TY - JOUR
T1 - Large kernel convolution application for land cover change detection of remote sensing images
AU - Huang, Junqing
AU - Yuan, Xiaochen
AU - Lam, Chan Tong
AU - Ke, Wei
AU - Huang, Guoheng
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2024/8
Y1 - 2024/8
N2 - In land cover change detection tasks, extracting universal features of changing targets is crucial for achieving precise detection results. A larger receptive field helps the model capture these universal features of changing targets. Although Large Kernel Convolution has been widely used in the field of computer vision, its potential in land cover change detection of remote sensing images has not been fully explored. To address this, a novel Re-parameterization Large kernel Convolution Network for Change Detection (CD-RLKNet) is proposed. CD-RLKNet utilizes Spatial and Temporal Adaptive Fusion Module to preliminarily extract spatial–temporal features from bi-temporal remote sensing images, resulting in a coarse-grained fused feature map. Features Assimilation Assistant Module extracts independent features from land cover information of each temporal, serving as auxiliary information for fine-grained features. Bi-temporal Features Integration Module utilizes large kernel convolution to extract bi-temporal land cover features with a larger receptive field, capturing fine-grained differences in these features. Experiments have been conducted on SYSU-CD, LEVIR-CD and GVLM-CD datasets, and results show that the proposed CD-RLKNet achieves IoU values of 0.6882, 0.8294 and 0.7729, respectively, surpassing the compared SOTA models. The code of CD-RLKNet can be achieved from https://github.com/juncyan/cdrlknet.git.
AB - In land cover change detection tasks, extracting universal features of changing targets is crucial for achieving precise detection results. A larger receptive field helps the model capture these universal features of changing targets. Although Large Kernel Convolution has been widely used in the field of computer vision, its potential in land cover change detection of remote sensing images has not been fully explored. To address this, a novel Re-parameterization Large kernel Convolution Network for Change Detection (CD-RLKNet) is proposed. CD-RLKNet utilizes Spatial and Temporal Adaptive Fusion Module to preliminarily extract spatial–temporal features from bi-temporal remote sensing images, resulting in a coarse-grained fused feature map. Features Assimilation Assistant Module extracts independent features from land cover information of each temporal, serving as auxiliary information for fine-grained features. Bi-temporal Features Integration Module utilizes large kernel convolution to extract bi-temporal land cover features with a larger receptive field, capturing fine-grained differences in these features. Experiments have been conducted on SYSU-CD, LEVIR-CD and GVLM-CD datasets, and results show that the proposed CD-RLKNet achieves IoU values of 0.6882, 0.8294 and 0.7729, respectively, surpassing the compared SOTA models. The code of CD-RLKNet can be achieved from https://github.com/juncyan/cdrlknet.git.
KW - Change detection
KW - Land cover
KW - Larger kernel convolution
KW - Larger receptive field
KW - Remote sensing
UR - http://www.scopus.com/inward/record.url?scp=85200631966&partnerID=8YFLogxK
U2 - 10.1016/j.jag.2024.104077
DO - 10.1016/j.jag.2024.104077
M3 - Article
AN - SCOPUS:85200631966
SN - 1569-8432
VL - 132
JO - International Journal of Applied Earth Observation and Geoinformation
JF - International Journal of Applied Earth Observation and Geoinformation
M1 - 104077
ER -