Litcius/Paper detail

Physical-Layer Secret Key Generation Based on Bidirectional Convergence Feature Learning Convolutional Network

Yanru Chen, Zhiyuan Luo, Zhiyuan Wang, Limin Sun, Yang Li, Bin Xing, Liangyin Chen, Bing Guo

2023IEEE Internet of Things Journal13 citationsDOI

Abstract

Physical-layer secret key generation (PLKG) is a new research area that has emerged in recent years. It is aimed at scenarios where legitimate IoT devices communicate directly, interacting with confidential information for lower overhead and higher security by using wireless channel. When applying it to wireless feature extraction, noise removal is not taken into account in current deep learning networks. To address these problems, the PLKG scheme based on bidirectional convergence feature learning convolutional network (BCFL-based scheme) is proposed, which consists of neural network called BCFL and a new quantization method to achieve better secret key generation. Unlike existing PLKG schemes that enabling both parties to communicate for obtaining higher channel feature similarities, when training it, channel state information (CSI) obtained by channel estimation for two legitimate devices during coherent time is used as inputs; and mean square error (MSE) between two outputs is used as a result of loss function for iterative training. Thus, it can obtain better denoising ability with guaranteed low computational resource consumption, and two legitimate devices can obtain highly correlated channel features. Multiple quantization method is also proposed to address low secret key generation rate (KGR) and low-secret key randomness (KR). The results show that the proposed BCFL-based scheme has a lower MSE than other schemes in different scenarios, indicating that it has better capability to learn channel reciprocity; and secret key error rate (KER) and time consumption are only about 50% of other schemes, which is a significant performance improvement.

Topics & Concepts

Computer scienceKey generationPhysical layerQuantization (signal processing)Key (lock)Overhead (engineering)Computer engineeringFeature (linguistics)Channel (broadcasting)WirelessAlgorithmCryptographyComputer networkComputer securityTelecommunicationsLinguisticsPhilosophyOperating systemWireless Signal Modulation ClassificationWireless Communication Security TechniquesBiometric Identification and Security