Digital object memory


A digital object memory 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 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 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.

Active digital object memories

In contrast to the mentioned memories providing only a passive storage space, the more sophisticated active digital object memories are based on embedded systems in terms of cyber-physical systems and provide on the hardware side
and on the software side there are
Such active memories allow for "on-object" processing of object-related tasks, such as condition monitoring, compilation of associated data, and memory clean-up. In addition to strictly passive memories and active memories hybrid forms are also available, that perform simple tasks "on-product", outsource more complex tasks to server-based infrastructures, and keep both representations in sync.

Digital product memory

Digital product memories are a subclass of digital object memories, which include memories for all artifacts that were intentionally created such as containers and pieces of art or valuable and rare natural objects such as a marble plate or a lump of gold. Such objects don't have all the attributes of industrial products, but nevertheless a digital black box attached to them for lifelogging can make sense for specific applications.

Semantic product memory

Semantic product memories go beyond that, since they provide a machine-understandable meaning description of their contents based on semantic web technologies. If a product memory has no explicit semantic markup, only propriety software can exploit the information stored in the memory. In contrast, semantic product memories can be interpreted by any software that has access to the semantic description of the epistemological primitives and the ontologies used for capturing memory contents.

Object memory model

In the context of the Object Memory Modeling Incubator Group, part of the W3C Incubator Activity, an object memory format, which allows for modeling of events or other information about individual physical artifacts and thus implements an object memory model, was created. The model consists of a block-based approach to partition the entire memory to groups each with associated object-related information. Each block consists of the data itself and a set of metadata attributes to describe the block content.

Related research projects

SemProM

Funded by the German Ministry of Education and Research, the project SemProM employs smart labels in order to give products a digital memory and thus support intelligent applications along the product's lifecycle. By the use of integrated sensors, relations in the production process become transparent and supply chains as well as environmental influences retraceable. The producer gets supported and the consumer better informed about the product.

RES-COM

Funded by the German Ministry of Education and Research, the project RES-COM focuses on the development of technologies for proactive resource conservation based on M2M-communication. With a defined interaction with active digital object memories the project tries to leverage the integration of distributed and active components to existing centralized structures in the field of industry and manufacturing.

Aletheia

The Aletheia project is a leading innovation project, sponsored by the German Ministry of Education and Research that aims at obtaining comprehensive access to product information through the use of semantic technologies. The project follows an approach which does not only consult structured data from company-owned information sources, such as product databases, to respond to inquiries, it also looks at unstructured data from office documents and web 2.0 sources, such as wikis, blogs, and internet forums, as well as sensor and RFID data.

ADiWa

The ADiWa project, funded by the German Ministry of Education and Research, makes the huge potential of information from the Internet of Things accessible for business-relevant workflows that can be strategically planned and manipulated. For the data-level connection of objects from the real world, results from available solutions and from the SemProM project shall be used. ADiWa focuses on business processes, which can be controlled and manipulated based on evaluated information from the real world.

SmartProducts

The SmartProducts project, funded by the European Union in the 7th Research Framework Programme, develops the scientific and technological basis for building "smart products" with embedded proactive knowledge. Smart products help customers, designers and workers to deal with the ever-increasing complexity and variety of modern products. Such smart products leverage proactive knowledge to communicate and co-operate with humans, other products and the environment. The project thereby also focuses on small devices with limited storage capabilities and thus also requires efficient storage mechanisms. Moreover, the project aims to apply the results achieved by the incubator group for optimizing the data exchange between different smart products.

ToTEM

Tales of Things and electronic Memory is a three-year collaborative project between five universities in the United Kingdom. A project aim is to explore the implications of Internet of Things technologies for the design of novel forms of augmented memory systems. While the potential implications of the Internet of Things for supply chain management and energy consumption have been acknowledged and discussed, its application for the engagement with personal and social memories has been rarely mentioned. More and more newly manufactured objects are often tagged at production and made traceable. Tales of Things provides a design space for exploring the value of a user-generated Internet of Old Things in which people's memories are linked to objects.

SmaProN

The project Smart Product Networks, funded by the German Ministry of Education and Research, explores the dynamic linking of smart products to product bundles and product hierarchies, based on the developed Tip'n'Tell architecture and the product description model SPDO.

RAN

The project RFID-Based Automotive Network, founded by the German Ministry of Education and Research, focuses on the development of a RFID-based hybrid control architecture and valuation methods for value added chains. Using the example of automobile industry they develop a combined data management that exchanges product-related information in a decentralized way using RFID-tags. In addition order-related information are stored in centralized manufacturer databases. Such an architecture allows for transport of product-related data at the location of the physical object and process related data in real-time via backend systems.