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Developing IVHM Requirements for Aerospace Systems
Technical Paper
2013-01-2333
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The term Integrated Vehicle Health Management (IVHM) describes a set of capabilities that enable sustainable and safe operation of components and subsystems within aerospace platforms. However, very little guidance exists for the systems engineering aspects of design with IVHM in mind. It is probably because of this that designers have to use knowledge picked up exclusively by experience rather than by established process. This motivated a group of leading IVHM practitioners within the aerospace industry under the aegis of SAE's HM-1 technical committee to author a document that hopes to give working engineers and program managers clear guidance on all the elements of IVHM that they need to consider before designing a system. This proposed recommended practice (ARP6883 [1]) will describe all the steps of requirements generation and management as it applies to IVHM systems, and demonstrate these with a “real-world” example related to designing a landing gear system. The team hopes that this paper and presentation will help start a dialog with the larger aerospace community and that the feedback can be used to improve the ARP and subsequently the practice of IVHM from a systems engineering point-of-view.
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Authors
- Ravi Rajamani - Meggitt
- Abhinav Saxena - NASA Ames Research Center
- Frank Kramer - Airbus Operations GmbH
- Michael Augustin - IVHM Inc.
- J.B. Schroeder - US Air Force
- Kai Goebel - NASA Ames Research Center
- Ginger Shao - Honeywell Aerospace
- Indranil Roychoudhury - NASA Ames Research Center
- Wei Lin - NASA Ames Research Center
Citation
Rajamani, R., Saxena, A., Kramer, F., Augustin, M. et al., "Developing IVHM Requirements for Aerospace Systems," SAE Technical Paper 2013-01-2333, 2013, https://doi.org/10.4271/2013-01-2333.Also In
References
- SAE International Aerospace Recommended Practice Guidelines for Writing IVHM Requirements for Aerospace Systems SAE Standard ARP6883, Work In Progress
- SAE International Aerospace Recommended Practice Determination of Costs and Benefits from Implementing an Engine Health Management System SAE Standard ARP4176 Feb. 2013
- SAE International Aerospace Recommended Practice Establishing Software Assurance Levels for Engine Health Management Systems Utilized for Maintenance Credit SAE Standard ARP5987, Work In Progress
- Byer , B. , Hess A. , and Fila L. Writing a convincing cost benefit analysis to substantiate autonomic logistics IEEE Aerospace Conference 2001 3095 3103
- International Council on Systems Engineering (INCOSE) Systems Engineering Handbook, Version 3.0 June 2006
- Saxena , A. et al. Requirements Flowdown for Prognostics and Health Management AIAA Infotech@Aerospace Conference Garden Grove, CA 2012
- International Organization for Standardization ISO15288 2008 Systems and software engineering - System life cycle processes 2008
- Firesmith , D. Specifying Good Requirements 2 4 Journal of Object Technology 79 July August 2003 77 87
- Prognostics Center of Excellence Attributes of Good Requirements for Verification and Validation of Health Management Systems NASA Ames Research Center Moffett Field, CA 94035
- US Army Aviation and Missile Command (AMCom) Aeronautical design standard, ADS-79b-HDBK: Handbook on Condition Based Maintenance Systems for US Army Aircraft Systems January 2011