Radar-optical fusion detection of UAV based on improved YOLOv7-tiny

Tang, Hao; Xiong, Wei; Dong, Kai; Cui, Yaqi

doi:10.1088/1361-6501/ad440b

Cited by 3 publications

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Global induced local network for infrared: dim small target detection

Li,

Hou

2024

Meas. Sci. Technol.

View full text Add to dashboard Cite

It is challenging to detect infrared dim targets submerged in complicated backgrounds due to their small size and faint intensity. The previous attention-based detection networks frequently require global long-range dependence. Significant calculations are required to determine the target's sparse but meaningful position. To prevent wasting calculations on the background, this paper offers a detection network guided by global context for local feature learning, named GILNet (Global Induced Local Network). It designs a global location module (GLM) and a local feature interaction module (LFIM) to capture the global position and features of targets, respectively. More specifically, using global context interaction, the GLM finds the region that might contain dim small targets, that is, the coarse location. In the coarsely located regions, the LFIM further acquires feature information about targets. Next, we also design an eight-directional attention operation to obtain the contour information of targets in the low feature map. It is fused with the high feature map in the multi-directional feature fusion module (MFFM), which retains more semantic and spatial information about targets. Finally, quantitative and qualitative analysis show that the GILNet performs better than eight comparison methods on two public datasets.

show abstract

Global induced local network for infrared: dim small target detection

Li,

Hou

2024

Meas. Sci. Technol.

View full text Add to dashboard Cite

show abstract

Research on High-Precision Detection of Road Vehicles in UAV Aerial Photography Based on YOLOv7

Ji,

Wang

2024

2024 4th International Conference on Electronic Information Engineering and Computer Science (EIECS)

View full text Add to dashboard Cite

Improved Target Detection in UAV Photographic Images Using YOLOv7-Tiny

Xiong,

Han

2024

Applied Mathematics and Nonlinear Sciences

View full text Add to dashboard Cite

The purpose of this paper is to explore the effective monitoring and countermeasures of low-altitude UAVs through multi-sensor coordination so as to escort the sustainable development of a “low-altitude economy”. The core work of this paper centers on multi-source imaging sensing, precise positioning, identification, and behavioral feature extraction of low-altitude UAV targets. Different types of sensors, including visual sensors, radar sensors, sound sensors, etc., are integrated to build a multi-source sensing system, which realizes all-round and multi-angle monitoring of low-altitude UAVs. The improved YOLOv7-Tiny model achieves accurate detection of UAV targets based on this basis. In order to further improve the intelligence level of monitoring and countermeasures, the actuator-evaluator framework of reinforcement learning algorithms is introduced to construct a reinforcement learning framework of “multi-source perception-intelligent cognition-assisted decision-making”. The maximum detection accuracy of the YOLOv7-Tiny-NET model is 0.837, and the model size of the YOLOv7-Tiny-NET model is reduced by 3.52MB and 37.8 f/s increases the detection speed compared with SAG-YOLOv5s. The maximum success rate of the autonomous decision-making algorithm of UAV can be up to 78%~88% when making autonomous decisions on dynamic target tasks. Through the accurate monitoring and intelligent countermeasures of low-altitude drones, it can effectively prevent unmanned aircraft from flying illegally, protect personal privacy, and maintain public safety, thus promoting the sustainable development of a “low-altitude economy” on a healthy and orderly track.

show abstract

Radar-optical fusion detection of UAV based on improved YOLOv7-tiny

Cited by 3 publications

References 36 publications

Global induced local network for infrared: dim small target detection

Global induced local network for infrared: dim small target detection

Research on High-Precision Detection of Road Vehicles in UAV Aerial Photography Based on YOLOv7

Improved Target Detection in UAV Photographic Images Using YOLOv7-Tiny

Contact Info

Product

Resources

About