TIR‐YOLO‐ADAS: A thermal infrared object detection framework for advanced driver assistance systems

Author:

Ding Meng1ORCID,Guan Song2,Liu Hao1,Yu Kuaikuai2

Affiliation:

1. College of Civil Aviation Nanjing University of Aeronautics and Astronautics Nanjing China

2. Science and Technology on Electro‐Optical Information Security Control Laboratory Tianjin China

Abstract

AbstractAn object detection framework using thermal infrared (TIR) cameras is proposed to meet the needs of an advanced driver assistance system (ADAS) operating at night‐time and in low‐visibility conditions. The proposed detection framework, referred to as TIR‐YOLO‐ADAS, is an improvement of YOLOX for TIR object detection in ADAS. First, to address the disadvantages of TIR objects, the part of the attention mechanism is designed to enhance the discriminative ability of feature maps in the spatial and channel dimensions. Second, a focal loss function is used as the confidence loss function to enable the framework to focus on detection tasks of difficult, misclassified targets in the process of network training. The results of the ablation experiment on the Forward‐looking infrared (FLIR) thermal ADAS dataset indicate that the proposed framework significantly improves the performance of TIR object detection. Comparative experimental results further show that TIR‐YOLO‐ADAS performs favourably when compared with three representative detection algorithms. To evaluate the practicality and feasibility of the proposed framework in various applications, a qualitative assessment in real road scenarios was conducted. The experimental results confirm that the proposed framework performs promisingly and could be integrated into vehicle platforms as an ADAS module.

Funder

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Aeronautical Science Foundation of China

Publisher

Institution of Engineering and Technology (IET)

Subject

Law,Mechanical Engineering,General Environmental Science,Transportation

Reference43 articles.

1. Personalized Driver/Vehicle Lane Change Models for ADAS

2. The Role of Machine Vision for Intelligent Vehicles

3. Deep learning‐based vehicle occupancy detection in an open parking lot using thermal camera

4. Exploring factors affecting the severity of night-time vehicle accidents under low illumination conditions

5. Satoru Y. Jun T. Shigetoshi T.:Development of far‐infrared camera system for automotive. In:Proceedings of SPIE 11002 Infrared Technology and Applications XLV 110021D Baltimore Maryland USA(2019)

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