Abstract
Pedestrian detection is an essential problem of computer vision, which has achieved tremendous success under controllable conditions using visible light imaging sensors in recent years. However, most of them do not consider low-light environments which are very common in real-world applications. In this paper, we propose a novel pedestrian detection algorithm using multi-task learning to address this challenge in low-light environments. Specifically, the proposed multi-task learning method is different from the most commonly used multi-task learning method—the parameter sharing mechanism—in deep learning. We design a novel multi-task learning method with feature-level fusion and a sharing mechanism. The proposed approach contains three parts: an image relighting subnetwork, a pedestrian detection subnetwork, and a feature-level multi-task fusion learning module. The image relighting subnetwork adjusts the low-light image quality for detection, the pedestrian detection subnetwork learns enhanced features for prediction, and the feature-level multi-task fusion learning module fuses and shares features among component networks for boosting image relighting and detection performance simultaneously. Experimental results show that the proposed approach consistently and significantly improves the performance of pedestrian detection on low-light images obtained by visible light imaging sensor.
Highlights
Pedestrian detection is a vital problem in computer vision with significant impact on a number of applications, such as advanced driver assistance systems, robot navigation, and intelligent video surveillance systems
Pedestrian detection algorithms in deep learning can be divided into two categories: anchor box-based and keypoint-based methods
Different from most commonly used multi-task learning methods with a parameter sharing mechanism for deep learning, we propose a novel multi-task learning method with feature-level fusion and sharing mechanism in the serial tasks
Summary
Pedestrian detection is a vital problem in computer vision with significant impact on a number of applications, such as advanced driver assistance systems, robot navigation, and intelligent video surveillance systems. These applications use a large number of imaging sensors. Pedestrian detection is a specific domain of object detection [1,2,3,4,5,6,7,8,9] From this perspective, pedestrian detection algorithms in deep learning can be divided into two categories: anchor box-based and keypoint-based methods. Pierre et al [10]
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