Abstract

High-spatiotemporal-resolution land surface temperature (LST) is a crucial parameter in various environmental monitoring. However, due to the limitation of sensor trade-off between the spatial and temporal resolutions, such data are still unavailable. Therefore, the generation and verification of such data are of great value. The spatiotemporal fusion algorithm, which can be used to improve the spatiotemporal resolution, is widely used in Landsat and MODIS data to generate Landsat-like images, but there is less exploration of combining long-time series MODIS LST and Landsat 8 LST product to generate Landsat 8-like LST. The purpose of this study is to evaluate the accuracy of the long-time series Landsat 8 LST product and the Landsat 8-like LST generated by spatiotemporal fusion. In this study, based on the Landsat 8 LST product and MODIS LST product, Landsat 8-like LST is generated using Spatial and Temporal Adaptive Reflectance Fusion Model (STARFM), Enhanced STARFM (ESTARFM), and the Flexible Spatiotemporal DAta Fusion (FSDAF) algorithm, and tested and verified in the research area located in Gansu Province, China. In this process, Landsat 8 LST product was verified based on ground measurements, and the fusion results were comprehensively evaluated based on ground measurements and actual Landsat 8 LST images. Ground measurements verification indicated that Landsat 8 LST product was highly consistent with ground measurements. The Root Mean Square Error (RMSE) was 2.862 K, and the coefficient of determination R2 was 0.952 at All stations. Good fusion results can be obtained for the three spatiotemporal algorithms, and the ground measurements verified at All stations show that R2 was more significant than 0.911. ESTARFM had the best fusion result (R2 = 0.915, RMSE = 3.661 K), which was better than STARFM (R2 = 0.911, RMSE = 3.746 K) and FSDAF (R2 = 0.912, RMSE = 3.786 K). Based on the actual Landsat 8 LST images verification, the fusion images were highly consistent with actual Landsat 8 LST images. The average RMSE of fusion images about STARFM, ESTARFM, and FSDAF were 2.608 K, 2.245 K, and 2.565 K, respectively, and ESTARFM is better than STARFM and FSDAF in most cases. Combining the above verification, the fusion results of the three algorithms were reliable and ESTARFM had the highest fusion accuracy.

Highlights

  • The Landsat 8 Land surface temperature (LST) product became available in mid-2020

  • Landsat 8 LST product was verified based on ground measurements and compared with the SC algorithm

  • The results indicated that Landsat 8 LST product is highly correlated with ground measurements, and accuracy over All stations of LST product is better than that of SC algorithm

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Summary

Introduction

The moving window and similar pixels are introduced during fusion to reduce the influence of the pixel boundary of low spatial resolution images, using similar pixels in the window and comprehensively considering the spatial weight, spectral weight and temporal weight to calculate the value of the center pixel in the window, and predicting the high-resolution image of the target time through the movement of the moving window. When the ESTARFM model is fused, it is necessary to input two pairs of high/low-resolution images at the reference time and a low-resolution image at the target time. Similar to STARFM, ESTARFM still uses the moving window technology, which uses similar pixels in the window and comprehensively considers the weight function to solve the value of the center pixel to realize the prediction of the high-resolution image at the target time. The distribution weight function is used to assign the residuals, and this function generates the final target image by using similar pixels similar to STARFM and ESTARFM to reduce the blocking effect

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