Visible to the public Biblio

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2022-08-26
Xu, Aidong, Fei, Lingzhi, Wang, Qianru, Wen, Hong, Wu, Sihui, Wang, Peiyao, Zhang, Yunan, Jiang, Yixin.  2021.  Terminal Security Reinforcement Method based on Graph and Potential Function. 2021 International Conference on Intelligent Computing, Automation and Applications (ICAA). :307—313.
By taking advantages of graphs and potential functions, a security reinforcement method for edge computing terminals is proposed in this paper. A risk graph of the terminal security protection system is constructed, and importance of the security protection and risks of the terminals is evaluated according to the topological potential of the graph nodes, and the weak points of the terminal are located, and the corresponding reinforcement method is proposed. The simulation experiment results show that the proposed method can upgrade and strengthen the key security mechanism of the terminal, improve the performance of the terminal security protection system, and is beneficial to the security management of the edge computing system.
2022-06-08
Chen, Lin, Qiu, Huijun, Kuang, Xiaoyun, Xu, Aidong, Yang, Yiwei.  2021.  Intelligent Data Security Threat Discovery Model Based on Grid Data. 2021 6th International Conference on Image, Vision and Computing (ICIVC). :458–463.
With the rapid construction and popularization of smart grid, the security of data in smart grid has become the basis for the safe and stable operation of smart grid. This paper proposes a data security threat discovery model for smart grid. Based on the prediction data analysis method, combined with migration learning technology, it analyzes different data, uses data matching process to classify the losses, and accurately predicts the analysis results, finds the security risks in the data, and prevents the illegal acquisition of data. The reinforcement learning and training process of this method distinguish the effective authentication and illegal access to data.
2022-05-05
Xu, Aidong, Wu, Tao, Zhang, Yunan, Hu, Zhiwei, Jiang, Yixin.  2021.  Graph-Based Time Series Edge Anomaly Detection in Smart Grid. 2021 7th IEEE Intl Conference on Big Data Security on Cloud (BigDataSecurity), IEEE Intl Conference on High Performance and Smart Computing, (HPSC) and IEEE Intl Conference on Intelligent Data and Security (IDS). :1—6.
With the popularity of smart devices in the power grid and the advancement of data collection technology, the amount of electricity usage data has exploded in recent years, which is beneficial for optimizing service quality and grid operation. However, current data analysis is mainly based on cloud platforms, which poses challenges to transmission bandwidth, computing resources, and transmission delays. To solve the problem, this paper proposes a graph convolution neural networks (GCNs) based edge-cloud collaborative anomaly detection model. Specifically, the time series is converted into graph data based on visibility graph model, and graph convolutional network model is adopted to classify the labeled graph data for anomaly detection. Then a model segmentation method is proposed to adaptively divide the anomaly detection model between the edge equipment and the back-end server. Experimental results show that the proposed scheme provides an effective solution to edge anomaly detection and can make full use of the computing resources of terminal equipment.
2022-04-13
Chen, Hao, Chen, Lin, Kuang, Xiaoyun, Xu, Aidong, Yang, Yiwei.  2021.  Support Forward Secure Smart Grid Data Deduplication and Deletion Mechanism. 2021 2nd Asia Symposium on Signal Processing (ASSP). :67–76.
With the vigorous development of the Internet and the widespread popularity of smart devices, the amount of data it generates has also increased exponentially, which has also promoted the generation and development of cloud computing and big data. Given cloud computing and big data technology, cloud storage has become a good solution for people to store and manage data at this stage. However, when cloud storage manages and regulates massive amounts of data, its security issues have become increasingly prominent. Aiming at a series of security problems caused by a malicious user's illegal operation of cloud storage and the loss of all data, this paper proposes a threshold signature scheme that is signed by a private key composed of multiple users. When this method performs key operations of cloud storage, multiple people are required to sign, which effectively prevents a small number of malicious users from violating data operations. At the same time, the threshold signature method in this paper uses a double update factor algorithm. Even if the attacker obtains the key information at this stage, he can not calculate the complete key information before and after the time period, thus having the two-way security and greatly improving the security of the data in the cloud storage.
2022-03-22
Zhang, Tengyue, Chen, Liang, Han, Wen, Lin, Haojie, Xu, Aidong, Zhou, Zhiyu, Chen, Zhiwei, Jiang, Yixin, Zhang, Yunan.  2021.  Security Protection Technology of Electrical Power System Based on Edge Computing. 2021 IEEE International Conference on Power Electronics, Computer Applications (ICPECA). :254—258.
In this paper, we mainly introduce the security protection technology of smart grid based on edge computing and propose an edge computing security protection architecture based on multi-service flexible mechanism. Aiming at the real time requirements of heterogeneous energy terminal access and power edge computing business in multiple interactive environment, a real-time and strong compatibility terminal security access mechanism integrating physical characteristics and lightweight cryptographic mechanism is proposed. According to different power terminal security data requirements, the edge computing data transmission, processing security and privacy protection technology are proposed. In addition, in the power system of distribution, microgrid and advanced metering system, the application of edge computing has been well reflected. Combined with encryption technology, access authentication, the security defense of edge data, edge equipment and edge application is carried out in many aspects, which strengthens the security and reliability of business penetration and information sharing at the edge of power grid, and realizes the end-to-end and end-to-system security prevention and control of power grid edge computing.
2021-09-30
Xu, Aidong, Jiang, Yixin, Zhang, Yunan, Hong, Chao, Cai, Xingpu.  2020.  A Double-Layer Cyber Physical Cooperative Emergency Control Strategy Modification Method for Cyber-Attacks Against Power System. 2020 12th IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC). :1–5.
With the great development of the information communication technology, power systems have been typical Cyber Physical Systems (CPSs). Although the control function of the grid side is becoming more intelligent, Grid Cyber Physical System (GCPS) brings the risk of potential cyberattacks. In this paper, the impacts of cyber-attacks against GCPS are analyzed based on confusion matrix model firstly, then a double-layer cyber physical collaboration control strategy adjustment methods is proposed considering the status of cyber modules and physical devices infected by cyber-attacks. Finally, the feasibility and effectiveness of the proposed method are verified on the IEEE standard system.
2021-08-17
Tang, Jie, Xu, Aidong, Jiang, Yixin, Zhang, Yunan, Wen, Hong, Zhang, Tengyue.  2020.  Secret Key Attaches in MIMO IoT Communications by Using Self-injection Artificial Noise. 2020 IEEE International Conference on Artificial Intelligence and Information Systems (ICAIIS). :225–229.
Internet of Things (IoT) enable information transmission and sharing among massive IoT devices. However, the key establishment and management in IoT become more challenging due to the low latency requirements and resource constrained IoT devices. In this work, we propose a practical physical layer based secret key sharing scheme for MIMO (multiple-input-multiple-output) IoT devices to reduce the communication delay caused by key establishment of MIMO IoT devices. This is because the proposed scheme attachs secret key sharing with communication simultaneously. It is achieved by the proposed MIMO self-injection AN (SAN) tranmsission, which is designed to deliberately maximum the receive SNR (signal to noise ratio) at different antenna of the legitimate IoT device, based on the value of secret key sharing to him. The simulation results verified the validity and security of the proposed scheme.
2020-08-10
Liao, Runfa, Wen, Hong, Pan, Fei, Song, Huanhuan, Xu, Aidong, Jiang, Yixin.  2019.  A Novel Physical Layer Authentication Method with Convolutional Neural Network. 2019 IEEE International Conference on Artificial Intelligence and Computer Applications (ICAICA). :231–235.
This paper investigates the physical layer (PHY-layer) authentication that exploits channel state information (CSI) to enhance multiple-input multiple-output orthogonal frequency division multiplexing (MIMO-OFDM) system security by detecting spoofing attacks in wireless networks. A multi-user authentication system is proposed using convolutional neural networks (CNNs) which also can distinguish spoofers effectively. In addition, the mini batch scheme is used to train the neural networks and accelerate the training speed. Meanwhile, L1 regularization is adopted to prevent over-fitting and improve the authentication accuracy. The convolutional-neural-network-based (CNN-based) approach can authenticate legitimate users and detect attackers by CSIs with higher performances comparing to traditional hypothesis test based methods.
2020-03-09
Xie, Yuanpeng, Jiang, Yixin, Liao, Runfa, Wen, Hong, Meng, Jiaxiao, Guo, Xiaobin, Xu, Aidong, Guan, Zewu.  2015.  User Privacy Protection for Cloud Computing Based Smart Grid. 2015 IEEE/CIC International Conference on Communications in China - Workshops (CIC/ICCC). :7–11.

The smart grid aims to improve the efficiency, reliability and safety of the electric system via modern communication system, it's necessary to utilize cloud computing to process and store the data. In fact, it's a promising paradigm to integrate smart grid into cloud computing. However, access to cloud computing system also brings data security issues. This paper focuses on the protection of user privacy in smart meter system based on data combination privacy and trusted third party. The paper demonstrates the security issues for smart grid communication system and cloud computing respectively, and illustrates the security issues for the integration. And we introduce data chunk storage and chunk relationship confusion to protect user privacy. We also propose a chunk information list system for inserting and searching data.