Author:
Raj Murugananth Gopal,Pradip C,Saju N,Tresa Sangeetha S V
Abstract
Abstract
As a solution to mitigating rising energy needs, microgrids (MG) have arisen. But instead of microgrids are focused mainly on unconventional sources of energy. In their service, there is significant variability. Energy users will not know if their estimated load is long or short related to historical records. This paper aims to formulate a robust energy prediction of consumption in the microgrid system that uses random forest (RF) method theory as the mathematical framework. Effective MG energy forecast plays an essential role in power improvement MG efficacy. Comparing RF models with various parameter configurations and examining the parameters setting affects the model’s estimation efficiency.
Subject
General Physics and Astronomy
Reference15 articles.
1. An optimal day-ahead load scheduling approach based on the flexibility of aggregate demands;Ayón;Applied Energy,2017
2. Achieving privacy protection using distributed load scheduling: A randomised approach;Liu;IEEE Transactions on Smart Grid,2017
3. Performance Analysis of Hub BLDC Motor Using Finite Element Analysis;Rajkumar,2019
4. Efficient energy management for a grid-tied residential microgrid;Anvari-Moghaddam;IET Generation, Transmission & Distribution,2017
5. Generalised Optimal SVPWM for the Switched-Capacitor Voltage Boost Converter;Wang,2020
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