第 38 卷 第 4 期                 朴大志： 多极化 MIMO 信道特性与天线设计                                        727


             的方法虽然可以准确地体现多极化信道特性与天                                 Sun Guiqing, Li Qihu, Progress of study on acoustic vec-
             线和传播环境之间的关系，但由于计算量太大很难                                tor sensor[J]. Acta Acustica, 2004, 29(6): 481–490.
                                                                [10] 杨秀庭, 孙贵青, 陈新华, 等. 矢量水听器阵列 MVDR 波束形
             直接应用到现实的通信环境，因此针对复杂的传播                                成器的性能研究 [J]. 应用声学, 2007, 26(1): 8–15.
             环境，未来需要考虑计算量与信道传播特性细节描                                Yang Xiuting, Sun Guiqing, Chen Xinhua, et al. Perfor-
                                                                   mance of MVDR in vector hydrophone array[J]. Applied
             述之间的折中，将电波传播与通信的基本理论相结
                                                                   Acoustics, 2007, 26(1): 8–15.
             合得到合适的信道建模方法。关于多极化天线设计                             [11] Lo Monte L, Elnour B, Erricolo D. Distributed 6D vec-
                                                                   tor antennas design for direction of arrival applications[C].
             方面，已有的多极化天线多集中于 6 GHz 以下的 2
                                                                   2007 International Conference on Electromagnetics in Ad-
             极化和3极化天线，而毫米波是5G的一个重要工作                               vanced Applications, Torino, 2007: 431–434.
             频段，未来的多极化天线设计需要从电磁场和天线                             [12] 李启虎. 水声信号处理领域新进展 [J]. 应用声学, 2012, 31(1):
                                                                   2–9.
             的基本理论出发，将各个极化的天线进行有机的组                                Li Qihu. New advances of underwater acoustic signal pro-
             合而不是简单的堆砌，来得到适合于不同应用场景                                cessing[J]. Applied Acoustics, 2012, 31(1): 2–9.
                                                                [13] Lominé J, Morlaas C, Imbert C, et al. Dual-band vector
             和频段的多极化MIMO天线。
                                                                   sensor for direction of arrival estimation of incoming elec-
                 此外，多极化 MIMO 技术在高分辨率定位、导                           tromagnetic waves[J]. IEEE Transactions on Antennas &
             航、成像和高效率无线功率传输等领域都具有重要                                Propagation, 2015, 63(8): 3662–3671.
                                                                [14] Meloling J, Rockway J W, Daly M M, et al. A vector-
             的应用前景，但人们对各种系统中其性能提升的潜                                sensing antenna system: a high-frequency, vector-sensing
             力还缺乏透彻的认识，对其实现的方式及与信息理                                array based on the two-port loop antenna element[J].
                                                                   IEEE Antennas and Propagation Magazine, 2016, 58(6):
             论和信号处理等理论的结合也需要深入的研究。                                 57–63.
                                                                [15] Duplouy J, Morlaas C, Aubert H, et al.  Reconfig-
                                                                   urable grounded vector antenna for 3-D electromag-
                            参 考     文   献                          netic direction-finding applications[J]. IEEE Antennas
                                                                   and Wireless Propagation Letters, 2018, 17(2): 197–200.
                                                                [16] Gogineni S, Nehorai A. Polarimetric MIMO radar with
              [1] Paulraj A J, Gore D A, Nabar R U, et al. An overview of  distributed antennas for target detection[J]. IEEE Trans-
                 MIMO communications-a key to gigabit wireless[J]. Pro-  actions on Signal Processing, 2010, 58(3): 1689–1697.
                 ceedings of the IEEE, 2004, 92(2): 198–218.    [17] Alaqeel A A, Ibrahim A A, Nashashibi A Y, et al. Ex-
              [2] Gesbert D, Shafi M, Shiu D S, et al. From theory to  perimental characterization of multi-polarization radar
                 practice: an overview of MIMO space-time coded wireless  backscatter response of vehicles at J-Band[J]. IEEE Trans-
                 systems[J]. IEEE Journal on Selected Areas in Communi-  actions on Intelligent Transportation Systems, Early ac-
                 cations, 2003, 21(3): 281–302.                    cess.
              [3] Andrews J G. What will 5G be?[J]. IEEE Journal on Se-  [18] Wang J, Aubry P, Yarovoy A. A novel rotated antenna
                 lected Areas in Communications, 2014, 32(6): 1065–1082.  array topology for near-field 3-D fully polarimetric imag-
              [4] 郑剑锋, 冯正和. MIMO 无线通信中的多极化天线 [J]. 中国               ing[J]. IEEE Transactions on Antennas & Propagation,
                 基础科学, 2007, 9(6): 9–17.                           2018, 66(3): 1584–1589.
                 Zheng Jianfeng, Feng Zhenghe. A review of polarized an-  [19] Liu A, Wang F, Xu H, et al. N-SAR: a new multichannel
                 tennas for MMIO wireless communications[J]. China Basic  multimode polarimetric airborne SAR[J]. IEEE Journal
                 Science, 2007, 9(6): 9–17.                        of Selected Topics in Applied Earth Observations and Re-
              [5] Hatke G F. Conditions for unambiguous source location  mote Sensing, 2018, 11(9): 3155–3166.
                 using polarization diverse arrays[C]. Proceedings of 27th  [20] Abdi A, Guo H. A new compact multichannel receiver
                 Asilomar Conference on Signals, Systems and Computers,  for underwater wireless communication networks[J]. IEEE
                 Pacific Grove, CA, USA, 1993, 2: 1365–1369.        Transactions on Wireless Communication, 2009, 8(7):
              [6] Nehorai A, Paldi E. Vector-sensor array processing for  3326–3329.
                 electromagnetic source localization[J]. IEEE Transac-  [21] Song A, Abdi A, Badiey M, et al. Experimental demon-
                 tions on Signal Processing, 1994, 42(2): 376–398.  stration of underwater acoustic communication by vector
              [7] Nehorai A, Paldi E. Acoustic vector-sensor array pro-  sensors[J]. IEEE Journal of Oceanic Engineering, 2011,
                 cessing[J]. IEEE Transactions on Signal Processing, 1994,  36(3): 454–461.
                 42(9): 2481–2491.                              [22] Fauziya F, Lall B, Agrawal M. AoA based analysis of vec-
              [8] Rahamim D, Tabrikian D, Shavit R. Source localization  tor sensor receiver for underwater acoustic communica-
                 using vector sensor array in a multipath environment[J].  tions[C]. OCEANS 2017-Aberdeen, Aberdeen, 2017: 1–6.
                 IEEE Transactions on Signal Processing, 2004, 52(11):  [23] Rawat M, Lall B, Srirangarajan S. Capacity of dual
                 3096–3103.                                        hop underwater acoustic communication using vector sen-
              [9] 孙贵青, 李启虎. 声矢量传感器研究进展 [J]. 声学学报, 2004,            sors[C]. 2018 OCEANS-MTS/IEEE Kobe Techno-Oceans
                 29(6): 481–490.                                   (OTO), Kobe, 2018: 1–5.