Biblio

Filters: Author is Ouyang, Xuan  [Clear All Filters]
2020-02-17
Ying, Huan, Ouyang, Xuan, Miao, Siwei, Cheng, Yushi.  2019.  Power Message Generation in Smart Grid via Generative Adversarial Network. 2019 IEEE 3rd Information Technology, Networking, Electronic and Automation Control Conference (ITNEC). :790–793.
As the next generation of the power system, smart grid develops towards automated and intellectualized. Along with the benefits brought by smart grids, e.g., improved energy conversion rate, power utilization rate, and power supply quality, are the security challenges. One of the most important issues in smart grids is to ensure reliable communication between the secondary equipment. The state-of-art method to ensure smart grid security is to detect cyber attacks by deep learning. However, due to the small number of negative samples, the performance of the detection system is limited. In this paper, we propose a novel approach that utilizes the Generative Adversarial Network (GAN) to generate abundant negative samples, which helps to improve the performance of the state-of-art detection system. The evaluation results demonstrate that the proposed method can effectively improve the performance of the detection system by 4%.
2019-03-18
Zhou, Liang, Ouyang, Xuan, Ying, Huan, Han, Lifang, Cheng, Yushi, Zhang, Tianchen.  2018.  Cyber-Attack Classification in Smart Grid via Deep Neural Network. Proceedings of the 2Nd International Conference on Computer Science and Application Engineering. :90:1–90:5.
Smart grid1 is a modern power transmission network. With its development, the computing, communication and physical processes is getting more and more connected. However, an adversary can destroy power production by attacking the power secondary equipment. Accurate and fast response to cyber-attacks is a prerequisite for stable grid operation. Therefore, it is critical to identify and classify attacks in the smart grid. In this paper, we propose a novel approach that utilizes machine learning algorithms to help classify cyber-attacks. We built a deep neural network (DNN) model and select the global optimal parameters to achieve high generalization performance. The evaluation result demonstrates that the proposed method can effectively identify cyber-attacks in smart grid with an accuracy as high as 96%.