Centre for Process Innovation

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  1. shinichi says:

    Windowless Fuselage

    View CPI’s vision for the future of aerospace, where large OLED displays replace windows to transform your journey.

    Centre for Process Innovation (CPI)



    Aerospace Windowless Aircraft – The Future Inspired by CPI

    by Centre for Process Innovation (CPI)



    The Windowless Fuselage

    Imagine a cabin where the windows are display screens, relaying a choice of views from around the aircraft. If you’re not sitting in a window seat, your large seat-back display becomes your window on the world as well as a source of entertainment.


    Supplement this with subtle cabin lighting from gently glowing walls and you create a unique travel environment. Screens that are ultra thin, very light and highly flexible are integrated with the fuselage or the seat backs with no unsightly, clumsy or heavy housings.

    Less weight more savings

    Weight is a constant issue on any aircraft. Over 80% of the fully laden weight of a commercial airliner is the aircraft itself and its fuel. For every 1% reduction in weight, the approximate fuel saving is 0.75%. If you save weight, you save fuel. And less fuel means less CO2 emissions into the atmosphere and lower operational cost… everyone wins.

    CPI is working with companies to develop flexible OLED technologies for the aerospace industry

    High Definition Displays on plastic
    ・ High quality flexible displays that can be embedded into fuselage lining panels
    ・ Displays that are ultra thin and extremely lightweight

    Continuous, roll-to-roll processes that can deliver all the components required
    ・ Cost effective roll to roll processes of lighting and display screens that can be incorporated into fuselage lining panels
    ・ Innovative protective coatings that ensure that these displays and lighting last for the service lifetime of the aircraft
    ・ Lightweight printed wiring looms can provide multiple conductors for security
    ・ Digital print systems that can provide not only the highly detailed designs necessary to make displays, but also to do this over large areas, so that designers have flexibility over the size of the screens that they use in the cabin
    ・ Real time, continuous testing systems that ensure that maximum yields are achieved in manufacturing these components


    CPI has developed the technology roadmaps for printed electronics and has produced concepts that can realise the promise described above.


    The entire inner surface of the fuselage – or selected sections – can be covered with thin high definition, flexible displays screens onto the fuselage: either directly, or onto modular lining panels that can be used to conceal cabin utilities. This ‘multi screen’ approach means that panels can be used either as displays or for lighting, depending upon the cabin seating layout and seat pitches. This arrangement also has advantages over a single long screen running the length of the fuselage as any display faults could result in the removal of the virtual windows and lighting from an entire side of the aircraft, where the electrical losses in the system would be significant. Another advantage in this arrangement is that the system offers more flexibility in correcting the displayed images for parallax; this will increase the sensation of looking out of a window, rather than looking at a projected image. Internal tracking cameras could be used to project the image onto the screen from the point of view of the passenger- moving the image in accordance with the movements of the passenger’s head.
    Images would be relayed from a series of cameras mounted on the fuselage, potentially giving each display an uninterrupted view of the exterior (avoiding the wings and engines). Users in any seat will be able to select views from any side of the aircraft. It would not be necessary to reflect the actual view seen from a particular seat, so the cameras could be mounted in the most aerodynamically efficient positions on the aircraft. The lighting panels would allow the colour changes associated with sunrise and sunset to be controlled on long haul journeys, helping passengers to adjust to time zone differences.

    How this would be achieved

    Using roll to roll manufacturing techniques that are currently in development at CPI, these screens could be produced at a cost that is unlikely to be any more than current displays. It will take around five years to take these processes to the point at which they are ready for full production. Of course, pre-production screens can be produced in the meantime using plastic bond/de-bond techniques and panel based lithography techniques.

    CPI believes that these effects could be achieved with 50 cm high screens that match the technical specification below.

    Technical specification:
    150 dpi colour resolution
    100 cd/m2 display luminance
    20,000 hours lifetime (before replacement)

    How this would be delivered

    CPI is a member of the UK’s prestigious High Value Manufacturing Catapult, a network that combines seven world class centres of industrial innovation to accelerate the commercialisation of new and emerging technologies into world beating products, for aerospace and other high value industries. CPI owns or has access to the best research and development facilities in the UK, aviation products and processes can be tested for proof-of-concept within CPIs laboratories and validated at scale through to commercial exploitation, on the ground and in the air.

    CPI and the High Value Manufacturing Catapult would use their extensive networks to create a consortium of partners to deliver the benefits of such a programme. By creating an efficient manufacturing supply chain for windowless fuselage technology, the solutions developed can be rapidly commercialised.

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