UK Autodrive completes proving ground trials

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The UK’s largest collaborative trial of connected and autonomous vehicle technology has been given the green light to move out onto city streets, after the UK Autodrive consortium successfully completed its final set of private test track demonstrations.

Project partners Jaguar Land Rover, Ford and Tata Motors European Technical Centre (TMETC) came together at the HORIBA MIRA Proving Ground in Nuneaton on Thursday to demonstrate a series of connected car technologies that are now ready to be trialled on the roads of Milton Keynes and Coventry, while Jaguar Land Rover also presented the latest version of their automated vehicle technology.


The three vehicle manufacturers are all taking part in the £20 million UK Autodrive research and development project, jointly funded by government and industry.

UK Autodrive is the first project in the UK to showcase the benefits of having cars that can “talk” to each other across multiple makes of car. During Thursday’s event, the car-makers jointly demonstrated three of the seven connected car features (see full list below) which are being trialled during the three-year programme.

The first demonstration (Emergency Vehicle Warning) showcased cars that can warn their drivers when an emergency vehicle is approaching – as well as indicating its direction – minimising congestion and potentially reducing the time it takes for ambulances, police cars and fire engines to reach their destination.

During the second demonstration (Intersection Collision Warning), the connected cars were able to detect the presence of other connected cars on approach to a junction, and warn whenever there was a high probability of a collision.

The third demonstration involved ‘In-Vehicle Signage’, whereby connected cars can receive traffic information sent from road-side units, ensuring that drivers do not miss out on important notifications, such as changes of speed limit or temporary lane closures.

Jaguar Land Rover used Thursday’s event to demonstrate their research technology, Autonomous Urban Drive. An automated Range Rover Sport fitted with the prototype technology was able to navigate its way around an urban-style road network, successfully negotiating roundabouts and junctions while also steering around obstacles.

“The successful completion of the proving ground trials marks a significant milestone for the project team, and we are now looking forward to demonstrating the benefits of these exciting new technologies in the real-world settings of Milton Keynes and Coventry,” said Tim Armitage, Arup’s UK Autodrive project director.

“Once the technology becomes widely available, we anticipate huge potential benefits in terms of road safety, improved traffic flow and general access to transport, so we’re really excited about being able to demonstrate this on real roads.”

The first set of public road trials are due to take place in Milton Keynes and Coventry by the end of this year, initially on segregated sections of roads, before evolving into open road trials and demonstrations as the project draws to a close in summer 2018.

A fleet of up to 40 self-driving pavement-based ‘pod’ vehicles will also be introduced in pedestrianised sections of central Milton Keynes as a separate part of the project.

List of connected car features being trialled within the UK Autodrive programme:

Emergency Vehicle Warning (EVW) – Sends a signal directly from the emergency vehicle (e.g. ambulance, fire engine, police vehicle) to nearby connected cars. Driver is informed that the emergency vehicle is approaching and advised to make way for it.

Intersection Collision Warning (ICW) – Warns the driver when it is unsafe to enter an intersection, due to a high probability of collision with other vehicles.

In-Vehicle Signage (IVS) – Sends information about road conditions, congestion or other incidents directly to the in-car display, rather than having to rely on expensive gantry systems.

Electronic Emergency Brake Light (EEBL) – Alerts the driver when a vehicle in front suddenly brakes, providing advanced warning, especially when the driver is unable to see the lights of the braking vehicle due to weather conditions, road layout or other vehicles in between.

Green Light Optimal Speed Advisory (GLOSA) – Sends traffic light information to the connected car which is able to calculate the optimal speed for approaching the lights, potentially minimising the number of red light stops, improving traffic flow and reducing emission levels from idling vehicles.

Intersection Priority Management (IPM) – Assigns priority when two or more connected vehicles come to an intersection without priority signs or traffic lights.

Collaborative Parking – Provides real-time information about free parking spaces either in the vicinity or close to the driver’s final destination.