陈晨 - 重庆大学 - 微电子与通信工程学院

个人简介

拟招收博士研究生专业：博士：信息与通信工程（081000）拟招收硕士研究生专业：学术硕士：信息与通信工程（081000）专业硕士：电子信息（085400）专业硕士：电子与通信工程领域（085208）专业硕士：能源动力（085800）欢迎有通信、光学、电子、数学等相关背景的学生报读博士、硕士研究生！感兴趣的同学可以前往主教学楼2209室当面交流，或者通过邮件或电话与我联系。个人简介：陈晨，男，博士（后），重庆大学“百人计划”学者。2010年6月和2013年6月分别获得电子科技大学学士学位和硕士学位，2018年1月获得新加坡南洋理工大学博士学位；2017年9月至2019年2月，在新加坡南洋理工大学从事博士后研究；2019年2月加入重庆大学微电子与通信工程学院。学术获奖： 2019 Publons Peer Review Awards - Top 1% Reviewer for Cross-Field 2019 Publons Peer Review Awards - Top 1% Reviewer for Physics 2019 Publons Peer Review Awards - Top 1% Reviewer for Engineering 2018 Co-recipient of the IET Optoelectronics Premium Award 2018 Publons Peer Review Awards - Top 1% Reviewer for Physics 2018 Publons Peer Review Awards - Top 1% Reviewer for Engineering 2018 Outstanding reviewer certificate (top 10%) from Elsevier Digital Signal Processing 2018 Outstanding reviewer certificate (top 10%) from Elsevier Optical Fiber Technology 2015 IEEE Photonics Global Conference, Best Paper Award 科研项目：国家自然科学基金青年项目, 2020.01-2022.12, 主持重庆大学“百人计划”科研启动基金项目, 2019.02-2022.02, 主持

研究领域

研究方向： 1. 无线光通信 (Optical Wireless Communication) 2. 可见光通信 (Visible Light Communication), LiFi 3. 可见光定位 (Visible Light Positioning) 4. MIMO传输技术 5. 新型信号复用与多址接入技术 6. 人工智能与机器学习在通信与定位系统中的应用 7. 5G以及超5G通信系统 8. 物联网IoT通信系统

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

代表性学术论文：期刊论文 [22] H. L. Yang, W.-D. Zhong, C. Chen*, A. Alphones, and P. F. Du, “QoS-driven optimized design based integrated visible light communication and positioning for indoor IoT networks,” IEEE Internet of Things Journal, 2019. [21] H. L. Yang, A. Alphones, W.-D. Zhong, C. Chen*, and X. Xie, “Learning-based energy-efficient resource management by heterogeneous RF/VLC for ultra-reliable low-latency industrial IoT networks,” IEEE Transactions on Industrial Informatics, 2019. [20] Y. B. Yang, C. Chen*, P. F. Du, X. Deng, J. Luo, W.-D. Zhong, and L. Y. Chen, “Low complexity OFDM VLC system enabled by spatial summing modulation,” Optics Express, vol. 27, no. 21, pp. 30788–30796, Oct. 2019. [19] P. F. Du, S. Zhang, C. Chen*, H. L. Yang, W.-D. Zhong, R. Zhang, A. Alphones, and Y. B. Yang, “Experimental demonstration of 3D visible light positioning using received signal strength with low-complexity trilateration assisted by deep learning technique,” IEEE Access, vol. 7, pp. 93986–93997, Jul. 2019. [18] C. Chen*, X. Deng, Y. B. Yang, P. F. Du, H. L. Yang, and L. F. Zhao, “LED Nonlinearity Estimation and Compensation in VLC Systems Using Probabilistic Bayesian Learning,” Applied Sciences, vol. 9, no. 13, Jul. 2019, Art. no. 2711. [17] C. Chen*, W.-D. Zhong, H. L. Yang, P. F. Du, and Y. B. Yang, “Flexible-rate SIC-free NOMA for downlink VLC based on constellation partitioning coding,” IEEE Wireless Communications Letters, vol. 8, no. 2, pp. 568–571, Apr. 2019. [16] Y. B. Yang, C. Chen*, W. Zhang, X. Deng, P. F. Du, H. L. Yang, W.-D. Zhong, and L. Y. Chen, “Secure and private NOMA VLC using OFDM with two-level chaotic encryption,” Optics Express, vol. 26, no. 26, pp. 34031–34042, Dec. 2018. [15] H. L. Yang, C. Chen*, W.-D. Zhong, and A. Alphones, “Joint precoder and equalizer design for multi-user multi-cell MIMO VLC systems,” IEEE Transactions on Vehicular Technology, vol. 67, no. 12, pp. 11354–11364, Dec. 2018. [14] H. L. Yang, C. Chen*, W.-D. Zhong, A. Alphones, S. Zhang, and P. F. Du, “Demonstration of a quasi-gapless integrated visible light communication and positioning system,” IEEE Photonics Technology Letters, vol. 30, no. 23, pp. 2001–2004, Dec. 2018. [13] C. Chen*, W.-D. Zhong, H. L. Yang, S. Zhang, and P. F. Du, “Reduction of SINR fluctuation in indoor multi-cell VLC systems using optimized angle diversity receiver,” IEEE/OSA Journal of Lightwave Technology, vol. 36, no. 17, pp. 3603–3610, Sept. 2018. [12] H. L. Yang, C. Chen*, and W.-D. Zhong, “Cognitive multi-cell visible light communication with hybrid underlay/overlay resource allocation,” IEEE Photonics Technology Letters, vol. 30, no. 12, pp. 1135–1138, Jun. 2018. [11] C. Chen*, W.-D. Zhong, H. L. Yang, and P. F. Du, “On the performance of MIMO-NOMA-based visible light communication systems,” IEEE Photonics Technology Letters, vol. 30, no. 4, pp. 307–310, Feb. 2018. [10] C. Chen*, W.-D. Zhong, and D. H. Wu, “On the coverage of multiple-input multiple-output visible light communications [Invited],” IEEE/OSA Journal of Optical Communications and Networking, vol. 9, no. 9, pp. D31–D41, Sep. 2017. [9] C. Chen* and W.-D. Zhong, “Hybrid space-frequency domain pre-equalization for DC-biased optical orthogonal frequency division multiplexing based imaging multiple-input multiple- output visible light communication systems,” Optical Engineering, vol. 56, no. 3, p. 036102, Mar. 2017. [8] C. Chen*, W.-D. Zhong, and D. H. Wu, “Non-Hermitian symmetry orthogonal frequency division multiplexing for multiple-input multiple-output visible light communications,” IEEE/OSA Journal of Optical Communications and Networking, vol. 9, no. 1, pp. 36–44, Jan. 2017. [7] C. Chen*, W.-D. Zhong, and D. H. Wu, “Integration of OWC with OFDM-PON for hybrid optical access based on adaptive envelope modulation,” Optics Communications, vol. 381, pp. 10–17, Dec. 2016. [6] C. Chen, W.-D. Zhong, D. H. Wu, and Z. Ghassemlooy, “Wide-FOV and high-gain imaging angle diversity receiver for indoor SDM-VLC systems,” IEEE Photonics Technology Letters, vol. 28, no. 19, pp. 2078–2081, Oct. 2016. [5] C. Chen*, W.-D. Zhong, X. Li, and D. H. Wu, “MDPSK-based nonequalization OFDM for coherent free-space optical communication,” IEEE Photonics Technology Letters, vol. 26, no. 16, pp. 1617–1620, Aug. 2014. [4] C. Chen, C. F. Zhang, W. Zhang, W. Jin, and K. Qiu, “Scalable and reconfigurable generation of flat optical comb for WDM-based next-generation broadband optical access networks,” Optics Communications, vol. 321, pp. 16–22, Jun. 2014. [3] C. Chen, C. F. Zhang, W. Zhang, W. Jin, and K. Qiu, “Hybrid WDM-OFDMA-PON utilising tunable generation of flat optical comb,” Electronics Letters, vol. 49, no. 4, pp. 276–277, Feb. 2013. [2] C. Chen, C. F. Zhang, Y. Feng, and K. Qiu, “Bidirectional radio frequency up-converted orthogonal frequency division multiple access passive optical network with novel source-free optical network units using four-wave mixing in semiconductor optical amplifier,” IEEE Photonics Technology Letters, vol. 24, no. 24, pp. 2206–2209, Dec. 2012. [1] C. Chen, C. F. Zhang, D. M. Liu, K. Qiu, and S. Liu, “Tunable optical frequency comb enabled scalable and cost-effective multiuser orthogonal frequency-division multiple access passive optical network with source-free optical network units,” Optics Letters, vol. 37, no. 19, pp. 3954–3956, Oct. 2012. 会议论文 [11] C. Chen*, X. Deng, Y. B. Yang, P. F. Du, H. L. Yang, and W.-D. Zhong, “Experimental demonstration of optical OFDM with subcarrier index modulation for IM/DD VLC,” in Proc. ACP, 2019. [10] C. Chen*, X. Deng, P. F. Du, H. L. Yang, W.-D. Zhong, and Y. B. Yang, “Demonstration of inter-cell interference mitigation in multi-cell VLC systems using optimized angle diversity receiver,” in Proc. OGC, 2019. [9] C. Chen*, Y. B. Yang, X. Deng, P. F. Du, H. L. Yang, Z. C. Chen, and W.-D. Zhong, “NOMA for MIMO visible light communications: A spatial domain perspective,” in Proc. IEEE Globecom, 2019. [8] C. Chen*, W.-D. Zhong, and L. F. Zhao, “Sparse Bayesian RVM regression based channel estimation for IM/DD OFDM-VLC systems with reduced training overhead,” in Proc. IEEE ICC Workshops, pp. 369–374, May 2017. [7] C. Chen and W.-D. Zhong, “Performance comparison of different types of receivers in indoor MIMO-VLC systems,” in Proc. CNCT, pp. 341–346, 2016. [6] C. Chen, W.-D. Zhong, and D. H. Wu, “Color multiplexing based unipolar OFDM for indoor RGB LED visible light communication,” in Procedia Engineering – 4th PGC, vol. 140, pp. 159–165, Dec. 2016. [5] C. Chen*, W.-D. Zhong, and D. H. Wu, “Communication coverage improvement of indoor SDM-VLC system using NHS-OFDM with a modified imaging receiver,” in Proc. IEEE ICCWorkshops, pp. 315–320, May 2016. [4] C. Chen*, W.-D. Zhong, and D. H. Wu, “Indoor OFDM visible light communications employing adaptive digital pre-frequency domain equalization,” in Proc. CLEO, paper JTh2A.118, Jun. 2016. [3] C. Chen*, W.-D. Zhong, and X. Li, “Frequency domain MDPSK based non-equalization OFDM for coherent free-space optical communication over modified Rician turbulence channel,” in Proc. OECC/ACOFT, pp. 213–215, Jul. 2014. [2] C. Chen*, C. F. Zhang, Q. L. Zhang, and K. Qiu, “A scalable metro-access integrated network system with reconfigurable WDM central ring and high-quality OFDMA access trees,” in Proc. ACP, paper AF4A.29, Nov. 2012. [1] C. Chen*, C. F. Zhang, and K. Qiu, “OCDMA-based 60-GHz radio-over-fiber system for next generation wireless access networks,” in Proc. ICMMT, pp. 1–4, May 2012.

学术兼职

学术任职： 2019 WiCOM 2019, Keynote Speaker 2019 IEEE ICAIT, Invited Speaker 2019 OGC, Panel Member for Best Student Paper Award 2019 IEEE ICCSN, Session Chair (Session 12: Optical Communications) 2019 IEEE ICCSN, Keynote Speaker 2019 IEEE ICAIT, Technical Program Committee member 2018 IEEE/CIC ICCC, Technical Program Committee Member 2018 Computer System Networking and Telecommunications, Editorial Board Member 2018 IEEE ICAIT, Technical Program Committee member 2018 AICT, Technical Program Committee member 2017 IEEE ICAIT, Invited Speaker 2017 IEEE ICAIT, Technical Program Committee member 2017 IEEE/CIC ICCC, Technical Program Committee Member 2016 IEEE/CIC ICCC, Technical Program Committee Member 期刊审稿： IEEE Communications Magazine IEEE Network Magazine IEEE Journal on Selected Areas in Communications IEEE Transactions on Communications IEEE Transactions on Vehicular Technology IEEE Internet of Things Journal IEEE Transactions on Cognitive Communications and Networking IEEE Wireless Communications Letters IEEE Communications Letters IEEE Photonics Journal IEEE Photonics Technology Letters IEEE Sensors Journal IEEE Access IEEE/OSA Journal of Lightwave Technology IEEE/OSA Journal of Optical Communication and Networking OSA Optics Express OSA Optics Letters OSA Photonics Research OSA Applied Optics Elsevier Optics Communications Elsevier Optical Fiber Technology (Outstanding Reviewer Certificate, top 10%) Elsevier Digital Signal Processing (Outstanding Reviewer Certificate, top 10%) SPIE Optical Engineering IET Communications IET Electronics Letters China Communications EURASIP Journal on Wireless Communications and Networking