민간 항공기에 사용되는 비행 유도 항법 시스템 분석 논문
- 최초 등록일
- 2024.07.13
- 최종 저작일
- 2024.07
- 15페이지/ 어도비 PDF
- 가격 18,000원
* 본 문서는 PDF문서형식으로 복사 및 편집이 불가합니다.
소개글
대상: 항공 관련 전공 학부생 및 대학원생, 항공기 오토파일럿 원리에 관심이 있거나 자료가 필요한 사람.
(판매된 자료를 개인의 과제물이나 문서에 인용 및 사용 하는 행위를 허용합니다. 다만, 유포 및 공유를 금지합니다.)
목차
1. 서론
2. 비행 유도 항법 시스템의 종류와 기술
I.관성 항법 시스템 (INS)
II.위성 항법 시스템 (GNSS)
III.전파 항법 시스템 (VOR DME TACAN)
IV.복합 항법 시스템(Integrated Navigation Systems)
3. 민간 항공기 유도 항법 시스템
I.유도 시스템
II.항법 시스템
4. 오토 파일럿 시스템
I.오토 파일럿의 개요
II.현대 민간 항공기의 오토 파일럿 시스템
5. 유도 항법 기술의 정확도와 안정성
I.오차 분석과 보정 기술
II.신뢰성 평가
6. 최신 보정 기술과 향후 전망
7. 결론
I.연구 요약
II.연구의 한계
III.향후 연구 과제
8. References
본문내용
<썸네일을 참조해주세요>
참고 자료
GNSS Systems in Aviation: Global Navigation Satellite System (GNSS) principles and applications in aviation are detailed in this comprehensive study by Kaplan and Hegarty (2006). The book covers the fundamentals of GNSS, signal characteristics, and practical applications, making it a crucial resource for understanding modern navigation systems.
Aircraft Navigation Systems: Kayton and Fried’s (1997) textbook offers an in-depth analysis of various aircraft navigation systems, including inertial navigation, Doppler radar, and radio navigation. This book is pivotal for comprehending the development and operational principles of navigation systems in aviation.
Proportional Navigation Guidance: The principles and applications of Proportional Navigation (PN) are well-explained in Zarchan (2007). This text is essential for understanding the guidance laws used in missile and aircraft navigation, with a strong emphasis on theoretical and practical aspects.
Integrated Navigation Systems: Grewal, Andrews, and Bartone (2013) provide an extensive examination of integrated navigation systems, including INS/GNSS integration techniques. This resource is valuable for grasping the complexities and benefits of integrating different navigation systems.
Autopilot Systems: McLean’s (2012) work on automatic flight control offers detailed insights into the design, implementation, and operation of modern autopilot systems in civil aviation. This book is indispensable for understanding how autopilots reduce pilot workload and enhance flight safety.
A320 Technical Training Manual: This manual, provided by Airbus, offers comprehensive technical details on the A320 aircraft, including its navigation and autopilot systems. It serves as an authoritative guide for understanding the specific systems and technologies used in the A320.
Real-Time Kinematic (RTK) and Precise Point Positioning (PPP): Gao and Shen (2002) discuss advanced GNSS correction techniques such as RTK and PPP, which are critical for achieving high-accuracy positioning in various applications, including aviation.
Doppler Radar Principles: Skolnik’s (2001) book on radar systems includes a thorough section on Doppler radar, which is used in some aircraft navigation systems. This reference is important for understanding the principles and applications of radar in aviation.
These references collectively provide a solid foundation of knowledge on various aspects of guided navigation systems, autopilot technologies, and their applications in civil aviation, with a specific focus on the A320 aircraft.