Physical Layer Key Generation in Practical 802.11 MIMO-OFDM Networks

Physical-layer key generation (PKG) leverages the reciprocity of wireless channel to distribute a symmetric secret key between two legitimate transceivers. This paper proposes an efficient and standard-compliant PKG scheme in 802.11 MIMO-OFDM (multiple-input multiple-output, orthogonal frequency division multiplexing) networks. Firstly, we propose to extract secret keys from a novel feature referred to relative channel state information (RCSI), which can eliminate the non-reciprocity caused by transceiver mismatch and synchronization errors. Specifically, the RCSIs are derived through dividing the channel state informations (CSIs) of non-reference antennas by those of reference antennas. By setting the spatial mapping matrices of the sounding packets as permutation matrices, the reference antennas are determined implicitly without the need for information exchange. Secondly, based on the 802.11 low-density parity-check code (LDPC), we propose an adaptive information reconciliation algorithm, which is flexible to fit the various scenarios with different key lengths and bit disagreement ratios. At last, the overall PKG procedure with detailed frame format design is provided. The proposed scheme is evaluated through an 802.11ax link-level simulation. Numerical results show that the key generation rate of the proposed scheme can achieve 0.47 similar to 14Mbps for practical settings.