Lane markings provide drivers information of traffic environment, which is critical to the transport safety. Therefore, ensuring the effectiveness of the lane markings is important. The Mobile Retroreflrctivity Unit (MRU) is more efficient than the traditional approach of manual assessment, and thus reduces the operational cost. An efficient schedule of a system-wide lane marking assessment can reduce the cost and may expand the examination area. As a result, there is a chance to enhance the safety of more road users. This study formulates a VRP-based model for lane marking assessment and use data of Florida Department of Transportation’s MRU program as validation analysis. The result of validation displays that lane marking assessment model provides a more efficient schedule compared with historical schedule, that same tasks can be finished in less vehicle amount and travel distance. In this study, both Gurobi solver and column generation and branch and bound algorithm are used to solve lane marking assessment model, and when task amount is less than 17, column generation and branch and bound algorithm has better efficiency when solving the model.