The Principles of Integrated Technology in Avionics Systems - 1st Edition - ISBN: 9780128166512

The Principles of Integrated Technology in Avionics Systems

1st Edition

Authors: Guoqing Wang
Paperback ISBN: 9780128166512
Imprint: Academic Press
Published Date: 1st March 2020
Page Count: 544
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Description

The Principles of Integrated Technology in Avionics Systems describes how integration can improve flight operations, enhance system processing efficiency and equip resource integration. The title provides systematic coverage of avionics system architecture and ground system integration. Looking beyond hardware resource sharing alone, it guides the reader through the benefits and scope of a modern integrated avionics system. Integrated technology enhances the performance of organizations by improving system capacity and boosting efficiency. Avionics systems are the functional center of aircraft systems. System integration technology plays a vital role in the complex world of avionics and an integrated avionics system will fully-address systems, information and processes.

Key Features

  • Introduces integration technology in complex avionics systems
  • Guides the reader through the scope and benefits of avionic system integration
  • Gives practical guidance on using integration to optimize an avionics system
  • Describes the basis of avionics system architecture and ground system integration
  • Presents modern avionics as a system that is becoming increasingly integrated

Readership

System engineers, design engineers, test engineers, and project development team members in aerospace and aircraft programs; postgraduate students and researchers in aerospace, manufacturing, and mechanical engineering; systems scientists; organizational development specialists

Table of Contents

Chapter 1 Background introduction
1.1 Introduction
1.1.1 The concept of avionics systems
1.1.2 The tasks of avionics systems
1.1.3 Capabilities of the avionics system
1.2 The components of the avionics system
1.2.1 Organization requirements of flight task and capacity
1.2.2 The organization mode of the avionics system
1.2.3 The modern organization mode of the avionics system
1.3 The development direction of the avionics system integration
1.3.1 The integration orienting to the optimization of flight application organization
1.3.2 The integration oriented to the optimization of system function organization
1.3.3 The integration oriented to the optimization of equipment resources
1.4 Summary

Chapter 2 The organization and architecture of the avionics system
2.1 The current organization architecture of the avionics system
2.1.1 Separated avionics system architecture
2.1.2 Federated avionics system architecture
2.1.3 The Integrated Modular Avionics (IMA) system architecture
2.1.4 The Distributed Integrated Modular Avionics (DIMA) system architecture
2.2 Hierarchical avionics system architecture
2.2.1 The system application requirements and task organization
2.2.2 The function organization required by system capability
2.2.3 The system resource requirements and operation organization
2.3 The organization mode of the hierarchical avionics system
2.3.1 Application task organization
2.3.2 System function organization
2.3.3 Physical equipment organization
2.4 Summary

Chapter 3 The requirement organization of the avionics system
3.1 The characteristics and composition of systemic application tasks
3.1.1 Organization and requirements of flight applications
3.1.2 The division and contents of flight phases
3.1.3 The requirements and composition of flight tasks
3.2 Characteristics and composition of systemic functional capability
3.2.1 Systemic functional organization requirements
3.2.2 Scene management functional organization
3.2.3 Functional organization of takeoff and climb
3.2.4 Cruise flight functional organization
3.2.5 Descent approach functional organization
3.3 The characteristics and composition of systemic resources capability
3.3.1 Resource capability and resource type organization
3.3.2 Resource operation and resource process organization
3.3.3 Resource effectiveness and resource management organization
3.4 Summary

Chapter 4 Integrated technology for the application tasks of avionics system
4.1 Flight task organization and architecture
4.1.1 Flight plan requirement
4.1.2 Flight process organization
4.1.3 Flight operation management
4.2 Flight scenario identification and organization
4.2.1 Flight environment
4.2.2 Flight situation
4.2.3 Flight scenarios
4.3 Flight task identification and organization
4.3.1 Task awareness
4.3.2 Task identification
4.3.3 Task organization
4.4 Flight task operation and management
4.4.1 Current flight plan operation management
4.4.2 Current flight environment operation management
4.4.3 Current flight task operation management
4.5 System application task integration
4.5.1 Flight scenario organization integration
4.5.2 Flight task organization and integration
4.5.3 Flight task operation management and integration
4.6 Summary

Chapter 5 Integrated technology of avionics system functional organization
5.1 System function platform and architecture organization
5.1.1 Discipline capability oriented functional organization
5.1.2 Functional organization oriented to processing logic
5.1.3 Functional organization oriented to platform management
5.1.4 Functional integration for processing efficiency and quality
5.2 System functional discipline organization
5.2.1 Task target guidance mode
5.2.2 Task nature guidance mode
5.2.3 Task area guidance mode
5.3 System function logical organization
5.3.1 Information organization processing mode
5.3.2 Discipline organization processing mode
5.3.3 Platform organization processing mode
5.4 Function operation management
5.4.1 Task configuration mode
5.4.2 Function operation mode
5.4.3 Platform operation management
5.5 Functional integration organization
5.5.1 Functional discipline integration oriented to target task requirements
5.5.2 Functional logic integration oriented to functional processing requirements
5.5.3 Functional capabilities integration oriented to functional organization needs
5.6 Summary

Chapter 6 Avionics system physical resources integration technology
6.1 Physical resource capabilities and composition
6.1.1 Physical resource capability requirements
6.1.2 Physical resources organization requirements
6.1.3 Physical resources integration requirements
6.2 General computing and processing resources
6.2.1 General computing resource organization
6.2.2 General computing resource operation period
6.2.3 General computing resource operation mode
6.3 Dedicated computing and processing resources
6.3.1 Dedicated computing resource organization
6.3.2 Dedicated computing resource operating mode
6.3.3 Dedicated processing algorithm resource mode
6.4 Dedicated physical resources
6.4.1 Dedicated analog processing physical resources
6.4.2 Dedicated RF processing physical resources
6.4.3 Dedicated power supply organization physical resources
6.5 Resource organization and integration
6.5.1 Physical integration mechanism and ideas
6.5.2 General computing resource integration
6.5.3 Dedicated computing resource integration
6.5.4 Dedicated physical operation resource integration
6.6 Summary

Chapter 7 Avionics organization integration
7.1 System application, capability and equipment organization
7.1.1 Flight application task organization
7.1.2 System function capability organization
7.1.3 System physical equipment organization
7.2 System application task process integration
7.2.1 Application task architecture organization
7.2.2 Task generation process and task organization process
7.2.3 Task capabilities, activities, and behavioral organizations
7.2.4 Organization and integration of tasks
7.3 System function processing integration
7.3.1 System function architecture organization
7.3.2 Function generation process and function organization process
7.3.3 Functional capabilities, logic and operational organization
7.3.4 Functional organization and integration
7.4 System physical resource operation process integration
7.4.1 System physical architecture organization
7.4.2 Resource generation process and resource organization process
7.4.3 Resource capabilities, operations, and status organization
7.4.4 Resources organization and integration
7.5 System organization process and integration
7.5.1 System integration space and comprehensive task composition
7.5.2 System task integration, functional integration and physical integration content
7.5.3 Comprehensive technical classification and technical organization architecture
7.6 Summary

Chapter 8 Typical integrated avionics system architecture
8.1 Federated organization system integration
8.1.1 Operational organization based on equipment domain
8.1.2 Function requirements based on equipment capabilities
8.1.3 Integration of function results based on system capabilities
8.2 IMA architecture system integration
8.2.1 IMA platform resource organization
8.2.2 IMA system organization architecture
8.2.3 IMA system integration mode
8.3 DIMA architecture system integration
8.3.1 DIMA system virtual space
8.3.2 DIMA system physical space
8.3.3 DIMA system integration
8.4 Summary

Chapter 9 Testing and verification of the integrated avionics system 
9.1 Testing and verification organization of system development process
9.1.1 System development and verification hierarchy organization
9.1.2 System development process organization and verification
9.1.3 System integration process organization and verification
9.2 System application integrated testing and verification organization
9.2.1 Test and verification of flight scenarios integration
9.2.2 Integrated test and verification of flight mission integration
9.2.3 Integrated test and verification of flight management
9.3 System function integrated test and verification organization
9.3.1 System function discipline integrated test and verification
9.3.2 System function unit integrated test and verification
9.3.3 System function process integrated test and verification
9.4 System physical integrated testing and verification organization
9.4.1 Integrated testing and verification of equipment resource capabilities
9.4.2 Equipment hosted application integrated testing and verification
9.4.3 Integrated test and verification of equipment operation management
9.5 Summary

Details

No. of pages:
544
Language:
English
Copyright:
© Academic Press 2020
Published:
1st March 2020
Imprint:
Academic Press
Paperback ISBN:
9780128166512

About the Author

Guoqing Wang

Wang Guoqing is a Research Fellow, Aircraft System Chief Designer, and a member of Avic (the Aviation Industry Corporation of China) Science and Technology Commission, an Adjunct Professor at Tsinghua and Shanghai Jiao Tong Universities, and a mentor at Northwestern Polytechnic University. He is Chief Scientist on the National Security Major Basic Program in China. He researches and publishes widely on avionics

Affiliations and Expertise

Research Fellow, Aircraft System Chief Designer, and a member of Avic (the Aviation Industry Corporation of China) Science and Technology Commission; Adjunct Professor, Tsinghua and Shanghai Jiao Tong Universities; Chief Scientist on the National Security Major Basic Program, China

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