We study the problem of computing shortest path or distance between two query vertices in a graph, which has numerous important applications. Quite a number of indexes have been proposed to answer such distance queries. However, all of these indexes can only process graphs of size barely up to 1 million vertices, which is rather small in view of many of the fast-growing real-world graphs today such as social networks and Web graphs. We propose an efficient index, which is a novel labeling scheme based on the independent set of a graph. We show that our method can handle graphs of size orders of magnitude larger than existing indexes. © 2013 VLDB Endowment
Performing online selective queries against graphs is a challenging problem due to the unbounded nat...
Abstract. Recent years we have witnessed a great increase in modeling data as large graphs in multip...
Efficiently processing queries against very large graphs is an important research topic largely driv...
We study the problem of computing shortest path or distance be-tween two query vertices in a graph, ...
A fundamental operation over edge-labeled graphs is the compu-tation of shortest-path distances subj...
The distance query, which asks the length of the shortest path from a vertex u to another vertex v, ...
Shortest distance queries are essential not only in graph analysis and graph mining tasks but also i...
This thesis elaborates on the problem of preprocessing a large graph so that single-pair shortest-pa...
We propose an indexing scheme for top-k shortest-path distance queries on graphs, which is useful in...
We study the problem of point-to-point distance querying for massive scale-free graphs, which is imp...
We study the problem of preprocessing a large graph so that point-to-point shortest-path queries can...
Abstract Shortest distance queries are essential not only in graph analysis and graph mining tasks b...
We propose a new exact method for shortest-path distance queries on large-scale networks. Our method...
Graphs provide a natural way to represent real-world objects and their relationships, and hence they...
Distance labeling approaches are widely adopted to speed up the online performance of shortest-dista...
Performing online selective queries against graphs is a challenging problem due to the unbounded nat...
Abstract. Recent years we have witnessed a great increase in modeling data as large graphs in multip...
Efficiently processing queries against very large graphs is an important research topic largely driv...
We study the problem of computing shortest path or distance be-tween two query vertices in a graph, ...
A fundamental operation over edge-labeled graphs is the compu-tation of shortest-path distances subj...
The distance query, which asks the length of the shortest path from a vertex u to another vertex v, ...
Shortest distance queries are essential not only in graph analysis and graph mining tasks but also i...
This thesis elaborates on the problem of preprocessing a large graph so that single-pair shortest-pa...
We propose an indexing scheme for top-k shortest-path distance queries on graphs, which is useful in...
We study the problem of point-to-point distance querying for massive scale-free graphs, which is imp...
We study the problem of preprocessing a large graph so that point-to-point shortest-path queries can...
Abstract Shortest distance queries are essential not only in graph analysis and graph mining tasks b...
We propose a new exact method for shortest-path distance queries on large-scale networks. Our method...
Graphs provide a natural way to represent real-world objects and their relationships, and hence they...
Distance labeling approaches are widely adopted to speed up the online performance of shortest-dista...
Performing online selective queries against graphs is a challenging problem due to the unbounded nat...
Abstract. Recent years we have witnessed a great increase in modeling data as large graphs in multip...
Efficiently processing queries against very large graphs is an important research topic largely driv...