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[Keyword] channel reciprocity(4hit)

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  • A Practical Secret Key Generation Scheme Based on Wireless Channel Characteristics for 5G Networks

    Qiuhua WANG  Mingyang KANG  Guohua WU  Yizhi REN  Chunhua SU  

     
    PAPER-Network Security

      Pubricized:
    2019/10/16
      Vol:
    E103-D No:2
      Page(s):
    230-238

    Secret key generation based on channel characteristics is an effective physical-layer security method for 5G wireless networks. The issues of how to ensure the high key generation rate and correlation of the secret key under active attack are needed to be addressed. In this paper, a new practical secret key generation scheme with high rate and correlation is proposed. In our proposed scheme, Alice and Bob transmit independent random sequences instead of known training sequences or probing signals; neither Alice nor Bob can decode these random sequences or estimate the channel. User's random sequences together with the channel effects are used as common random source to generate the secret key. With this solution, legitimate users are able to share secret keys with sufficient length and high security under active attack. We evaluate the proposed scheme through both analytic and simulation studies. The results show that our proposed scheme achieves high key generation rate and key security, and is suitable for 5G wireless networks with resource-constrained devices.

  • Weighted-Combining Calibration on Multiuser MIMO Systems with Implicit Feedback Open Access

    Hayato FUKUZONO  Tomoki MURAKAMI  Riichi KUDO  Yasushi TAKATORI  Masato MIZOGUCHI  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E98-B No:4
      Page(s):
    701-713

    Implicit feedback is an approach that utilizes uplink channel state information (CSI) for downlink transmit beamforming on multiple-input multiple-output (MIMO) systems, relying on over-the-air channel reciprocity. The implicit feedback improves throughput efficiency because overhead of CSI feedback for change of over-the-air channel responses is omitted. However, it is necessary for the implicit feedback to calibrate circuitry responses that uplink CSI includes, because actual downlink and uplink channel responses do not match due to different transmit and receive circuitry chains. This paper presents our proposed calibration scheme, weighted-combining calibration (WCC); it offers improved calibration accuracy. In WCC, an access point (AP) calculates multiple calibration coefficients from ratios of downlink and uplink CSI, and then combines coefficients with minimum mean square error (MMSE) weights. The weights are derived using a linear approximation in the high signal to noise power ratio (SNR) regime. Analytical mean square error (MSE) of calibration coefficients with WCC and calibration schemes for comparison is expressed based on the linear approximation. Computer simulations show that the analytical MSE matches simulated one if the linear approximation holds, and that WCC improves the MSE and signal to interference plus noise power ratio (SINR). Indoor experiments are performed on a multiuser MIMO system with implicit feedback based on orthogonal frequency division multiplexing (OFDM), built using measurement hardware. Experimental results verify that the channel reciprocity can be exploited on the developed multiuser MIMO-OFDM system and that WCC is also effective in indoor environments.

  • Phase Synchronization for MIMO Radars in the Absence of Channel Reciprocity

    Kwanggoo YEO  Hyuk-soo SHIN  Hoon-gee YANG  Young-seek CHUNG  Myung-deuk JEONG  Wonzoo CHUNG  

     
    LETTER-Digital Signal Processing

      Vol:
    E97-A No:5
      Page(s):
    1130-1135

    This letter presents a novel phase synchronization algorithm for a MIMO radar system in order to overcome the limitation of the existing algorithms relying on channel reciprocity, or line-of-sight, assumption between radar elements. The proposed algorithm is capable of synchronizing local oscillator phases among radar elements even if line-of-sight communication links are not available. Furthermore, the proposed algorithm exhibits robust MSE performance in the presence of frequency estimation error. The performance of the proposed algorithm was analyzed theoretically and verified by simulations.

  • Antenna Array Calibration Based on Frequency Selection in OFDMA/TDD Systems Open Access

    Yoshitaka HARA  Yasuhiro YANO  Hiroshi KUBO  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E92-B No:10
      Page(s):
    3195-3205

    This paper proposes a new antenna array calibration technique which uses frequency selection in orthogonal frequency division multiple access (OFDMA)/time division duplexing (TDD) systems. In the proposed method, subbands or frequencies of good channel conditions are initially selected for channel measurements. The relative calibration is performed at the selected subbands, which compensates for mismatch of analogue gains in multiple antennas using the measured uplink and downlink channel parameters. Furthermore, the calibration parameters are interpolated in the frequency domain for the whole bandwidth. The proposed calibration maintains accurate channel reciprocity for the whole bandwidth compared to the conventional calibration which does not use the frequency selection. The proposed calibration technique is effective in exploiting channel reciprocity at both base station and terminals with feasible amount of feedback and low-cost operation.