A well-maintained catenary system is crucial to safe and efficient railway operation. However, the nature of nonredundancy in the catenary system is the reason for the expenditure on catenary maintenance that often results in a high proportion of maintenance expenditure. Therefore, proper allocation of resources in catenary maintenance according to reliability and cost is an important task in the annual maintenance planning process. Past research on catenary maintenance planning considers only the variation in maintenance intervals in periodic maintenance (PM) policy. Our study develops decision-support models including optimization framework and heuristic algorithm to implement integrated maintenance scheme, which integrates both predictive maintenance (PdM) policy and periodic maintenance policy in the annual maintenance planning problem. Results from the case study demonstrate that the developed models can successfully identify appropriate maintenance tasks and then assign them into the annual maintenance plan in a short time. Adopting the developed models can assist planners to identify the appropriate maintenance activities, create an excellent annual maintenance plan, and ensure the required reliability in the catenary system simultaneously and efficiently.