Researching

Journals
  • Advanced Photonics
  • Photonics Insights
  • Advanced Photonics Nexus
  • Photonics Research
  • Advanced Imaging
  • View All Journals
  • Chinese Optics Letters
  • High Power Laser Science and Engineering
    • Articles
  • Optics
  • Physics
  • Geography
  • View All Subjects
    • Conferences
  • CIOP
  • HPLSE
  • AP
  • View All Events
    • News
    About CLP
    Search by keywords or author
    Journals >Chinese Optics Letters >Volume 20 >Issue 10 >Page 103901 > Article
    • Chinese Optics Letters
    • Vol. 20, Issue 10, 103901 (2022)
    Delivery of 40 Gbit/s W-band signal over 4600 m wireless distance employing advanced digital signal processing
    Bowen Zhu, Yanyi Wang, Weiping Li, Feng Wang, Jiaxuan Liu, Miao Kong, and Jianjun Yu*
    Author Affiliations
  • Key Laboratory for Information Science of Electromagnetic Waves (MoE), Fudan University, Shanghai 200433, China
    • show less
    DOI: 10.3788/COL202220.103901 Cite this Article Set citation alerts
    Bowen Zhu, Yanyi Wang, Weiping Li, Feng Wang, Jiaxuan Liu, Miao Kong, Jianjun Yu. Delivery of 40 Gbit/s W-band signal over 4600 m wireless distance employing advanced digital signal processing[J]. Chinese Optics Letters, 2022, 20(10): 103901 Copy Citation Text show less
    References

    [1] P. T. Dat, A. Kanno, T. Umezawa, N. Yamamoto, T. Kawanishi. Millimeter-and terahertz-wave radio-over-fiber for 5G and beyond. IEEE Photonics Society Summer Topical Meeting Series (SUM), 165(2017).

    [2] X. Li, J. Yu, G.-K. Chang. Photonics-aided millimeter-wave technologies for extreme mobile broadband communications in 5G. J. Light. Technol., 38, 366(2019).

    [3] J. Yu. Photonics-assisted millimeter-wave wireless communication. IEEE J. Quantum Electron., 53, 8000517(2017).

    [4] J. Yu, X. Li, W. Zhou. Tutorial: broadband fiber-wireless integration for 5G+ communication. APL Photonics, 3, 111101(2018).

    [5] X. Li, Z. Dong, J. Yu, N. Chi, Y. Shao, G. K. Chang. Demonstration of ultra-high bit rate fiber wireless transmission system of 108-Gb/s data over 80-km fiber and 2 × 2 MIMO wireless links at 100 GHz W-band frequency. Optical Fiber Communication Conference, JW2A. 75(2013).

    [6] K. Mallick, P. Mandal, R. Mukherjee, G. C. Mandal, B. Das, A. S. Patra. Generation of 40 GHz/80 GHz OFDM based MMW source and the OFDM-FSO transport system based on special fine tracking technology. Opt. Fiber Technol., 54, 102130(2020).

    [7] G. C. Mandal, R. Mukherjee, B. Das, A. S. Patra. A full-duplex WDM hybrid fiber-wired/fiber-wireless/fiber-VLC/fiber-IVLC transmission system based on a self-injection locked quantum dash laser and a RSOA. Opt. Commun., 427, 202(2018).

    [8] M. Z. M. Khan. Quantum-dash laser-based tunable 50/75 GHz mmW transport system for future L-band networks. IEEE Photon. Technol. Lett.(2022).

    [9] Q. Tareq, A. M. Ragheb, M. A. Esmail, S. A. Alshebeili, M. Z. M. Khan. Performance of injection-locked quantum-dash MMW source under clear and dusty weather conditions. IEEE Photonics J., 13, 1500409(2021).

    [10] P. T. Dat, Y. Yamaguchi, M. Motoya, S. Oikawa, J. Ichikawa, A. Kanno, N. Yamamoto, T. Kawanishi. Transparent fibermillimeter-wavefiber system in 100-GHz band using optical modulator and photonic down-conversion. J. Light. Technol., 40, 1483(2022).

    [11] Z.-K. Weng, Y.-C. Chi, H.-Y. Wang, C.-T. Tsai, C.-H. Cheng, G.-R. Lin. 100-km long-reach carrierless 5G MMWoF link with destructive-interference-beating or single-sideband-filtering OFDM. J. Light. Technol., 39, 7831(2021).

    [12] Y. Wang, K. Wang, W. Zhou, J. Yu. Photonic aided vector millimeter-wave signal generation without digital-to-analog converter. Chin. Opt. Lett., 19, 011101(2021).

    [13] F. Zhao, J. Yu, J. Li. Dual-services generation using an integrated polarization multiplexing modulator. Chin. Opt. Lett., 18, 110601(2020).

    [14] X. Li, J. Yu, J. Zhang, F. Li, J. Xiao. Antenna polarization diversity for 146 Gb/s polarization multiplexing QPSK wireless signal delivery at W-band. Optical Fiber Communication Conference, M3D. 7(2014).

    [15] J. Zhang, J. Yu, N. Chi, Z. Dong, X. Li, G.-K. Chang. Multichannel 120-Gb/s data transmission over 2 × 2 MIMO fiber-wireless link at W-band. IEEE Photon. Technol. Lett., 25, 780(2013).

    [16] X. Li, J. Yu, J. Xiao, Y. Xu. Fiber-wireless-fiber link for 128-Gb/s PDM-16QAM signal transmission at W-band. IEEE Photon. Technol. Lett., 26, 1948(2014).

    [17] X. Li, J. Yu, J. Zhang, Z. Dong, F. Li, N. Chi. A 400G optical wireless integration delivery system. Opt. Express, 21, 18812(2013).

    [18] J. Yu, X. Li, J. Zhang, J. Xiao. 432-Gb/s PDM-16QAM signal wireless delivery at W-band using optical and antenna polarization multiplexing. European Conference on Optical Communication (ECOC), 1(2014).

    [19] X. Pang, A. Caballero, A. Dogadaev, V. Arlunno, R. Borkowski, J. S. Pedersen, L. Deng, F. Karinou, F. Roubeau, D. Zibar. 100 Gbit/s hybrid optical fiber-wireless link in the W-band (75–110 GHz). Opt. Express, 19, 24944(2011).

    [20] J. Xiao, J. Yu, X. Li, Y. Xu, Z. Zhang, L. Chen. 40-Gb/s PDM-QPSK signal transmission over 160-m wireless distance at W-band. Opt. Lett., 40, 998(2015).

    [21] X. Li, J. Yu, J. Xiao, Z. Zhang, Y. Xu, L. Chen. Field trial of 80-Gb/s PDM-QPSK signal delivery over 300-m wireless distance with MIMO and antenna polarization multiplexing at W-band. Optical Fiber Communication Conference, Th5A. 5(2015).

    [22] X. Li, J. Yu, J. Xiao. 1003 (100 Gb/s × 100 m × 100 GHz) optical wireless system. European Conference on Optical Communication (ECOC), 1(2015).

    [23] J. Xiao, J. Yu, X. Li, Y. Xu, Z. Zhang, L. Chen. 20-Gb/s PDM-QPSK signal delivery over 1.7-km wireless distance at W-band. Optical Fiber Communication Conference, W4G. 4(2015).

    [24] X. Li, J. Yu, K. Wang, Y. Xu, L. Chen, L. Zhao, W. Zhou. Bidirectional delivery of 54-Gbps 8QAM W-band signal and 32-Gbps 16QAM K-band signal over 20-km SMF-28 and 2500-m wireless distance. Optical Fiber Communication Conference, Th5A. 7(2017).

    [25] H. T. Friis. A note on a simple transmission formula. Proc. IRE, 34, 254(1946).

    [26] Attenuation by atmospheric gases and related effects, 676(2019).

    [27] J. C. M. Diniz, Q. Fan, S. M. Ranzini, F. N. Khan, F. Da Ros, D. Zibar, A. P. T. Lau. Low-complexity carrier phase recovery based on principal component analysis for square-QAM modulation formats. Opt. Express, 27, 15617(2019).

    [28] L. Schmalen. Probabilistic constellation shaping: challenges and opportunities for forward error correction. Optical Fiber Communication Conference, M3C. 1(2018).

    [29] C. Bluemm, M. Schaedler, M. Kuschnerov, F. Pittalà, C. Xie. Single carrier vs. OFDM for coherent 600 Gb/s data centre interconnects with nonlinear equalization. Optical Fiber Communication Conference, M3H. 3(2019).

    [30] Á. Faragó, P. Kántor, J. Z. Bitó. Rain effects on 5G millimeter wave ad-hoc mesh networks investigated with different rain models. Period. Polytech. Electr. Eng. Comput. Sci., 60, 44(2016).

    Data from CrossRef

    [1] Weiping Li, Jianjun Yu, Feng Wang, Xiaoxue Ji, Xiongwei Yang, Tianqi Zheng, Qihang Wang, Wen Zhou, Jianguo Yu, Feng Zhao. Photonics millimeter wave bidirectional full-duplex communication based on polarization multiplexing. Optics Letters, 47, 6389(2022).

    Full Text
    Get PDF
    Figures&Tables (9)
    Equations (3)
    References (30)
    Get Citation
    Copy Citation Text
    Bowen Zhu, Yanyi Wang, Weiping Li, Feng Wang, Jiaxuan Liu, Miao Kong, Jianjun Yu. Delivery of 40 Gbit/s W-band signal over 4600 m wireless distance employing advanced digital signal processing[J]. Chinese Optics Letters, 2022, 20(10): 103901
    Download Citation
    EndNote(RIS)
    BibTex
    Plain Text
    Set citation alerts for the article
    Tools
    Share
    Set citation alerts for the article
    Save the article for my favorites
    Paper Information
    Recommended Topics
    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology