Analyze of video information alignment algorithms in aviation systems

Maxim Bondarenko, Vladimir Sukhomlin

Abstract


The modern aviation onboard video information systems are assume a high integration level for output to pilots more actual, precise and full visual information of outboard environment. Visual information or video information there are consequences of images, getting from onboard digital cameras of different spectral bands (from enhanced vision system), or synthetic images, getting from onboard computer using digital environment map or virtual environment model and navigation system (from synthetic vision system). In the article, the overview of known published alignment algorithms for aviation combined vision systems is present. The special attention is pay to practical usage problems of alignment video information methods.

Full Text:

PDF (Russian)

References


Vizil'ter Ju. V., Zheltov S. Ju. Problemy tehnicheskogo zrenija v sovremennyh aviacionnyh sistemah. // Trudy nauchno-tehnicheskoj konferencii-seminara «Tehnicheskoe zrenie v sistemah upravlenija mobil'nymi ob"ektami – 2010» / pod red. R.R. Nazirova. – Vyp. 4. – M.: Universitet knizhnyj dom, 2011. – S. 11.

E2VS Displays Potential as Breakthrough Product [Electronic resource] // Aviation week network, October 2015. URL:http://aviationweek.com/nbaa-2015/e2vs- displays-potential-breakthrough-product (data obrashhenija 14.02.2016).

Honeywell SVS Demo [Electronic resource, video] // Aviation International News TV, April 2013. URL: https://www.youtube.com/watch?v=1jLayNRtgGE (data obrashhenija 21.03.2016).

Sovmeshhenie izobrazhenij v korreljacionno-jekstremal'nyh navigacionnyh sistemah. Monografija / pod red. L. N. Kostjashkina, M. B. Nikiforova. – M.: Radiotehnika, 2015. – 208 s.

German E.V. Algoritmy sovmeshhenija raznorodnyh izobrazhenij v bortovyh sistemah vizualizacii, diss. kand. teh. nauk: 05.13.01. – Rjazan', 2014. – 166 s. [Tekst]. URL: http://rsreu.ru/en/component/docman/doc_download/4436- (data obrashhenija 15.03.2014).

Lebedev M. A., Bondarenko M. A., Komarov D. V., Stepan'janc D. G., Vygolov O. V., Vizil'ter Ju. V., Zheltov S. Ju. Algoritm avtomaticheskogo sovmeshhenija sensornoj i sinteziruemoj videoinformacii dlja aviacionnoj sistemy kombinirovannogo videnija // Vestnik komp'juternyh i informacionnyh tehnologij. – 2014. – #7. – S. 8–13.

Rida M. H., Thea L. F. Fusion of sensor data and synthetic data to form an integrated image. Patent US 7925117 B2; stated 27.06.2006; published 12.04.2011. [Electronic resource]. URL: http://google.com.ar/patents/US7925117 (data obrashhenija 14.02.2016).

Bondarenko M. A. Sistema navigacii mobil'noj tehniki po global'noj trjohmernoj modeli mestnosti [Tekst] //Tehnicheskoe zrenie. – 2013. – Vyp. 3(3). – S. 41–49. URL: http://magazine.technicalvision.ru/navigation-system- of-mobile-equipment-by- using-a- global-3d- environment-model/ (data obrashhenija 11.03.2016).

Rukovodstvo R-315 «Po minimal'nym standartam harakteristik aviacionnyh sistem (MASPS) dlja sistem uluchshennogo videnija, sistem II, kombinirovannyh sistem iskusstvennogo videnija i bortovyh sistem uvelichenija dal'nosti videnija» Aviacionnogo Registra Mezhgosudarstvennogo Aviacionnogo Komiteta (ARMAK) [Jelektronnyj resurs]. – 2012. – 86 s. URL http://twirpx.com/file/1487566/ (data obrashhenija 11.03.2016).

Kostjashkin L. N, Loginov A. A., Nikiforov M. B. Problemnye aspekty sistemy kombinirovannogo videnija letatel'nyh apparatov [Tekst] // Izvestija Juzhnogo federal'nogo universiteta. – 2013. – #5. – S. 61–65. URL: http://izv-tn.tti.sfedu.ru/wp- content/uploads/2013/5/11.pdf (data obrashhenija 13.02.2016).

Bondarenko M. A. Algoritm sovmeshhenija sensornoj i sintezirovannoj videoinformacii v aviacionnoj sisteme kombinirovannogo videnija. [Tekst] // Kibernetika i programmirovanie. – 2016. – # 1. – S. 236–257. DOI: 10.7256/2306-4196.2016.1.17770. URL: http://e-notabene.ru/kp/article_17770.html (data obrashhenija 11.03.2016).

Bondarenko M. A., Pavlov Ju. V. Sposob poluchenija na letatel'nom apparate (LA) uluchshennogo izobrazhenija podstilajushhej poverhnosti. Patent RF #2591029, prioritet ot 13.02.2015, zaregistrirovan v Gos. reestre izobretenij Rossijskoj Federacii 17.06.2016.


Refbacks

  • There are currently no refbacks.


Abava   Servletsuite

ISSN: 2307-8162