The frenzy to stuff gear into the overhead lockers is one of the most maddening aspects of modern air travel, but imagine if you had your own personal storage area.
What if you didn’t have to spread your belongings between lockers 10 rows apart and then dodge and weave to retrieve them in the face of a muttering torrent of de-planing passengers.
How about your own compartment in the floor to store essential items, free up overhead space and stop the cabin crew telling you off for gear strewn around your feet?
This simple solution to airplane storage space has won a team of students from the University of Hong Kong a $33,700 prize as winners of Airbus’ fifth Fly Your Ideas competition.
‘Improved passenger experience’
The plan for a hinged bin could be rolled out on airlines around the world after judges were taken by the innovative idea, submitted by Team DAELead.
“The judges were impressed by the vision and skill of Team DAELead in seeing such a simple but effective solution for improved passenger experience,” says a statement on the Fly Your Ideas website.
“The new aircraft cabin design fully utilizes the space between the cabin floor and the cargo ceiling to give the passengers their own personal luggage space.”
In the competition, students worldwide are challenged to create solutions in five key areas of the aviation industry – business models, flight operations, passenger experience, design engineering and manufacturing.
Nearly 5,500 students registered for the 2017 competition and 356 teams entered the first of three rounds.
Five teams were invited to the finals week in Toulouse, France, to develop their prototypes with Airbus experts.
The runners up, Aquarius, from Royal Melbourne Institute of Technology (RMIT), developed an idea to turn a military A400M aircraft into a wildfire-fighting machine.
Since the Fly Your Ideas competition launched in 2008, more than 20,000 students from over 650 universities in over 100 countries worldwide have taken part.
These are just some of the ideas devised by university students from across the world competing in the Airbus Fly Your Ideas contest. The biannual global student challenge in partnership with UNESCO attracted over 500 entries from 104 countries, which have been narrowed down to five finalists. The winning team will be announced on May 27, taking home a cash prize of 30,000 euros ($32,900).
"Fly Your Ideas is all about inspiring the next generation of innovators to apply some fresh thinking and their own experience to sustainable future solutions for the aviation industry," says professor Ian Lane, senior expert of composite analysis at Airbus.
"True innovation is a result of diversity, which is why we're so pleased that students from all different backgrounds and from all over the world have come together to take part in this competition," he adds.
CNN takes a peek into the work of the five finalists.
Team Birdport from the University of Tokyo wants to minimize the number of these collisions with drones which will lead wildlife to a designated safe area away from planes. "Our drones guide a bird flock by circling around the flock while it is slowly moving to an airport," says Birdport team leader Santoshi Miyarani. "According to our initial simulation, we may need up to 30 drones to guide 100 birds to the so-called 'birdport,' the safe haven away from the airport and aircraft," he adds.The safe zone would be located six miles away from the runways, and once the flock is on site, the team would deploy decoys and birdsong in order to keep them there.
"The idea focuses on design and development of multifunctional materials for next generation aerospace applications," says Sathiskumar Anusuya Ponnusami, the team leader. "Our project explores multifunctional capabilities such as energy harvesting and storage in advanced composite materials for aircraft applications. This will further reduce the carbon footprint as additional energy is harnessed from vibrations, which goes to waste otherwise," he adds.
The team thinks that this approach would also store enough energy for ground operations such as taxiing, which is currently driven by the plane's engines.