Dynamic Graph Mining for Multi-weight Multi-destination Route Planning with Deadlines Constraints

Route planning satisfied multiple requests is an emerging branch in the route planning field and has attracted significant attention from the research community in recent years. The prevailing studies focus only on seeking a route by minimizing a single kind of Travel Cost, such as trip time or distance, among others. In reality, most users would like to choose an appropriate route, neither fastest nor shortest route. Usually, a user may have multiple requirements, and an appropriate route would satisfy all requirements requested by the user. In fact, planning an appropriate route could be formulated as a problem of Multi-weight Multi-destination Route Planning with Deadlines Constraints (MWMDRP-DC). In this article, we propose a framework, namely, MWMD-Router, which addresses the MWMDRP-DC problem comprehensively. To consider the travel costs with time-variation, we propose not only four novel dynamic graph miner to extract travel costs that reveal users' requirements but also two new algorithms, namely, Basic MWMD Route Planning and Advanced MWMD Route Planning, to plan a route that satisfies deadline requirements and optimizes another criterion like travel cost with time-variation efficiently. To the best of our knowledge, this is the first work on route planning that considers handling multiple deadlines for multi-destination planning as well as optimizing multiple travel costs with time-variation simultaneously. Experimental results demonstrate that our proposed algorithms deliver excellent performance with respect to efficiency and effectiveness.

Automated summary

Route planning satisfied multiple requests is an emerging branch in the field that has attracted significant attention. The proposed framework, MWMD-Router, comprehensively addresses the problem of Multi-weight Multi-destination Route Planning with Deadlines Constraints. This work is the first to consider handling multiple deadlines and optimizing multiple travel costs simultaneously.