变分不等式
不平等
经济
需求价格弹性
电力系统
功率(物理)
数学优化
数理经济学
计算机科学
微观经济学
数学
物理
数学分析
量子力学
作者
Shiwei Xie,Longtao Xie,Qiuwei Wu,Shengwen Shu,Yuanyi Chen,Qiang Yang,Zhenguo Shao
标识
DOI:10.1109/tpwrs.2025.3566413
摘要
The rise of electric vehicles (EVs) fosters closer integration between the power and transportation sectors. While implementing a fair EV charging pricing strategy optimizes the system economic performance, modeling EV users' behaviors and their elastic demand in response to charging prices remains a significant challenge. This paper proposes a novel pricing scheme for EV charging within power-transportation systems using a trilevel framework that considers the interactions among the power distribution network (PDN), charging network operator (CNO), and EVs. To capture the responsive behaviors of EVs, a user equilibrium (UE) model with price-elastic demand is formulated as a quasi-variational inequality (QVI). This approach reduces the tri-level pricing problem to a bi-level optimization problem by merging the middle and lower levels into an optimization problem with QVI constraints, thereby achieving mathematical tractability. The outer level optimizes energy dispatch in the PDN, while the inner level focuses on the CNO's pricing optimization in response to elastic EV demand. To solve the problem, a projection gradient algorithm and a tailored fixed-point algorithm are developed. Simulation results confirm the effectiveness and superiority of the proposed model and algorithms. Sensitivity analysis further shows that elasticity and regulation significantly affect system efficiency, demonstrating the model's robustness
科研通智能强力驱动
Strongly Powered by AbleSci AI