Surface soil moisture (SSM) is one of the most significant variables for various applications in meteorology, climatology, hydrology, and ecology. To monitor SSM for large scale, Advanced Microwave Scanning Radiometer 2 (AMSR2) provides SSM data with a spatial resolution of 10 km. However, this coarse resolution limits the applicability of the SSM product. Experiments from previous studies have revealed a relationship between SSM, normalized multi-band drought index (NMDI) and leaf area index (LAI). In general, the NMDI represents a negative relation with SSM, when the LAI is low. The negative relationship between NMDI and SSM becomes less significant with the increase of LAI. Accordingly, a bivariate regression analysis is expected to formulize the relationship between NMDI, LAI and SSM. The main objective of this study is to generate 1-km resolution SSM data by using 1-km resolution LAI and 1-km resolution NMDI, derived from Moderate Resolution Imaging Spectroradiometer (MODIS) data, after a regression model can be obtained. The study area is located in Central America, and the study mainly focuses on the dry season (December-May). The period of image acquisition of AMSR2 and MODIS is from January to April, 2013 to 2015. Fusing these satellite datasets to obtain the regression analysis model, and the mean absolute errors (MAE) are 1.8 % to 2.6 %. The MAEs are reduced 0.1 % to 1.0 % after error compensation. It confirmed the relationship described by the previous study, and therefore was then applied for AMSR2 SSM downscaling. The study developed an innovative method for data fusion among AMSR2 and MODIS, and is expected to enhance the applicability of the AMSR2 data.