Event-Driven Nonlinear Discounted Optimal Regulation Involving a Power System Application
Document Type
Article
Date of Original Version
10-1-2017
Abstract
By employing neural network approximation architecture, the nonlinear discounted optimal regulation is handled under event-driven adaptive critic framework. The main idea lies in adopting an improved learning algorithm, so that the event-driven discounted optimal control law can be derived via training a neural network. The stability guarantee and simulation illustration are also included. It is highlighted that the initial stabilizing control policy is not required during the implementation process with the combined learning rule. Moreover, the closed-loop system is formulated as an impulsive model. Then, the related stability issue is addressed by using the Lyapunov approach. The simulation studies, including an application to a power system, are also conducted to verify the effectiveness of the present design method.
Publication Title, e.g., Journal
IEEE Transactions on Industrial Electronics
Volume
64
Issue
10
Citation/Publisher Attribution
Wang, Ding, Haibo He, Xiangnan Zhong, and Derong Liu. "Event-Driven Nonlinear Discounted Optimal Regulation Involving a Power System Application." IEEE Transactions on Industrial Electronics 64, 10 (2017): 8177-8186. doi: 10.1109/TIE.2017.2698377.