The Impact of Preprocessing by Contrast Enhancement on Spatial-temporal Attention Neural Network: An Evaluation in Remote Sensing Change Detection

Remote sensing offers considerable advantages in detecting and monitoring the physical features of an area. There are remarkable studies in the literature geared towards developing robust machine learning models to automate area change detection based on remote sensing images. However, to date there...

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Bibliographic Details
Main Authors: Hidayati, Shintami Chusnul, Al-Islami, Muhammad Izzuddin, Navastara, Dini Adni
Format: Conference Proceeding
Language:English
Subjects:
aerial imagery
change detection
Detectors
Geoscience
Histograms
image contrast enhancement
Machine learning
Matched filters
Neural networks
remote sensing
Sensors
spatial-temporal attention neural network
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Summary:Remote sensing offers considerable advantages in detecting and monitoring the physical features of an area. There are remarkable studies in the literature geared towards developing robust machine learning models to automate area change detection based on remote sensing images. However, to date there lacks a detailed investigation into the impact of image enhancement techniques on machine learning models for remote sensing change detection. Remote sensing data is particularly limited to sufficient quality to support area monitoring. This study, therefore, aims to examine how significantly image contrast enhancement, with a focus on histogram matching and median filter techniques, contribute to the remote sensing classification performance. We utilize spatial-temporal attention neural network as the deep neural network-based detector model and conduct experiments on two benchmark datasets. Precision, recall, and F1-score are reported to evaluate the classification performance of the detector model with and without contrast enhancement as the preprocessing step.
ISSN:2771-6600
DOI:10.1109/AGERS56232.2022.10093380