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    Journals >Photonics Research >Volume 11 >Issue 10 >Page 1635 > Article
    • Photonics Research
    • Vol. 11, Issue 10, 1635 (2023)
    Integrated photonic RF self-interference cancellation on a silicon platform for full-duplex communication
    Xiuyou Han†,*, Xinxin Su1,†, Meng Chao, Xindi Yang..., Weiheng Wang, Shuangling Fu, Yicheng Du, Zhenlin Wu and Mingshan Zhao|Show fewer author(s)
    Author Affiliations
  • School of Optoelectronic Engineering and Instrumentation Science, Dalian University of Technology, Dalian 116024, China
    • show less
    DOI: 10.1364/PRJ.485157 Cite this Article Set citation alerts
    Xiuyou Han, Xinxin Su, Meng Chao, Xindi Yang, Weiheng Wang, Shuangling Fu, Yicheng Du, Zhenlin Wu, Mingshan Zhao, "Integrated photonic RF self-interference cancellation on a silicon platform for full-duplex communication," Photonics Res. 11, 1635 (2023) Copy Citation Text show less
    References

    [1] V. Raj, I. Dias, T. Tholeti, S. Kalyani. Spectrum access in cognitive radio using a two-stage reinforcement learning approach. IEEE J. Sel. Top. Signal Process., 12, 20-34(2018).

    [2] A. Sabharwal, P. Schniter, D. Guo, D. W. Bliss, S. Rangarajan, R. Wichman. In-band full-duplex wireless: challenges and opportunities. IEEE J. Sel. Areas Commun., 32, 1637-1652(2014).

    [3] S. K. Sharma, T. E. Bogale, L. B. Le, S. Chatzinotas, X. Wang, B. Ottersten. Dynamic spectrum sharing in 5G wireless networks with full-duplex technology: recent advances and research challenges. IEEE Commun. Surveys Tuts., 20, 674-707(2018).

    [4] M. Jain, J. I. Choi, T. M. Kim, D. Bharadia, S. Seth, K. Srinivasan, P. Levis, S. Katti, P. Sinha. Practical, real-time, full duplex wireless. Proceedings of the 17th Annual International Conference on Mobile Computing and Networking, 301-312(2011).

    [5] M. Heino, D. Korpi, T. Huusari. Recent advances in antenna design and interference cancellation algorithms for in-band full duplex relays. IEEE Commun. Mag., 53, 91-101(2015).

    [6] E. Everett, A. Sahai, A. Sabharwal. Passive self-interference suppression for full-duplex infrastructure nodes. IEEE Trans. Wireless Commun., 13, 680-694(2014).

    [7] M. Duarte, A. Sabharwal, V. Aggarwal. Design and characterization of a full-duplex multiantenna system for WiFi networks. IEEE Trans. Veh. Technol., 63, 1160-1177(2014).

    [8] T. Riihonen, S. Werner, R. Wichman. Mitigation of loopback self-interference in full-duplex MIMO relays. IEEE Trans. Signal Process., 59, 5983-5993(2011).

    [9] X. Han, X. Su, S. Fu, Y. Gu, Z. Wu, X. Li, M. Zhao. RF self-interference cancellation by using photonic technology. Chin. Opt. Lett., 19, 073901(2021).

    [10] J. Suarez, K. Kravtsov, P. R. Prucnal. Incoherent method of optical interference cancellation for radio-frequency communications. IEEE J. Quantum Electron., 45, 402-408(2009).

    [11] Y. Zhang, S. Xiao, H. Feng, L. Zhang, Z. Zhou, W. Hu. Self-interference cancellation using dual-drive Mach-Zehnder modulator for in-band full-duplex radio-over-fiber system. Opt. Express, 23, 33205-33213(2015).

    [12] X. Han, B. Huo, Y. Shao, M. Zhao. Optical RF self-interference cancellation by using an integrated dual-parallel MZM. IEEE Photon. J., 9, 5501308(2017).

    [13] M. Huang, D. Zhu, S. Pan. Optical RF interference cancellation based on a dual-parallel polarization modulator. Proceedings of Asia Communications and Photonics Conference, ATh1F.6(2014).

    [14] X. Han, B. Huo, Y. Shao, C. Wang, M. Zhao. RF self-interference cancellation using phase modulation and optical sideband filtering. IEEE Photon. Technol. Lett., 29, 917-920(2017).

    [15] M. P. Chang, C.-L. Lee, B. Wu, P. R. Prucnal. Adaptive optical self-interference cancellation using a semiconductor optical amplifier. IEEE Photon. Technol. Lett., 27, 1018-1021(2015).

    [16] Q. Zhou, H. Feng, G. Scott, M P. Fok. Wideband co-site interference cancellation based on hybrid electrical and optical techniques. Opt. Lett., 39, 6537-6540(2014).

    [17] M. P. Chang, M. Fok, A. Hofmaier, P. R. Prucnal. Optical analog self-interference cancellation using electro-absorption modulators. IEEE Microw. Wireless. Compon. Lett., 23, 99-101(2013).

    [18] S. J. Zhang, S. L. Xiao, Y. H. Zhang, H. L. Feng, L. Zhang, Z. Zhou. Directly modulated laser based optical radio frequency self-interference cancellation system. Opt. Eng., 55, 026116(2016).

    [19] J. Chang, P. R. Prucnal. A novel analog photonic method for broadband multipath interference cancellation. IEEE Microw. Wireless. Compon. Lett., 23, 377-379(2013).

    [20] J. J. Sun, M. P. Chang, P. R. Prucnal. Demonstration of over-the-air RF self-interference cancellation using an optical system. IEEE Photon. Technol. Lett., 29, 397-400(2017).

    [21] W. Zhou, P. Xiang, Z. Niu, M. Wang, S. Pan. Wideband optical multipath interference cancellation based on a dispersive element. IEEE Photon. Technol. Lett., 28, 849-851(2016).

    [22] X. Su, X. Han, S. Fu, S. Wang, C. Li, Q. Tan, G. Zhu, C. Wang, Z. Wu, Y. Gu, M. Zhao. Optical multipath RF self-interference cancellation based on phase modulation for full-duplex communication. IEEE Photon. J., 12, 7102114(2020).

    [23] K. E. Kolodziej, S. Yegnanarayanan, B. T. Perry. Photonic-enabled RF canceller for wideband in-band full-duplex wireless systems. IEEE Trans. Microw. Theory Tech., 67, 2076-2086(2019).

    [24] K. E. Kolodziej, S. Yegnanarayanan, B. T. Perry. Fiber Bragg grating delay lines for wideband self-interference cancellation. IEEE Trans. Microw. Theory Tech., 67, 4005-4014(2019).

    [25] Z. Zhu, C. Gao, S. Zhao, T. Zhou, G. Wang, H. Li, Q. Tan. Photonics-assisted ultrawideband RF self-interference cancellation with signal of interest recovery and fiber transmission. J. Lightwave Technol., 40, 655-663(2022).

    [26] L. Huang, Y. Zhang, X. Li, L. Deng, M. Cheng, S. Fu, M. Tang, D. Liu. Microwave photonic RF front-end for co-frequency co-time full duplex 5G communication with integrated RF signal self-interference cancellation, optoelectronic oscillator and frequency down-conversion. Opt. Express, 27, 32147-32157(2019).

    [27] J. Wang, Y. Wang, Z. Zhang, Z. Zhao, J. Liu. Optical self-interference cancellation with frequency down-conversion based on cascade modulator. IEEE Photon. J., 12, 5502708(2020).

    [28] D. Zhu, X. Hu, W. Chen, D. Ben, S. Pan. Photonics enabled simultaneous self-interference cancellation and image-reject mixing. Opt. Lett., 44, 5541-5544(2019).

    [29] D. Marpaung, C. Roeloffzen, R. Heideman, A. Leinse, S. Sales, J. Capmany. Integrated microwave photonics. Laser Photon. Rev., 7, 506-538(2013).

    [30] M. David, J. Yao, J. Capmany. Integrated microwave photonics. Nat. Photonics, 13, 80-90(2019).

    [31] H. Shu, L. Chang, Y. Tao, B. Shen, W. Xie, M. Jin, A. Netherton, Z. Tao, X. Zhang, R. Chen, B. Bai, J. Qin, S. Yu, X. Wang, J. E. Bowers. Microcomb-driven silicon photonic systems. Nature, 605, 457-463(2022).

    [32] M. P. Chang, E. C. Blow, J. J. Sun, M. Z. Lu, P. R. Prucnal. Integrated microwave photonic circuit for self-interference cancellation. IEEE Trans. Microw. Theory Tech., 65, 4493-4501(2017).

    [33] M. P. Chang, E. C. Blow, M. Z. Lu, J. J. Sun, P. R. Prucnal. RF characterization of an integrated microwave photonic circuit for self-interference cancellation. IEEE Trans. Microw. Theory Tech., 66, 596-605(2018).

    [34] E. C. Blow, P. Kaul, P. R. Prucnal. Integrated balanced microwave photonic canceller. 2018 IEEE Photonics Conference (IPC), 1-2(2018).

    [35] E. C. Blow, C. Huang, Z. Liu, S. J. Markoff, P. R. Prucnal. Silicon photonic weights for microwave photonic canceller. Conference on Lasers and Electro-Optics (CLEO), SW3O.4(2020).

    [36] A. Pandey, K. Gasse, D. Thourhout. Integrated photonics approach to radio-frequency self-interference cancellation. Opt. Contin., 1, 1668-1675(2022).

    [37] F. Shen, X. Su, S. Yang, Z. Wu, M. Zhao, X. Han. Design of time delay network for optical beamforming based on anti-resonant waveguide micro-rings. Acta Opt. Sin., 39, 0213001(2019).

    [38] P. Zou, X. Han, Y. Wang, L. Wang, Y. Gu, J. Wang, X. Jian, M. Zhao. Study on a tunable ratio frequency filter based on integrated optical waveguide. Acta Opt. Sin., 33, 1013001(2013).

    [39] X. Han, L. Wang, Y. Wang, P. Zou, J. Teng, Y. Gu, J. Wang, X. Jian, G. Morthier, M. Zhao. UV-soft imprinted tunable polymer waveguide ring resonator for microwave photonic filtering. J. Lightwave Technol., 32, 3924-3932(2014).

    [40] S. Siew, B. Li, F. Gao, H. Zheng, W. Zhang, P. Guo, S. Xie, A. Song, B. Dong, L. Luo, C. Li, X. Luo, G. Lo. Review of silicon photonics technology and platform development. J. Lightwave Technol., 39, 4374-4389(2021).

    [41] X. Wu, W. Liu, Z. Yuan, X. Liang, H. Chen, X. Xu, F. Tang. Low power consumption VOA array with air trenches and curved waveguide. IEEE Photon. J., 10, 7201308(2018).

    [42] . Universal Mobile Telecommunications System (UMTS); terminal conformance specification; radio transmission and reception (TDD)(2016).

    [43] V. J. Urick, J. D. McKinney, K. J. Williams. Fundamentals of Microwave Photonics, 43-52(2015).

    [44] H. Sun, L. Lu, Y. Liu, Z. Ni, J. Chen, L. Zhou. Broadband 1 × 8 optical beamforming network based on anti-resonant microring delay lines. J. Lightwave Technol., 40, 6919-6928(2022).

    [45] P. Zheng, X. Xu, D. Lin, P. Liu, G. Hu, B. Yun, Y. Cui. A wideband 1 × 4 optical beam-forming chip based on switchable optical delay lines for Ka-band phased array. Opt. Commun., 488, 126842(2021).

    [46] X. Wang, L. Zhou, R. Li, J. Xie, L. Lu. Continuously tunable ultra-thin silicon waveguide optical delay line. Optica, 4, 507-515(2017).

    [47] A. Rahim, A. Hermans, B. Wohlfeil, D. Petousi, B. Kuyken, D. Van Thourhout, R. Baets. Taking silicon photonics modulators to a higher performance level: state-of-the-art and a review of new technologies. Adv. Photon., 3, 024003(2021).

    [48] A. Michaels, E. Yablonovitch. Inverse design of near unity efficiency perfectly vertical grating couplers. Opt. Express, 26, 4766-4779(2018).

    [49] C. Jaime, C. B. Poitras, K. Luke, L.-W. Luo, P. A. Morton, M. Lipson. High coupling efficiency etched facet tapers in silicon waveguides. IEEE Photon. Technol. Lett., 26, 2380-2382(2014).

    [50] J. Li, Si. Yang, H. Chen, X. Wang, M. Chen, W. Zou. Fully integrated hybrid microwave photonic receiver. Photon. Res., 10, 1472-1483(2022).

    [51] G. Chen, N. Li, J. D. Ng, H. L. Lin, Y. Zhou, Y. H. Fu, L. Y. T. Lee, Y. Yu, A. Q. Liu, A. J. Danner. Advances in lithium niobate photonics: development status and perspectives. Adv. Photon., 4, 034003(2022).

    [52] S. T. Liu, A. Khope. Latest advances in high-performance light sources and optical amplifiers on silicon. J. Semicond., 42, 041307(2021).

    [53] X. Zheng, P. Zhang, R. Ge, L. Lu, G. He, Q. Chen, F. Qu, L. Zhang, X. Cai, Y. Lu, S. Zhu, P. Wu, X. Ma. Heterogeneously integrated, superconducting silicon-photonic platform for measurement-device-independent quantum key distribution. Adv. Photon., 3, 055002(2021).

    [54] K. E. Kolodziej, B. T. Perry, J. S. Herd. In-band full-duplex technology: techniques and systems survey. IEEE Trans. Microw. Theory Tech., 67, 3025-3041(2019).

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    Xiuyou Han, Xinxin Su, Meng Chao, Xindi Yang, Weiheng Wang, Shuangling Fu, Yicheng Du, Zhenlin Wu, Mingshan Zhao, "Integrated photonic RF self-interference cancellation on a silicon platform for full-duplex communication," Photonics Res. 11, 1635 (2023)
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