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Statements

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dbr:Digital_object_memory
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Digitales Objektgedächtnis Digital object memory
rdfs:comment
A digital object memory (DOMe) is a digital storage space intended to keep permanently all related information about a concrete physical object instance that is collected during the lifespan of this object and thus forms a basic building block for the Internet of Things (IoT) by connecting digital information with physical objects. Ein digitales Objektgedächtnis (DOMe für Digital Object Memory) ist ein Datenspeicher, in dem fortlaufend alle relevanten Informationen zu einem konkreten physischen Objekt gesammelt werden. Durch die Verknüpfung von digitalen Informationen mit physischen Objekten bildet ein solches Objektgedächtnis einen Grundbaustein für das Internet der Dinge
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Ein digitales Objektgedächtnis (DOMe für Digital Object Memory) ist ein Datenspeicher, in dem fortlaufend alle relevanten Informationen zu einem konkreten physischen Objekt gesammelt werden. Durch die Verknüpfung von digitalen Informationen mit physischen Objekten bildet ein solches Objektgedächtnis einen Grundbaustein für das Internet der Dinge Zum Einsatz digitaler Objektgedächtnisse müssen die einzelnen physischen Objekte eindeutig über einen Identifikator identifiziert werden können. Der Identifikator muss maschinenlesbar an den Objekten angebracht werden. Üblich sind ein- oder zweidimensionale Barcodes (z. B. ein QR-Code oder ein DataMatrix-Code) oder funkbasierte RFID- bzw. NFC-Tags. Diese Codes oder Tags stellen eine kostengünstige Lösung dar, erfordern aber eine komplexere Infrastruktur zur Datenverwaltung. A digital object memory (DOMe) is a digital storage space intended to keep permanently all related information about a concrete physical object instance that is collected during the lifespan of this object and thus forms a basic building block for the Internet of Things (IoT) by connecting digital information with physical objects. Such memories require each object instance to be uniquely identified and this ID to be attached to the physical object. The underlying techniques to create identification codes and to attach them to objects are manifold but machine-readable techniques are mandatory. Commonly used are barcodes with one or two dimensions (e.g. QRcode or DataMatrix) and radio based tags like RFID or NFC. Such codes or tags are a low cost solution but demand an underlying server infrastructure to host the memory data.
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