DocumentCode
162502
Title
The Study on the Techniques on Gun-Dome Camera Cooperative Human-Tracing
Author
Zhiguo Yan ; Kaili Gu
Author_Institution
Centre of Internet of Things, Third Res. Inst. of Minist. of Public Security, Shanghai, China
fYear
2014
fDate
27-29 Aug. 2014
Firstpage
165
Lastpage
170
Abstract
Currently, how to automatically realize acquisition, refining and fast retrieval of the target information in surveillance video has become an urgent demand in public security visual surveillance field. This paper proposes a new gun-dome camera cooperative system which solves the above problem partly. The system adopts master-slave static panorama-variable view dual-camera cooperative video-monitoring system. In the proposed architecture, Deformable Part Model (DPM) method realizes real-time detection of pedestrian. The look-up table method is proved feasible in dual-camera cooperative calibration procedure while the depth information of moving target changes slightly. In addition, the experimental results show the effectiveness and efficiency of the dual-camera human-tracing system.
Keywords
cameras; computerised monitoring; cooperative systems; object detection; object tracking; table lookup; video surveillance; DPM method; deformable part model method; dual-camera cooperative calibration procedure; dual-camera cooperative video-monitoring system; gun-dome camera cooperative system; look-up table method; public security visual surveillance field; real-time pedestrian detection; static panorama camera; surveillance video; target information acquisition; target information refinement; target information retrieval; variable view camera; Calibration; Cameras; Deformable models; Object detection; Surveillance; Table lookup; calibration; deformable part model; gun-dome camera cooperation; human-tracing; pedestrian detection;
fLanguage
English
Publisher
ieee
Conference_Titel
Semantics, Knowledge and Grids (SKG), 2014 10th International Conference on
Conference_Location
Beijing
Type
conf
DOI
10.1109/SKG.2014.35
Filename
6964685
Link To Document