Unmixing-based radiometric and spectral harmonization for consistency of multi-sensor reflectance time-series data

IF 10.6 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL
Kenta Obata, Hiroki Yoshioka
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引用次数: 0

Abstract

We developed a new algorithm for computing radiometrically and spectrally consistent surface reflectances from multiple sensors. The algorithm approximates surface reflectances of reference sensors directly from top-of-atmosphere (TOA) reflectances of sensors-to-be-transformed. A unique characteristic of the algorithm is that coefficients in the algorithm are computed independently using statistics of time-series reflectance data for each sensor; thus, no regressions or optimizations using pairs of data from different sensors are required. This characteristic can lead to a substantial reduction in the number of computational tasks required for calibrating models when numerous satellite sensors or datasets are used. First, a system of equations relating TOA reflectances of one sensor and surface reflectances of another sensor in the red and near-infrared bands was analytically approximated using a linear mixture model of three land-cover types and radiative transfer in the atmosphere. The equations were subsequently used to develop an unmixing-based algorithm for radiometric corrections and spectral transformations. The algorithm was evaluated using synchronous observation data and long-term time-series data with middle spatial resolution, which were obtained from the Landsat 4–5 Multispectral Scanner (MSS) and Thematic Mapper (TM) sensors. Results obtained using contemporaneous data from the two sensors indicated that cross-sensor differences in reflectances and in a spectral index, the normalized difference vegetation index (NDVI), between the MSS and TM sensors were reduced to reasonable levels after the algorithm was applied; the magnitudes of remaining biases were less than 0.005 in reflectance units and less than 0.03 in NDVI units. Results obtained using time-series data for four regions of interest with different land-cover types indicated that the transformed MSS time-series data well synchronized with the TM data used as a reference. Reflectance differences remaining after implementation of the algorithm were possibly due to instability of the algorithm for computing parameters, sensor-dependent quality assurance (QA) data and QA accuracy, and geolocation errors, among others. The concept of the developed algorithm might be applicable universally to various combinations of spectral bands and sensors/missions, which should be further evaluated for cross-sensor radiometric and spectral harmonization with the aim of multi-sensor analysis.

基于非混合的辐射测量和光谱协调,实现多传感器反射时间序列数据的一致性
我们开发了一种新算法,用于计算多个传感器辐射度和光谱一致的表面反射率。该算法直接根据待转换传感器的大气层顶(TOA)反射率来近似参考传感器的表面反射率。该算法的独特之处在于,算法中的系数是利用每个传感器的时间序列反射率数据统计独立计算得出的;因此,无需利用不同传感器的成对数据进行回归或优化。当使用大量卫星传感器或数据集时,这一特点可大大减少校准模型所需的计算任务数量。首先,利用三种土地覆被类型和大气中辐射传递的线性混合模型,对一个传感器的 TOA 反射率和另一个传感器在红外和近红外波段的表面反射率之间的方程组进行了近似分析。这些方程随后被用于开发一种基于非混合的辐射校正和光谱转换算法。使用同步观测数据和具有中等空间分辨率的长期时间序列数据对该算法进行了评估,这些数据来自 Landsat 4-5 多光谱扫描仪(MSS)和专题成像仪(TM)传感器。使用这两种传感器的同期数据得出的结果表明,在应用该算法后,MSS 和 TM 传感器之间在反射率和光谱指数(归一化差异植被指数)方面的跨传感器差异已减少到合理水平;在反射率单位中,剩余偏差的大小小于 0.005,在归一化差异植被指数单位中,剩余偏差的大小小于 0.03。使用不同土地覆盖类型的四个相关区域的时间序列数据得出的结果表明,转换后的 MSS 时间序列数据与用作参考的 TM 数据同步性良好。实施该算法后仍存在反射率差异的原因可能是计算参数的算法不稳定、与传感器有关的质量保证(QA)数据和质量保证精度以及地理定位误差等。所开发算法的概念可能普遍适用于光谱波段和传感器/发射的各种组合,应进一步评估其跨传感器辐射度和光谱协调性,以便进行多传感器分析。
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来源期刊
ISPRS Journal of Photogrammetry and Remote Sensing
ISPRS Journal of Photogrammetry and Remote Sensing 工程技术-成像科学与照相技术
CiteScore
21.00
自引率
6.30%
发文量
273
审稿时长
40 days
期刊介绍: The ISPRS Journal of Photogrammetry and Remote Sensing (P&RS) serves as the official journal of the International Society for Photogrammetry and Remote Sensing (ISPRS). It acts as a platform for scientists and professionals worldwide who are involved in various disciplines that utilize photogrammetry, remote sensing, spatial information systems, computer vision, and related fields. The journal aims to facilitate communication and dissemination of advancements in these disciplines, while also acting as a comprehensive source of reference and archive. P&RS endeavors to publish high-quality, peer-reviewed research papers that are preferably original and have not been published before. These papers can cover scientific/research, technological development, or application/practical aspects. Additionally, the journal welcomes papers that are based on presentations from ISPRS meetings, as long as they are considered significant contributions to the aforementioned fields. In particular, P&RS encourages the submission of papers that are of broad scientific interest, showcase innovative applications (especially in emerging fields), have an interdisciplinary focus, discuss topics that have received limited attention in P&RS or related journals, or explore new directions in scientific or professional realms. It is preferred that theoretical papers include practical applications, while papers focusing on systems and applications should include a theoretical background.
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