座舱压力

飞机座舱压力控制系统性能分析

Analysis of the Capability of the Plane Cabin Pressure Control System

座舱压力调节器动态试验台真空抽气系统

Vacuum Pumping System for Cabin Pressure Regulator Dynamic State Test Stand

并对采用模糊PID复合控制器的压力控制系统进行了仿真分析，得出模糊PID控制能在一定范围内能较好的满足座舱压力制度的要求。

Simulated the cabin pressure fuzzy-PID control system , and experimental results showed that the fuzzy-PID controller can satisfied the request of the rules of cabin pressure .

本文的研究结果，对于发展电子/电动式座舱压力控制系统具有一定意义。

The study has certain significances on developing electronic-electric CPCS .

飞机座舱压力的最佳控制与自适应控制

The optimum control and adaptive control for airplane cabin pressure

数字式座舱压力调节系统的模糊滑模变结构控制

Fuzzy Sliding Mode Variable Structure Control of Digital Cabin Pressure Regulating System

大型客机座舱压力控制系统安全阀仿真研究

Simulation of Safety Valve of Aerobus Cabin Pressure Control System

座舱压力控制系统的建模算法与仿真

Model Building , Algorithm and Simulation of the Pressure Control System of a Cabin

座舱压力控制技术应用于高速列车车厢的可行性分析

Feasibility analysis of using cabin 's pressure control technology to high speed train 's carriage

飞机座舱压力调节器试验台

Test Stand for Aircraft Cabin Pressure Regulator

本文提出了飞机座舱压力控制的新设计方案，即飞机座舱压力的最佳控制与自适应控制。

This paper presents a new design for airplane cabin pressure , i.e. the optimum and adaptive control for airplane cabin pressure .

然而，由于现代飞机座舱压力制度发生变化（座舱压差增加），迅速减压肺损伤的危险性随之增加。

However , as a result of the change of the cabin pressure system , the fatalness of lung trauma by rapid decompression will increase .

本文对座舱压力控制系统的作用进行了阐述，介绍了座舱压力控制系统的发展以及国内外的应用情况。

This article expounds the effect of the cabin pressure control system and introduces its process of development as well as its applications both at home and abroad .

随着我国航空工业的发展，特别是大型飞机和特种飞机的研制，对飞行器座舱压力控制系统提出了更高的要求。

With the development in the field of aeronautics , especially the large aircraft and the special aircraft , higher requirement for CPCS ( cabin pressure control system ) was raised .

分析表明，这种形式座舱压力调节器，只要结构设计合理，它不仅能满足静态特性，而且对于飞机飞行的各种典型过程，其动态特性也能满足人体的生理要求。

The analysis shows that if the structural design of this type of cabin pressure regulator is reasonable , it can meet the steady state characteristic and its dynamic characteristic can suit the requirement on the physiological aspects for all typical processes in flight .

本文使用模糊-PID控制器对数字座舱进行压力控制。

The article uses fuzzy-PID controller to control the pressure of digital cabin .