Minimum-Complexity Graph Simplification Under the Fréchet-Like Distance

Omrit Filtser; Majid Mirzanezhad; Carola Wenk

doi:10.1007/978-3-031-98740-3_4

Minimum-Complexity Graph Simplification Under the Fréchet-Like Distance

Omrit Filtser, Majid Mirzanezhad, Carola Wenk

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Simplifying granular geometric networks for future computations is vital, especially in geospatial data processing, where maps are frequently used. Given a geometric graph and an error bound, the objective is to compute an alternative graph of a minimum number of vertices and edges in total so that a “Fréchet-like” distance between the two graphs remains at most the error. As curve simplification has a cubic conditional lower bound under the Fréchet distance [9], it seems unlikely to achieve a fast polynomial-time algorithm for graphs under the same distance. In this paper, the Fréchet-like distance we consider between graphs is the “Graph Distance” introduced by Akitaya et al. [3]. Due to its recognized practice in GIS, we assume that the simplified graph is a subgraph of the original graph for which we prove the NP-hardness. Turning our attention to trees, the simplified subtree may not stay connected; hence, we slightly shift the setting to ensure the simplified tree selects its vertices from a subset of the original vertices. We propose two algorithms for tree simplification, including the case where the leaves of the simplified and original trees are mapped and enforced to correspond to one another under the graph distance.

Original language	English
Title of host publication	Combinatorial Algorithms - 36th International Workshop, IWOCA 2025, Proceedings
Editors	Henning Fernau, Binhai Zhu
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	44-57
Number of pages	14
ISBN (Print)	9783031987397
DOIs	https://doi.org/10.1007/978-3-031-98740-3_4
State	Published - 1 Jan 2025
Externally published	Yes
Event	36th International Workshop on Combinatorial Algorithms, IWOCA 2025 - Bozeman, United States Duration: 21 Jul 2025 → 24 Jul 2025

Publication series

Name	Lecture Notes in Computer Science
Volume	15885 LNCS
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

Conference

Conference	36th International Workshop on Combinatorial Algorithms, IWOCA 2025
Country/Territory	United States
City	Bozeman
Period	21/07/25 → 24/07/25

Keywords

Fréchet distance
Graph distance
Graph simplification

ASJC Scopus subject areas

Theoretical Computer Science
General Computer Science

Access to Document

10.1007/978-3-031-98740-3_4

Cite this

Filtser, O., Mirzanezhad, M., & Wenk, C. (2025). Minimum-Complexity Graph Simplification Under the Fréchet-Like Distance. In H. Fernau, & B. Zhu (Eds.), Combinatorial Algorithms - 36th International Workshop, IWOCA 2025, Proceedings (pp. 44-57). (Lecture Notes in Computer Science; Vol. 15885 LNCS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-98740-3_4

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title = "Minimum-Complexity Graph Simplification Under the Fr{\'e}chet-Like Distance",

abstract = "Simplifying granular geometric networks for future computations is vital, especially in geospatial data processing, where maps are frequently used. Given a geometric graph and an error bound, the objective is to compute an alternative graph of a minimum number of vertices and edges in total so that a “Fr{\'e}chet-like” distance between the two graphs remains at most the error. As curve simplification has a cubic conditional lower bound under the Fr{\'e}chet distance [9], it seems unlikely to achieve a fast polynomial-time algorithm for graphs under the same distance. In this paper, the Fr{\'e}chet-like distance we consider between graphs is the “Graph Distance” introduced by Akitaya et al. [3]. Due to its recognized practice in GIS, we assume that the simplified graph is a subgraph of the original graph for which we prove the NP-hardness. Turning our attention to trees, the simplified subtree may not stay connected; hence, we slightly shift the setting to ensure the simplified tree selects its vertices from a subset of the original vertices. We propose two algorithms for tree simplification, including the case where the leaves of the simplified and original trees are mapped and enforced to correspond to one another under the graph distance.",

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Filtser, O, Mirzanezhad, M & Wenk, C 2025, Minimum-Complexity Graph Simplification Under the Fréchet-Like Distance. in H Fernau & B Zhu (eds), Combinatorial Algorithms - 36th International Workshop, IWOCA 2025, Proceedings. Lecture Notes in Computer Science, vol. 15885 LNCS, Springer Science and Business Media Deutschland GmbH, pp. 44-57, 36th International Workshop on Combinatorial Algorithms, IWOCA 2025, Bozeman, United States, 21/07/25. https://doi.org/10.1007/978-3-031-98740-3_4

Minimum-Complexity Graph Simplification Under the Fréchet-Like Distance. / Filtser, Omrit; Mirzanezhad, Majid; Wenk, Carola.
Combinatorial Algorithms - 36th International Workshop, IWOCA 2025, Proceedings. ed. / Henning Fernau; Binhai Zhu. Springer Science and Business Media Deutschland GmbH, 2025. p. 44-57 (Lecture Notes in Computer Science; Vol. 15885 LNCS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AB - Simplifying granular geometric networks for future computations is vital, especially in geospatial data processing, where maps are frequently used. Given a geometric graph and an error bound, the objective is to compute an alternative graph of a minimum number of vertices and edges in total so that a “Fréchet-like” distance between the two graphs remains at most the error. As curve simplification has a cubic conditional lower bound under the Fréchet distance [9], it seems unlikely to achieve a fast polynomial-time algorithm for graphs under the same distance. In this paper, the Fréchet-like distance we consider between graphs is the “Graph Distance” introduced by Akitaya et al. [3]. Due to its recognized practice in GIS, we assume that the simplified graph is a subgraph of the original graph for which we prove the NP-hardness. Turning our attention to trees, the simplified subtree may not stay connected; hence, we slightly shift the setting to ensure the simplified tree selects its vertices from a subset of the original vertices. We propose two algorithms for tree simplification, including the case where the leaves of the simplified and original trees are mapped and enforced to correspond to one another under the graph distance.

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