Muhammad Muzammel scite author profile

International audienceIn many countries, the motorcyclist fatality rate is much higher than that of other vehicle drivers. Among many other factors, motorcycle rear-end collisions are also contributing to these biker fatalities. To increase the safety of motorcyclists and minimize their road fatalities, this paper introduces a vision-based rear-end collision detection system. The binary road detection scheme contributes significantly to reduce the negative false detections and helps to achieve reliable results even though shadows and different lane markers are present on the road. The methodology is based on Harris corner detection and Hough transform. To validate this methodology, two types of dataset are used: (1) self-recorded datasets (obtained by placing a camera at the rear end of a motorcycle) and (2) online datasets (recorded by placing a camera at the front of a car). This method achieved 95.1% accuracy for the self-recorded dataset and gives reliable results for the rear-end vehicle detections under different road scenarios. This technique also performs better for the online car datasets. The proposed technique's high detection accuracy using a monocular vision camera coupled with its low computational complexity makes it a suitable candidate for a motorbike rear-end collision detection system. (C) 2017 SPIE and IS&T

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Event-Related Potential Responses of Motorcyclists Towards Rear End Collision Warning System

Muzammel

Yusoff

Mériaudeau

2018

IEEE Access

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End-to-end multimodal clinical depression recognition using deep neural networks: A comparative analysis

Muzammel

Salam

Othmani

2021

Computer Methods and Programs in Biomedicine

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Motorcyclists safety system to avoid rear end collisions based on acoustic signatures

Muzammel

Yusoff

Malik

et al. 2017

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A Model of Normality Inspired Deep Learning Framework for Depression Relapse Prediction Using Audiovisual Data

Othmani

Zeghina

Muzammel

2022

Computer Methods and Programs in Biomedicine

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Blind-Spot Collision Detection System for Commercial Vehicles Using Multi Deep CNN Architecture

Muzammel

Yusoff

Saad

et al. 2022

Sensors

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Buses and heavy vehicles have more blind spots compared to cars and other road vehicles due to their large sizes. Therefore, accidents caused by these heavy vehicles are more fatal and result in severe injuries to other road users. These possible blind-spot collisions can be identified early using vision-based object detection approaches. Yet, the existing state-of-the-art vision-based object detection models rely heavily on a single feature descriptor for making decisions. In this research, the design of two convolutional neural networks (CNNs) based on high-level feature descriptors and their integration with faster R-CNN is proposed to detect blind-spot collisions for heavy vehicles. Moreover, a fusion approach is proposed to integrate two pre-trained networks (i.e., Resnet 50 and Resnet 101) for extracting high level features for blind-spot vehicle detection. The fusion of features significantly improves the performance of faster R-CNN and outperformed the existing state-of-the-art methods. Both approaches are validated on a self-recorded blind-spot vehicle detection dataset for buses and an online LISA dataset for vehicle detection. For both proposed approaches, a false detection rate (FDR) of 3.05% and 3.49% are obtained for the self recorded dataset, making these approaches suitable for real time applications.

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