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Mining Tree Patterns with Partially Injective Homomorphisms.

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Mining Tree Patterns with Partially Injective Homomorphisms. / Schulz, Till Hendrik; Horváth, Tamás; Welke, Pascal et al.
Mining Tree Patterns with Partially Injective Homomorphisms.. Vol. 11052 Springer, Cham, 2018. p. 585-601 (Lecture Notes in Computer Science; Vol. 11052).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Schulz, TH, Horváth, T, Welke, P & Wrobel, S 2018, Mining Tree Patterns with Partially Injective Homomorphisms. in Mining Tree Patterns with Partially Injective Homomorphisms.. vol. 11052, Lecture Notes in Computer Science, vol. 11052, Springer, Cham, pp. 585-601, Machine Learning and Knowledge Discovery in Databases, Dublin, Ireland, 10/09/18. https://doi.org/10.1007/978-3-030-10928-8_35

APA

Schulz, T. H., Horváth, T., Welke, P., & Wrobel, S. (2018). Mining Tree Patterns with Partially Injective Homomorphisms. In Mining Tree Patterns with Partially Injective Homomorphisms. (Vol. 11052, pp. 585-601). (Lecture Notes in Computer Science; Vol. 11052). Springer, Cham. https://doi.org/10.1007/978-3-030-10928-8_35

Vancouver

Schulz TH, Horváth T, Welke P, Wrobel S. Mining Tree Patterns with Partially Injective Homomorphisms. In Mining Tree Patterns with Partially Injective Homomorphisms.. Vol. 11052. Springer, Cham. 2018. p. 585-601. (Lecture Notes in Computer Science). doi: 10.1007/978-3-030-10928-8_35

Author

Schulz, Till Hendrik ; Horváth, Tamás ; Welke, Pascal et al. / Mining Tree Patterns with Partially Injective Homomorphisms. Mining Tree Patterns with Partially Injective Homomorphisms.. Vol. 11052 Springer, Cham, 2018. pp. 585-601 (Lecture Notes in Computer Science).

Bibtex

@inproceedings{752137c99c234b0daf3b83ec22218fa5,
title = "Mining Tree Patterns with Partially Injective Homomorphisms.",
abstract = "One of the main differences between inductive logic programming (ILP) and graph mining lies in the pattern matching operator applied: While it is mainly defined by relational homomorphism (i.e., subsumption) in ILP, subgraph isomorphism is the most common pattern matching operator in graph mining. Using the fact that subgraph isomorphisms are injective homomorphisms, we bridge the gap between ILP and graph mining by considering a natural transition from homomorphisms to subgraph isomorphisms that is defined by partially injective homomorphisms, i.e., which require injectivity only for subsets of the vertex pairs in the pattern. Utilizing positive complexity results on deciding homomorphisms from bounded tree-width graphs, we present an algorithm mining frequent trees from arbitrary graphs w.r.t. partially injective homomorphisms. Our experimental results show that the predictive performance of the patterns obtained is comparable to that of ordinary frequent subgraphs. Thus, by preserving much from the advantageous properties of homomorphisms and subgraph isomorphisms, our approach provides a trade-off between efficiency and predictive power.",
author = "Schulz, {Till Hendrik} and Tam{\'a}s Horv{\'a}th and Pascal Welke and Stefan Wrobel",
note = "DBLP's bibliographic metadata records provided through http://dblp.org/search/publ/api are distributed under a Creative Commons CC0 1.0 Universal Public Domain Dedication. Although the bibliographic metadata records are provided consistent with CC0 1.0 Dedication, the content described by the metadata records is not. Content may be subject to copyright, rights of privacy, rights of publicity and other restrictions.; Machine Learning and Knowledge Discovery in Databases ; Conference date: 10-09-2018 Through 14-09-2018",
year = "2018",
month = sep,
day = "14",
doi = "10.1007/978-3-030-10928-8_35",
language = "Undefined/Unknown",
isbn = "9783030109271",
volume = "11052",
series = "Lecture Notes in Computer Science",
publisher = "Springer, Cham",
pages = "585--601",
booktitle = "Mining Tree Patterns with Partially Injective Homomorphisms.",

}

RIS

TY - GEN

T1 - Mining Tree Patterns with Partially Injective Homomorphisms.

AU - Schulz, Till Hendrik

AU - Horváth, Tamás

AU - Welke, Pascal

AU - Wrobel, Stefan

N1 - DBLP's bibliographic metadata records provided through http://dblp.org/search/publ/api are distributed under a Creative Commons CC0 1.0 Universal Public Domain Dedication. Although the bibliographic metadata records are provided consistent with CC0 1.0 Dedication, the content described by the metadata records is not. Content may be subject to copyright, rights of privacy, rights of publicity and other restrictions.

PY - 2018/9/14

Y1 - 2018/9/14

N2 - One of the main differences between inductive logic programming (ILP) and graph mining lies in the pattern matching operator applied: While it is mainly defined by relational homomorphism (i.e., subsumption) in ILP, subgraph isomorphism is the most common pattern matching operator in graph mining. Using the fact that subgraph isomorphisms are injective homomorphisms, we bridge the gap between ILP and graph mining by considering a natural transition from homomorphisms to subgraph isomorphisms that is defined by partially injective homomorphisms, i.e., which require injectivity only for subsets of the vertex pairs in the pattern. Utilizing positive complexity results on deciding homomorphisms from bounded tree-width graphs, we present an algorithm mining frequent trees from arbitrary graphs w.r.t. partially injective homomorphisms. Our experimental results show that the predictive performance of the patterns obtained is comparable to that of ordinary frequent subgraphs. Thus, by preserving much from the advantageous properties of homomorphisms and subgraph isomorphisms, our approach provides a trade-off between efficiency and predictive power.

AB - One of the main differences between inductive logic programming (ILP) and graph mining lies in the pattern matching operator applied: While it is mainly defined by relational homomorphism (i.e., subsumption) in ILP, subgraph isomorphism is the most common pattern matching operator in graph mining. Using the fact that subgraph isomorphisms are injective homomorphisms, we bridge the gap between ILP and graph mining by considering a natural transition from homomorphisms to subgraph isomorphisms that is defined by partially injective homomorphisms, i.e., which require injectivity only for subsets of the vertex pairs in the pattern. Utilizing positive complexity results on deciding homomorphisms from bounded tree-width graphs, we present an algorithm mining frequent trees from arbitrary graphs w.r.t. partially injective homomorphisms. Our experimental results show that the predictive performance of the patterns obtained is comparable to that of ordinary frequent subgraphs. Thus, by preserving much from the advantageous properties of homomorphisms and subgraph isomorphisms, our approach provides a trade-off between efficiency and predictive power.

U2 - 10.1007/978-3-030-10928-8_35

DO - 10.1007/978-3-030-10928-8_35

M3 - Conference contribution/Paper

SN - 9783030109271

VL - 11052

T3 - Lecture Notes in Computer Science

SP - 585

EP - 601

BT - Mining Tree Patterns with Partially Injective Homomorphisms.

PB - Springer, Cham

T2 - Machine Learning and Knowledge Discovery in Databases

Y2 - 10 September 2018 through 14 September 2018

ER -