@article{ref1,
title="Tracking and Activity Recognition Through Consensus In Distributed Camera Networks",
journal="IEEE transactions on image processing",
year="2010",
author="Song, Bianying and Kamal, Ahmed T. and Soto, Cristian and Ding, Chong and Roy Chowdhury, Amit K. and Farrell, Jay A.",
volume="19",
number="10",
pages="2564-2579",
abstract="Camera networks are being deployed for various applications like security and surveillance, disaster response and environmental modeling. However, there is little automated processing of the data. Moreover, most methods for multi-camera analysis are centralized schemes that require the data to be present at a central server. In many applications, this is prohibitively expensive, both technically and economically. In this paper, we investigate distributed scene analysis algorithms by leveraging upon concepts of consensus that have been studied in the context of multi-agent systems, but have had little applications in video analysis. Each camera estimates certain parameters based on its own sensed data which is then shared locally with the neighboring cameras in an iterative fashion, and a final estimate is arrived at in the network using consensus algorithms. We specifically focus on two basic problems - tracking and activity recognition. For multi-target tracking in a distributed camera network, we show how the Kalman- Consensus algorithm can be adapted to take into account the directional nature of video sensors and the network topology. For the activity recognition problem, we derive a probabilistic consensus scheme that combines the similarity scores of neighboring cameras to come up with a probability for each action at the network level. Thorough experimental results are shown on real data along with a quantitative analysis.<p /> <p>Language: en</p>",
language="en",
issn="1057-7149",
doi="10.1109/TIP.2010.2052823",
url="http://dx.doi.org/10.1109/TIP.2010.2052823"
}