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From the earliest days of aviation where the pilot would dropsimple bombs by hand, to the highly agile, stealthy aircraft oftoday that can deliver smart ordnance with extreme accuracy,engineers have striven to develop the capability to deliver weaponsagainst targets reliably, safely and with precision. Aircraft Systems Integration of Air-Launched Weaponsintroduces the various aspects of weapons integration, primarilyfrom the aircraft systems integration viewpoint, but also considerskey parts of the weapon and the desired interactions with theaircraft required for successful target engagement.…mehr

Produktbeschreibung
From the earliest days of aviation where the pilot would dropsimple bombs by hand, to the highly agile, stealthy aircraft oftoday that can deliver smart ordnance with extreme accuracy,engineers have striven to develop the capability to deliver weaponsagainst targets reliably, safely and with precision. Aircraft Systems Integration of Air-Launched Weaponsintroduces the various aspects of weapons integration, primarilyfrom the aircraft systems integration viewpoint, but also considerskey parts of the weapon and the desired interactions with theaircraft required for successful target engagement. Key features: * Addresses the broad range of subjects that relate directly tothe systems integration of air-launched weapons with aircraft, suchas the integration process, system andsubsystem architectures, the essential contribution that open,international standards have on improving interoperability andreducing integration costs and timescales * Describes the recent history of how industry and bodies such asNATO have driven the need for greater interoperability betweenweapons and aircraft and worked to reduce the costand timescales associated with the systems integration ofcomplex air-launched weapons with aircraft * Explores future initiatives and technologies relating to thereduction of systems integration costs and timescales The systems integration of air-launched weapons with aircraftrequires a multi-disciplinary set of engineeringcapabilities. As a typical weapons integration life-cyclespans several years, new engineers have to learn the skillsrequired by on-the-job training and working with experiencedweapons integrators. Aircraft Systems Integration ofAir-Launched Weapons augments hands-on experience, therebyenabling the development of subject matter expertise more quicklyand in a broader context than would be achieved by working throughthe life-cycle on one specific project. This book also servesas a useful revision source for experienced engineers in thefield.

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  • Produktdetails
  • Verlag: John Wiley & Sons
  • Seitenzahl: 272
  • Erscheinungstermin: 14.02.2013
  • Englisch
  • ISBN-13: 9781118519189
  • Artikelnr.: 37759053
Autorenporträt
Keith Rigby, Autonomous Systems, BAE Systems Military AirSolutions, UK Keith Rigby is Chief Weapons Engineer - Autonomous Systems,BAE Systems Military Air Solutions. He has spent his entire careerwith BAE Systems, starting as a graduate in 1984 within ArmamentControl Systems & progressing to a senior management positionon the Tornado GR4 engineering team. He then becoming Head ofWeapons Control & Integration within the Air Systems businessbefore assuming his current position in November 2008. During thelast 25 years he has been involved in all aspects of the design,development and certification of armament systems and has been akey player in a number of weapon integration programmes includingthe weaponisation of unmanned systems. He is the author of theWeapons Integration chapter in the Encyclopaedia of AerospaceEngineering.
Inhaltsangabe
Series Preface xi Preface xiii Acknowledgments xv List of Abbreviations xvii 1 Introduction to Weapons Integration 1 1.1 Introduction 1 1.2 Chapter Summaries 2 1.2.1 The Systems Integration Process 2 1.2.2 Stores Management System Design 2 1.2.3 The Global Positioning System 3 1.2.4 Weapon Initialisation and Targeting 3 1.2.5 The Role of Standardisation in Weapons Integration 3 1.2.6 Interface Management 4 1.2.7 A Weapons Integration Scenario 4 1.2.8 'Plug and Play' Weapons Integration 5 1.2.9 Weaponised Unmanned Air Systems 5 1.2.10 Reducing the Cost of Weapons Integration 6 1.3 Weapons 6 1.3.1 Types of Weapon 6 1.3.2 Targets 6 1.3.3 Weapon Requirements 7 1.3.4 Lethality 7 1.3.5 Precision 8 1.3.6 Stand
Off Range 10 1.3.7 Typical Weapon Configurations 11 1.3.8 Implications for the Launch Aircraft 11 1.4 Carriage Systems 14 1.4.1 Mechanical Attachments 14 1.4.2 Downward Ejection 14 1.4.3 Forward Firing 15 1.4.4 Multi
weapon Carriage Systems 15 Further Reading 16 2 An Introduction to the Integration Process 17 2.1 Chapter Summary 17 2.2 Introduction 17 2.3 The V
Diagram 18 2.4 Responsibilities 18 2.5 Safety 20 2.6 The Use of Requirements Management Tools in the Systems Engineering Process 24 2.7 Weapons Integration Requirements Capture 24 2.8 The Need for Unambiguous, Clear and Appropriate Requirements 26 2.9 Minimising Requirements 29 Further Reading 30 3 Requirements Analysis, Partitioning, Implementation in Aircraft Subsystems 31 3.1 Chapter Summary 31 3.2 Introduction 31 3.3 System Architecture 33 3.4 Requirements Decomposition 34 3.5 Requirements Partitioning 35 3.6 Subsystem Implementation 36 3.7 Maturity Reviews 37 3.8 Right
Hand Side of the V
Diagram 38 3.9 Proving Methods 38 3.10 Integration 41 3.11 Verification 42 3.12 Validation 42 3.13 The Safety Case and Certification 42 Further Reading 45 4 Armament Control System and Global Positioning System Design Issues 47 4.1 Chapter Summary 47 4.2 Stores Management System Design 48 4.2.1 SMS Design Requirements 48 4.2.2 Other System Components 50 4.2.3 Typical System Architectures 53 4.2.4 Training System 55 4.3 GPS: Aircraft System Design Issues 59 4.3.1 GPS Overview 59 4.3.2 Satellite Acquisition Concepts 64 4.3.3 Acquisition Strategies 65 4.3.4 GPS Signal Distribution 65 4.3.5 Aircraft Requirements 67 4.3.6 Aircraft Implementation Concepts 68 4.3.7 Cost of Complexity 70 Further Reading 70 5 Weapon Initialisation and Targeting 71 5.1 Chapter Summary 71 5.2 Targeting 71 5.3 Aiming of Ballistic Bombs 72 5.4 Aircraft/Weapon Alignment 73 5.5 Aiming of Smart Air
to
Ground Weapons 74 5.6 Air
to
Air Missiles 76 5.6.1 Sensors 76 5.6.2 Engagement Modes 77 5.6.3 Air
to
Air Weapons Training 78 Further Reading 79 6 Weapon Interface Standards 81 6.1 Chapter Summary 81 6.2 Benefits of Standardisation 81 6.3 MIL
STD
1760 AEIS 82 6.3.1 MIL
STD
1760 Interface Points 83 6.3.2 Connectors 83 6.3.3 Signal Sets 85 6.3.4 GPS RF Signal Distribution 85 6.3.5 Data Protocols 90 6.3.6 Data Entities 94 6.3.7 Time Tagging 94 6.3.8 Mass Data Transfer 95 6.3.9 High
Speed 1760 96 6.4 Standardisation Conclusions 96 Further Reading 97 7 Other Weapons Integration Standards 99 7.1 Chapter Summary 99 7.2 AS5725 Miniature Mission Store Interface 99 7.2.1 Interface Points 99 7.2.2 Connector 101 7.2.3 Signal Set 101 7.3 AS5726 Interface for Micro Munitions 103 7.3.1 Interface Points 103 7.3.2 Connectors 104 7.3.3 Signal Set 104 7.4 Other Weapons Integration Standards 106 7.4.1 Generic Aircraft
Store Interface Framework 106 7.4.2 Mission Data Exchange Format 108 7.4.3 Common Launch Acceptability Region Approach 109 Further Reading 110 8 Interface Management 111 8.1 Chapter Summary 111 8.2 Introduction 111 8.3 Management of the Aircraft/Store Interface 112 8.4 Approaches to Interface Documentation 114 8.5 Interfaces Documented in the ICD 115 8.6 Controlling the Interface of Store Variants 119 8.7 Information Exchange between Design Organisations 120 8.8 Process for Managing Integration Risk 120 Further Reading 124 9 A Weapons Integration Scenario 125 9.1 Chapter Summary 125 9.2 Introduction 125 9.3 The Weapons Integration Scenario 126 9.4 The V
Diagram Revisited 129 9.5 Systems Integration Activities 130 9.6 Safety 132 9.6.1 Aircraft/System Hazards 136 9.6.2 Weapon Hazards 139 9.7 Systems Requirements Decomposition, Design and Implementation 140 9.7.1 Weapon System Integration Requirement 140 9.7.2 Functional Definition and Development/Interface Definition 140 9.7.3 Weapon Interfacing 141 9.7.4 Data Flows between Aircraft Subsystems 143 9.8 Loading to Dispersion Sequence 143 9.8.1 Weapon Loading 145 9.8.2 System Power
Up/Store Discovery 145 9.8.3 Build Inventory 146 9.8.4 Weapon BIT/System Power
Down 147 9.8.5 Download Target Data/Power
Down Weapons 148 9.8.6 Taxi/Take
Off/On
Route Phase 149 9.8.7 Weapon Selection and Priming 149 9.8.8 Update Target Data 150 9.8.9 Steer to Target LAR/Confirm in LAR 151 9.8.10 Initiate Release Sequence 151 9.8.11 Weapon Release Phase 153 9.8.12 Selective/Emergency Jettison 154 9.8.13 Carriage Store Control 155 9.8.14 Training Capability 156 9.8.15 Implications of Aeromechanical Aspects
Weapon Physical Alignment 156 Further Reading 158 10 A Weapons Integration Scenario: System Proving and Certification 159 10.1 Chapter Summary 159 10.2 Introduction 159 10.3 Simulators and Emulators 160 10.4 Avionic Weapons 160 10.5 Interface Proving 160 10.6 Rig Trials 161 10.7 Avionic Trials 162 10.8 Electromagnetic Compatibility 162 10.9 Airworthiness and Certification 163 10.10 Declaration of Design and Performance/Statement of Design 164 10.11 Certificate of Design 164 10.12 Safety Case 165 10.13 Airworthiness Flight Limitations 165 10.14 Release to Service 165 10.15 User Documentation 165 10.16 Weapon System Evaluation 166 10.17 Conclusion 167 Further Reading 167 11 Introduction to 'Plug and Play' Weapons Integration 169 11.1 Chapter Summary 169 11.2 Systems Integration Considerations 169 11.3 The Journey to 'Plug and Play' Weapons Integration 171 11.4 'Plug and Play' Technologies 172 11.5 Adoption of 'Plug and Play' Technology 172 11.6 Introduction to Aircraft, Launcher and Weapons Interoperability 173 11.7 ALWI Study 174 11.8 ALWI
2 Study 176 11.9 ALWI Common Interface Study 179 11.9.1 Technical Architecture 180 11.9.2 Greater Interoperability through a Common ICD Approach 181 11.9.3 Common Store Control Service 181 11.9.4 Model
Driven Architecture Approach 183 11.9.5 Implementation Considerations 185 11.10 ALWI Conclusions 186 Further Reading 187 12 Open Systems 189 12.1 Chapter Summary 189 12.2 Introduction 189 12.3 The Contracting and Industry Environment 190 12.4 Current Systems 191 12.5 A Typical Mission Systems Upgrade Programme 192 12.6 ASAAC Architecture 193 12.7 ASAAC and 'Plug and Play' 195 12.8 Certification Issues 198 12.9 Easing the Upgrade Programme 200 Further Reading 201 13 The Universal Armament Interface 203 13.1 Chapter Summary 203 13.2 Introduction 203 13.3 Objectives of UAI 204 13.4 Fundamental Principles of UAI 207 13.5 Platform/Store Interface 209 13.6 Mission Planning 210 13.7 Launch Acceptability Region 211 13.8 Integration Work Flow 211 13.9 UAI Interface Management 213 13.10 Certification Tools 214 13.11 Benefits 215 13.12 NATO UAI 216 13.13 'Plug and Play' Conclusions 216 Further Reading 217 14 Weaponised Unmanned Air Systems 219 14.1 Chapter Summary 219 14.2 Introduction 219 14.3 Distributed Weapon System 220 14.4 System Architecture Partitioning 222 14.5 Conclusions 226 Further Reading 226 15 Reducing the Cost of Weapons Integration 227 15.1 Chapter Summary 227 15.2 Introduction 227 15.3 The Cost Landscape 229 15.4 Reducing the Cost of Weapons Integration
Other Initiatives 231 15.4.1 Streamlined Integration Processes 232 15.4.2 Common Goals for the ADO and WDO 232 15.4.3 Employment of New Technology Which Eases Integration 233 15.4.4 The Need for Exports 233 15.4.5 Spiral Introduction of Capability 234 15.4.6 Organisational Re
structuring 234 15.4.7 Adoption of International Standards 234 15.5 Conclusions 234 15.6 The Future 236 Further Reading 237 Index 239