Finding Order-Preserving Subgraphs

Haruya Imamura; Yasuaki Kobayashi; Yota Otachi; Toshiki Saitoh; Keita Sato; Asahi Takaoka; Ryo Yoshinaka; Tom C. van der Zanden

doi:10.1007/978-981-95-7127-7_11

Finding Order-Preserving Subgraphs

Haruya Imamura^*
, Yasuaki Kobayashi
, Yota Otachi
, Toshiki Saitoh
, Keita Sato
, Asahi Takaoka
, Ryo Yoshinaka
, Tom C. van der Zanden

^*Corresponding author for this work

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

Abstract

(Induced) Subgraph Isomorphism and Maximum Common (Induced) Subgraph are fundamental problems in graph pattern matching and similarity computation. In graphs derived from time-series data or protein structures, a natural total ordering of vertices often arises from their underlying structure, such as temporal sequences or amino acid sequences. This motivates the study of problem variants that respect this inherent ordering. This paper addresses Ordered (Induced) Subgraph Isomorphism (O(I)SI) and its generalization, Maximum Common Ordered (Induced) Subgraph (MCO(I)S), which seek to find subgraph isomorphisms that preserve the vertex orderings of two given ordered graphs. Our main contributions are threefold: (1) We prove that these problems remain NP-complete even when restricted to small graph classes, such as trees of depth 2 and threshold graphs. (2) We establish a gap in computational complexity between OSI and OISI on certain graph classes. For instance, OSI is polynomial-time solvable for interval graphs with their interval orderings, whereas OISI remains NP-complete under the same setting. (3) We demonstrate that the tractability of these problems can depend on the vertex ordering. For example, while OISI is NP-complete on threshold graphs, its generalization, MCOIS, can be solved in polynomial time if the specific vertex orderings that characterize the threshold graphs are provided.

Original language	English
Title of host publication	WALCOM: Algorithms and Computation
Subtitle of host publication	20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings
Editors	Emilio Di Giacomo, Debajyoti Mondal
Publisher	Springer Verlag
Pages	157-171
Number of pages	15
Volume	16444
ISBN (Electronic)	978-981-95-7127-7
ISBN (Print)	9789819571260
DOIs	https://doi.org/10.1007/978-981-95-7127-7_11
Publication status	Published - 1 Jan 2026
Event	20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026 - Perugia, Italy Duration: 4 Mar 2026 → 6 Mar 2026 https://mozart.diei.unipg.it/walcom2026/

Publication series

Series	Lecture Notes in Computer Science
Volume	16444 LNCS
ISSN	0302-9743

Conference

Conference	20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026
Abbreviated title	WALCOM 2026
Country/Territory	Italy
City	Perugia
Period	4/03/26 → 6/03/26
Internet address	https://mozart.diei.unipg.it/walcom2026/

Keywords

(in)tractability
graph classes
Ordered (induced) subgraph isomorphism

Access to Document

10.1007/978-981-95-7127-7_11

Cite this

Imamura, H., Kobayashi, Y., Otachi, Y., Saitoh, T., Sato, K., Takaoka, A., Yoshinaka, R., & van der Zanden, T. C. (2026). Finding Order-Preserving Subgraphs. In E. Di Giacomo, & D. Mondal (Eds.), WALCOM: Algorithms and Computation : 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings (Vol. 16444, pp. 157-171). Springer Verlag. https://doi.org/10.1007/978-981-95-7127-7_11

Imamura, Haruya ; Kobayashi, Yasuaki ; Otachi, Yota et al. / Finding Order-Preserving Subgraphs. WALCOM: Algorithms and Computation : 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings. editor / Emilio Di Giacomo ; Debajyoti Mondal. Vol. 16444 Springer Verlag, 2026. pp. 157-171 (Lecture Notes in Computer Science, Vol. 16444 LNCS).

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abstract = "(Induced) Subgraph Isomorphism and Maximum Common (Induced) Subgraph are fundamental problems in graph pattern matching and similarity computation. In graphs derived from time-series data or protein structures, a natural total ordering of vertices often arises from their underlying structure, such as temporal sequences or amino acid sequences. This motivates the study of problem variants that respect this inherent ordering. This paper addresses Ordered (Induced) Subgraph Isomorphism (O(I)SI) and its generalization, Maximum Common Ordered (Induced) Subgraph (MCO(I)S), which seek to find subgraph isomorphisms that preserve the vertex orderings of two given ordered graphs. Our main contributions are threefold: (1) We prove that these problems remain NP-complete even when restricted to small graph classes, such as trees of depth 2 and threshold graphs. (2) We establish a gap in computational complexity between OSI and OISI on certain graph classes. For instance, OSI is polynomial-time solvable for interval graphs with their interval orderings, whereas OISI remains NP-complete under the same setting. (3) We demonstrate that the tractability of these problems can depend on the vertex ordering. For example, while OISI is NP-complete on threshold graphs, its generalization, MCOIS, can be solved in polynomial time if the specific vertex orderings that characterize the threshold graphs are provided.",

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Imamura, H, Kobayashi, Y, Otachi, Y, Saitoh, T, Sato, K, Takaoka, A, Yoshinaka, R & van der Zanden, TC 2026, Finding Order-Preserving Subgraphs. in E Di Giacomo & D Mondal (eds), WALCOM: Algorithms and Computation : 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings. vol. 16444, Springer Verlag, Lecture Notes in Computer Science, vol. 16444 LNCS, pp. 157-171, 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Perugia, Italy, 4/03/26. https://doi.org/10.1007/978-981-95-7127-7_11

Finding Order-Preserving Subgraphs. / Imamura, Haruya; Kobayashi, Yasuaki; Otachi, Yota et al.
WALCOM: Algorithms and Computation : 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings. ed. / Emilio Di Giacomo; Debajyoti Mondal. Vol. 16444 Springer Verlag, 2026. p. 157-171 (Lecture Notes in Computer Science, Vol. 16444 LNCS).

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

TY - GEN

T1 - Finding Order-Preserving Subgraphs

AU - Imamura, Haruya

AU - Kobayashi, Yasuaki

AU - Otachi, Yota

AU - Saitoh, Toshiki

AU - Sato, Keita

AU - Takaoka, Asahi

AU - Yoshinaka, Ryo

AU - van der Zanden, Tom C.

N1 - data source:

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N2 - (Induced) Subgraph Isomorphism and Maximum Common (Induced) Subgraph are fundamental problems in graph pattern matching and similarity computation. In graphs derived from time-series data or protein structures, a natural total ordering of vertices often arises from their underlying structure, such as temporal sequences or amino acid sequences. This motivates the study of problem variants that respect this inherent ordering. This paper addresses Ordered (Induced) Subgraph Isomorphism (O(I)SI) and its generalization, Maximum Common Ordered (Induced) Subgraph (MCO(I)S), which seek to find subgraph isomorphisms that preserve the vertex orderings of two given ordered graphs. Our main contributions are threefold: (1) We prove that these problems remain NP-complete even when restricted to small graph classes, such as trees of depth 2 and threshold graphs. (2) We establish a gap in computational complexity between OSI and OISI on certain graph classes. For instance, OSI is polynomial-time solvable for interval graphs with their interval orderings, whereas OISI remains NP-complete under the same setting. (3) We demonstrate that the tractability of these problems can depend on the vertex ordering. For example, while OISI is NP-complete on threshold graphs, its generalization, MCOIS, can be solved in polynomial time if the specific vertex orderings that characterize the threshold graphs are provided.

AB - (Induced) Subgraph Isomorphism and Maximum Common (Induced) Subgraph are fundamental problems in graph pattern matching and similarity computation. In graphs derived from time-series data or protein structures, a natural total ordering of vertices often arises from their underlying structure, such as temporal sequences or amino acid sequences. This motivates the study of problem variants that respect this inherent ordering. This paper addresses Ordered (Induced) Subgraph Isomorphism (O(I)SI) and its generalization, Maximum Common Ordered (Induced) Subgraph (MCO(I)S), which seek to find subgraph isomorphisms that preserve the vertex orderings of two given ordered graphs. Our main contributions are threefold: (1) We prove that these problems remain NP-complete even when restricted to small graph classes, such as trees of depth 2 and threshold graphs. (2) We establish a gap in computational complexity between OSI and OISI on certain graph classes. For instance, OSI is polynomial-time solvable for interval graphs with their interval orderings, whereas OISI remains NP-complete under the same setting. (3) We demonstrate that the tractability of these problems can depend on the vertex ordering. For example, while OISI is NP-complete on threshold graphs, its generalization, MCOIS, can be solved in polynomial time if the specific vertex orderings that characterize the threshold graphs are provided.

KW - (in)tractability

KW - graph classes

KW - Ordered (induced) subgraph isomorphism

U2 - 10.1007/978-981-95-7127-7_11

DO - 10.1007/978-981-95-7127-7_11

M3 - Conference article in proceeding

SN - 9789819571260

VL - 16444

T3 - Lecture Notes in Computer Science

SP - 157

EP - 171

BT - WALCOM: Algorithms and Computation

A2 - Di Giacomo, Emilio

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Y2 - 4 March 2026 through 6 March 2026

ER -

Imamura H, Kobayashi Y, Otachi Y, Saitoh T, Sato K, Takaoka A et al. Finding Order-Preserving Subgraphs. In Di Giacomo E, Mondal D, editors, WALCOM: Algorithms and Computation : 20th International Conference and Workshops on Algorithms and Computation, WALCOM 2026, Proceedings. Vol. 16444. Springer Verlag. 2026. p. 157-171. (Lecture Notes in Computer Science, Vol. 16444 LNCS). doi: 10.1007/978-981-95-7127-7_11

Finding Order-Preserving Subgraphs

Abstract

Publication series

Conference

Keywords

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