Related papers: Vulnerable Road User Detection and Safety Enhancement: A Comprehensive Survey

Vulnerable Road User Detection and Safety Enhancement: A Comprehensive Survey

URL: http://arxiv.org/abs/2405.19202v4
Date: Tue, 05 Nov 2024 19:24:50 GMT
Title: Vulnerable Road User Detection and Safety Enhancement: A Comprehensive Survey
Authors: Renato M. Silva, Gregório F. Azevedo, Matheus V. V. Berto, Jean R. Rocha, Eduardo C. Fidelis, Matheus V. Nogueira, Pedro H. Lisboa, Tiago A. Almeida,
Abstract summary: Traffic incidents involving vulnerable road users (VRUs) constitute a significant proportion of global road accidents. Advances in traffic communication ecosystems, coupled with sophisticated signal processing and machine learning techniques, have facilitated the utilization of data from diverse sensors. This paper provides a comprehensive survey of state-of-the-art technologies and methodologies to enhance the safety of VRUs.
Score: 0.707675463650964
License:
Abstract: Traffic incidents involving vulnerable road users (VRUs) constitute a significant proportion of global road accidents. Advances in traffic communication ecosystems, coupled with sophisticated signal processing and machine learning techniques, have facilitated the utilization of data from diverse sensors. Despite these advancements and the availability of extensive datasets, substantial progress is required to mitigate traffic casualties. This paper provides a comprehensive survey of state-of-the-art technologies and methodologies to enhance the safety of VRUs. The study delves into the communication networks between vehicles and VRUs, emphasizing the integration of advanced sensors and the availability of relevant datasets. It explores preprocessing techniques and data fusion methods to enhance sensor data quality. Furthermore, our study assesses critical simulation environments essential for developing and testing VRU safety systems. Our research also highlights recent advances in VRU detection and classification algorithms, addressing challenges such as variable environmental conditions. Additionally, we cover cutting-edge research in predicting VRU intentions and behaviors, which is crucial for proactive collision avoidance strategies. Through this survey, we aim to provide a comprehensive understanding of the current landscape of VRU safety technologies, identifying areas of progress and areas needing further research and development.

Related papers

Traffic and Safety Rule Compliance of Humans in Diverse Driving Situations [48.924085579865334]
Analyzing human data is crucial for developing autonomous systems that replicate safe driving practices. This paper presents a comparative evaluation of human compliance with traffic and safety rules across multiple trajectory prediction datasets.
arXiv Detail & Related papers (2024-11-04T09:21:00Z)
OOSTraj: Out-of-Sight Trajectory Prediction With Vision-Positioning Denoising [49.86409475232849]
Trajectory prediction is fundamental in computer vision and autonomous driving. Existing approaches in this field often assume precise and complete observational data. We present a novel method for out-of-sight trajectory prediction that leverages a vision-positioning technique.
arXiv Detail & Related papers (2024-04-02T18:30:29Z)
Object Detectors in the Open Environment: Challenges, Solutions, and Outlook [95.3317059617271]
The dynamic and intricate nature of the open environment poses novel and formidable challenges to object detectors. This paper aims to conduct a comprehensive review and analysis of object detectors in open environments. We propose a framework that includes four quadrants (i.e., out-of-domain, out-of-category, robust learning, and incremental learning) based on the dimensions of the data / target changes.
arXiv Detail & Related papers (2024-03-24T19:32:39Z)
Big Data and Deep Learning in Smart Cities: A Comprehensive Dataset for AI-Driven Traffic Accident Detection and Computer Vision Systems [0.0]
This study delves into the application of cutting-edge technological methods in smart cities. We present a novel comprehensive dataset for traffic accident detection. This dataset is expected to advance academic research and also enhance real-time accident detection applications.
arXiv Detail & Related papers (2024-01-07T21:50:24Z)
Using Visual and Vehicular Sensors for Driver Behavior Analysis: A Survey [0.0]
Risky drivers account for 70% of fatal accidents in the United States. This paper examines the various techniques used to analyze driver behavior using visual and vehicular data.
arXiv Detail & Related papers (2023-08-25T14:33:59Z)
Evaluating the reliability of automatically generated pedestrian and bicycle crash surrogates [0.491574468325115]
Vulnerable road users (VRUs) are at a higher risk of being involved in crashes with motor vehicles. Signalized intersections are a major safety concern for VRUs due to their complex and dynamic nature. This research builds on a study to assess the reliability of automatically generated surrogates in predicting confirmed conflicts.
arXiv Detail & Related papers (2023-07-24T23:57:29Z)
A Survey of Federated Learning for Connected and Automated Vehicles [2.348805691644086]
Connected and Automated Vehicles (CAVs) are one of the emerging technologies in the automotive domain. Federated learning (FL) is an effective solution for CAVs that enables a collaborative model development with multiple vehicles.
arXiv Detail & Related papers (2023-03-19T14:44:37Z)
Camera-Radar Perception for Autonomous Vehicles and ADAS: Concepts, Datasets and Metrics [77.34726150561087]
This work aims to carry out a study on the current scenario of camera and radar-based perception for ADAS and autonomous vehicles. Concepts and characteristics related to both sensors, as well as to their fusion, are presented. We give an overview of the Deep Learning-based detection and segmentation tasks, and the main datasets, metrics, challenges, and open questions in vehicle perception.
arXiv Detail & Related papers (2023-03-08T00:48:32Z)
Cooperative Saliency-based Obstacle Detection and AR Rendering for Increased Situational Awareness [3.010893618491329]
We propose a saliency-based distributed, cooperative obstacle detection and rendering scheme. The proposed method provides favorable results and features compared to other recent and relevant approaches.
arXiv Detail & Related papers (2023-02-02T07:32:13Z)
Complex-valued Convolutional Neural Networks for Enhanced Radar Signal Denoising and Interference Mitigation [73.0103413636673]
We propose the use of Complex-Valued Convolutional Neural Networks (CVCNNs) to address the issue of mutual interference between radar sensors. CVCNNs increase data efficiency, speeds up network training and substantially improves the conservation of phase information during interference removal.
arXiv Detail & Related papers (2021-04-29T10:06:29Z)
Survey of Network Intrusion Detection Methods from the Perspective of the Knowledge Discovery in Databases Process [63.75363908696257]
We review the methods that have been applied to network data with the purpose of developing an intrusion detector. We discuss the techniques used for the capture, preparation and transformation of the data, as well as, the data mining and evaluation methods. As a result of this literature review, we investigate some open issues which will need to be considered for further research in the area of network security.
arXiv Detail & Related papers (2020-01-27T11:21:05Z)

This list is automatically generated from the titles and abstracts of the papers in this site.