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Principles of Integrated Technology in Avionics Systems [Pehme köide]

(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),
  • Formaat: Paperback / softback, 556 pages, kõrgus x laius: 235x191 mm, kaal: 1110 g
  • Ilmumisaeg: 20-Jan-2020
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0128166517
  • ISBN-13: 9780128166512
Teised raamatud teemal:
Principles of Integrated Technology in Avionics SystemsSuurem pilt
  • Formaat: Paperback / softback, 556 pages, kõrgus x laius: 235x191 mm, kaal: 1110 g
  • Ilmumisaeg: 20-Jan-2020
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0128166517
  • ISBN-13: 9780128166512
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780128166512.html
Märksõnad:

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.

  • 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
Preface vii
1 Background introduction
1.1 Introduction
2(16)
1.2 The components of the avionics system
18(15)
1.3 The developmental direction of the avionics system integration
33(5)
1.4 Summary
38(2)
References
40(4)
2 The organization and architecture of the avionics system
2.1 The current organization architecture of the avionics system
44(23)
2.2 The architecture of hierarchical avionics system
67(15)
2.3 The organization mode of the hierarchical avionics system
82(16)
2.4 Summary
98(3)
References
101(5)
3 The requirement organization of the avionics system
3.1 The characteristics and composition of systemic application tasks
106(20)
3.2 The characteristics and composition of systemic functional capability
126(25)
3.3 The characteristics and composition of systemic resources capability
151(13)
3.4 Summary
164(2)
References
166(7)
4 Integrated technology for the application tasks of the avionics system
4.1 Organization and architecture of flight task
173(7)
4.2 Identification and organization of flight scenario
180(10)
4.3 Flight task identification and organization
190(17)
4.4 Flight task operation and management
207(13)
4.5 System application task integration
220(11)
4.6 Summary
231(1)
References
232(6)
5 Integrated technology of avionics system functional organization
5.1 System function platform and architecture organization
238(11)
5.2 Organization of system functional discipline
249(9)
5.3 Organization of system function logic
258(16)
5.4 Function operation management
274(10)
5.5 Functional integration organization
284(8)
5.6 Summary
292(2)
References
294(4)
6 Integrated technology for physical resources of the avionics system
6.1 Physical resource capabilities and composition
298(12)
6.2 General computing and processing resources
310(7)
6.3 Dedicated computing and processing resources
317(7)
6.4 Dedicated physical resources
324(9)
6.5 Resource organization and integration
333(20)
6.6 Summary
353(2)
References
355(5)
7 The integration of avionics system organization
7.1 Organization of system application, capability, and equipment
360(13)
7.2 Integration of system application task process
373(7)
7.3 Integration of system function processing
380(7)
7.4 Integration of system physical resource operation process
387(8)
7.5 System organization process and integration
395(12)
7.6 Summary
407(2)
References
409(5)
8 The integrated architecture of typical avionics systems
8.1 Federated architecture system integration
414(16)
8.2 IMA architecture system integration
430(17)
8.3 DIMA architecture system integration
447(17)
8.4 Summary
464(1)
References
465(6)
9 Testing and verification of the integrated avionics system
9.1 Testing and verification organization of system development process
471(16)
9.2 Organization of testing and verification of system application integration
487(13)
9.3 Organization of testing and verification of system function integration
500(15)
9.4 Organization of testing and verification of system physical integration
515(17)
References
532(1)
Index 533
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 is a Master Candidate of Shanghai Jiao Tong University and a member of AAII (Advanced Avionics and Intelligent Information). He majors in avionics system and airborne surveillance system.