HESML V2R1 Java software library of semantic similarity measures for the biomedical domain

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Lara-Clares, Alicia; Lastra-Díaz, Juan J.; Garcia-Serrano, Ana, 2022, "HESML V2R1 Java software library of semantic similarity measures for the biomedical domain", https://doi.org/10.21950/AQLSMV, e-cienciaDatos, V2

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Descripción	This dataset introduces HESML V2R1 which is the sixth release of the Half-Edge Semantic Measures Library (HESML) detailed in [24]. HESML V2R1 is a linearly scalable and efficient Java software library of ontology-based semantic similarity measures and Information Content (IC) models for ontologies like WordNet, SNOMED-CT, MeSH, GO and any other ontologies based on the OBO file format. HESML V2R1 also implements most of the sentence similarity methods in the biomedical domain together with a set of sentence pre-processing configurations, the integration of the three main biomedical NER tools, Metamap [3], MetamapLite [7] and cTAKES [31]. HESML V2R1 implements most ontology-based semantic similarity measures and Information Content (IC) models reported in the literature, as well as the evaluation of three pre-trained word embedding models for the general domain and 33 pre-trained embeddings and language models. It also provides a XML-based input file format in order to specify the execution of reproducible word/concept similarity experiments based on WordNet, SNOMED-CT, MeSH, or GO without software coding, and the necessary software clients to run the sentence-based experiments in the biomedical domain. HESML V2R1 introduces the following novelties: (1) the software implementation of a new package for the evaluation of sentence similarity methods; (2) the software implementation of most of the sentence similarity methods in the biomedical domain; (3) the implementation of a new package for sentence pre-processing together with a set of sentence pre-processing configurations; (4) the integration of the three main biomedical NER tools, Metamap [3], MetamapLite [7] and cTAKES [31]; (5) the software implementation of a parser based on the averaging Simple Word EMbeddings (SWEM) models introduced by Shen et al. [32] for efficiently loading and evaluating FastText-based [4] and other word embedding models; (6) the integration of Python wrappers for the evaluation of BERT [8], Universal Sentence Encoder (USE) [5] and Flair [1] models; and finally, (7) the software implementation of a new string-based sentence similarity method based on the aggregation of the Li et al. [29] similarity and Block distance [9] measures, called LiBlock, as well as eight new variants of the ontology-based methods proposed by Sogancioglu et al. [33], and a new pre-trained word embedding model based on FastText [4] and trained on the full-text of the articles in the PMC-BioC corpus [6]. HESML library is freely distributed for any non-commercial purpose under a CC By-NC-SA-4.0 license, subject to the citing of the two mains HESML papers [24] as attribution requirement.However, HESML distribution also includes other datasets, databases or data files whose use require the attribution acknowledgement by any user of HEMSL. Thus, we urge to the HESML users to fulfill with licensing terms related to other resources distributed with the library as detailed in its companion release notes. HESML V2R1 is a Java library developed with NetBeans 8 which compiles and runs in any Docker-based complaint platform. This work was partially supported by the UNED predoctoral grant started in April 2019 (BICI N7, November 19th, 2018). Esta librerı́a estará disponible de forma permanente y perpetua.
Materia	Ciencias de la información y computación
Palabra clave	HESML, semantic measures library, Ontology-based semantic similarity measures, Word embeddings, Information Content (IC) models, WordNet, UMLS, SNOMED-CT, MeSH, Gene Ontology (GO), Sentence embeddings, BERT, sentence similarity, biomedical sentence similarity
Publicación relacionada	Ver el listado de referencias al final del documento. Lara-Clares et al. [10], Lara-Clares et al. [11], Lastra-Dı́az and Garcı́a-Serrano [15], Lastra-Dı́az and Garcı́a-Serrano [14], Lastra-Dı́az and Garcı́a-Serrano [16], Lara-Clares et al. [12], Lastra-Dı́az [13], Lastra-Dı́az et al. [26], Lastra-Dı́az et al. [27], Lastra-Dı́az et al. [25], Lastra-Dı́az and Garcı́a Serrano [23], Lastra-Dı́az and Garcı́a Serrano [22], Lastra-Dı́az and Garcı́a-Serrano [19], Lastra-Dı́az and Garcı́a-Serrano [18], Lastra-Dı́az and Garcı́a-Serrano [21], Lastra-Dı́az and Garcı́a-Serrano [17], Lastra-Dı́az and Garcı́a-Serrano [20], Lastra-Dı́az et al. [28], Aronson [2], Miller [30].
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Metadatos de cita

ID persistente del dataset	doi:10.21950/AQLSMV
Fecha de publicación	2022-02-16
Título	HESML V2R1 Java software library of semantic similarity measures for the biomedical domain
Autor	Lara-Clares, Alicia (Universidad Nacional de Educación a Distancia (UNED)) Lastra-Díaz, Juan J. (Universidad Nacional de Educación a Distancia (UNED)) Garcia-Serrano, Ana (Universidad Nacional de Educación a Distancia (UNED))
Contacto	Utilice el botón de e-mail de arriba para contactar. Lara-Clares, Alicia (ConsUniversidad Nacional de Educación a Distancia (UNED)orcio Madroño)
Descripción	This dataset introduces HESML V2R1 which is the sixth release of the Half-Edge Semantic Measures Library (HESML) detailed in [24]. HESML V2R1 is a linearly scalable and efficient Java software library of ontology-based semantic similarity measures and Information Content (IC) models for ontologies like WordNet, SNOMED-CT, MeSH, GO and any other ontologies based on the OBO file format. HESML V2R1 also implements most of the sentence similarity methods in the biomedical domain together with a set of sentence pre-processing configurations, the integration of the three main biomedical NER tools, Metamap [3], MetamapLite [7] and cTAKES [31]. HESML V2R1 implements most ontology-based semantic similarity measures and Information Content (IC) models reported in the literature, as well as the evaluation of three pre-trained word embedding models for the general domain and 33 pre-trained embeddings and language models. It also provides a XML-based input file format in order to specify the execution of reproducible word/concept similarity experiments based on WordNet, SNOMED-CT, MeSH, or GO without software coding, and the necessary software clients to run the sentence-based experiments in the biomedical domain. HESML V2R1 introduces the following novelties: (1) the software implementation of a new package for the evaluation of sentence similarity methods; (2) the software implementation of most of the sentence similarity methods in the biomedical domain; (3) the implementation of a new package for sentence pre-processing together with a set of sentence pre-processing configurations; (4) the integration of the three main biomedical NER tools, Metamap [3], MetamapLite [7] and cTAKES [31]; (5) the software implementation of a parser based on the averaging Simple Word EMbeddings (SWEM) models introduced by Shen et al. [32] for efficiently loading and evaluating FastText-based [4] and other word embedding models; (6) the integration of Python wrappers for the evaluation of BERT [8], Universal Sentence Encoder (USE) [5] and Flair [1] models; and finally, (7) the software implementation of a new string-based sentence similarity method based on the aggregation of the Li et al. [29] similarity and Block distance [9] measures, called LiBlock, as well as eight new variants of the ontology-based methods proposed by Sogancioglu et al. [33], and a new pre-trained word embedding model based on FastText [4] and trained on the full-text of the articles in the PMC-BioC corpus [6]. HESML library is freely distributed for any non-commercial purpose under a CC By-NC-SA-4.0 license, subject to the citing of the two mains HESML papers [24] as attribution requirement.However, HESML distribution also includes other datasets, databases or data files whose use require the attribution acknowledgement by any user of HEMSL. Thus, we urge to the HESML users to fulfill with licensing terms related to other resources distributed with the library as detailed in its companion release notes. HESML V2R1 is a Java library developed with NetBeans 8 which compiles and runs in any Docker-based complaint platform. This work was partially supported by the UNED predoctoral grant started in April 2019 (BICI N7, November 19th, 2018). Esta librerı́a estará disponible de forma permanente y perpetua.
Materia	Ciencias de la información y computación
Palabra clave	HESML semantic measures library Ontology-based semantic similarity measures Word embeddings Information Content (IC) models WordNet UMLS SNOMED-CT MeSH Gene Ontology (GO) Sentence embeddings BERT sentence similarity biomedical sentence similarity
Publicación relacionada	Ver el listado de referencias al final del documento. Lara-Clares et al. [10], Lara-Clares et al. [11], Lastra-Dı́az and Garcı́a-Serrano [15], Lastra-Dı́az and Garcı́a-Serrano [14], Lastra-Dı́az and Garcı́a-Serrano [16], Lara-Clares et al. [12], Lastra-Dı́az [13], Lastra-Dı́az et al. [26], Lastra-Dı́az et al. [27], Lastra-Dı́az et al. [25], Lastra-Dı́az and Garcı́a Serrano [23], Lastra-Dı́az and Garcı́a Serrano [22], Lastra-Dı́az and Garcı́a-Serrano [19], Lastra-Dı́az and Garcı́a-Serrano [18], Lastra-Dı́az and Garcı́a-Serrano [21], Lastra-Dı́az and Garcı́a-Serrano [17], Lastra-Dı́az and Garcı́a-Serrano [20], Lastra-Dı́az et al. [28], Aronson [2], Miller [30].
Idioma	Inglés
Depositante	Admin, Dataverse
Fecha de depósito	2022-02-16
Otras referencias	[1] Akbik, A., Blythe, D., Vollgraf, R., 2018. Contextual string embeddings for sequence labeling, in: Proc. of the 27th International Conference on Computational Linguistics, Association for Computational Linguistics, Santa Fe, New Mexico, USA. pp. 1638–1649.; [2] Aronson, A.R., 2001. Effective mapping of biomedical text to the UMLS Metathesaurus: the MetaMap program, in: Proceedings of the AMIA Annual Symposium, ncbi.nlm.nih.gov. pp. 17–21.; [3] Aronson, A.R., Lang, F.M., 2010. An overview of MetaMap: historical perspective and recent advances. J. Am. Med. Inform. Assoc. 17, 229–236.; [4] Bojanowski, P., Grave, E., Joulin, A., Mikolov, T., 2017. Enriching word vectors with subword information. Transactions of the Association for Computational Linguistics 5, 135–146.; [5] Cer, D., Yang, Y., Kong, S.y., Hua, N., Limtiaco, N., St. John, R., Constant, N., Guajardo- Cespedes, M., Yuan, S., Tar, C., Strope, B., Kurzweil, R., 2018. Universal sentence encoder for English, in: Proceedings of the 2018 Conference on Empiri- cal Methods in Natural Language Processing: System Demonstrations, Association for Computational Linguistics, Brussels, Belgium. pp. 169–174. doi:10.18653/v1/D18-2029.; [6] Comeau, D.C., Wei, C.H., Islamaj Doğan, R., Lu, Z., 2019. PMC text mining subset in BioC: about three million full-text articles and growing. Bioinformatics.; [7] Demner-Fushman, D., Rogers, W.J., Aronson, A.R., 2017. MetaMap lite: an evaluation of a new java implementation of MetaMap. J. Am. Med. Inform. Assoc. 24, 841–844.; [8] Devlin, J., Chang, M., Lee, K., Toutanova, K., 2019. BERT: pre-training of deep bidirectional transformers for language understanding, in: Burstein, J., Doran, C., Solorio, T. (Eds.), Proc. of the 2019 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, NAACL-HLT, (Long and Short Papers), Association for Computational Linguistics, Minneapolis, MN, USA. pp. 4171–4186. URL: https://doi.org/10.18653/v1/n19-1423, doi:10.18653/v1/n19-1423.; [9] Krause, E.F., 1986. Taxicab Geometry: An Adventure in Non-Euclidean Geometry. Courier Corporation, Online.; [10] Lara-Clares, A., Lastra-Dı́az, J.J., Garcia-Serrano, A., 2021. Protocol for a reproducible experimental survey on biomedical sentence similarity. PLoS One 16, e0248663.; [11] Lara-Clares, A., Lastra-Dı́az, J.J., Garcia-Serrano, A., 2022a. A reproducibility protocol and dataset on the biomedical sentence similarity. Protocol implemented in Protocols.io .; [12] Lara-Clares, A., Lastra Diaz, J.J., Garcia Serrano, A., 2022b. Reproducible experiments on word and sentence similarity measures for the biomedical domain. URL: https://doi.org/10.21950/EPNXTR, doi:10.21950/EPNXTR.; [13] Lastra-Dı́az, J.J., 2017. Recent Advances in Ontology-based Semantic Similarity Measures and Information Con- tent Models based on WordNet. Ph.D. thesis. Universidad Nacional de Educación a Distancia (UNED). http://e-spacio.uned.es/fez/view/tesisuned:ED-Pg-SisInt-Jjlastra.; [14] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2015a. A new family of information content models with an experimental survey on WordNet. Knowledge-Based Systems 89, 509–526.; [15] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2015b. A novel family of IC-based similarity measures with a detailed experimental survey on WordNet. Eng. App. of Artif. Intell. 46, 140–153.; [16] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016a. A refinement of the well-founded Information Content models with a very detailed exper- imental survey on WordNet. Technical Report TR-2016-01. UNED. http://e-spacio.uned.es/fez/view/bibliuned:DptoLSI-ETSI-Informes-Jlastra-refinement.; [17] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016b. HESML V1R1 Java software library of ontology-based semantic similarity measures and information content models. Mendeley Data v1.; [18] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016c. HESML V1R2 Java software library of ontology-based semantic similarity measures and information content models. Mendeley Data, v2.; [19] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016d. HESML vs SML: scalability and performance benchmarks between the HESML V1R2 and SML 0.9 semantic measures libraries. Mendeley Data, v1. http://doi.org/10.17632/5hg3z85wf4.1.; [20] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016e. WNSimRep: a framework and replication dataset for ontology-based semantic similarity measures and information content models. Mendeley Data v1. http://doi.org/10.17632/mpr2m8pycs.1.; [21] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., 2016f. WordNet-based word similarity reproducible experiments based on HESML V1R1 and ReproZip. Mendeley Data, v1. http://doi.org/10.17632/65pxgskhz9.1.; [22] Lastra-Dı́az, J.J., Garcı́a Serrano, A., 2017. HESML V1R3 Java software library of ontology-based semantic similarity measures and information content models. Mendeley Data, v3.; [23] Lastra-Dı́az, J.J., Garcı́a Serrano, A., 2018. HESML V1R4 Java software library of ontology-based semantic similarity measures and information content models. Mendeley Data, v4. http://dx.doi.org/10.17632/t87s78dg78.4.; [24] Lastra-Dı́az, J.J., Garcı́a-Serrano, A., Batet, M., Fernández, M., Chirigati, F., 2017. HESML: a scalable ontology-based semantic similarity measures library with a set of re- producible experiments and a replication dataset. Information Systems 66, 97–118.; [25] Lastra-Dı́az, J.J., Goikoetxea, J., Hadj Taieb, M., Garcı́a-Serrano, A., Ben Aouicha, M., Agirre, E., 2019a. A large reproducible benchmark of ontology-based methods and word embeddings for word similarity. Submitted to Information Systems .; [26] Lastra-Dı́az, J.J., Goikoetxea, J., Hadj Taieb, M.A., Garcı́a-Serrano, A., Ben Aouicha, M., Agirre, E., 2019b. A reproducible survey on word embeddings and ontology-based methods for word similar- ity: linear combinations outperform the state of the art. Engineering Applications of Artificial Intelligence 85, 645–665.; [27] Lastra-Dı́az, J.J., Goikoetxea, J., Hadj Taieb, M.A., Garcı́a-Serrano, A., Ben Aouicha, M., Agirre, E., 2019c. Reproducibility dataset for a large experimental survey on word embeddings and ontology- based methods for word similarity. Data in Brief.; [28] Lastra-Dı́az, J.J., Goikoetxea, J., Hadj Taieb, M.A., Garcı́a-Serrano, A., Ben Aouicha, M., Agirre, E., 2019d. Word similarity benchmarks of recent word embedding models and ontology-based seman- tic similarity measures. e-cienciaDatos, v1. http://dx.doi.org/10.21950/AQ1CVX.; [29] Li, Y., McLean, D., Bandar, Z.A., James, D.O., Crockett, K., 2006. Sentence similarity based on semantic nets and corpus statistics. IEEE Trans. Knowl. Data Eng. 18, 1138–1150.; [30] Miller, G.A., 1995. WordNet: A Lexical Database for English. Communications of the ACM 38, 39–41.; [31] Savova, G.K., Masanz, J.J., Ogren, P.V., Zheng, J., Sohn, S., Kipper-Schuler, K.C., Chute, C.G., 2010. Mayo clinical text analysis and knowledge extraction system (cTAKES): architecture, com- ponent evaluation and applications. J. Am. Med. Inform. Assoc. 17, 507–513.; [32] Shen, D., Wang, G., Wang, W., Min, M.R., Su, Q., Zhang, Y., Li, C., Henao, R., Carin, L., 2018. Baseline needs more love: On simple word-embedding-based models and associated pool- ing mechanisms, in: Proceedings of the 56th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers), Association for Computational Linguistics, Melbourne, Australia. pp. 440–450. doi:10.18653/v1/P18-1041.; [33] Sogancioglu, G., Öztürk, H., Özgür, A., 2017. BIOSSES: a semantic sentence similarity estimation system for the biomedical domain. Bioinformatics 33, 49–58.

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