Kust pärinevad metaandmed: infoteoreetiline vaade

According to the simplest and most common definition, metadata refers to a set of data that describes other data. Research on metadata is focused almost exclusively on solving practical issues. There are few theories on metadata that emphasise the lack of a common theoretical foundation to handle metadata, and there is also a lack of corresponding research. This article looks at metadata from a broad perspective of information technology and seeks an answer to a question that may, at first glance, seem simple: what is the origin of metadata? The article aims to present a conceptual model that connects metadata to communication processes, thereby creating an opportunity to treat metadata in a more systematic manner. In memory institutions, different metadata schemes and standards are used to describe digital objects. In order to describe objects, libraries use bibliographical entries that correspond to valid entry and cataloguing rules. Objects are described by bibliographic entries and catalogued in a bibliographic format. Nowadays, cataloguing rules are mostly based on the ISBD (International Standard Bibliographic Description). The most common bibliographic formats are standards belonging to the MARC (Machine Readable Cataloguing) group. Some libraries, such as the Academic Library of Tallinn University and the University of Tartu Library use the Dublin Core metadata standard to describe the digital objects they preserve. A particular feature of the metadata systems used by libraries is that all objects in a collection are described to at least a minimum level. Archives in Estonia use the General International Standard Archival Description (ISAD(G)), which was developed by the International Council on Archives. Archives differ from libraries in that archives usually describe objects in detail on the levels of archive, series, and archive item, and preservation of the full context of information is prioritised. Estonian museums began introducing common structured metadata in 1992, when the Ministry of Culture commissioned a software company called AS GenNet Laboratories to develop KVIS (Information System of Cultural Values). The development of KVIS was based on the CIDOC (International Committee for Documentation) data model of the International Council of Museums, and on SWETERM, the Swedish standard of forming name attributes. This was an object-oriented data model, and the description was focused not on the object but the event. This type of description model is also supported by the CRM (Conceptual Reference Model) adopted by CIDOC in 2006. In 2005, the Ministry of Culture decided to create MuIS, a new information system for museums, although this new system was based on the same underlying data model as the previous system. The descriptions of museum objects are supported by central glossaries that ensure museum items are described as required and that searches can be made across museums. To describe natural scientific collections, other information systems are also used, such as the SARV database, used for managing data related to geocollections. Archaeological collections have their own databases as well, with specific metadata. The digital collection of the Art Museum of Estonia uses a bespoke system of metadata. Metadata are connected to each of the elements in the communication process: metadata are the attributes describing these elements. Each element of a communication act is characterised by specific, fixed attributes that provide full information about the act. All the attributes of the set of elements pertaining to a specific communication act make up the full meta description of this communication act. In fact, a communication act can be characterised by various attributes. The selection of metadata attributes used to characterise a communication process is connected to the function of the metadata relevant for the particular case

A Scientific Metaphysical Naturalisation of Information: with a indication-based semantic theory of information and an informationist statement of physicalism.

The objective of this thesis is to present a naturalised metaphysics of information, or to naturalise information, by way of deploying a scientific metaphysics according to which contingency is privileged and a-priori conceptual analysis is excluded (or at least greatly diminished) in favour of contingent and defeasible metaphysics. The ontology of information is established according to the premises and mandate of the scientific metaphysics by inference to the best explanation, and in accordance with the idea that the primacy of physics constraint accommodates defeasibility of theorising in physics. This metametaphysical approach is used to establish a field ontology as a basis for an informational structural realism. This is in turn, in combination with information theory and specifically mathematical and algorithmic theories of information, becomes the foundation of what will be called a source ontology, according to which the world is the totality of information sources. Information sources are to be understood as causally induced configurations of structure that are, or else reduce to and/or supervene upon, bounded (including distributed and non-contiguous) regions of the heterogeneous quantum field (all quantum fields combined) and fluctuating vacuum, all in accordance with the above-mentioned quantum field-ontic informational structural realism (FOSIR.) Arguments are presented for realism, physicalism, and reductionism about information on the basis of the stated contingent scientific metaphysics. In terms of philosophical argumentation, realism about information is argued for primarily by way of an indispensability argument that defers to the practice of scientists and regards concepts of information as just as indispensable in their theories as contingent representations of structure. Physicalism and reductionism about information are adduced by way of the identity thesis that identifies the substance of the structure of ontic structural realism as identical to selections of structure existing in re to combined heterogeneous quantum fields, and to the total heterogeneous quantum field comprised of all such fields. Adjunctly, an informational statement of physicalism is arrived at, and a theory of semantic information is proposed, according to which information is intrinsically semantic and alethically neutral

Rescuing Qualia

Daniel Dennett provides many compelling reasons to question the existence of phenomenal experiences in his paper titled Quining Qualia, however, from the perspective of the individual, qualia appear to be an inherent feature of consciousness. The act of reflecting on one’s experiences suggests that subjective feelings and sensations are a necessary element of human life, as personal opinions on various artistic works are apt to demonstrate. This paper argues that by considering subjective experiences from a naturalized functionalist perspective, a comprehensive explanation for qualia can be provided given its origins in evolutionary biology. As information passing through the nervous system, qualia serve to guide the behaviour of individuals to ultimately facilitate survival. Specifically, qualia are representations of environmental features, existing as information messages supported by neural physiology and encoded in electrochemical formats. In addition to addressing the Hard Problem of Consciousness and clarifying the four properties Dennett associates with qualia, this theoretical foundation enables further metaphysical discussion on the nature of consciousness more generally. Although many outstanding questions on the contents of subjective experiences are apt to linger given the explanatory gap, a robust theory for the existence of qualia can be developed through the integration of ideas and concepts from a variety of domains