Title :
A Real-Time Rodent Tracking System for Both Light and Dark Cycle Behavior Analysis
Author :
Zurn, J.B. ; Hohmann, Drew ; Dworkin, Steven I. ; Motai, Yuichi
Author_Institution :
Dept. of ECE, Vermont Univ., Burlington, VT
Abstract :
Position tracking of rodents is useful and necessary to help elucidate the behavioral and physiological effects of genetic mutations, drug action, and environmental stimuli. In this paper we describe a real-time system developed to allow continuous overhead video monitoring of rodent behavior in a home cage environment, either in a daylight condition (light-cycle) using standard visible illumination or a night-time condition (dark-cycle), using overhead near infrared illumination (NIR). Due to the lack of research on the effects of NIR on rodent behavior, we also examined open-field locomotor activity under 880 nm and 940 nm wavelengths of NIR, as well as visible white light and a "dark" condition consisting of a very dim level of NIR. The experimental result validated the described system and robustly tracked the target rodent in the light cycle, and for high contrast conditions in the dark cycle.
Keywords :
biological effects of optical radiation; drugs; genetics; medical image processing; video signal processing; continuous overhead video monitoring; dark cycle behavior analysis; drug action; environmental stimuli; genetic mutations; light cycle behavior analysis; near infrared illumination; open-field locomotor activity; position tracking; real-time rodent tracking system; Biomedical monitoring; Condition monitoring; Drugs; Genetic mutations; Infrared surveillance; Lighting; Real time systems; Robustness; Rodents; Standards development;
Conference_Titel :
Application of Computer Vision, 2005. WACV/MOTIONS '05 Volume 1. Seventh IEEE Workshops on
Conference_Location :
Breckenridge, CO
Print_ISBN :
0-7695-2271-8
DOI :
10.1109/ACVMOT.2005.9
