This paper proposes a novel method to optimize bandwidth usage for object detection in critical communication scenarios. We develop two operating models of active information seeking. The first model identifies promising regions in low resolution imagery and progressively requests higher resolution regions on which to perform recognition of higher semantic quality. The second model identifies promising regions in low resolution imagery while simultaneously predicting the approximate location of the object of higher semantic quality. From this general framework, we develop a car recognition system via identification of its license plate and evaluate the performance of both models on a car dataset that we introduce. Results are compared with traditional JPEG compression and demonstrate that our system saves up to one order of magnitude of bandwidth while sacrificing little in terms of recognition performance.
Bandwidth limited object recognition in high resolution imagery / Lopez-Fuentes, Laura; Bagdanov, Andrew D.; Van De Weijer, Joost; Skinnemoen, Harald. - ELETTRONICO. - (2017), pp. 1197-1205. (Intervento presentato al convegno 17th IEEE Winter Conference on Applications of Computer Vision, WACV 2017 tenutosi a usa nel 2017) [10.1109/WACV.2017.138].
Bandwidth limited object recognition in high resolution imagery
BAGDANOV, ANDREW DAVID;
2017
Abstract
This paper proposes a novel method to optimize bandwidth usage for object detection in critical communication scenarios. We develop two operating models of active information seeking. The first model identifies promising regions in low resolution imagery and progressively requests higher resolution regions on which to perform recognition of higher semantic quality. The second model identifies promising regions in low resolution imagery while simultaneously predicting the approximate location of the object of higher semantic quality. From this general framework, we develop a car recognition system via identification of its license plate and evaluate the performance of both models on a car dataset that we introduce. Results are compared with traditional JPEG compression and demonstrate that our system saves up to one order of magnitude of bandwidth while sacrificing little in terms of recognition performance.
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