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An autonomous drone surveillance and tracking architecture
Eren Unlu
Emmaneul Zenou
Nicolas Riviere
Paul-Edouard Dupouy
  DOI :  10.2352/ISSN.2470-1173.2019.15.AVM-035  Published OnlineJanuary 2019
Abstract

In this work, we present a computer vision and machine learning backed autonomous drone surveillance system, in order to protect critical locations. The system is composed of a wide angle, high resolution daylight camera and a relatively narrow angle thermal camera mounted on a rotating turret. The wide angle daylight camera allows the detection of flying intruders, as small as 20 pixels with a very low false alarm rate. The primary detection is based on YOLO convolutional neural network (CNN) rather than conventional background subtraction algorithms due its low false alarm rate performance. At the same time, the tracked flying objects are tracked by the rotating turret and classified by the narrow angle, zoomed thermal camera, where classification algorithm is also based on CNNs. The training of the algorithms is performed by artificial and augmented datasets due to scarcity of infrared videos of drones.

Journal Title : Electronic Imaging
Publisher Name : Society for Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane, Springfield, VA 22151 USA
Subject Areas :
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 DOI 10.2352/ISSN.2470-1173.2019.15.AVM-035
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Eren Unlu, Emmaneul Zenou, Nicolas Riviere, Paul-Edouard Dupouy, "An autonomous drone surveillance and tracking architecturein Proc. IS&T Int’l. Symp. on Electronic Imaging: Autonomous Vehicles and Machines Conference,  2019,  pp 35-1 - 35-7,  https://doi.org/10.2352/ISSN.2470-1173.2019.15.AVM-035

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Copyright © Society for Imaging Science and Technology 2019
72010604
Electronic Imaging
2470-1173
Society for Imaging Science and Technology
7003 Kilworth Lane, Springfield, VA 22151 USA
10.2352/ISSN.2470-1173.2019.15.AVM-035
2470-1173(20190113)2019:15L.351;1-
ei_24701173_v2019n15_input/s8.xml
/ist/ei/2019/00002019/00000015/art00008
Articles
An autonomous drone surveillance and tracking architecture
UnluEren
ZenouEmmaneul
RiviereNicolas
DupouyPaul-Edouard
13012019
2019
15
35-1
35-7
2019
In this work, we present a computer vision and machine learning backed autonomous drone surveillance system, in order to protect critical locations. The system is composed of a wide angle, high resolution daylight camera and a relatively narrow angle thermal camera mounted on a rotating turret. The wide angle daylight camera allows the detection of flying intruders, as small as 20 pixels with a very low false alarm rate. The primary detection is based on YOLO convolutional neural network (CNN) rather than conventional background subtraction algorithms due its low false alarm rate performance. At the same time, the tracked flying objects are tracked by the rotating turret and classified by the narrow angle, zoomed thermal camera, where classification algorithm is also based on CNNs. The training of the algorithms is performed by artificial and augmented datasets due to scarcity of infrared videos of drones.
Autonomous SurveillanceVideo SurveillanceCounter-Drone systemConvolutional Neural Networks