Yunchao Shi ¹ Chen Zhuang ^1* Tianyang Yu ¹ Weiru Wang ² Qianhong Gan ³

• ¹ State Grid Zhejiang marketing service center, Hang zhou, China
• ² The State Key Laboratory of Power Transmission Equipment and System Security and New Technology, Chongqing University, Chongqing, China
• ³ Beijing CLP Puhua Information Technology Co., LTD, Bei jing, China

With the acceleration of digitalization and informatization in the power system, the application of big data in power marketing is becoming increasingly popular. However, how to effectively manage and control the access to this data has become an important challenge. Marketing data leakage can lead to incorrect formulation of electricity consumption strategies, electricity prices, etc., resulting in huge economic losses for power companies and seriously affecting their economic benefits. A power marketing big data access control scheme based on a multi-level strategy is proposed in this paper. Firstly, by classifying and rating power marketing data, a multi-level access control model was established to ensure that users and systems at different levels can only access their appropriate data hierarchy. Then, dynamic authorization and auditing mechanisms have been introduced to respond to real-time changes in data access requirements and security auditing requirements. Specifically, a ciphertext strategy based on ordered binary decision graphs and a multi-level access control scheme based on attribute encryption are proposed. It can solve the problem of high autonomy in accessing shared data permissions of remote terminal units and improved the efficiency and security of data access. Finally, the effectiveness of this scheme in improving data access efficiency and ensuring data security is verified through experimental verification and performance analysis.