Ford is exploring how choregraphing connected cars at junctions could one day enable drivers and passengers to enjoy free-flowing traffic and avoid the stress of stop-start driving
Taking inspiration from how pedestrians adjust their speed to avoid those crossing their path, the company is already testing technology that could advise drivers to slow down or accelerate to avoid a collision with vehicles approaching from other directions
Ford trials Intersection Priority Management, enabled by vehicle-to-vehicle communications, as part of UK Autodrive testing; demonstrates further tech that could help prevent accidents, reduce emergency vehicle response time
Imagine a world where negotiating busy junctions does not require you to wait at a red light and the only reason to stop your car is because you have arrived at your destination.
Ford is trialling a new way in which connected car technology could set us on that journey – and that takes its lead from how humans negotiate their way through busy crowds, by slowing down or speeding up to avoid collisions, without coming to a standstill.
Intersection Priority Management (IPM) – being demonstrated this week on the streets of Milton Keynes, U.K., as part of the government-funded UK Autodrive programme – aims to keep drivers driving and bring an end to unnecessary stops at junctions, both easing traffic flow and increasing safety and efficiency.
“We know that intersections and traffic lights can be a real bugbear for many drivers,” said Christian Ress, supervisor, Driver Assist Technologies, Ford Research and Advanced Engineering. “With the connected car technology we have been demonstrating this week, we envisage a world where vehicles are more aware of each other and their environment, enabling intelligent cooperation and collaboration on the roads – and around junctions.”
Every year, the average driver spends two days waiting at traffic lights. And not only can junctions be frustrating – they are also the cause of up to 60 per cent of road traffic accidents. As well as saving time, avoiding stopping at junctions could also save fuel, as drivers avoid braking and accelerating away from the lights.
IPM uses vehicle-to-vehicle (V2V) communications to coordinate with other vehicles in the vicinity and suggests optimum speeds that will allow cars to safely pass by each other at intersections without coming to a halt.
For the trial, test cars have been equipped with V2V communication systems that broadcast the vehicles’ location, direction of travel and speed. The onboard IPM systems are able to identify an upcoming junction and the trajectory of other vehicles approaching it. It will then suggest an optimum speed for each vehicle as they approach the junction that will allow them pass through safely.
The vehicles in the trial have people behind the wheel, but it is envisaged that autonomous vehicles could also benefit from the technology. Automating how vehicles negotiate junctions with each other in this way that may mean that, one day, vehicles could pass through safely and efficiently without the need for traffic lights or road signs. While today’s autonomous vehicles operate independently using the sensor technologies and map data on board, V2V and vehicle-to-everything (V2X) communications technologies could benefit the driverless cars of the future.
IPM builds upon other connected-car technologies developed by Ford and its project partners as part of UK Autodrive, a £20 million programme taking self-driving and connected car technologies from the test track to the streets.
Among the technologies showcased during the two-year programme – which comes to an end this week – are Intersection Collision Warning, which alerts drivers of potential accidents when approaching an intersection, and Green Light Optimal Speed Advisory (GLOSA), which helps cars to synchronise with nearby traffic lights to help them avoid getting stuck on red.
Other features demonstrated include Collaborative Parking – which builds a crowd-sourced map of a car park’s available spaces – and Emergency Vehicle Warning, where drivers are advised of the location and distance of an approaching emergency vehicle.