Journal of the Korean Society of Systems Engineering (시스템엔지니어링학술지)

The Korean Society of Systems Engineering (한국시스템엔지니어링학회)
권호 표지
DOI QR코드

DOI QR Code

A Study on the Improvement of Reliability Prediction Model for Guided Missile

유도탄의 신뢰도 예측 모델 개선에 관한 연구

  • Received : 2020.03.06
  • Accepted : 2020.06.15
  • Published : 2020.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

Currently, Storage Reliability is analyzed when predicting the reliability of guided missile. However, Mission Reliability and Logistics Reliability should be analyzed according to the definition of reliability in MIL-STD-785B. Therefore, it is necessary to accurately predict the reliability of guided missile based on the definition of reliability. In this paper, we proposed improved the reliability procedure and model for guided missile based on which the definition of reliability considering the mission profile. The proposed model can calculate the final failure rate by applying the ratio of the dormant and storage according to the mission profile. The proposed model has been confirmed to be more accurate than the existing model compared to the actual failure rate value. The results of this study can be useful for applying the reliability prediction to any guided missile.

Keywords

References

  1. ISO 281, Bearing Life Standard, Tribology & Lubrication Technology, p. 2, 2010.
  2. Yun, H. S., Jeong, D. U., Lee, E. H., Kang, T. W., Lee, S. H., and Hur, M. O., Methodologies of Duty Application in Weapon System Reliability Prediction, Journal of the Reliability Society, Vol. 11, No. 4, pp. 433-445, 2011.
  3. Kim, H. W., Yun, W. Y., Reliability Analysis for One-Shot Systems with Periodic Inspection, Journal of the Korean Institute of Industrial Engineers, Vol. 42, No. 1, pp. 20-29, 2016. https://doi.org/10.7232/JKIIE.2016.42.1.020
  4. Um, C. S., Lee, D. K., and Rhee. J. M., The Storage Reliability Analysis Using Environmental Conditions and Operational Concept of Guided Missile, The Korean Reliability Society, pp. 232-237, 2016.
  5. Rhee, J. M., Kwon, K. S., and Lee. H. P., The Study on Estimating Preventive Maintenance period and Life cycle of Missile system, Korean Institute of Industrial Engineers, pp. 1172-1176, 2011.
  6. Lim, S. J., Lee, S. R., and Kim. K. R., A Study on Optimal Check Cycle of One-shot System Using Storage Reliability Analysis, Korean Institute of Industrial Engineers, pp. 2313-2323, 2016.
  7. Kim, D. K., Kang, W. S., and Kang, S. J., A Study on the Storage Reliability Determination Model for One-shot System, Journal of the Korean Operations Research and Management Science Society, Vol. 38, No. 1, pp. 1-13, 2013. https://doi.org/10.7737/JKORMS.2013.38.1.001
  8. Choi, J. R., and Huh, J. W., A Study on Storage Reliability Analysis for One Shot Device, The Korean Reliability Society, pp. 170-176, 2016.
  9. MIL STD 785B, Reliability Program for System & Equipment Development & Production, Department of Defense, Task 201: Reliability Modeling, p. 3, 1980.
  10. MIL STD 1388 2B, DOD Requirement for a Logistic Support Analysis Record, pp. 4-5, 1996.
  11. Ammunition Integrated Logistics Support development guidebook, The Republic of Korea Army, chapter3: Ammunition Reliability, Availability Maintainability and Logistic Support Analysis, pp. 2-3, 2017.
  12. ILS(Integrated Logistics Support) development guidebook, Defense Acquisition Program Administration, p. 450, 2015.
  13. MIL STD 756B, Reliability Modeling & Prediction, Department of Defense, Task 102: Mission Reliability Model, p. 5, 1981.
  14. Judy, P., Michael, P., Long term nonoperating reliability of electronic products, CRC Press, pp. 1-2, 2018.
  15. RADC TR 67 307, Dormant operating & storage effects on electronic& part reliability, National Technical Information Service U. S. Department of Commerce, p. 1, 1967.
  16. LC 82 1, Storage Reliability Prediction Handbook for parts count prediction, U.S. Army Missile Research and Development Command, 1982.
  17. LC 82 2, Storage Reliability Analysis Summary report, U.S. Army Missile Research and Development Command, 1982.
  18. RADC TR 85 91, Impact of non operating periods on equipment reliability, 1985.
  19. System Reliability Toolkit, A Practical Guide for Understanding & Implementing a Program for System Reliability, Reliability Information Analysis Center, p. 463, 2005.