Using Incremental Many-to-One Queries to Build a Fast and Tight Heuristic for A* in Road Networks

Author:

Strasser Ben1ORCID,Zeitz Tim1ORCID

Affiliation:

1. Karlsruhe Institute of Technology, Karlsruhe, Germany

Abstract

We study exact, efficient, and practical algorithms for route planning applications in large road networks. On the one hand, such algorithms should be able to answer shortest path queries within milliseconds. On the other hand, routing applications often require integrating the current traffic situation, planning ahead with predictions for future traffic, respecting forbidden turns, and many other features depending on the specific application. Therefore, such algorithms must be flexible and able to support a variety of problem variants. In this work, we revisit the A* algorithm to build a simple, extensible, and unified algorithmic framework applicable to many route planning problems. A* has been previously used for routing in road networks. However, its performance was not competitive because no sufficiently fast and tight distance estimation function was available. We present a novel, efficient, and accurate A* heuristic using Contraction Hierarchies, another popular speedup technique. The core of our heuristic is a new Contraction Hierarchies query algorithm called Lazy RPHAST , which can efficiently compute shortest distances from many incrementally provided sources toward a common target. Additionally, we describe A* optimizations to accelerate the processing of low-degree vertices, which are typical in road networks, and present a new pruning criterion for symmetrical bidirectional A*. An extensive experimental study confirms the practicality of our approach for many applications.

Publisher

Association for Computing Machinery (ACM)

Subject

Theoretical Computer Science

Reference59 articles.

1. Alternative routes in road networks;Abraham Ittai;ACM Journal of Experimental Algorithmics,2013

2. Hierarchical Hub Labelings for Shortest Paths

3. Roland Bader Jonathan Dees Robert Geisberger and Peter Sanders. 2011. Alternative route graphs in road networks. In Theory and Practice of Algorithms in (Computer) Systems . Lecture Notes in Computer Science Vol. 6595. Springer 21–32.

4. Lecture Notes in Computer Science;Bast Hannah,2016

5. Gernot Veit Batz. 2014. Time-Dependent Route Planning with Contraction Hierarchies. Ph.D. dissertation. Karlsruhe Institute of Technology (KIT).

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