Title :
Multi-channel Correlation Filters
Author :
Galoogahi, Hamed Kiani ; Sim, Terence ; Lucey, Simon
Author_Institution :
Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
Modern descriptors like HOG and SIFT are now commonly used in vision for pattern detection within image and video. From a signal processing perspective, this detection process can be efficiently posed as a correlation/ convolution between a multi-channel image and a multi-channel detector/filter which results in a single channel response map indicating where the pattern (e.g. object) has occurred. In this paper, we propose a novel framework for learning a multi-channel detector/filter efficiently in the frequency domain, both in terms of training time and memory footprint, which we refer to as a multichannel correlation filter. To demonstrate the effectiveness of our strategy, we evaluate it across a number of visual detection/ localization tasks where we: (i) exhibit superior performance to current state of the art correlation filters, and (ii) superior computational and memory efficiencies compared to state of the art spatial detectors.
Keywords :
computer vision; filtering theory; frequency-domain analysis; learning (artificial intelligence); object detection; HOG descriptor; SIFT descriptor; computational efficiency; computer vision; detection process; frequency domain; memory efficiency; memory footprint; multichannel correlation filters; multichannel detector-filter learning; multichannel image; pattern detection; signal processing perspective; single-channel response map; training time; video; visual detection-localization tasks; Correlation; Detectors; Equations; Frequency-domain analysis; Linear systems; Training; Vectors; correlation filter learning; multi channel features; pattern recognition;
Conference_Titel :
Computer Vision (ICCV), 2013 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICCV.2013.381
