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Future-proofing an aircraft self-protection IR signature database

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dc.contributor.author Alayeda, M
dc.contributor.author El-Desouki, MM
dc.contributor.author Alsawadi, MS
dc.contributor.author Alghamdi, K
dc.contributor.author Al-Ghamdi, AA
dc.contributor.author Willers, Cornelius J
dc.contributor.author Mudau, AE
dc.contributor.author Bezuidenhout, DF
dc.date.accessioned 2013-06-12T13:21:31Z
dc.date.available 2013-06-12T13:21:31Z
dc.date.issued 2012-09
dc.identifier.citation Alayeda M, El-Desouki M.M, Alsawadi M.S, Alghamdi K, Al-Ghamdi A.A, Willers C.J, Mudau A.E and Bezuidenhout, D.F. “Future-proofing an aircraft self-protection IR signature database ” Technologies for Optical Countermeasures IX. David H. Titterton, Mark A. Richardson, Editors, Proc. SPIE 8543, 85430O (2012) en_US
dc.identifier.uri http://216.57.198.66/x648.html?product_id=978981
dc.identifier.uri http://hdl.handle.net/10204/6796
dc.description SPIE Conference Proceedings, Edinburgh, Scotland, 24-27 September 2012. Published in SPIE Digital library en_US
dc.description.abstract Aircraft self-protection against heat seeking missile threats is an extremely important topic worldwide, recently even more so with the instability in the Middle East region due to, for example, the large number of man-portable air defense systems (MANPADS) that were stolen from army arsenals. A fundamental step in successfully achieving self-protection is the ability to capture and identify aircraft infrared signatures. This work discusses some of our efforts and results in creating an asset database for infrared signatures. The database was designed in a way that will feed an image processing engine to allow for automated feature and signature extraction. A common failing in the handling of target signature raw data is the fact that raw data files can become unreadable because of changes in technology, software applications or weak media archiving technology (e.g. corrupt DVD media). A second shortcoming is often the fact that large volumes of raw or processed data are stored in an unstructured manner, resulting in poor recall later. A third requirement is the portability of data between various processing software packages, legacy, current and future. This paper demonstrates how the challenge of future-proofing measured data is met with reference to the archiving and analysis of data from a recent measurement campaign. Recommendations for future work are given, based on the experience gained. en_US
dc.language.iso en en_US
dc.publisher SPIE Digital library en_US
dc.relation.ispartofseries Workflow;10059
dc.subject Missile threats en_US
dc.subject Man-portable air defense systems en_US
dc.subject MANPADS en_US
dc.subject Aircraft tracking en_US
dc.subject Data fusion en_US
dc.subject Database usability en_US
dc.subject Multi sensors en_US
dc.subject Target detection en_US
dc.title Future-proofing an aircraft self-protection IR signature database en_US
dc.type Conference Presentation en_US
dc.identifier.apacitation Alayeda, M., El-Desouki, M., Alsawadi, M., Alghamdi, K., Al-Ghamdi, A., Willers, C. J., ... Bezuidenhout, D. (2012). Future-proofing an aircraft self-protection IR signature database. SPIE Digital library. http://hdl.handle.net/10204/6796 en_ZA
dc.identifier.chicagocitation Alayeda, M, MM El-Desouki, MS Alsawadi, K Alghamdi, AA Al-Ghamdi, Cornelius J Willers, AE Mudau, and DF Bezuidenhout. "Future-proofing an aircraft self-protection IR signature database." (2012): http://hdl.handle.net/10204/6796 en_ZA
dc.identifier.vancouvercitation Alayeda M, El-Desouki M, Alsawadi M, Alghamdi K, Al-Ghamdi A, Willers CJ, et al, Future-proofing an aircraft self-protection IR signature database; SPIE Digital library; 2012. http://hdl.handle.net/10204/6796 . en_ZA
dc.identifier.ris TY - Conference Presentation AU - Alayeda, M AU - El-Desouki, MM AU - Alsawadi, MS AU - Alghamdi, K AU - Al-Ghamdi, AA AU - Willers, Cornelius J AU - Mudau, AE AU - Bezuidenhout, DF AB - Aircraft self-protection against heat seeking missile threats is an extremely important topic worldwide, recently even more so with the instability in the Middle East region due to, for example, the large number of man-portable air defense systems (MANPADS) that were stolen from army arsenals. A fundamental step in successfully achieving self-protection is the ability to capture and identify aircraft infrared signatures. This work discusses some of our efforts and results in creating an asset database for infrared signatures. The database was designed in a way that will feed an image processing engine to allow for automated feature and signature extraction. A common failing in the handling of target signature raw data is the fact that raw data files can become unreadable because of changes in technology, software applications or weak media archiving technology (e.g. corrupt DVD media). A second shortcoming is often the fact that large volumes of raw or processed data are stored in an unstructured manner, resulting in poor recall later. A third requirement is the portability of data between various processing software packages, legacy, current and future. This paper demonstrates how the challenge of future-proofing measured data is met with reference to the archiving and analysis of data from a recent measurement campaign. Recommendations for future work are given, based on the experience gained. DA - 2012-09 DB - ResearchSpace DP - CSIR KW - Missile threats KW - Man-portable air defense systems KW - MANPADS KW - Aircraft tracking KW - Data fusion KW - Database usability KW - Multi sensors KW - Target detection LK - https://researchspace.csir.co.za PY - 2012 T1 - Future-proofing an aircraft self-protection IR signature database TI - Future-proofing an aircraft self-protection IR signature database UR - http://hdl.handle.net/10204/6796 ER - en_ZA


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