadarConf, 2019. Conference

    X. Wang, J. Xu

20. Dual-Functional Radar Waveforms without Remodulation. IEEE RADAR, 2019. Conference

    Y. Dong, G. A. Fabrizio, M. G. Amin

1. Evolution of Netted Radar Systems. IEEE Access, 2020. Journal

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2. Multistatic Radar Placement Optimization for Cooperative Radar-Communication Systems. IEEE COMML, 2018. Letter

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3. Stochastic Geometry Methods for Modeling Automotive Radar Interference. IEEE TITS, 2017. Journal

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4. IEEE 802.22 Passive Radars: Multistatic Detection and Velocity Profiler. IEEE TAES, 2016. Journal

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5. A Neighbor Discovery Algorithm in Network of Radar and Communication Integrated System. IEEE CSE, 2015. Conference

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6. Detection in Passive MIMO Radar Networks. IEEE TSP, 2014. Journal

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1. Wireless sensor networks: a survey. Computer networks. Computer Networks, 2002. Journal

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2. Fundamental Limits of Wideband Localization— Part I, II. IEEE TIT, 2010. Journal1. Journal2

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1. RadChat: Spectrum Sharing for Automotive Radar Interference Mitigation. IEEE TITS, 2021. Journal

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2. Sensing and Communication Co-Design for Status Update in Multiaccess Wireless Networks. IEEE TMC, 2021. Journal

   F. Peng, Z. Jiang, S. Zhou, Z. Niu, S. Zhang

1. Optimum Co-Design for Spectrum Sharing between Matrix Completion Based MIMO Radars and a MIMO Communication System. IEEE TSP, 2016. Journal

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2. Joint Design of Overlaid Communication Systems and Pulsed Radars. IEEE TSP, 2017. Journal

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3. MIMO Radar and Cellular Coexistence: A Power-Efficient Approach Enabled by Interference Exploitation. IEEE TSP, 2018. Journal

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4. Cognitive Radar: A Way of the Future. IEEE SPM, 2006. Journal

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5. Radar Spectrum Engineering and Management: Technical and Regulatory Issues. Proceedings of the IEEE, 2014. Magazine

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6. Co-Design for Overlaid MIMO Radar and Downlink MISO Communication Systems via Cramér–Rao Bound Minimization. IEEE TSP, 2019. Journal

   Z. Cheng, B. Liao, S. Shi, Z. He, J. Li

7. Joint Transmit Designs for Coexistence of MIMO Wireless Communications and Sparse Sensing Radars in Clutter. IEEE TAES, 2017. Journal

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8. Joint System Design for Coexistence of MIMO Radar and MIMO Communication. IEEE TSP, 2018. Journal

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9. Opportunistic Sharing Between Rotating Radar and Cellular. IEEE JSAC, 2012. Journal

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10. Mutual Information based Radar Waveform Design for Joint Radar and Cellular Communication Systems. IEEE ICASSP, 2016. Conference

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11. Spectral Coexistence of MIMO Radar and MIMO Cellular System. IEEE TAES, 2017. Journal

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12. Adaptive Interference Removal for Uncoordinated Radar/Communication Coexistence. IEEE JSTSP, 2017. Journal

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13. Joint Design of Surveillance Radar and MIMO Communication in Cluttered Environments. IEEE TSP, 2020. Journal

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14. Interference Alignment Based Precoder-Decoder Design for Radar Communication Co-existence. IEEE ACSSC, 2018. Conference

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15. Information Theoretic Approach for Waveform Design in Coexisting MIMO Radar and MIMO Communications. IEEE ICASSP, 2020. Conference

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16. Multi-constraint Spectral Co-design for Colocated MIMO Radar and MIMO Communications. IEEE ICASSP, 2020. Conference

    S. H. Dokhanchi, M. R. Bhavani Shankar, K. V. Mishra, B. Ottersten

17. Communications and Radar Coexistence in the Massive MIMO Regime: Uplink Analysis. IEEE TWC, 2019. Journal

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18. Interference Removal for Radar/Communication Co-Existence: The Random Scattering Case. IEEE TWC, 2019. Journal

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19. Power Allocation and Co-Design of Multicarrier Communication and Radar Systems for Spectral Coexistence. IEEE TSP, 2019. Journal

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1. We Can Hear You with Wi-Fi!. IEEE TMC, 2016. Journal

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2. WiFall: Device-Free Fall Detection by Wireless Networks. IEEE TMC, 2016. Journal

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3. Recognizing Keystrokes Using WiFi Devices. IEEE JSAC, 2017. Journal

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4. Device-Free Human Activity Recognition Using Commercial WiFi Devices. IEEE JSAC, 2017. Journal

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5. Toward Centimeter-Scale Human Activity Sensing with Wi-Fi Signals. IEEE Computer, 2018. Magazine

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6. A Survey on Behavior Recognition Using WiFi Channel State Information. IEEE COMMAG, 2017. Journal

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1. See through Walls with WiFi!. MobiCom, 2013. Conference

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2. Through-the-Wall Sensing of Personnel Using Passive Bistatic WiFi Radar at Standoff Distances. IEEE TGRS, 2011. Journal

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1. Coordinated Cognitive Risk Control for Bridging Vehicular Radar and Communication Systems. IEEE TITS, 2020. Journal

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1. Environmental Monitoring by Wireless Communication Networks. Science, 2006. Magazine

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2. Country-wide rainfall maps from cellular communication networks. PNAS, 2013. Magazine

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3. Rain Rate Estimation Using Measurements From Commercial Telecommunications Links. IEEE TSP, 2009. Journal

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4. Recurrent Neural Network for Rain Estimation Using Commercial Microwave Links. IEEE TGRS, 2020. Journal

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1. Vehicular RF Convergence: Simultaneous Radar, Communications, and PNT for Urban Air Mobility and Automotive Applications. IEEE RadarConf, 2020. Conference

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