Fig. 1 DO-178 Process/Output
Fig. 2 Consideration of Military Airborne S/W Development Process
Fig. 3 The survey results for the MilitaryAirborne Software Specialist regarding adequacy of appling DO-178
Fig. 4 Proposed Military Airborne S/W Development Process
Table 1 DO-178 History[3]
Table 2 DO-178 S/W Level
Table 3 Standard Airworthiness Criteria & S/W Qualification
Table 4 DO-178C Reference in MIL-HDBK-516C
Table 5 DO-178C vs. MIL-HDBK-516C
Table 6 DAPA Weapon System S/W Development and Management Manual
Table 7 DO-178C vs. DAPA Weapon System S/W Development and Management Manual Output
Table 8 Questions for Military Airborne S/W Specialist
Table 9 Opinions of the Military Airborne Software Specialist
Table 10 Military Airborne Software Check-List[6]
참고문헌
- DAPA, "Military Aircraft Flight Safety Certification Regulation", DAPA Instruction, Number 429, Dec. 2017.
- RTCA, "Software Consideration in Airborne Systems and Equipment Certification", RTCA DO-178C, 2011.
- Youn Won-Keun, Yi Baeck-Jun, "Development Tread of Software Certification Technology for the safety of Avionic system", Aerospace Industry Technology Trend, pp 189-196, Nov. 2013.
- FAA, "Software Approval Guidelines", FAA ORDER, 8110.49, Sep. 2011.
- FAA, "Designated Engineering Representative[DER] Handbook", FAA ORDER, 8110.37E, March 2011.
- FAA, "Conducting Software Reviews Prior to Certification", FAA Job Aid Aircraft Certification Service, Jan. 2004.
- DAPA, "Military Aircraft Standard Airworthiness Certification Criteria", DAPA Notice, 2017-3, April 2017.
- DAPA, "Weapon System S/W Development and Management Manual", DAPA Notice, 2017-3, August 2017.
- Jaehwa Lee, Suengho Baek, Changyoung Kim, Songhyun Yun, "A Study on the Establishment of Airworthiness Certification System for Korean Military Aircraft", Journal of Aerospace System Engineering, Vol.1, No.3 pp 21-25, Dec 2007.