Wireless Key Generation Scheme Based on Random Permutation and Perturbation in Quasistatic Environments

Abstract

The wireless key generation using wireless channel reciprocity has attracted considerable attention in the past two decades. However, there are many challenges for the key generation in quasistatic wireless environments. The key generation rate (KGR) in a quasistatic environment is low, and the randomness of the key is insufficient, which is difficult to meet the secure communication requirements. To tackle these issues, a random permutation and perturbation-based wireless key generation (RPP-WKG) scheme is proposed to improve the KGR and randomness in quasistatic environments. Unlike existing key generation schemes, the RPP-WKG scheme allows the two legitimate users to generate the same secret key based on their random permuted channel measurements. Besides, the perturbed key sequence will be obtained by combining the initial key generated after quantization and the permutation order sequence through the XOR operation. Simulation results show that the proposed RPP-WKG scheme can generate secret keys with a high generation rate, sufficient randomness, a low mismatch rate, and a low correlation coefficient in quasistatic environments.