能量管理控制参数的优化是一个影响车辆性能的重要因素。
Energy management control parameter optimization is an important issue which affects the performances of vehicle in depth.
能量管理控制策略直接决定了汽车的运行模式以及能量输出,是Plug - in混合动力汽车的核心部分。
Energy distribution control strategy can decide the operation mode and energy distribution, which is the core of a PHEV.
介绍了燃料电池的工作原理及其车辆应用模型,并在此基础上进一步阐述了燃料电池混合驱动汽车的结构与其能量流的控制管理策略。
The principle and the application model of full cell in vehicle are introduced. The structure and energy flow control strategy of fuel cell hybrid vehicle are described.
电动客车的关键技术包括动力系统、整车车身结构设计与分析、整车控制和能量管理系统等。
Key technologies of electric vehicle include power system, vehicle body structure design and analysis, overall vehicle control and energy management system etc.
提出了基于小脑模型神经网络(CMAC)控制器的能量管理策略,分析了CMAC参数对控制器性能的影响。
This paper presents energy management strategy on the basis of CMAC, and analyzes the influence of CMAC parameters on the performance of controller.
并联混合动力能量管理和瞬态过程动力控制都需要发动机的实时转矩。
For either energy management or transient process control, it is essential to obtain the torque of the engine.
随后给出了针对该系统能量管理的分级模糊控制器的设计。
As follows, presented the design of the hierarchical controller to its energy management system.
研究成果对智能电网的智能能量管理和调度控制研究也具有借鉴意义。
The research achievements have reference values for energy management and dispatch control of smart grid.
开发了一种并联式HEV的动力总成控制系统,可实现HEV能量管理和状态切换控制。
The powertrain control system of a hybrid electric vehicle (HEV) is developed, which can achieve energy management and state switching control.
电气及控制系统设计包括低压电气系统、高压电气系统和整车控制与能量管理系统的设计。
Electrical and control system design include low-voltage electrical system design, high-voltage electrical system design, overall vehicle control and energy management system design.
自动发电控制(简称agc)是能量管理系统(简称EMS)中最重要的控制功能,也是电力市场中一项重要的辅助服务。
Automatic Generation control (AGC) is of most important control function in Energy Management System (EMS), and is an important ancillary service in power market.
由于双向变换器在该系统中承担了双向输送能量的任务,因此实现系统能量管理的核心是对双向变换器的合理有效控制。
Bi-directional converter implements bi-directional energy transfer in the system, so the core of energy management is effective control bi-directional converter.
分析了暖通空调优化能量消耗的特点,介绍了暖通空调控制系统基础控制器参数整定、工作点优化和能量管理的现状。
Analyses the characteristics of energy consumption of HVAC systems, and presents the status of the controller auto-tuning, set-point optimization and energy management for HVAC systems.
而后将算法进行简化,设计了自适应soc维持能量管理算法,在单片机上实现了实时控制。
Then the algorithm is simplified, and an adaptive SOC sustaining energy management algorithm is designed. The algorithm is implemented on a microcontroller in real-time.
本文从无线传感器网络中多应用场景下的能量管理问题出发提出了一个系统级分布式接入控制策略。
The system level distributed admission control scheme for wireless sensor network (WSN) in the presence of multiple applications is developed.
末端能量管理段是通过能量—航程的剖面对轨迹飞行器实施控制,并对能量加以控制。
In the Terminal Area energy Management, take advantage of the Energy-Range profile to achieve the flight control of Reusable Launch Vehicle and the energy is also controlled.
能量管理策略是混合动力汽车节能技术的关键,它是混合动力控制系统的核心。
EMS is a critical technology of fuel economy improvement for HEVs. It is essential in control system of the hybrid powertrain.
目前,我国暖通空调控制系统按照定负荷、定控制回路工作点、定控制器参数运行,并且在能量管理功能方面有很多不足。
Nowadays, in China HVAC systems operate at fixed load, fixed working point and fixed controller parameter, and there are many problems in energy management.
探讨了能量的控制机制和能量管理功能,并介绍了能量的安全问题。
Then the control mechanism and management function of energy are discussed and the security of energy is introduced.
探讨了能量的控制机制和能量管理功能,并介绍了能量的安全问题。
Then the control mechanism and management function of energy are discussed and the security of energy is introduced.
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