Motion Vector Extrapolation for Video Object Detection

True, Julian; Khan, Naimul

doi:10.32920/22734374.v1

2023

DOI: 10.32920/22734374.v1

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Motion Vector Extrapolation for Video Object Detection

Julian True

Naimul Khan

Abstract: <p>Despite the continued successes of computationally efficient deep neural network architectures for video object detection, performance continually arrives at the great trilemma of speed versus accuracy versus computational resources (pick two). Current attempts to exploit temporal information in video data to overcome this trilemma are bottlenecked by the state-of-the-art in object detection models. We present, a technique which performs video object detection through the use of off-the-shelf object d… Show more

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SDOF-Tracker: Fast and Accurate Multiple Human Tracking by Skipped-Detection and Optical-Flow

Nishimura¹,

Komorita²,

Kawanishi³

et al. 2021

Preprint

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Multiple human tracking is a fundamental problem for scene understanding. Although both accuracy and speed are required in real-world applications, recent tracking methods based on deep learning have focused on accuracy and require substantial running time. This study aims to improve running speed by performing human detection at a certain frame interval because it accounts for most of the running time. The question is how to maintain accuracy while skipping human detection. In this paper, we propose a method that complements the detection results with optical flow, based on the fact that someone's appearance does not change much between adjacent frames. To maintain the tracking accuracy, we introduce robust interest point selection within human regions and a tracking termination metric calculated by the distribution of the interest points. On the MOT20 dataset in the MOTChallenge, the proposed SDOF-Tracker achieved the best performance in terms of the total running speed while maintaining the MOTA metric. Our code is available at https: //anonymous.4open.science/r/sdof-tracker-75AE.This study aims to resolve the speed-accuracy trade-off problem by bypassing every-frame human detection, which is a computationally heavy task, that is, we perform it at a certain interval. During the interval, human detection is skipped. We named this process Skipped-Detection. The question here is how to complement human detection in skipped frames.

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SDOF-Tracker: Fast and Accurate Multiple Human Tracking by Skipped-Detection and Optical-Flow

Nishimura¹,

Komorita²,

Kawanishi³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

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Motion Vector Extrapolation for Video Object Detection

Cited by 1 publication

References 19 publications

SDOF-Tracker: Fast and Accurate Multiple Human Tracking by Skipped-Detection and Optical-Flow

SDOF-Tracker: Fast and Accurate Multiple Human Tracking by Skipped-Detection and Optical-Flow

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