Recently, administrations have promoted transit usage to reduce the external costs caused by private vehicles and achieve the goal of sustainable transportation. Transit services rely on specific stations or stops, and transit accessibility is spatially unevenly distributed within metropolitan areas, so there is a need to assess it to support local administrations in effectively identifying the zones that suffer from poor transit accessibility. However, existing transit accessibility assessment studies reveal the following research gaps. They failed to integrate multiple perspectives and criteria effectively, neglected interdependencies among criteria and zones, and mostly ignored the validity verification for the assessment results. This study applied the framework of multi-criteria decision-making analysis to develop a novel transit accessibility assessment model. The model used the analytic network process to deal with interdependencies among criteria and zones and was applied to the case study in the Taipei Metropolitan Area, Taiwan. Then, spatial regression models were used to verify the associations of transit accessibility with the mode share of transit use and to examine the validity of the assessment results. Finally, the sensitivity analysis was conducted to examine the reliability of the assessment model. The results suggest that the geographical clustering of transit accessibility assessment results supports the existence of interdependencies among assessment zones. The positively significant influence of transit accessibility assessment results on the mode share of transit use was examined by the spatial regression models. The transit accessibility assessment model proposed in this study is recommended to generate transit accessibility assessment results with higher validity by comparing AIC and BIC values of different spatial regression models. The sensitive analysis supports the reliability of the assessment model. Finally, this study demonstrated how the assessment model can help local administrations develop plans for zones of poor transit accessibility and evaluate the improvement. The research results contribute to the literature gaps of transit accessibility assessment methods by proposing a novel assessment model considering interdependencies among criteria and zones, and the validity of assessment results and the reliability of the assessment model are verified. The assessment model can help local administrations effectively identify the zones that suffer from poor transit accessibility and develop plans for improving transit services in the future.