Aerial vehicles detection and recognition for UAV vision system

Muraviev, V.S.; Strotov, V.V.; Smirnov, S.A.

Отрывок: Therefore more rele- vant contour descriptors are used. Object matching is performed by minimizing the cri- terion function: ( ) { } 1 ( ) min ( ) ( ) , : 1, , 1, , DN crit ob j m M i D F j D i m D i M m m N j N ∈ =   = − −    = = = ∑ (9) where Dob – object contour descriptor found in the previous frame, , 0,jD j N= is the descriptor of j object candidate, N – number of objects in the current frame, m – is the value of circular shift of a descriptor. Image ro...

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dc.contributor.author	Muraviev, V.S.	-
dc.contributor.author	Smirnov, S.A.	-
dc.contributor.author	Strotov, V.V.	-
dc.date.accessioned	2017-10-25 12:28:02	-
dc.date.available	2017-10-25 12:28:02	-
dc.date.issued	2017-08	-
dc.identifier	Dspace\SGAU\20171020\65757	ru
dc.identifier	Dspace\SGAU\20171025\65757	ru
dc.identifier.citation	Muraviev VS, Smirnov SA, Strotov VV. Aerial vehicles detection and recognition for UAV vision systems. Computer Optics 2017; 41(4): 545-551.	ru
dc.identifier.uri	http://repo.ssau.ru/handle/Zhurnal-Komputernaya-optika/Aerial-vehicles-detection-and-recognition-for-UAV-vision-system-65757	-
dc.description.abstract	This article focuses on aerial vehicle detection and recognition by a wide field of view monocular vision system that can be installed on UAVs (unmanned aerial vehicles). The objects are mostly observed on the background of clouds under regular daylight conditions. The main idea is to create a multi-step approach based on a preliminary detection, regions of interest (ROI) selection, contour segmentation, object matching and localization. The described algorithm is able to detect small targets, but unlike many other approaches is designed to work with large-scale objects as well. The suggested algorithm is also intended to recognize and track the aerial vehicles of specific kind using a set of reference objects defined by their 3D models. For that purpose a computationally efficient contour descriptor for the models and the test objects is calculated. An experimental research on real video sequences is performed. The video database contains different types of aerial vehicles: airplanes, helicopters, and UAVs. The proposed approach shows good accuracy in all case studies and can be implemented in onboard vision systems.	ru
dc.description.sponsorship	This publication has been prepared as a part of research carried out by Ryazan State Radio Engineering University under the state contract 2.7064.2017/BCh.	ru
dc.language.iso	en	ru
dc.publisher	Самарский университет	ru
dc.relation.ispartofseries	41;4	-
dc.subject	aerial vehicles	ru
dc.subject	object detection	ru
dc.subject	contour descriptor	ru
dc.subject	recognition	ru
dc.title	Aerial vehicles detection and recognition for UAV vision system	ru
dc.type	Article	ru
dc.textpart	Therefore more rele- vant contour descriptors are used. Object matching is performed by minimizing the cri- terion function: ( ) { } 1 ( ) min ( ) ( ) , : 1, , 1, , DN crit ob j m M i D F j D i m D i M m m N j N ∈ =   = − −    = = = ∑ (9) where Dob – object contour descriptor found in the previous frame, , 0,jD j N= is the descriptor of j object candidate, N – number of objects in the current frame, m – is the value of circular shift of a descriptor. Image ro...	-
Располагается в коллекциях:	Журнал "Компьютерная оптика"

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