A New Method of Different Neural Network Depth and Feature Map Size on Remote Sensing Small Target Detection
Título: A New Method of Different Neural Network Depth and Feature Map Size on Remote Sensing Small Target Detection / Yaming Cao, Zhen Yang, Chen Gao
Autor: Cao, Yaming
Notas: Sumario: Convolutional neural networks (CNNs) have shown strong learning capabilities in computer vision tasks such as classification and detection. Especially with the introduction of excellent detection models such as YOLO (V1, V2 and V3) and Faster R-CNN, CNNs have greatly improved detection efficiency and accuracy. However, due to the special angle of view, small size, few features, and complicated background, CNNs that performs well in the ground perspective dataset, fails to reach a good detection accuracy in the remote sensing image dataset. To this end, based on the YOLO V3 model, we used feature maps of different depths as detection outputs to explore the reasons for the poor detection rate of small targets in remote sensing images by deep neural networks. We also analyzed the effect of neural network depth on small target detection, and found that the excessive deep semantic information of neural network has little effect on small target detection. Finally, the verification on the VEDAI dataset shows, that the fusion of shallow feature maps with precise location information and deep feature maps with rich semantics in the CNNs can effectively improve the accuracy of small target detection in remote sensing images.
Registros relacionados: En: Revista Iberoamericana de Inteligencia Artificial. - : IBERAMIA, Sociedad Iberoamericana de Inteligencia Artificial , 2018- = ISSN 1988-3064. - 04/10/2021 Volumen 24 Número 68 - octubre 2021 , p. 21-32
Materia / lugar / evento: Inteligencia artificial
Otras clasificaciones: 922.134
Derechos: La copia digital se distribuye bajo licencia "Attribution 4.0 International (CC BY NC 4.0)": https://creativecommons.org/licenses/by-nc/4.0