After spending months in the labs at aerospace engineering company Leonardo, Euan has developed an algorithm that could transform the capability of driverless cars, through the addition of radar technology that is protected from radio frequency interference. This could pave the way for the widespread use of fully autonomous vehicles in built-up or busy areas.
At present, self-driving cars and uncrewed aerial vehicles rely on conventional sensors to avoid collisions, but these can only detect threats within a certain radius. As these modern vehicles move towards full autonomy, their sensing capabilities must evolve to provide accurate measurements of their surroundings over greater distances. In order to satisfy this requirement, commercial vehicle developers have turned to radar technologies, which are very successful sensors in the aerospace, marine and aviation industries.
As the use of fully autonomous vehicles grows over the next decade, the potential for interference between systems will pose an ever-increasing threat to these vehicles’ safety. Unfortunately, the radar will not be immune to this effect, so it must learn to operate in an environment crowded with radio frequency energy.
Last week, Euan got the chance to explain the new technology to HRH The Princess Royal, when he was one of just six ‘Royal Commission for the Exhibition of 1851’ fellows asked to present his findings at a Presidential dinner at the Fishmongers Hall in London. The Princess Royal commented that experiments using radar technology on driverless cars had so far been carried out in dry climates such as Arizona, where straight empty roads run for miles. She asked Euan how his radar solution might fare on the busy weather-beaten roads of the Scottish Highlands.
Euan said: “It was a very perceptive question, as one of the big uncertainties surrounding the driverless car is how it will handle more challenging road and weather conditions like we often have in Scotland. Fortunately, I was able to confirm that unlike the other sensors on the driverless car, radars are able to maintain their operational performance in inclement weather, which is also true for the techniques developed in this PhD. This will mean that for somewhere like Scotland, where the weather is often unpredictable, the radar sensor will become even more critical for the safety of the driverless car, which brings into sharp focus the need for us to have techniques that can guarantee its reliability.”
Euan originally undertook his PhD at The University of Edinburgh, where he developed new techniques to protect modern radar systems against harmful interference. It was during his time as a graduate at Leonardo that he became aware of the interference challenge facing modern radar sensors, so he took an interest in finding solutions to this complex problem.
With the support of Leonardo, Euan pursued his PhD, spending four years developing technology that could allow low-cost radar systems to maintain their performance when operating in close proximity to one another. Alongside his experiments at Leonardo, his industrial career continued to grow and he was frequently invited to meetings to give his input and learn alongside experienced engineers.
During his second year of study, Euan was awarded an Industrial Fellowship by the Royal Commission for the Exhibition of 1851 that is given to the brightest new talent emerging across the UK. Set up by Prince Albert during the industrial revolution in 1851, the Fellowship supports research in British industry. When the Princess Royal’s father HRH Prince Philip took over as patron in the 1960s, he revolutionised the focus of the awards. He suggested that it should be expanded to incorporate engineering, industry, art and design, to bring together emerging talent with experienced experts in the field. Over the decades, this has had the effect of giving new talent access to unique opportunities to heighten their expertise, bolstering British industry’s national skills base.
Euan, who is now a Senior Systems Engineer at Leonardo, was mentored though his PhD and Industrial Fellowship by Lead Systems Engineer, David Greig, who said: “Euan proves how exciting Industrial PhDs can be, as he has driven his novel techniques towards real-world applications within a much shorter timeframe. He is already regarded as a subject matter expert on radar technology at Leonardo. Industrial PhDs that combine academic learning with live industrial experience can create the radar experts we need for the future.”