표제지
목차
ABSTRACT 7
I. 서론 9
1. 연구배경 및 목적 9
2. 논문의 구성 15
II. 조종사 가상훈련 시스템 16
1. 개요 16
2. 설계 요구사항 20
1) 시뮬레이션 관리 21
2) 자기 항공기 시뮬레이션 21
3) 가상세계 시뮬레이션 21
3. 관련 기술 발전 동향 24
4. 시스템 분석 31
4) 분석 결과 42
III. 설계 개선 방안 43
1. 시스템 개선 43
2. 시험 및 결과 분석 47
IV. 결론 51
참고문헌 53
Table 1. Trends in avionics equipments 24
Table 2. Characteristics of MIL-STD-1553 Mux Bus 34
Table 3. Characteristics of ethernet 35
Table 4. Summary on equipment 40
Table 5. Results of analysis on equipment 42
Table 6. Results of the Functional Test 48
Table 7. Data message type 49
Table 8. Results of test on data communication 49
Fig. 1. Pilot real training 17
Fig. 2. Pilot virtual training 18
Fig. 3. Concept of the Pilot virtual training 19
Fig. 4. Basic architecture of an virtual training system 20
Fig. 5. Requirements of the pilot virtual training 22
Fig. 6. Trends in avionics (IMA) 1 25
Fig. 7. Trends in avionics (IMA) 2 26
Fig. 8. Concept for the Future Avionics Mission Computer 27
Fig. 9. Modular processing and high speed network 28
Fig. 10. Ethernet's story of success 29
Fig. 11. Classification of Ethernet's fields of application 30
Fig. 12. Architecture of existing pilot virtual training 31
Fig. 13. Architecture of the exiting pilot virtual training 36
Fig. 14. Existing working states schema 37
Fig. 15. The proposed architecture of pilot virtual training 38
Fig. 16. The proposed working states schema 39
Fig. 17. New architecture for pilot virtual training system 43
Fig. 18. Internal structure in MC 44
Fig. 19. Drawing for internal communication in MC 45
Fig. 20. Communication between switch module and others 45
Fig. 21. Design for internal communication in MC 46
Fig. 22. Environment for Functional test 47
Fig. 23. Comparisons of the average speed on data communication 50