ImageVerifierCode 换一换
格式:PDF , 页数:516 ,大小:2.89MB ,
资源ID:445303      下载积分:10000 积分
快捷下载
登录下载
邮箱/手机:
温馨提示:
如需开发票,请勿充值!快捷下载时,用户名和密码都是您填写的邮箱或者手机号,方便查询和重复下载(系统自动生成)。
如填写123,账号就是123,密码也是123。
特别说明:
请自助下载,系统不会自动发送文件的哦; 如果您已付费,想二次下载,请登录后访问:我的下载记录
支付方式: 支付宝扫码支付 微信扫码支付   
注意:如需开发票,请勿充值!
验证码:   换一换

加入VIP,免费下载
 

温馨提示:由于个人手机设置不同,如果发现不能下载,请复制以下地址【http://www.mydoc123.com/d-445303.html】到电脑端继续下载(重复下载不扣费)。

已注册用户请登录:
账号:
密码:
验证码:   换一换
  忘记密码?
三方登录: 微信登录  

下载须知

1: 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。
2: 试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓。
3: 文件的所有权益归上传用户所有。
4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
5. 本站仅提供交流平台,并不能对任何下载内容负责。
6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。

版权提示 | 免责声明

本文(ARMY MIL-HDBK-799-1996 FIRE CONTROL SYSTEMS-GENERAL《火力控制系统-发生器》.pdf)为本站会员(孙刚)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ARMY MIL-HDBK-799-1996 FIRE CONTROL SYSTEMS-GENERAL《火力控制系统-发生器》.pdf

1、 METRICMIL-HDBK-799(AR)5 April 1996DEPARTMENT OF DEFENSEHANDBOOKFIRE CONTROL SYSTEMSGENERALThis handbook is for guidance only.Do not cite this document as a requirement.AMSC/NA FSC 12GPDISTRIBUTION STATEMENT A. Approved for public release; distribution is unlimited.Thi d t t d ith F M k 4 0 4Provide

2、d by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)iiFOREWORD1. This handbook is approved for use by the Department of the Army and is available for use byall Departments and Agencies of the Department of Defense.2. This handbook is for guidan

3、ce only. Do not cite this document as a requirement. If it is, thecontractor does not have to comply.3. This handbook was developed to provide guidance and general approaches to the develop-ment of fire control systems. In particular, the handbook has been prepared to aid the designers ofArmy fire c

4、ontrol equipment and to serve as a reference guide for all military and civilian person-nel who may be interested in the design aspects of such materiel. The guidance in this handbookis based on the fundamental parameters of the fire control problem and its solution. Primaryemphasis is placed on the

5、 systematic approach required in the design of present-day fire controlequipment and systems. This approach involves thorough analysis of the particular fire controlproblem at hand, establishment of the most suitable mathematical model, and computerizationand mechanization of the mathematical model.

6、4. This handbook was developed under the auspices of the US Army Materiel CommandsEngineering Design Handbook Program, which is under the direction of the US Army IndustrialEngineering Activity. Research Triangle Institute was the prime contractor for this handbookunder Contract No. DAAA09-86-D-0009

7、. The development of this handbook was guided by atechnical working group chaired by Ms. Robin Gullifer of the Fire Support Armament Center ofthe US Army Armament Research, Development, and Engineering Center.5. Beneficial comments (recommendations, additions, deletions) and any pertinent data which

8、may be of use in improving this document should be addressed to Commander, US Army Arma-ment Research, Development, and Engineering Center, ATTN: AMSTA-AR-EDE-S, PicatinnyArsenal, NJ 07806-5000, by using the Standardization Document Improvement Proposal (DDForm 1426) appearing at the end of this doc

9、ument or by letter.Thi d t t d ith F M k 4 0 4Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)iiiCONTENTSFOREWORD .iiLIST OF ILLUSTRATIONS xivLIST OF TABLES .xviiLIST OF ABBREVIATIONS AND ACRONYMS xviiiCHAPTER 1INTRODUCTION TO FIRE C

10、ONTROL SYSTEMS1-1 DEFINITION AND NATURE OF FIRE CONTROL 1-11-1.1 GENERAL .1-11-1.2 DEFINITION AND GOALS OF FIRE CONTROL 1-11-1.3 SUMMARY OF FIRE CONTROL METHODS .1-21-1.3.1 Direct Fire Control 1-21-1.3.2 Indirect Fire Control .1-21-1.3.3 Geometry of Typical Fire Control Problem .1-31-1.4 CLASSIFICAT

11、ION OF FIRE CONTROL EQUIPMENT 1-41-1.5 APPLICATIONS OF MODERN FIRE CONTROL SYSTEMS 1-41-1.5.1 Surface-to-Surface 1-51-1.5.2 Surface-to-Air 1-61-1.5.3 Air-to-Surface 1-61-1.5.4 Air-to-Air .1-71-1.6 THE INPUT-OUTPUT (IO) CONCEPT 1-71-1.6.1 Primary Factors in Establishing Input-Output Relationships .1-

12、71-1.6.1.1 Factors Affecting the Projectile Path1-71-1.6.1.2 Target Motion With Respect to the Weapon .1-71-1.6.2 Secondary Factors in Establishing Input-Output Relationships 1-81-2 CHRONOLOGICAL DEVELOPMENT OF ARMY FIRE CONTROL 1-81-2.1 INTRODUCTION 1-81-2.2 PRE-19TH CENTURY FIRE CONTROL 1-81-2.2.1

13、 A Word on Nomenclature 1-81-2.2.2 Control of Weapons Prior to Firearms .1-91-2.2.3 Development and Control of Early Firearms 1-91-2.3 DEVELOPMENTS IN THE 19th CENTURY .1-91-2.3.1 Improvements in Weapons .1-91-2.3.2 Improvements in Fire Control 1-101-2.4 DEVELOPMENTS IN THE 20TH CENTURY THROUGH WORL

14、D WAR II 1-101-2.4.1 Field Artillery Fire Control Equipment 1-111-2.4.1.1 Instruments Used in Target Location .1-121-2.4.1.1.1 Binoculars 1-121-2.4.1.1.2 Magnetic Compass 1-121-2.4.1.1.3 Maps and Plotting Boards 1-121-2.4.1.1.4 Sound and Flash Ranging .1-131-2.4.1.1.5 Aiming Circles .1-131-2.4.1.1.6

15、 Battery Commanders Telescope .1-141-2.4.1.1.7 Optical Range Finders 1-141-2.4.1.2 Ballistic and Meteorological Data 1-151-2.4.1.3 Entering Elevation Data Into the Weapon .1-161-2.4.1.3.1 Gunners Quadrant .1-161-2.4.1.3.2 Elevation and Range Quadrants 1-171-2.4.1.4 Entering Azimuth Data Into the Wea

16、pon .1-171-2.4.1.5 Fuze Setters .1-17Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)iv1-2.4.1.6 Direct Fire Optical Instruments 1-171-2.4.2 Tank Fire Control Equipment 1-181-2.4.2.1 Sighting Equipment 1-181-2.4.2.2 Ranging Equipment

17、 .1-191-2.4.2.3 Stabilization Equipment .1-191-2.4.3 Air Defense Fire Control Equipment .1-191-2.4.3.1 Target Data .1-201-2.4.3.1.1 Target Angles and Rates .1-201-2.4.3.1.2 Target Illumination and Sound Location 1-201-2.4.3.1.3 Optical Range Finder 1-201-2.4.3.1.4 Early Radar 1-211-2.4.3.2 Mechanica

18、l Computers 1-211-2.4.3.3 Electrical Directors .1-221-2.4.3.4 Data Transmission 1-221-2.4.3.5 Weapon Laying .1-221-2.4.4 Small Arms Fire Control .1-231-2.4.4.1 Optical Sights 1-231-2.4.4.2 Active Infrared Night Sights 1-231-2.4.5 World War II Air-to-Ground and Air-to-Air Fire Control Development .1-

19、231-2.5 POST-WWII DEVELOPMENTS 1-241-2.5.1 General .1-241-2.5.2 Artillery Fire Control .1-251-2.5.2.1 Computational Systems 1-251-2.5.2.1.1 Graphical Firing Tables 1-261-2.5.2.1.2 T-29E2 Computer 1-271-2.5.2.1.3 Field Artillery Digital Automatic Computer (FADAC) .1-271-2.5.2.1.4 Battery Computer Sys

20、tem .1-271-2.5.2.1.5 Commercial Adaptations 1-281-2.5.2.2 Target Location 1-291-2.5.2.2.1 Laser Range Finders .1-291-2.5.2.2.2 Ground Laser Location Designator (GLLD) .1-291-2.5.2.2.3 The Fire Support Team Vehicle (FISTV) 1-301-2.5.2.2.4 Airborne Observation .1-301-2.5.2.3 Weapon Laying Equipment .1

21、-311-2.5.2.4 Howitzer Extended Life Program (HELP) .1-321-2.5.2.5 Howitzer Improvement Program (HIP) and the M109A6 1-321-2.5.2.6 Advanced Field Artillery System (AFAS) 1-331-2.5.3 Combat Vehicle Fire Control 1-331-2.5.3.1 M47 and M48 Tanks .1-341-2.5.3.2 M60A3 Tank .1-341-2.5.3.2.1 Ballistic Comput

22、er 1-351-2.5.3.2.2 Laser Range Finder .1-351-2.5.3.2.3 Tank Thermal Sight 1-361-2.5.3.3 M1 Tank 1-361-2.5.3.4 M2 Infantry Fighting Vehicle and M3 Cavalry Fighting Vehicle .1-381-2.5.4 Air Defense Fire Control Systems 1-391-2.5.4.1 Self-Propelled 40-mm .1-391-2.5.4.2 T33/M33 .1-401-2.5.4.3 M38 Skyswe

23、eper .1-401-2.5.4.4 T50 Raduster 1-411-2.5.4.5 Vigilante 1-411-2.5.4.6 Vulcan Air Defense System.1-41Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)v1-2.5.4.7 Gun Low-Altitude Air Defense System (GLAADS) 1-421-2.5.4.8 Product-Improv

24、ed Vulcan Air Defense System (PIVADS) 1-431-2.5.4.9 Division Air Defense System (DIVAD) 1-431-2.5.4.10 Forward Area Air Defense (FAAD) .1-471-2.5.5 Small Arms Fire Control .1-481-2.5.5.1 Optical Sights 1-491-2.5.5.2 Image Intensifier Night Sights .1-491-2.5.5.3 Infrared Night Sights 1-501-2.5.6 Airc

25、raft Fire Control 1-501-2.5.6.1 Aircraft Weaponization 1-511-2.5.6.2 Experimental Prototypes .1-531-2.5.6.2.1 Multiweapon Fire Control System (MWFCS) 1-531-2.5.6.2.2 Integrated Rocket Delivery Systems .1-541-2.5.6.2.3 Southeast Asia Multisensor and Armament System for Helicopter (SMASH) 1-541-2.5.6.

26、2.4 Aerial Artillery .1-551-2.5.6.2.5 Mast-Mounted Sight 1-551-2.5.6.3 Attack Helicopters 1-561-2.5.6.3.1 Cheyenne .1-561-2.5.6.3.2 Cobra .1-571-2.5.6.3.3 AH-64 Apache .1-581-2.5.6.3.4 Light Helicopter, Experimental (LHX) .1-591-2.5.6.4 Helicopter Air-to-Air Fire Control 1-601-2.5.7 Common Module Fi

27、re Control .1-631-2.6 CONCLUSIONS 1-631-3 NONTRADITIONAL MUNITIONS FIRE CONTROL 1-641-3.1 GUIDED PROJECTILES 1-641-3.2 MANEUVERING PROJECTILES 1-651-3.3 PRECISION-GUIDED WEAPONS 1-65REFERENCES 1-66BIBLIOGRAPHY .1-67CHAPTER 2THEORETICAL ASPECTS OF THE FIRE CONTROL PROBLEMAND ITS SOLUTION 2-0 LIST OF

28、SYMBOLS .2-12-1 INTRODUCTION 2-22-2 THE FIRE CONTROL PROBLEM .2-22-2.1 STATEMENT OF THE FIRE CONTROL PROBLEM .2-22-2.2 GENERALIZED FIRE CONTROL THEORY .2-32-2.2.1 Basic Concepts .2-32-2.2.2 The Geometrical Approach 2-32-2.2.3 Common Geometrical Factors 2-32-2.3 COORDINATE FRAMES FOR FIRE CONTROL .2-

29、42-2.3.1 Primary Coordinate Frames Used to State the Fire Control Problem .2-52-2.3.2 Coordinate Frames of Use in Data Handling and Computing .2-72-2.3.3 Effect of the Reference Coordinate Frame on the Prediction Angle 2-82-2.4 EXTERIOR BALLISTICS .2-102-2.4.1 The General Ballistic Equation .2-102-2

30、.4.2 Point Mass Equations 2-112-2.4.3 Curvature of the Trajectory 2-122-2.4.3.1 Gravity .2-14Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)vi2-2.4.3.2 Air Resistance .2-152-2.4.3.3 Drift .2-202-2.4.4 Effects and Sources of Jump .2-

31、222-2.4.5 Variations from Standard Conditions 2-222-2.4.5.1 Propellant Characteristics 2-232-2.4.5.2 Projectile Weight 2-232-2.4.5.3 Air Density 2-232-2.4.5.4 Air Temperature .2-232-2.4.5.5 Differences in Muzzle Velocity 2-232-2.4.5.6 Wind 2-242-2.4.5.7 Effects of Rotation of the Earth 2-242-2.4.5.8

32、 Nonrigidity of the Trajectory .2-252-2.5 EFFECT OF TARGET MOTION .2-252-2.6 THE PREDICTION ANGLE 2-262-2.7 DIFFERENCES BETWEEN FIRE CONTROL FOR GUNS AND ROCKETS 2-282-3 SOLUTION OF THE FIRE CONTROL PROBLEM .2-282-3.1 GENERAL .2-282-3.2 SIGHTING, RANGING, AND TRACKING .2-292-3.2.1 General .2-292-3.2

33、.2 Sighting .2-292-3.2.3 Ranging 2-312-3.2.4 Tracking .2-312-3.3 COMPUTATION OF FIRE CONTROL SOLUTION 2-322-3.3.1 Weapon and Target Both Stationary 2-322-3.3.2 Weapon Stationary and Target Moving .2-322-3.3.3 Weapon Moving and Target Stationary .2-352-3.3.4 Weapon and Target Both Moving 2-352-3.4 SE

34、NSOR NOISE COMPENSATION .2-362-3.5 APPLICATION OF FIRE CONTROL SOLUTION .2-36REFERENCES 2-37BIBLIOGRAPHY .2-38CHAPTER 3FUNCTIONAL ELEMENTS OF FIRE CONTROL EQUIPMENT3-1 INTRODUCTION 3-13-2 FIRE CONTROL FUNCTIONS 3-23-2.1 ACQUISITION AND TRACKING SYSTEM 3-33-2.1.1 Acquisition Element 3-33-2.1.2 Tracki

35、ng Element 3-33-2.2 FIRE CONTROL COMPUTING SYSTEM .3-43-2.2.1 Ballistic Data Element 3-43-2.2.2 Predicting Element 3-43-2.2.3 Ballistic Correction Element3-53-2.2.4 Navigational Element 3-53-2.3 WEAPON POINTING SYSTEM 3-53-2.3.1 Compensating Element .3-53-2.3.2 Pointing Element 3-53-2.4 COMMAND, CON

36、TROL, AND COMMUNICATING ELEMENT 3-63-2.5 DATA-TRANSMITTING ELEMENTS 3-63-2.6 FUZE SETTING ELEMENT .3-63-3 FACTORS ASSOCIATED WITH THE INTEGRATION OF FUNCTIONAL ELEMENTS INTO FIRE CONTROL SYSTEMS 3-63-3.1 COMBAT VEHICLE 3-63-3.2 AIR DEFENSE .3-8Provided by IHSNot for ResaleNo reproduction or networki

37、ng permitted without license from IHS-,-,-MIL-HDBK-799 (AR)vii3-3.3 FIELD ARTILLERY 3-103-3.4 AIRCRAFT 3-123-3.5 SMALL ARMS .3-153-4 COMPATIBILITY PROBLEMS OF VARIOUS TYPES OF OPERATING ELEMENTS 3-163-4.1 GENERAL PRINCIPLES 3-163-4.2 FACTORS REQUIRING PARTICULAR ATTENTION 3-163-4.2.1 Relative Accura

38、cies 3-173-4.2.2 Relative Speeds of Operation .3-173-4.2.3 Relative Ranges of Operation .3-173-4.2.4 Types of Associated Equipment .3-173-4.2.5 Interconnecting Devices 3-17REFERENCES 3-17CHAPTER 4DESIGN PHILOSOPHY4-0 LIST OF SYMBOLS .4-14-1 INTRODUCTION 4-94-2 DEVELOPMENT OF MATHEMATICAL MODELS AND

39、SIMULATIONS .4-104-2.1 GENERAL CONSIDERATIONS .4-104-2.2 MODELS FOR IDEALIZED SYSTEMS .4-104-2.3 MODELS FOR OPTIMUM SYSTEMS 4-114-2.4 MODELS FOR PRACTICAL SYSTEMS .4-114-2.5 APPLICATION OF COMPUTERS TO THE STUDY OF MATHEMATICAL MODELS .4-114-2.5.1 Information to be Computed .4-124-2.5.2 Degree of So

40、phistication Necessary .4-124-2.5.3 Accuracy Required 4-124-2.5.4 Solution Time 4-124-2.5.5 Memory Requirements 4-124-2.6 MODEL VERIFICATION AND VALIDATION .4-124-2.7 EXAMPLES OF MODELS 4-134-2.7.1 HITPRO (Derived from Hit Probability) .4-134-2.7.2 The Air Defense Modern Gun Effectiveness Model (MGE

41、M) .4-144-2.7.3 ARTOAR (Derived from Air-to-Air) .4-154-2.8 CONCLUSIONS .4-174-3 FILTERING AND PREDICTION .4-174-3.1 DECISION MAKING UNDER UNCERTAINTY .4-184-3.1.1 The Method of Maximum Likelihood Estimation .4-194-3.1.2 The Method of Maximum A Posteriori Probability Estimation .4-204-3.1.3 Statisti

42、cal Decision Theory 4-204-3.1.4 Statistical Decision Theory: A Game-Theoretic Approach .4-214-3.2 DYNAMIC MODELS FOR UNCERTAIN DYNAMIC SYSTEMS .4-214-3.3 STATE VARIABLE MODELS AND ALGORITHMS USED FOR FILTERING AND PREDICTION IN FIRE CONTROL SYSTEMS 4-244-3.3.1 Linear Kalman Filters 4-284-3.3.2 Exten

43、ded Kalman Filters .4-304-3.3.3 Robust Linear Kalman Filters4-314-4 ACCURACY CONSIDERATIONS AND ANALYSIS 4-344-4.1 INTRODUCTION 4-344-4.1.1 Systematic and Random Errors 4-354-4.1.2 Engagement Hit Probability 4-374-4.1.3 An Outline of the Procedure Used to Design a Fire Control System of PrescribedAc

44、curacy 4-37Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-799 (AR)viii4-4.2 HIT AND KILL PROBABILITY THEORY 4-384-4.2.1 Kill Probability .4-394-4.2.2 Probability of Hit .4-414-4.2.2.1 Single-Shot Hit Probability 4-434-4.2.2.2 Engagement Hit

45、 Probability 4-464-4.3 ERROR ANALYSIS IN FIRE CONTROL SYSTEMS .4-514-4.3.1 Introduction .4-514-4.3.2 Analysis of Error Propagation in Systems Described by Equations Other ThanDifferential Equations .4-524-4.3.2.1 Analysis of Random Errors 4-624-4.3.2.2 Determination of Operating Points 4-644-4.3.3 I

46、llustrative Examples for a System Described by Equations Other Than Differential Equations 4-664-4.3.4 Analysis of Error Propagation in Systems Described by Differential Equations .4-664-4.3.4.1 Impulse-Response Approach .4-674-4.3.4.2 Transfer Function Approach .4-744-4.3.4.3 Illustrative Example o

47、f an Error Analysis for a System Described by Nonlinear Differential Equations 4-834-4.3.4.4 Discrete Time and Sampled Data Systems .4-894-4.3.4.4.1 Use of z-Transform 4-914-4.3.4.4.2 PSD of Sampled Data Systems .4-944-4.4 WEAPON SYSTEM ERRORS THAT ARE BEYOND THE CONTROL OF THE FIRE CONTROL SYSTEM D

48、ESIGNER .4-964-4.4.1 Errors Associated With the Input Portion of a Weapon System 4-964-4.4.1.1 Radar Glint Noise .4-974-4.4.1.2 Radar Amplitude Noise .4-974-4.4.1.3 Video Trackers 4-984-4.4.1.4 Laser Range Finder 4-984-4.4.1.5 Target Motions .4-994-4.4.1.6 Tracking Noise 4-994-4.4.2 Errors Associate

49、d With the Output Portion of a Weapon System .4-1014-4.5 WEAPON SYSTEM ERRORS THAT ARE UNDER THE CONTROL OF THE FIRE CONTROL SYSTEM DESIGNER .4-1014-4.5.1 Errors in Digital Computers .4-1024-4.5.1.1 Dynamic Errors .4-1024-4.5.1.2 Static Errors 4-1034-4.5.2 Errors in Analog Components 4-1034-4.5.2.1 Mechanical Elements 4-1034-4.5.2.2 Servos 4-1044-4.5.2.3 Potentiometers .4-1044-4.5.2.4 Resolvers and Synchros 4-1044-4.5.2.5 Tachometers .4-1044-4.5

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1