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Ontology Summit 2007 Communiqué

version 1.0.0 / 2007.04.24

NIST, Gaithersburg, Maryland, USA.

April 24, 2007

editors: Olivier Bodenreider (NLM)

& Frank Olken (NSF, LBNL)

Introduction

Under the appellation of "ontology" are found many different types of artifacts created and used in different communities to represent entities and their relationships for purposes including annotating datasets, supporting natural language understanding, integrating information sources, semantic interoperability and to serve as a background knowledge in various applications.

The Ontology Summit 2007 "Ontology, Taxonomy, Folksonomy: Understanding the Distinctions," co-organized by NIST and Ontolog Forum and co-sponsored by some 50 institutions, is an attempt to bring together various communities (computer scientists, information scientists, philosophers, domain experts) having a different understanding of what is an ontology, and to foster dialog and cooperation among these communities.

In practice, the name ontology covers a spectrum of useful artifacts, from formal upper-level ontologies expressed in first order logic (e.g., Basic Formal Ontology (BFO) and DOLCE) to the simple lists of user-defined keywords used, for example, to annotate resources on the Web. The latter are called "folksonomies" and play an important role in the Web 2.0. In between the two extremities of the ontology spectrum are taxonomies and controlled vocabularies (e.g., MeSH), often used for information indexing and retrieval, and whose organization is mostly hierarchical. Finally, there are ontologies which represent not only subsumption , but also other kinds of relationships among entities (e.g., functional, physical), often based on formalisms such as frames or description logics. Examples of such ontologies in the biomedical domain include the Foundational Model of Anatomy, SNOMED CT and the NCI Thesaurus.

The goal of the Ontology Summit is not to establish a definitive definition of the word "ontology", which has proved extremely challenging due to the diversity of artifacts it can refer to. Analogously, the goal is not to organize ontologies along any particular single dimension either. Rather, we propose to identify a limited number of key dimensions along which ontologies can be characterized and to provide operational definitions for these dimensions. The relative position of ontologies in the space defined by these dimensions, the "Framework", is indicative of the similarities and differences between these ontologies. The Framework has been applied to the characterization of a dozen ontologies, whose descriptions were collected through a survey.

The Framework Dimensions

One major goal of the Ontology Summit 2007 was to bring together the various diverse communities working on ontology-like activities to encourage cooperative efforts. Toward this end the summit has attempted to characterize what is an ontology, e.g., to construct a typology of ontologies. The framework of dimensions is comprised of two groups: semantic dimensions and and pragmatic dimensions. Semantic dimensions include expressiveness, structure, and representational granularity. Pragmatic dimensions include intended use, use of automated reasoning, and prescriptive vs descriptive. See diagram.

Expressiveness is a property of the knowledge representation language which describes the extent and ease with which the KRL can describe increasingly complex semantics, cf. propositional logic, description logic(s), first order logic, sorted logics, modal logics, ...

Structure is a property of the ontology, which records how elaborate (or well organized) are the semantics encoded by the ontology. It may be the same as the expressiveness of the KRL in which the ontology is encoded, or it may be less than the expressiveness of the knowledge representation language. Thus a simple taxonomy, e.g., a tree, may be encoded in RDF/S, a description logic language such as OWL-DL, or first order logic, e.g., Common Logic. Viewed from a graph theoretic perspective level of structure might be either a simple set of terms (glossary), a tree structures (taxonomy), a directed acyclic graph, e.g., a partial order (faceted classification schemes), or an arbitrary directed graph (e.g., RDF).

The granularity dimension concerns the level of detail at which the ontology is specified. A crude measure of granularity measure would be the number of concepts (nodes) and the number relation instances (links or edges in graph representations). However, this fails to recognize that some ontologies may have larger scopes (domains) than others. A coarse grained ontology might be suitable for use as an upper ontology, or a broad subject index while a fine-grained ontology (such as SNOMED CT with 300K concepts) may be better suited for encoding medical diagnoses.

Intended use is the dimension which records the orginal purpose(s) of the ontology. These may include semantically informed search, data semantics specification for databases or data entry, data integration across multiple data sources, agent communication languages, controlled vocabularies for recording medical diagnoses, etc.

Automated reasoning is a dimension which records the extent to which it is anticipated that an ontology will be used by automated reasoning software, e.g., for question answering, etc. If so, then one would expect that the ontology would likely be encoded as using some form of logic, e.g., first order logic.

Prescriptive vs. Descriptive is a dimension which characterizes whether the intent of the ontology developer is simply to describe contemporary semantic usage without much regard as to the scientific correctness of the encoded knowledge (e.g., a whale might, in common parlance, be described as a large fish.) Examples of such descriptive ontologies include folksonomies and most linguistic ontologies. Alternatively, an ontology may be intended as a normative prescriptive document whose correctness is considerable concern, e.g., a whale is a mammal not a fish. Other prescriptive ontologies include medical diagnostic terminologies, legal or regulatory ontologies, accounting ontologies, mathematical or engineering ontologies, etc.

Additional findings

Governance

The governance dimension addresses how decisions concerning the structure and (especially) content of an ontology are made. There was agreement at the summit that ontology with legal or regulatory implications will need to defer to existing legal, regulatory, and professional organizations concerning the natural language definitions of entities and semantic relationships. Ontology development should be viewed as an effort to organize and formalize concept definitions and relationships which are conventionally defined by existing institutions, not as an attempt to replace existing definitions with de novo definitions generated by autonomous computer scientists. As a corollary, it was observed that it is necessary to record the provenance of every definition, etc. incorporated into an ontology, e.g., the controlling legislation, regulation, standard, etc. from which a definition is taken.

Folksonomies and Formal Ontologies

One of the issues discussed was the relationship between social tagging and folksonomies and more traditional structured / formal ontologies such as taxonomies and axiomatized ontologies. Until recently these efforts have been viewed as competitive approaches. The consensus of the Ontology Summit was that social tagging efforts should be viewed as large scale corpora to be used for inferring and validating more formal ontologies, akin to the use of large text corpora in computational linguistics studies. In addition, more formal ontologies can be used to inform social tagging by providing improved tag sets, and faceted tagging.

Ontologies as designed artifacts

Some members of the community argued that ontologies could be considered a type of designed artifact, and that ontological engineering should be thought of as a discipline complementary to software engineering and to virtually any discipline dealing with data and information exchange. We expect that this discipline will increasingly become a standard part of the relevant curricula.

Design methodologies

Another finding of the summit, after looking at a large number of intended uses for ontologies, is that there is also a spectrum of design methodologies. They vary from a strong software engineering design lifecycle with requirements, evaluation, and verification, all the way to a "no-design" methodology in which folksonomies emerge from the local behavior of thousands of individual users. Design methodologies are strongly related to the intended use. For instance, methodologies for managing controlled vocabularies and taxonomies are very social in nature and are intended to capture generalities about the meanings of words in a culture or domain. Also, the "verification" of ontologies is related to the role of reasoning or types of computational services to be enabled by the ontologies. For example, if an ontology is used for data integration, the verification of the consistency and completeness of data metamodels are important, whereas in a domain where the meanings of terms has legal consequences, verification is more about capturing the provenance of the design choices, rooted in authority or appropriate process.

Survey

In order to elicit the distinctions between various kinds of ontologies, an interactive survey was designed and posted on the Web in order to engage various communities. The respondents were invited to identify the community of which they are a representative and to describe the value of ontologies, as well as issues with ontologies in this community. The last section of the survey invites the respondents to describe and characterize the ontologies or related artifacts in use in this community.

Over fifty respondents from 42 communities submitted entries to the survey. The best represented communities were Formal ontology, Applications development, Standards development, Web 2.0 and Biomedicine. 41 terms were identified as closely related to ontology, including formal ontology, upper ontology, concept system and controlled vocabulary. Some 70 ontologies from a variety of domains were characterized in the survey, including formal ontologies (e.g., BFO, DOLCE, SUMO), biomedical ontologies (e.g., Gene Ontology, SNOMED CT, UMLS, ICD), thesauri (e.g., MeSH, National Agricultural Library Thesaurus), folksonomies (e.g., Social bookmarking tags), general ontologies (WordNet, OpenCyc) and specific ontologies (e.g., Process Specification Language). The list also includes markup languages (e.g., NeuroML), representation formalisms (e.g., Entity-Relation model, OWL, WSDL-S) and various ISO standards (e.g., ISO 11179). This sample clearly illustrates the diversity of artifacts collected under "ontology".

Conclusions

The Ontology Summit 2007 "Ontology, Taxonomy, Folksonomy: Understanding the Distinctions" was an attempt to collaboratively identify important dimensions whereby ontologies could be characterized. It resulted in a Framework including six major dimensions, as illustrated in this diagram. An interactive survey also was realized to contribute to the description of existing ontologies. In the face-to-face meeting, the Framework was put to a stress test: the participants used it to position a dozen ontologies along its dimensions.

We recognize that the current Framework is still preliminary. In particular, work needs to be pursued on refining the dimensions and establishing operational definitions for populating the Framework. We encourage professionals from various disciplines to contribute to this work by joining the Ontolog Forum Community of Practice.


This Communiqué (v 1.0.0 / 2007.04.24) was reviewed, collaboratively edited, finalized and adopted by individuals present at the OntologySummit2007_Communique_Session.

Endorsed by

The above Communiqué has been endorsed by the individuals listed below. Please note that these people made their endorsements as individuals and not as representatives of the organizations they are affiliated with.

  • Remarks:
    • 33 individuals endorsed the communiqué as finalized above during the symposium.
    • We also invited everyone on the [ontology-summit] list and those who had contributed to the summit proceedings (virtual discourse, survey and/or participated in the organization of the summit) to confirm their endorsement of this Communiqué. The solicitation closed at the end of Apr. 30, 2007 and the names received were added to the original 33 individuals' to make up the above list.

Resources

  • a pdf version of this Communiqué can be downloaded here.

Comments & Suggestions

A few suggestions were received to re-open the dialog to further refine this communiqué and come up with a "next version" of the document. After due discussion it was decided that since this communiqué serves well to represent a snapshot position of the summit conveners, we will just leave it at version 1.0 (after correcting typos and formatting enhancement where applicable) for now. We would, however, invite the community to post their comments and further suggestions, which we can use as a reference for future work.

Please post your comments and suggestions to this OntologySummit2007_Communique at: OntologySummit2007_Communique/CommentsSuggestions'''


This page is maintained by Olivier Bodenreider, Frank Olken and Peter P. Yim

Please do not edit or modify yourself; send any editing request to either one of the three individuals named above.