Soil is non-homogeneous due to environmental influence, and the soil properties also have spatial variability. However, in order to make geotechnical engineering design and analysis easy, engineers often regard soil as homogeneous. Therefore, how to choose representative soil properties to represent the in-situ soil is the subject of this research. This research focuses on soil compression index and proposes a homogeneous model which can represent the soil consolidation behavior. In this study, we simulate the compression index with spatial variability through the stationary random field and conduct random finite element analysis (RFEA) by ABAQUS software, then fitting the consolidation settlement to obtain the effective compression index . Meanwhile, we compute spatial averages of compression index random field to obtain homogenized compression index and compare to . In the preliminary results, we found that the soil elements are different everywhere after soil consolidation, and non-uniform mobilization of soil also affects the results of spatial average model. Therefore, we figure out the influence factors related to consolidation behavior, and propose a new pseudo incremental energy (PIE) model, and adopt weighting geometric average model to obtain the homogenized compression index. We use ABAQUS to analyze different scale of fluctuations for different cases, and use the new PIE model for subsequent analysis. The research results shows that the homogenized compression index and have a high correlation in most geotechnical cases.