Viktor Kress scite author profile

In this article, we present a novel approach to detect starting motions of cyclists in real world traffic scenarios based on Motion History Images (MHIs). The method uses a deep Convolutional Neural Network (CNN) with a residual network architecture (ResNet), which is commonly used in image classification and detection tasks. By combining MHIs with a ResNet classifier and performing a frame by frame classification of the MHIs, we are able to detect starting motions in image sequences. The detection is performed using a wide angle stereo camera system at an urban intersection. We compare our algorithm to an existing method to detect movement transitions of pedestrians that uses MHIs in combination with a Histograms of Oriented Gradients (HOG) like descriptor and a Support Vector Machine (SVM), which we adapted to cyclists. To train and evaluate the methods a dataset containing MHIs of 394 cyclist starting motions was created. The results show that both methods can be used to detect starting motions of cyclists. Using the SVM approach, we were able to safely detect starting motions 0.506 s on average after the bicycle starts moving with an F 1 -score of 97.7%. The ResNet approach achieved an F 1score of 100% at an average detection time of 0.144 s. The ResNet approach outperformed the SVM approach in both robustness against false positive detections and detection time.S. Zernetsch, V. Kress and K. Doll are with the Faculty of Engineering, University of Applied Sciences Aschaffenburg,

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Pose Based Action Recognition of Vulnerable Road Users Using Recurrent Neural Networks

Kress

Schreck

Zernetsch

et al. 2020

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Human Pose Estimation in Real Traffic Scenes

Kress

Jung

Zernetsch

et al. 2018

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Pose Based Start Intention Detection of Cyclists

Kress

Jung

Zernetsch

et al. 2019

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Viktor Kress

Trajectory Forecasts with Uncertainties of Vulnerable Road Users by Means of Neural Networks

Early Start Intention Detection of Cyclists Using Motion History Images and a Deep Residual Network

Pose Based Action Recognition of Vulnerable Road Users Using Recurrent Neural Networks

Human Pose Estimation in Real Traffic Scenes

Pose Based Start Intention Detection of Cyclists

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