Adaptive Control Strategy for Microgrid Distribution Circuits
Abstract
CSULB project team will lead all tasks from Task 1 to Task 4. Task 1 is to perform literaturesearch and to design a scalable architecture for an adaptive control system, including themathematical modeling of a scalable distributed circuit with renewables and consumptions.This system produces an energy generation, storage and consumption scheduling as output innormal operation mode. Task 2 will be the design and development of the detection algorithmfor the irregular mode (i.e. behave badly load) occurrence and estimate the size of the load,isolation and compensation algorithms of the scalable distributed circuits in the irregularoperational mode. Task 3 is to perform the MATLAB/Simulink simulation of the detection,estimation, isolation, and compensation algorithms of the scalable distributed circuits. Task 4is to perform the tradeoff study of this adaptive control of the scalable distributed circuits tomeet the design requirements. Each constituent task has a specific time duration as shown inTable 1, illustrating inter-relationships of these tasks.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Sep 23, 2016
- Source ID
- N000141612962
Entities
People
- Hen-geul Yeh
Organizations
- California State University, Long Beach
- Office of Naval Research
- United States Navy