《国防电子信息技术丛书:飞行仿真原理》是飞行仿真领域中一本重量级教科书,是作者在英国南安普顿大学、克兰菲尔德大学和谢菲尔德大学近30年开展航空电子、飞行仿真教学和多年从事飞行仿真模拟器开发的基础上编写而成的。其内容涵盖构成飞行仿真的三大支撑要素——建模、数学算法和软件工具,包括飞行仿真的发展演变历程、建模原理、飞行动力学、飞行控制系统仿真、导航系统仿真、飞机仪表显示和视景系统开发、运动平台仿真等关键技术,列举了工程设计中的关键问题,并给出了相应的解决办法。本书注重理论与实践的有机结合,针对具体问题给出了多个参考实例,特别是其中的代码均来自作者参与开发的实际工程项目,具有很高的参考价值。《国防电子信息技术丛书:飞行仿真原理》可以作为从事实时飞行仿真系统设计、研制、开发与应用的广大工程技术人员和科研人员的参考书,也可以作为飞行动力学、航空电子学、自动控制等相关专业高年级本科生、研究生的教学用书。《国防电子信息技术丛书:飞行仿真原理》主要特色:1.基于作者开发的实际飞行模拟器的C代码模块,并配合来自作者在克兰菲尔德大学和谢菲尔德大学开设的系列课程中的课堂材料。2.将数学建模、计算机图形学、实时软件、飞行控制系统、航空电子学、模拟器验证有机地整合到飞行仿真这个蓬勃发展的工程应用领域。3.书中配有多幅全彩色照片和图片。4.《国防电子信息技术丛书:飞行仿真原理》适用于系统动力学、飞行控制系统、航电电子学和计算机领域的高年级本科生和研究生,以及旨在开发仿真设施的机械工程、电气工程、计算机系统工程等相关领域的工程技术人员。第1章绪论1.1历史回顾1.1.1飞行史上的第一个40年(1905年~1945年)1.1.2模拟计算机年代(1945年~1965年)1.1.3数字计算机年代(1965年~1985年)1.1.4微电子技术革命时代(1985年至今)1.2仿真的应用案例1.2.1安全性1.2.2经济效益1.2.3训练迁移1.2.4工程飞行仿真1.3仿真角色的转变1.4飞行模拟器构成1.4.1运动学公式1.4.2空气动力模型1.4.3发动机模型1.4.4数据采集1.4.5传动模型1.4.6气象模型1.4.7视景系统1.4.8音效系统1.4.9运动系统1.4.10控制载荷1.4.11仪表显示1.4.12导航系统1.4.13系统维护1.5实时仿真基本概念1.6飞行员感知1.6.1视觉感知1.6.2运动感知1.7训练与仿真1.8仿真案例1.8.1商业飞行训练1.8.2军事飞行训练1.8.3初级飞行训练1.8.4陆地车辆模拟器1.8.5工程飞行模拟器1.8.6能力测试1.8.7基于计算机的训练1.8.8维修培训参考文献第2章建模原理2.1建模的概念2.2牛顿力学2.3坐标系2.4微分方程2.5数值积分2.5.1近似方法2.5.2一阶方法2.5.3高阶方法2.6实时计算2.7数据采集2.7.1数据转化2.7.2数据采集2.8飞行数据2.9内插2.10分布式系统2.11实时协议2.12建模中的问题参考文献第3章飞机动力学3.1飞行建模原理3.2大气3.3力3.3.1气动升力3.3.2气动侧力3.3.3气动阻力3.3.4推进力3.3.5重力3.4力矩3
"synopsis" may belong to another edition of this title.
Seller: liu xing, Nanjing, JS, China
paperback. Condition: New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date: 2013 Pages: 384 Language: Chinese in Publisher: Publishing House of Electronics Industry. Defense Electronics and Information Technology Series: Flight Simulation principle is a heavyweight in the field of flight simulation textbooks of Southampton in the United Kingdom University. Cranfield University. and the University of Sheffield in the past 30 years to carry out the avionics. flight simulation teaching. and for many years engaged in the flight simulator developed on the basis of written. Covers three supporting elements constitute a flight simulation - modeling. mathematical algorithms and software tools. including the evolution process of the development of flight simulation. simulation modeling principle. flight dynamics. flight control system. navigation system simulation. aircraft instrument display and visual system development. sports platform simulation and other key technologies. listed the key issues in the engineering design. and gives the corresponding solution. Book focus on the combination of theory and practice. more reference examples are given for specific issues. especially the code from the authors involved in the development of the actual project has a high reference value. Defense Electronics and Information Technology Series: Principles of Flight Simulation can be as engaged in the real-time flight simulation system design. development. the development and application of the majority of engineering and technical personnel and researchers a reference book. but also can be used as flight dynamics. avionics. automatic control and other related professional high-year undergraduate. graduate teaching books. Contents: Chapter 1 Introduction 1.1 Historical Review 1.1.1 flight in the history of the first 40 years (1905 to 1945) 1.1.2 analog computer era (1945 to 1965) 1.1.3 digital computer era (1965 to 1985) 1.1.4 microelectronic technology revolution era (1985-present) 1.2 Applications 1.2.1 security simulation training in economic benefits 1.2.3 1.2.2 to migrate 1.2.4 Engineering Flight Simulation 1.4 1.3 Simulation of the changing role of flight simulation 1.4.5 transmission model 1.4.6 meteorological model 1.4.7 Vision System 1.4.8 sound system is constituted 1.4.1 kinematics formula 1.4.2 1.4.3 aerodynamic model engine model 1.4.4 Data Acquisition 1.4.9 motion system instrument display control load 1.4.11 1.4.10 1.4.12 navigation system 1.4.13 maintenance 1.8.1 commercial flight of the basic concepts of real-time simulation 1.5 1.6 pilots perceive 1.6.1 visual perception 1.6.2 Movement aware 1.7 Training and Simulation 1.8 Simulation cases Training 1.8.2 military flight training 1.8.3 primary flight training 1.8.4 terrestrial vehicle simulator 1.8.5 engineering flight simulator 1.8.6 ability test 1.8.7 1.8.8 maintenance of computer-based training training References Chapter 2 modeling principle 2.1 Modeling Concepts 2.2 Newtonian mechanics 2.3 2.5 numerical integration 2.5.1 approximation method 2.5.2 first-order method 2.5.3 high-level method. the coordinate system of differential equations 2.4 2.6 2.7 Data Acquisition 2.7.1 data into 2.7.2 data acquisition real-time calculation 2.9 2.8 flight data interpolation 2.10 Distributed Systems 2.11 2.12 modeling in the real-time protocol refer to Chapter 3 aircraft aerodynamic lift atmospheric dynamics 3.1 flight modeling principle 3.2 3.3 force 3.3.1 3.3.2 aerodynamic side force 3.3.3 3.3.4 propulsion force 3.3.5 gravity 3.4 torque 3.4.1 Chapter 7 3.4.2 Static Stability aerodynamic moment . Chapter 4 Chapter 5 Flight Control System Simulation aircraft systems Chapter 6 flight navigation system simulation model aerodynamic drag Chapter 10 of the visual system of checking Chapter 8 Chapter 9 instructor console sports system acronym tableFour Satisfaction guaranteed,or money back. Seller Inventory # NE041422