“Chaotic” roads will stall self-driving cars

The Road Safety Markings Association (RSMA) has responded to the UK government’s announcement giving driverless cars the go-ahead on UK roads, saying that it points to an exciting future, but hampered at the outset by the daily routine of road works, potholes, worn road markings, burst mains and failed traffic lights. “By 2025, at least half the travel on Europe’s roads will be in vehicles that can read the road ahead including markings and signs. But vehicles, like drivers, cannot function if basic road
July 31, 2014 Read time: 2 mins

The Road Safety Markings Association (RSMA) has responded to the UK government’s announcement giving driverless cars the go-ahead on UK roads, saying that it points to an exciting future, but hampered at the outset by the daily routine of road works, potholes, worn road markings, burst mains and failed traffic lights.

“By 2025, at least half the travel on Europe’s roads will be in vehicles that can read the road ahead including markings and signs. But vehicles, like drivers, cannot function if basic road markings and signs are non-existent, non-compliant, worn out, obscured, inconsistent or confusing,” says George Lee, national director of the RSMA.

“In spite of the best efforts of local authorities and utility companies, road works are frequently chaotic, and difficult to negotiate for even the most experienced driver.

“We know from our own extensive survey of the UK’s local and national road network that half of markings need replacing immediately or scheduled for replacing.

“Poor maintenance and worn and inconsistent road markings and traffic signs are now a major obstacle to the effective use of technology in vehicles, such as lane departure warning and traffic sign recognition.

“The prospect of self-driving cars is exciting; the reality of cars that can read roads is already with us; but it would be a huge step forward if we could have roads that can be read easily by humans – who still account for the vast majority of road users,” says Lee.

Location Based Systems Urban Traffic Control

Related Content

  • Wavetronix radar-based traffic sensor cuts costs
    May 30, 2013
    While initial cost of radar based detection may be higher than that traditional loops, lower maintenance costs more than balance the books. Following successful field tests, the US city of Greenville, North Carolina, has recently agreed a new policy of phasing in Wavetronix traffic sensor technology’s radar-based SmartSensor Matrix system across its signalised traffic intersections. City traffic engineer Rik DiCesare expects the incremental implementation to deliver benefits to both the city’s taxpayers an
    Read More
  • Developing new detection and monitoring technologies
    November 21, 2012
    Established detection and monitoring technologies continue to evolve, but is it time to challenge their supremacy and take a serious look at less conventional ITS? Andy Graham considers the options with Jason Barnes. For ITS system providers, the most potentially lucrative markets over the next few years are going to be the BRIC (Brazil Russia India and China) group of countries, all of which are building many miles of new roads, applying tolling to existing ones (8,000km in China alone) and implementing w
    Read More
  • Developing Mexico's ITS standards and infrastructure
    February 28, 2013
    Promoting open market conditions for ITS deployment remains a major part of Mexico’s recent infrastructure modernization program. Travis P Dunn, partner at D’Artagnan Consulting, looks at the progress so far. In the past six years, Mexico has embarked on an ambitious infrastructure modernization program, calling for the construction and improvement of more than 19,000km of road infrastructure and the deployment of advanced technologies that improve safety, efficiency, and convenience for road users. One of
    Read More
  • Daimler’s double take sees machine vision move in-vehicle
    December 13, 2013
    Jason Barnes looks at Daimler’s Intelligent Drive programme to consider how machine vision has advanced the state of the art of vision-based in-vehicle systems. Traditionally, radar was the in-vehicle Driver Assistance System (DAS) technology of choice, particularly for applications such as adaptive cruise control and pre-crash warning generation. Although vision-based technology has made greater inroads more recently, it is not a case of ‘one sensor wins’. Radar and vision are complementary and redundancy
    Read More

Highlighted Content