Airbus has shortlisted the five finalist student teams competing in the fifth edition of the Fly Your Ideas challenge. The radical concepts selected cover a wide range of innovations going from an alternative to satellite imagery to improved aircraft taxiing, clever ways of boarding, new areas for luggage storage or offering a new business model using existing Airbus aircraft.
Representing nine different nationalities and eight universities across Africa, Europe and Asia-Pacific, the five finalist teams embody true diversity, which is a key driver of innovation and performance. The students, competing for a €30,000 prize, also demonstrate a wide variety of disciplines from Natural Sciences to Engineering and Business.
Their inventive ideas were selected from over 350 entries in Airbus’ biennial global student competition, run in partnership with UNESCO. Students’ ideas had to answer one of five challenges identified by Airbus to provide sustainable future solutions. The innovations proposed by the five finalist teams look at alternative business models, passengers’ experience and flight operations.
The five finalist teams – from Australia, France, Hong Kong, Nigeria and the UK – will soon travel to Toulouse, France, where they will spend a week at the Airbus ProtoSpace facility to prototype, test and visualise their ideas using state-of-the-art equipment with personal guidance from Airbus. At the end of their week at Airbus, the students will present their innovative projects and the newly developed prototype in front of Airbus experts and personalities from the aerospace and academic world.
The ideas competing for the final prize are:
Airborne Earth Observation – Team SkyVision, University of Surrey, UK
A radical concept that turns a commercial airliner into an ‘Earth Observation Device’ by installing equipment into the belly of the aircraft to monitor ground activity during flight. An alternative to satellite imagery, it opens up new opportunities such as ecology analysis and urban planning.
Improving Airport Taxi Flow and Efficiency – Team Nevada, Obafemi Awolowo University, Nigeria
An airport taxiing system that uses sensors and algorithms for automated Ground Traffic Control, both in the tower and on the aircraft, to significantly improve aircraft traffic at airports and thus reduce emissions.
Compact Luggage Strategy Mobile App – Team PassEx, Institut d’Administration des Entreprises – IAE Toulouse, France
A revolutionary boarding system that uses a real-time mobile app to assign boarding status to passengers according to their luggage size. The Compact Luggage Strategy (CLS) addresses current storage issues in over-head compartments by distributing passengers across the aircraft according to the size of their baggage.