See the results of the Future Agenda programme on our new site

Intelligent Highways

Mesh networks and ubiquitous mobile connections deliver the much heralded intelligent highway to improve safety and increase capacity while at the same time reducing congestion

The intelligent highway is a term used by many in the automotive industry and government bodies to describe a world where cars don’t crash, congestion does not occur and there are no accidents; a world where cars automatically detect a problem ahead and avoid it through either slowing down or taking alternative routes. Intelligent highways, when they arrive, will significantly reduce the number of deaths on the road, make travel smoother and faster and, all things being equal, means that we use less energy for mobility. The dream of transport professionals has been much discussed, has been the focus for multiple programmes over the years and led to many false starts. However, in the eyes of many, the reality is on the horizon and with forthcoming regulation, technology deployment and cooperation between manufacturers, looks like being part of our world by 2020.

Although private cars are a primary focus, commercial vehicles are just as important. As intelligent highways expert Richard Bishop commented on the Future Agenda blog “in the USA new truck-exclusion roads are being studied for construction in parallel to major interstate highways – for congestion relief. I think this will be become reality – and when it does trucks can start to cooperate with each other for greater fuel efficiency and lower emissions. This is the platoon idea, and in its fullest form you have roadways full of nothing but robotic trucks. This will be very much within our reach within 10 years and the implementation issues revolve around the business case, road facilities, etc.”

At the extreme, intelligent highways enable the driverless car – an autonomous vehicle that drives itself from point A to B selecting the best route, avoiding congestion and choose speed and distance from other vehicles to ensure that there are no accidents. This is what you see played out in science fiction movies from Batman and Total Recall to Minority Report and iRobot. Over the years and starting way back in Japan in the 1950’s there have been several research programmes focused on this ambition including the Prometheus Project in Europe in the late ‘80s / early 90s, the ARGO project in Italy, the FROG project in The Netherlands, the DARPA Grand Challenge in the US and most notably for the media the 1997 San Diego Automated Highway demonstration that had a number of driverless cars following each other down a 12km test site: On the open road, in 1995 a Mercedes Benz drove from Munich to Copenhagen and back using saccadic computer vision and achieved speeds of over 175km/h over distances of up to 150km with human intervention; the ARGO project used stereoscopic vision algorithms to follow the white lines in the road for 2000km with the car in fully automatic mode over 90% of the time; and, after previous competitions in the desert, in the 2007 DARPA Grand Challenge a team from Carnegie Mellon University won the prize for a car that autonomously navigated through an urban environment. In 2008, GM announced that it would start testing driverless cars by 2015 ahead of launch in 2018.

At the next step down from fully autonomous vehicles, assisted driving is increasingly common in cars of today. Adding to the long-standing cruise control capability, manufacturers have variously introduced lane departure warning systems, anti-lock braking, traction control, night vision, rear view alarms and automatic parking. Additional development such as automatic emergency braking, intelligent speed adaptation and predictive cruise control are also on the horizon. All these technologies help the driver control the car more efficiently and so are proven ingredients for the overall intelligent highways ambition. As Volvo, one of the leaders in automotive safety over the years have put it “in principle, a future Volvo will be able to ‘speak’ to an oncoming vehicle, potentially communicating: You and I are about to collide head-on. If our drivers don’t react we have to do something to avoid the danger.”

However, the missing step is the integrated systems that allow cars to communicate seamlessly with each other and the ecosystem through which they are moving. This is the key network that will allow interaction between the moving and fixed nodes – i.e. vehicles and traffic signals etc. While some of the initial experiments focused on embedding sensors into and alongside roads, thinking has quickly evolved to take advantage of GPS and 3G / 4G mobile systems. With vehicle infrastructure integration, as some are calling it, standard wireless protocols will allow cars to communicate with each other and with traffic signals while government agencies, car manufacturers and traffic control systems will be able to communicate directly with every vehicle.

In the US there has been significant focus on intelligent highways as a means to reduce the 42,000 traffic fatalities that occur every year as well as the $230bn of losses from wasted fuel, emergency response costs, 6.3m insurance claims and medical bills. Aiming on connecting 150m vehicles to the internet, companies such as Google, Cisco and Microsoft have all announced plans for advanced transportation communication networks.

In the UK and Canada, Aviva, the insurance company, launched a product that paves the way for consumer acceptance of some of the key technologies: The Pay As You Drive insurance system used standard mobile SIM cards within cars to allow them to be tracked continuously. The upside for customers was cheaper insurance depending on where and when you drive, but the system proved that at a large scale vehicle tracking is already fully practical. This type of technology is being implemented in Europe over the next couple of years under the eCall in-vehicle programme for emergency assistance, but also allows other options such as road pricing without toll-booths to come into place. Other systems use Radio Frequency (RF) tags to communicate with and between cars (Zipcar uses this system to allow people access to its car-sharing services), while countries like Singapore, an early adopter of road pricing, is now looking at wider GPS based systems. Together, these not only enable safer driving but are also the gateway to a wider shift in the currency of travel. Some workshop participants saw that new payment systems where fuel, insurance, vehicle use and travel overall are charged by distance are now on the horizon.

However, while Western economies have invested most to date in the concept and testing of intelligent highways, some workshop participants felt that the breakthrough in terms of implementation of a viable, scalable system may first occur in India. With companies like Tata having a significant interest in both the automotive sector and the ITC sector, some see that a partnership between Tata Motors and Tata Consulting could kick start a mesh network approach to more assisted driving and eventually the intelligent highway.

While there are therefore a host of different systems in development around the world, a critical issue for implementation will be the adoption of a common system: A recent comment by Booz & Co highlighted that, “from a policy perspective, there is little question but that an open standards approach, which would allow all to use the same technology would be best.” Ford has taken a step forward towards this in adopting in-car WiFi system powered by customer’s USB mobile broadband modem, turning the entire car into a hot spot – in the words of a workshop participant from the communications sector “paving the way for the car the 4th space for mobile connection.”  For the mesh networks than many see as being the catalyst for the next generation of intelligent highway design to deliver the goods, all cars, traffic signals and integrated infrastructure have to use the same system to enable fast and free transfer of data. Just like the internet itself, no one will own this system-wide network but everyone’s and everything’s participation will make it work.

The other big hurdle is social acceptance of intelligent highways and, by implication, autonomous vehicles. The UK government for example sees that, while much of the technology and systems are available and proven, it will be 2015 before many of the legal and consumer issues are agreed: Trusting the system rather than the driver to control the car is no easy step. As Markus Armbrust, manager of advanced driver assistance at GM was quoted as saying “drivers will not want to give up all the fun.” Many however are confident that once the benefits of safer, quicker travel is evident, for the majority of drivers the option of joining a smooth intelligent highway system rather than the usual tail to tail commute will become increasingly attractive. There are clearly a number of outstanding issues to be dealt with but, given the impetus and the number of vehicles being added to the global infrastructure every day, the world in 2020 may well be a world of intelligent highways.

Popularity: 4% [?]

Speak Your Mind

Tell us what you're thinking...
Just to prove you are a human, please type the characters displayed below, Thank you!