In recent years, advances in cloud computing and Internet of Things (IoT) applications have been of great importance to the fields of socio-economic, medical, and public health, and natural science. With the promotion of the application of open data, various types of data can be used to create more cross-disciplinary applications through value-added and open applications. However, with the abundant and multi-dimensional applications requiring higher resolution of data, there are often problems such as the lack of small-scale data or the absence of more detailed survey data. Therefore penetrates the existing data after the spatial interpolation way, then obtains the most detailed information for application. In this study, the spatial interpolation of the household register population distribution data is used as the validation object to conduct the spatial interpolation, analysis at different scales, and the building coverage rate, floor area ratio, and floor area associated with the household register population are used as the auxiliary data for the estimation to establish the population estimation model, and to obtain a more detailed distribution of the household register population at the building level. The aim of the study is to develop a model for estimating population distribution at different scales, to identify variables associated with the household register population, and to provide a model for estimating the household register population for small-scale units. Research results show that: a variable in the floor area, floor area ratio for the population of a significant correlation, using geographically weighted regression to smallest statistical unit census register population to estimate the building level of census register population distribution, and scale through cross certification in building census register population estimate its average relative error of accuracy is 3.554 (people).