基于时态信息的多任务卷积神经网络相对辐射校准技术

IF 4.2 2区 地球科学 Q2 ENVIRONMENTAL SCIENCES
Remote Sensing Pub Date : 2024-09-09 DOI:10.3390/rs16173346
Lei Tang, Xiangang Zhao, Xiuqing Hu, Chuyao Luo, Manjun Lin
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引用次数: 0

摘要

由于卫星上的仪器随着时间的推移不断退化,卫星图像也随之退化,因此需要对依赖卫星数据的任务进行校准。以往的相对辐射校准方法主要分为传统方法和深度学习方法。传统方法涉及每次校准的复杂计算,而基于深度学习的方法往往过度简化校准过程,利用通用计算机视觉模型,没有为校准任务定制结构。在本文中,我们通过引入一种新方法来应对校准的独特挑战:一种利用时间信息的多任务卷积神经网络校准模型。这种开创性的方法首次将时间动态整合到神经网络校准模型的架构中。在 FY3A/B/C VIRR 数据集上进行的广泛实验表明,与现有的最先进的传统方法和深度学习方法相比,我们的方法性能卓越。此外,使用各种骨干进行的测试证实了我们的框架在不同卷积神经网络中的广泛适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Multi-Task Convolutional Neural Network Relative Radiometric Calibration Based on Temporal Information
Due to the continuous degradation of onboard satellite instruments over time, satellite images undergo degradation, necessitating calibration for tasks reliant on satellite data. The previous relative radiometric calibration methods are mainly categorized into traditional methods and deep learning methods. The traditional methods involve complex computations for each calibration, while deep-learning-based approaches tend to oversimplify the calibration process, utilizing generic computer vision models without tailored structures for calibration tasks. In this paper, we address the unique challenges of calibration by introducing a novel approach: a multi-task convolutional neural network calibration model leveraging temporal information. This pioneering method is the first to integrate temporal dynamics into the architecture of neural network calibration models. Extensive experiments conducted on the FY3A/B/C VIRR datasets showcase the superior performance of our approach compared to the existing state-of-the-art traditional and deep learning methods. Furthermore, tests with various backbones confirm the broad applicability of our framework across different convolutional neural networks.
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来源期刊
Remote Sensing
Remote Sensing REMOTE SENSING-
CiteScore
8.30
自引率
24.00%
发文量
5435
审稿时长
20.66 days
期刊介绍: Remote Sensing (ISSN 2072-4292) publishes regular research papers, reviews, letters and communications covering all aspects of the remote sensing process, from instrument design and signal processing to the retrieval of geophysical parameters and their application in geosciences. Our aim is to encourage scientists to publish experimental, theoretical and computational results in as much detail as possible so that results can be easily reproduced. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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