Title :
A Scalable Video Stabilization Algorithm for Multi-camera Systems
Author :
Reynolds, William D., Jr. ; Campbell, Derrick S.
Author_Institution :
Space Syst. Div., ITT, Vienna, VA, USA
Abstract :
Images rendered by remote sensing multi-camera platforms typically contain jitter caused by decoding timing delays, target movement, and platform motion. In this paper, we address the problem of stabilizing large-frame, low-frame rate imagery acquired from a multi-camera array system for persistent surveillance and monitoring. The algorithm utilizes temporal coherence properties between the cameras, eliminating the need to perform motion estimation on each individual camera sequence. The video stabilization algorithm includes three main modes of scalability:1) quality, 2) resolution, and 3) camera. To demonstrate the feasibility of the developed algorithm in real-world scenarios, we present results with imagery collected from a prototype multi-camera array persistent surveillance system.
Keywords :
decoding; geophysical signal processing; image resolution; image sequences; jitter; motion estimation; remote sensing; rendering (computer graphics); video cameras; video coding; video surveillance; decoding timing delay; image rendering; image sequence; jitter; large-frame imagery stabilization; low-frame imagery stabilization; motion estimation; remote sensing multicamera array persistent surveillance system; scalable video stabilization algorithm; target movement; temporal coherence property; video monitoring; video quality; video resolution; Cameras; Coherence; Decoding; Delay; Motion estimation; Prototypes; Remote monitoring; Rendering (computer graphics); Surveillance; Timing jitter; JPEG 2000; multi-camera systems; persistent surveillance; video stabilization;
Conference_Titel :
Advanced Video and Signal Based Surveillance, 2009. AVSS '09. Sixth IEEE International Conference on
Conference_Location :
Genova
Print_ISBN :
978-1-4244-4755-8
Electronic_ISBN :
978-0-7695-3718-4
DOI :
10.1109/AVSS.2009.91
