Accurate and fast path computation is essential for applications such as onboard navigation systems and traffic network routing. While a number of heuristic algorithms have been developed in the past few years for faster path queries, the accuracy of them are always far below satisfying. In this paper, we first develop an agglomerative graph partitioning method for generating high balanced traverse distance partitions, and we constitute a three-level graph model based on the graph partition scheme for structuring the urban road network. Then, we propose a new hierarchical path computation algorithm, which benefits from the hierarchical graph model and utilizes a region pruning strategy to significantly reduce the search space without compro...
Heuristics have been widely used in artificial intelligence related fields including path finding. I...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...
AbstractThis paper presents a new heuristic for graph partitioning called Path Optimization (PO), an...
<div><p>Accurate and fast path computation is essential for applications such as onboard navigation ...
We investigate fast optimum route planning in large, real-world road networks for car navigation sys...
Computing driving directions in road networks is a fundamental problem. Although it can be solved in...
The optimal route between a given origin and destination needs to be computed in a fast and efficien...
In the information age, navigation applications such as vehicle route guidance, network routing, and...
The rapid global migration of people towards urban areas is multiplying the traffic volume on urban ...
Combined with improved Pallottino parallel algorithm, this paper proposes a large-scale route search...
In today’s world, the traffic volume on urban road networks is multiplying rapidly due to the heavy ...
Computing the shortest path between two locations in a road network is an important problem that has...
Effective path ®nding has been identi®ed as an important requirement for dynamic route guidance in I...
High level of detail renders microscopic traffic models impractical for control purposes and local c...
Algorithms for finding shortest paths in large graphs form an essential part of many modern navigati...
Heuristics have been widely used in artificial intelligence related fields including path finding. I...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...
AbstractThis paper presents a new heuristic for graph partitioning called Path Optimization (PO), an...
<div><p>Accurate and fast path computation is essential for applications such as onboard navigation ...
We investigate fast optimum route planning in large, real-world road networks for car navigation sys...
Computing driving directions in road networks is a fundamental problem. Although it can be solved in...
The optimal route between a given origin and destination needs to be computed in a fast and efficien...
In the information age, navigation applications such as vehicle route guidance, network routing, and...
The rapid global migration of people towards urban areas is multiplying the traffic volume on urban ...
Combined with improved Pallottino parallel algorithm, this paper proposes a large-scale route search...
In today’s world, the traffic volume on urban road networks is multiplying rapidly due to the heavy ...
Computing the shortest path between two locations in a road network is an important problem that has...
Effective path ®nding has been identi®ed as an important requirement for dynamic route guidance in I...
High level of detail renders microscopic traffic models impractical for control purposes and local c...
Algorithms for finding shortest paths in large graphs form an essential part of many modern navigati...
Heuristics have been widely used in artificial intelligence related fields including path finding. I...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...
AbstractThis paper presents a new heuristic for graph partitioning called Path Optimization (PO), an...