基于深度学习的交通场景物体检测综述

IF 3.1 Q1 Mathematics Applied Mathematics and Nonlinear Sciences Pub Date : 2024-01-01 DOI:10.2478/amns-2024-0322
Ruixin Zhao, SaiHong Tang, E. Supeni, S. Rahim, Luxin Fan
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引用次数: 0

摘要

现阶段,自动驾驶的快速发展使交通场景中的物体检测成为一项重要的研究任务。物体检测是计算机视觉领域最关键、最具挑战性的任务。深度学习以其强大的特征提取能力,在安全、军事、医疗等领域得到了广泛应用,近年来又拓展到交通领域,取得了重大突破。本调查报告以深度学习理论为基础。系统总结了物体检测算法的发展和研究现状,比较了两类算法的特点和优缺点。以交通标志、车辆检测和行人检测为重点,总结了物体检测在交通场景中的应用和研究现状,强调了各种方法的优势、局限性和适用场景。报告介绍了优化物体检测算法的技术,总结了常用的物体检测数据集和交通场景数据集以及评估标准,并对深度学习算法的性能进行了对比分析。最后,总结了交通场景中物体检测算法的发展趋势,为智能交通和自动驾驶提供了研究方向。
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A Review of Object Detection in Traffic Scenes Based on Deep Learning
At the current stage, the rapid Development of autonomous driving has made object detection in traffic scenarios a vital research task. Object detection is the most critical and challenging task in computer vision. Deep learning, with its powerful feature extraction capabilities, has found widespread applications in safety, military, and medical fields, and in recent years has expanded into the field of transportation, achieving significant breakthroughs. This survey is based on the theory of deep learning. It systematically summarizes the Development and current research status of object detection algorithms, and compare the characteristics, advantages and disadvantages of the two types of algorithms. With a focus on traffic signs, vehicle detection, and pedestrian detection, it summarizes the applications and research status of object detection in traffic scenarios, highlighting the strengths, limitations, and applicable scenarios of various methods. It introduces techniques for optimizing object detection algorithms, summarizes commonly used object detection datasets and traffic scene datasets, along with evaluation criteria, and performs comparative analysis of the performance of deep learning algorithms. Finally, it concludes the development trends of object detection algorithms in traffic scenarios, providing research directions for intelligent transportation and autonomous driving.
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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