Objective A wide variety of everyday objects consist of textile fibres (clothes, wallpapers, chairs). Their primary purpose is structural and aesthetic. Fibres can have added functions by the integration of computing power into the material that forms them.The purpose of this project is to integrate this new dimension of functionality into fibres, thus turn everyday objects into artefacts. The initial step is selection of materials and development of fibres. The basic unit of computation, the transistor will be implemented into these fibres.This is done using a novel technology for building transistors on an SOI structure in fibre form and releasing the structures to leave a free-standing flexible active device. Central processing units as well as sensors and memory could be integrated within one fibre by the interconnection of transistors. Computing fibres can be interwoven into everyday objects to create artefacts, which could be interconnected with each other or with their surroundings.A wide variety of everyday objects consist of textile fibres (clothes, wallpapers, chairs). Their primary purpose is structural and aesthetic. Fibres can have added functions by the integration of computing power into the material that forms them.The purpose of this project is to integrate this new dimension of functionality into fibres, thus turn everyday objects into artefacts. The initial step is selection of materials and development of fibres. The basic unit of computation, the transistor will be implemented into these fibres.This is done using a novel technology for building transistors on an SOI structure in fibre form and releasing the structures to leave a free-standing flexible active device. Central processing units as well as sensors and memory could be integrated within one fibre by the interconnection of transistors. Computing fibres can be interwoven into everyday objects to create artefacts, which could be interconnected with each other or with their surroundingsOBJECTIVESThe objective of the FiCom project is to incorporate the computing power into materials that are shaped into fibres. Fibres either exist in the structure of, or can easily be implemented into objects. An ordinary object can be turned into an artefact that can compute, sense or remember with the incorporation of such fibres. It will create the fundamentals for the realisation of a literally disappearing computer and integrate information technology into everyday objects.DESCRIPTION OF WORK1. Selection of suitable materials for fibre production. Conventional semi-conducting materials will be examined in terms of the suitability of the project aims. Necessary modifications to device process technology will be performed in a co-development phase along with new fibre material development;2. Fibres will be produced from selected materials with desired purity, electrical and physical properties. The best method for the creation of fibres and the manufacture of transistors on the fibres will be selected through experimental studies and trial technology developments;3. Process technology experiments will be performed to determine the best way to use conventional planar process technology to build transistors on extruded fibres, which by definition have topographical and linear variations;4. A new recently patented approach to the formation of fibre technologies will be investigated to determine the limits of the technology and its market potential;5. A survey of what the market requires in terms of embedded electronics will be performed to establish the types of circuit that need to be designed and the constraints that are imposed upon the design process. Also some experimental prototypes will be fabricated with discrete components to establish a wearable electronics profile and to get feedback from the market place;6. Circuit module designs constrained by the physical nature of the fibre will be performed and validated through circuit simulation;7. Schemes for encapsulating the fibre and connecting it to the outside world will be evaluated as well as the determination of the most appropriate storage method for electronics fibres whilst they are awaiting use in the application. Fields of science engineering and technologymaterials engineeringfibersengineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringcomputer hardwarecomputer processorsengineering and technologymaterials engineeringtextilesengineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors Programme(s) FP5-IST - Programme for research, technological development and demonstration on a "User-friendly information society, 1998-2002" Topic(s) IST-2000-6.2.1 - P1: The disappearing computer Call for proposal Data not available Funding Scheme CSC - Cost-sharing contracts Coordinator UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK Address Western road Cork Ireland See on map EU contribution € 0,00 Participants (3) Sort alphabetically Sort by EU Contribution Expand all Collapse all ISD INTEGRATED SYSTEM DEVELOPMENT S.A. Greece EU contribution € 0,00 Address K. varnali 22 15233 Halandri athens See on map KSI KLAUS STEILMANN INSTITUT FUER INNOVATION UND UMWELT GMBH Germany EU contribution € 0,00 Address Lyrenstrasse 13 44866 Bochum See on map SWISS FEDERAL LABORATORIES FOR MATERIALS TESTING AND RESEARCH Switzerland EU contribution € 0,00 Address Ueberlandstrasse 129 8600 Duebendorf See on map
