Compaction is one of the most critical phases in asphalt pavements construction, as it directly affects the performance of pavements. However, quality assurance of compaction is traditionally based on destructive drilled cores results, representing only a part of the pavement. Based on the infrared thermography technique's advantages of non-destructive and large-scale detection. This paper intends to develop a method to determine the quality of asphalt pavement compaction by observing surface temperature. Finite-element (FE) models will be developed to analyze the thermal behavior of asphalt pavement. In addition, to discuss the heating process's uncertainty and analyze influencing factors. This study will determine the random error of thermal parameters based on the evaluation method and error propagation. Then, use the quasi-Monte Carlo method to construct the temperature response surface. Finally, a sensitivity analysis is performed to understand the detectability of porosity and thermal behavior of pavement. These results would contribute to applying the infrared thermography technique to ensure the quality of pavement compaction more efficiently and economically.