首页> 外文会议>International Conference on Applied Energy >Sliding Mode Control for Variable-Speed Wind Turbine Generation Systems using Artificial Neural Network

【24h】

Sliding Mode Control for Variable-Speed Wind Turbine Generation Systems using Artificial Neural Network

机译：使用人工神经网络的变速风力涡轮机生成系统的滑模控制

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

An induction generator (IG) speed drive with the application of a sliding mode controller and a proposed artificial neural network (ANN) controller is introduced in this paper. Grid connected wind energy conversion system (WECS) present interesting control demands, due to the intrinsic nonlinear characteristic of wind mills and electric generators. The ANN torque compensation is feed-forward to increase the robustness of the wind driven induction generator system. The proposed controller is designed to drive the turbine speed to extract maximum power from the wind and adjust to the power regulation. When sliding mode occurs on the sliding surface, the control system acts as a robust state feedback system. Moreover, a sliding mode speed controller is designed based on a sliding surface.

机译：本文介绍了具有施加滑动模式控制器和所提出的人工神经网络（ANN）控制器的诱导发电机（IG）速度驱动。由于挡风机和发电机的内在非线性特性，网格连接的风能转换系统（WECS）目前有趣的控制需求。 ANN扭矩补偿是前面的，以增加风力驱动的感应发电机系统的鲁棒性。所提出的控制器设计用于驱动涡轮机速度以从风中提取最大功率并调整到功率调节。当滑动表面发生滑动模式时，控制系统充当强大的状态反馈系统。此外，基于滑动表面设计滑动模式速度控制器。

著录项

来源
《International Conference on Applied Energy》|2015年||共4页
会议地点
作者
Chih-Ming Hong; Cong-Hui Huang; Fu-Sheng Cheng;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类能源;
关键词
sliding mode control (SMC); artificial neural network (ANN); wind turbine (WT); wind energy conversion system (WECS); induction generator (IG);

机译：滑模控制（SMC）;人工神经网络（ANN）;风力涡轮机（WT）;风能转换系统（WECS）;诱导发电机（IG）;

相似文献

外文文献
中文文献
专利

1. Enhanced radial fuzzy wavelet neural network with sliding mode control for a switched reluctance wind turbine distributed generation system [J] . Hong Chih-Ming, Chen Chiung-Hsing Engineering Optimization . 2019,第7a9期

机译：具有开关磁阻风力涡轮机分布式发电系统的增强型径向模糊小波神经网络具有滑模控制
2. Non-linear sliding mode control for frequency regulation with variable-speed wind turbine systems [J] . Prasad Sheetla, Purwar Shubhi, Kishor Nand International journal of electrical power and energy systems . 2019,第MAY期

机译：用于变速风轮机系统的频率调节的非线性滑模控制
3. Load frequency control by neural-network-based integral sliding mode for nonlinear power systems with wind turbines [J] . Qian Dianwei, Tong Shiwen, Liu Hong, Neurocomputing . 2016,第JANa15PTa3期

机译：带有风力发电机的非线性电力系统的基于神经网络的整体滑模负荷频率控制
4. Sliding Mode Control for Variable-Speed Wind Turbine Generation Systems using Artificial Neural Network [C] . Chih-Ming Hong, Cong-Hui Huang, Fu-Sheng Cheng International Conference on Applied Energy . 2015

机译：使用人工神经网络的变速风力涡轮机生成系统的滑模控制
5. Modeling and Control of Photovoltaic Array and Wind Turbine for Hybrid Power Generation Using Artificial Neural Network [D] . Mitra, Sagnik. 2018

机译：人工神经网络用于混合发电的光伏阵列和风力发电机的建模与控制
6. Artificial Pancreas Systems: A Closed-Loop Artificial Pancreas Using Model Predictive Control and a Sliding Meal Size Estimator [O] . Hyunjin Lee, Bruce A. Buckingham, Darrell M. Wilson, 2009

机译：人工胰腺系统：使用模型预测控制和滑动餐量估算器的闭环人工胰腺
7. Sliding Mode Control for Variable-speed Wind Turbine Generation Systems Using Artificial Neural Network [O] . Hong Chih-Ming, Huang Cong-Hui, Cheng Fu-Sheng 2014

机译：基于人工神经网络的变速风力发电机组滑模控制

Sliding Mode Control for Variable-Speed Wind Turbine Generation Systems using Artificial Neural Network

摘要

著录项

相似文献

相关主题

期刊订阅