Occupying the Imperial College Union Building and its leafy courtyard just south of the Royal Albert Hall, scientists, designers and engineers showcased their projects aiming to enhance the basic ingredients for a better life. Research topics included 'Freedom to explore', 'A place to call home', 'Space to create', and 'Health and wellbeing'.
Visitors checking out products displayed in the garden pavillions
Sports Innovation Challenge is a project challenging engineering students to design, build and implement Paralympic sporting equipment. The cross-faculty programme encourages collaboration across various departments within Imperial College London including Bioengineering, Design Engineering, Electrical & Electronic Engineering and Mechanical Engineering.
Amphibious leg that supports both walking on soft surfaces and swimming
This prosthesis for below-knee amputees is designed to enable the wearer to go to the beach. The foot's twin-toe construction supports walking on soft surfaces, while the 'fins' protruding outwards aid in swimming.
'Gnar' mono-skiing outrigger by Filippo del Carlo, Ian Goode, Lotta Julkunen, and Jungkyung Lee
Mono-skiing outrigger Gnar is designed to improve the skiing experience for people with lower body disabilities. Getting back into position after a fall often poses a challenge for these skiers as they need assistance, with current outrigger designs too short to provide sufficient leverage. The simple but smart addition of a telescopic function with an added handle to lengthen the pole helps them get back up quicker for a more dynamic and enjoyable skiing experience.
'Propel' wheelchair by Andrew Goodhead, Ujjval Jaipuria, Kartikeya Rana, and Kathryn Sayer
'Propel' is a wheelchair system custom-designed for Paralympic swimmer Andrew Mullen. To take advantage of Andrew's strong right leg, the designer attached a pump action mechanism to the footrest that generates propulsion.
A student demonstrating the innovative braking mechanism of 'Propel'
A further improvement to the wheelchair is the addition of two ergonomically moulded levers that serve for both steering and braking, taking into account that Mr Mullen doesn't have hands.
'37°' by Iddo Wald
An everyday problem I can very much empathise with is cold feet. Design engineering graudate Iddo Wald has created a passive, natural system to make sure the wearer keeps her toes warm for as long as possible. It uses an undisclosed advanced thermally conductive material called 37°, that leads warmth from the heat-creating calf muscle to the less muscular, but more sensitive toes and top of the foot.
The textile characteristics of 37 degrees are similar to those of carbon fibre, shown in this example.
The secret material in use is not a new invention, but has never been used like this in a textile form, the designer tells me. The textile design element of the project was realised in collaboration with Gemma Charlotte Brown.
Iddo Wald demonstrating the conductive strength of 37° compared to copper, wool and steel.
Anki is an independent design consultant working in product innovation, design strategy and user experience. She balances her own projects with consulting jobs for small and international companies including CrowdShed, trivago and Vodafone. Her work has varied from designing a FAD award winning baby chair and 3D interfaces for social network applications to strategy consulting for startups. Having earned her Diplom and Masters in Cologne, Sydney and Barcelona, she now splits her time between London and Cologne, and has made her suitcase an integral part of life. On the hunt for inspiration, she writes about design and travel, and is currently investigating designs for small spaces while renovating her tiny West London flat. She loves everything collapsible and responsive.