Public and Private Sector Leaders Call for Deployment of Intelligent Transportation Systems and Smart Technologies

May 20, 2009 at 11:09 am

(Source: National Transportation Operations Coalition)

A coalition of transportation and technology leaders – including state and local officials, industry and academic leaders and prominent stakeholder organizations – is calling on Congress to focus federal funding in the surface transportation authorization bill on the deployment of smart technologies and innovative solutions in order to create a performance-driven, intermodal transportation system that is safer, cleaner, more efficient and more financially sustainable for communities, businesses and the traveling public.

America’s transportation system is facing significant challenges that must be addressed in the next surface transportation authorization bill, from financing our transportation system and reducing traffic fatalities to combating congestion and CO2 emissions. Solving these challenges will require transportation agencies and private sector partners to use all of the tools at their disposal, including intelligent transportation systems (ITS), related technologies, and multimodal operational strategies that can help prevent accidents before they happen, reduce traffic congestion and freight bottlenecks, provide more effective incident and emergency response, reduce energy use and emissions, and enable innovative 21st century financing options.

“As a result of successful research initiatives and private sector innovation, technologies are here today which can help increase safety, reduce congestion and emissions, boost competitiveness, improve system performance, and create more livable and sustainable communities,” the coalition wrote today to House transportation leaders. “While a continued and strengthened research role is still needed, it is critical that state and local agencies and private sector partners make better use of technology to modernize today’s infrastructure and optimize existing capacity, while building smart and efficient roads, bridges, transit systems, and multimodal transportation options for tomorrow’s transportation users.” 

Transport for London moves ahead with testing of Intelligent Speed Adaptation Technology

May 12, 2009 at 6:39 pm

(Source: Green Car Congress)

Transport for London (TfL) will begin a six-month trial ofIntelligent Speed Adaptation (ISA) technology which aims to reduce road casualties and help drivers avoid speeding penalties.  As part of the trial, which will start this summer, a London bus will be fitted with ISA.   The trial will monitor driver behavior, journey times and the effect that driving within the speed limit has on vehicle emissions. ISA uses the digital speed limit map of London which TfL launched on 29 January 2009. This is the first time all of London’s speed limits have been mapped accurately with regular updates.

It is estimated that if two thirds of London drivers use the ISA system, the number of road casualties in the Capital could be reduced by 10%

This innovative technology could help any driver in London avoid the unnecessary penalties of creeping over the speed limit, and at the same time will save lives. We know the technology works, and now we want to know how drivers in all types of vehicles respond to it. ISA is intended as a road safety device, but if Londoners embrace this technology we may well see additional benefits including reduced congestion as a result of collisions and reduced vehicle emissions as drivers adopt a smoother driving style.

—Chris Lines, Head of TfL’s London Road Safety Unit

Isamap

The UK government’s Commission for Integrated Transport (CfIT) and the Motorists’ Forum (MF) recently issued a joint report evaluating the impact of implementing an Intelligent Speed Adaptation (ISA) system across the entire road network on reducing deaths and injuries on the UK roads and on reducing fuel consumption and emissions of CO2 and criteria pollutants.  Of the two proposed benefits of ISA—GHG emissions reduction and increased road safety—the report concluded that the calculated social benefits of the accident savings far outweigh the values of fuel or CO2 saved.

The intelligent technology, which works in conjunction with a GPS, enables drivers to select an option where acceleration is stopped automatically at the speed limit specific to any road in London within the M25 area. The unit can be disabled at the touch of a button, at which point it reverts to an advisory status where the current, legal speed limit is simply displayed as a driver aid. There is also a complete over-ride switch with disables the system entirely.

The practical uses of the technology will be tested in the six month trial after which a report will be submitted to the Mayor of London, and the technology will be made available to external organizations.

The Grid, Our Cars and the Net: One Idea to Link Them All – Wired interviews Zip Car founder, Robin Chase

May 8, 2009 at 4:13 pm

(Source: Wired)

robin_chase_main

Top photo: Flickr / Phil Hawksworth.

Editor’s note: Robin Chase thinks a lot about transportation and the internet, and how to link them. She connected them when she founded Zipcar, and she wants to do it again by making our electric grid and our cars smarter. Time magazine recently named her one of the 100 most influential people of the year. David Weinberger sat down with Chase to discuss her idea.

Robin Chase considers the future of electricity, the future of cars and the internet three terms in a single equation, even if most of us don’t yet realize they’re on the same chalkboard. Solve the equation correctly, she says, and we create a greener future where innovation thrives. Get it wrong, and our grandchildren will curse our names.

Chase thinks big, and she’s got the cred to back it up. She created an improbable network of automobiles called Zipcar. Getting it off the ground required not only buying a fleet of cars, but convincing cities to dedicate precious parking spaces to them. It was a crazy idea, and it worked. Zipcar now has 6,000 cars and 250,000 users in 50 towns.

Now she’s moving on to the bigger challenge of integrating a smart grid with our cars – and then everything else. The kicker is how they come together. You can sum it up as a Tweet: The intelligent network we need for electricity can also turn cars into nodes. Interoperability is a multiplier. Get it right!

Chase starts by explaining the smart grid. There’s broad consensus that our electrical system should do more than carry electricity. It should carry information. That would allow a more intelligent, and efficient, use of power.

“Our electric infrastructure is designed for the rare peak of usage,” Chase says. “That’s expensive and wasteful.”

Changing that requires a smart grid. What we have is a dumb one. We ask for electricity and the grid provides it, no questions asked. A smart grid asks questions and answers them. It makes the meter on your wall a sensor that links you to a network that knows how much power you’re using, when you’re using it and how to reduce your energy needs – and costs.

Such a system will grow more important as we become energy producers, not just consumers. Electric vehicles and plug-in hybrids will return power to the grid. Rooftop solar panels and backyard wind turbines will, at times, produce more energy than we can store. A smart grid generates what we need and lets us use what we generate. That’s why the Obama Administration allocated $4.5 billion in the stimulus bill for smart grid R&D.

This pleases Chase, but it also makes her nervous. The smart grid must be an information network, but we have a tradition of getting such things wrong. Chase is among those trying to convince the government that the safest and most robust network will use open internet protocols and standards. For once the government seems inclined to listen.

Chase switches gears to talk about how cars fit into the equation. She sees automobiles as just another network device, one that, like the smart grid, should be open and net-based.

“Cars are network nodes,” she says. “They have GPS and Bluetooth and toll-both transponders, and we’re all on our cell phones and lots of cars have OnStar support services.”

That’s five networks. Automakers and academics will bring us more. They’re working on smart cars that will communicate with us, with one another and with the road. How will those cars connect to the network? That’s the third part of Chase’s equation: Mesh networking.

In a typical Wi-Fi network, there’s one router and a relatively small number of devices using it as a gateway to the internet. In a mesh network, every device is also a router. Bring in a new mesh device and it automatically links to any other mesh devices within radio range. It is an example of what internet architect David Reed calls “cooperative gain” – the more devices, the more bandwidth across the network. Chase offers an analogy to explain it.

“Wi-Fi is like a bridge that connects the highways on either side of the stream,” she says. “You build it wide enough to handle the maximum traffic you expect. If too much comes, it gets congested. When not enough arrives, you’ve got excess capacity. Mesh takes a different approach: Each person who wants to cross throws in a flat rock that’s above the water line. The more people who do that, the more ways there are to get across the river.”

 

“Today in Iraq and Afghanistan, soldiers and tanks and airplanes are running around using mesh networks,” said Chase. “It works, it’s secure, it’s robust. If a node or device disappears, the network just reroutes the data.”

And, perhaps most important, it’s in motion. That’s what allows Chase’s plural visions to go singular. Build a smart electrical grid that uses Internet protocols and puts a mesh network device in every structure that has an electric meter. Sweep out the half dozen networks in our cars and replace them with an open, Internet-based platform. Add a mesh router. A nationwide mesh cloud will form, linking vehicles that can connect with one another and with the rest of the network. It’s cooperative gain gone national, gone mobile, gone open.

Chase’s mesh vision draws some skepticism. Some say it won’t scale up. The fact it’s is being used in places like Afghanistan and Vienna indicates it could. Others say moving vehicles may not be able to hook into and out of mesh networks quickly enough. Chase argues it’s already possible to do so in less than a second, and that time will only come down. But even if every car and every electric meter were meshed, there’s still a lot of highway out there that wouldn’t be served, right? Chase has an answer for that, too.

Click here to read the entire article.

Intelligent Transportation Systems (ITS) Program Strategic Planning Workshop

April 23, 2009 at 6:28 pm

Intelligent Transportation Systems (ITS) Program Strategic Planning Workshop

 May 6, 2009

Location:  Queen Anne Room @ Sheraton 1400 Sixth Avenue Seattle, WA 98101

Time:  8:30 am – 12:00 pm

 The Federal Transit Administration’s Office of Mobility Innovation is holding a workshop at the APTA Annual Bus and Paratransit Conference in Seattle, Washington, to engage stakeholders in their strategic planning effort.
The goal of the workshop is to elicit discussion on the vision and direction for transit ITS research for the next five years and beyond.  Specifically, FTA seeks input and insights into a proposed set of goals and objectives.  FTA is also interested in exploring new opportunities for research and development, technology transfer, and evaluation of next generation transit ITS technologies.  

The workshop is designed to present the results-to-date of the strategic planning effort and to invite discussion from the public.  Participants will be engaged in question/answer sessions with break-out session discussions.  All feedback will be captured and incorporated into FTA’s ITS strategic planning effort.  Using this input, the FTA’s Office of Mobility Innovation expects to program a robust agenda for research and deployment assistance that reflects the current and future needs of the transit industry. 

If attending, please RSVP to: Suzanne.Sloan@dot.gov.  A similar workshop will take place at the APTA Rail Conference in Chicago, Illinois (June 14-17, 2009).  Location:  Chicago Hilton / TBD

U.S. DOT requests public comments on the strategic direction of Intelligent Transportation Systems (ITS) Program

April 23, 2009 at 11:07 am

U.S. DOT Requests Public Comments on ITS Program. The Research and Innovative Technology Administration is requesting public comments on the strategic direction of its Intelligent Transportation Systems (ITS) Program. Comments will be used to shape the next, multi-year, ITS research agenda. Specifically, the Department seeks comment and insight on a set of proposed goals and objectives for the ITS Program. Additionally, the Department is interested in exploring new opportunities for research and development, technology transfer, and evaluation of next generation ITS technologies. Responses should take into account the critical role of advanced technologies in achieving transformative change in the areas of safety, mobility, environmental stewardship, and deployment policy. A Request for Information along with instructions for submittal can be found athttp://www.regulations.gov under docket number RITA 2009-0001.  Alternatively, you can visit:

http://www.regulations.gov/fdmspublic/component/main?main=DocumentDetail&o=090000648095e55e

Should you have any questions, please contact Ms. Riddle: 202-366-5128.

Here is a copy of the RFI. Please visit the above links to submit your comment. 

2009 12th International IEEE Conference on Intelligent Transportation Systems (ITSC 09) – St. Louis, Missouri, U.S.A., October 3-7, 2009

April 20, 2009 at 5:44 pm

The IEEE Intelligent Transportation Systems Society (ITSS) is sponsoring its 12th international conference on basic research and applications of leading advances in communications, computer, control, and electronics technologies related to Intelligent Transportation Systems (ITS).  The list of program topics is given below.  See the Call for Papers for further details.

·        Travel and Traffic Management

·        Public Transportation Management

·        Commercial Vehicle Operations

·        Advanced Vehicle Safety System

·        Electronic Payment

·        Infrastructure Management

·        ITS Modeling and Analysis

·        Emergency Management and Transportation Security

·        Other Topics

Important Dates

·        Manuscript Submission Deadline: May 1, 2009

·        Notification of Acceptance Date: July 15, 2009

·        Author Registration Deadline: August 15, 2009

·        Final Paper Submission Date: August 15, 2009

·        Special Session Proposal Deadline: April 1, 2009

·        Notification of Special Session Acceptance: April 15, 2009

o       Special Sessions Papers must meet the Paper Deadlines for Peer-Review

·        Tutorial Proposal Deadline: May 1, 2009

Invitation Letters (for visas, etc.) are available by following these instructions.

 For more information on the Intelligent Transportation Systems Society

 www.ewh.ieee.org/tc/its/

For more information on the ITSC 2009

573-341-6321  or   steve.e.watkins@ieee.org

Paradigm Shift Does G.M.’s P.U.M.A. Rethink Transportation?

April 8, 2009 at 12:13 pm
G.M.'s P.U.M.A. Concept

The Project P.U.M.A. prototype on 18th Street in Manhattan.

 (Source: Wheels Blog – New York Times)

When General Motors unveiled Project P.U.M.A. in New York on Tuesday (with partner Segway), it was showing not so much a vehicle as a vision for a new transportation system. And that’s high risk, high reward, because as much as new concepts are needed, they’re excruciatingly hard to actually put in place. Our highways are haunted with unfulfilled visions, from electric station-cars to statewide hydrogen-refueling networks.

The P.U.M.A. is a two-wheeled, two-seat gyroscopically balanced urban transit device with a top speed of 35 miles an hour and the potential to be remotely operated. Toyota has also shown a fanciful personal mobility option, called the i-Swing, a single-seater pod on wheels, with joystick controls.

So far, the P.U.M.A. concept is receiving cautiously optimistic reviews. “It’s exactly the right vision, and it’s the kind of thinking we need desperately in transportation,” said Dan Sperling, director of the Institute of Transportation Studies at the University of California-Davis and coauthor (with Deborah Gordon) of “Two Billion Cars: Driving Toward Sustainability.”

Mr. Sperling points out that the Low-Speed Vehicle (L.S.V.) category, limited in most states to 35 miles an hour, was created by the Department of Transportation in the 1990s to respond to the type of technology that G.M. is now talking about.

The L.S.V. category, which includes battery-powered neighborhood electric vehicles, has been slow to take off. But Mr. Sperling said he saw those vehicles, including the Chrysler GEM, gaining popularity around Davis for use in retirement and gated communities, military bases and office parks. “We need more diversity of vehicle types,” he said. “There’s no reason everything has to be 3,000-plus-pound cars and trucks. But for this to take off it needs one extra step to integrate the vehicles into the broader network of roads.”

 

For David J. Friedman, research director for the clean vehicles program at the Union of Concerned Scientists, the P.U.M.A. has possibilities, though what he called “the massive monitoring and managing of traffic to minimize congestion and maximize road usage” has been tried before; the general category is called Intelligent Transportation Systems. G.M. experimented with hands-free Buicks on automated highways in 1997, but the efforts were thwarted by high costs and driver confusion.

“We need to design our cities around something other than two- or three-ton vehicles,” said Mr. Friedman. “The data suggests that by 2030 half of the built environment in the U.S. will be new. What if we designed new suburban towns with integrated shopping so you could walk, bike or use a P.U.M.A. to get around, with conventional vehicles only for longer trips?”

 

Click here to read the entire article

Financial Times: Briefing on Intelligent Transportion Systems

March 31, 2009 at 6:04 pm

(Source: Financial Times)

Published with the support of The European Commission, United Nations, ERTICO and The OECD, The Intelligent Transport briefing was introduced by Eva Molnar Director for Transport UNECE, Antonio Tajani Vice President and Commissioner for Transport, European Commission, Denise Plumpton, The UK Highways Agency, German Minister for Transportation Wolfgang Tiefensee and French Transport Minister Dominique Bussereau.

 The briefing was inserted into and distributed by The Financial Times in March 2009 throughout all European and Scandinavian territories. Government agencies within Europe will account for another 20,000 copiesThe Financial Times with its exceptional business coverage and focus continues to dominate the market for the delivery of c-level executives and decision makers at the highest level and as such provides the perfect home for this briefing. Building intelligence into our vehicles and infrastructures can make a positive long term contribution to resolving the problems society and business face in terms of congestion, reliability, safety security and the environment.  

In the European Union alone, 20 per cent of GDP is generated by the transport sector. This equates to 1,900 billion euros, 16 million jobs, or nine per cent of all EU employment. How do we improve safety and security, and how do we minimise the negative environmental impact of many transport systems? These are not easy questions, but all answers depend not least on putting greater intelligence into our infrastructures and transport systems, in turn helping users make more intelligent choices about their journeys.

 

Containing more than 30 case studies The 36 page briefing provides a comprehensive source of advice and guidance for board level executives, senior management and Government executives explaining  deployments in a variety of modes and with varying applications. It features real-life examples, case studies and frameworks that demonstrate the successful deployment of solutions and trials across Europe and carefully analyses capabilities, possibilities and particularly advantages.

The briefing explains how EU moves towards a high quality, safer, more efficient and sustainable transport infrastructure in Europe. How we can make travel mass transit and ticketing more efficient (safer, less polluting, cheaper, and better informed).How we can help achieve ‘Best Value’ as a result of greater information gathering and improved decision-making. How we can reduce the effects of pollution from vehicles by better management. How we can reduce the number of accidents by providing drivers with more information about conditions on the roads they are using. How we help drivers find the best route to their destination, and change that route if major incidents occur on it. How we can help improve the security of passengers and staff by providing extra communications, better information and how to improve integration between different management systems, through the use of common databases. The report will gives readers of the Financial Times essential insight into how organisations have approached such implementations and the benefits that have been derived in a number of sectors.

Click here to read more or read/download the PDF file here.  (Image below is the ITS Briefing Supplement’s  cover)

Vehicle Manufacturers Are Leading Intelligent Transportation Systems Efforts with Obstacle Detection Systems Launching in 2009, According to ABI Research

March 31, 2009 at 11:41 am

(Source: Fox Business)

Intelligent Transportation Systems (ITS) have been under development for more than a decade. While the promise of road-infrastructure based traffic management is still years away, some car manufacturers are moving ahead with autonomous radar-based obstacle detection systems increasing the safety of both drivers and pedestrians.

“Vehicle manufacturers are mainly interested in active safety as a new differentiator,” says ABI Research Practice Director Dominique Bonte. “However, avoiding accidents has a huge impact on traffic congestion levels, the reduction of which remains the primary goal of ITS.”

Toyota is planning to add a millimeter-wave radar system to some of its car models in Japan in 2009. The driver is warned about potential side and front collisions and when a crash is imminent automatic braking, seat belt retraction and air bag deployments are initiated. In the US a similar pre-collision system will be available on the 2010 Toyota Prius as an option. A similar feature was announced by Hyundai at CES. However, the current automotive slump will delay the adoption of active safety as a standard option across all brands.

To realize the benefits of integrated traffic management ITS requires vehicle-to-vehicle and vehicle-to-infrastructure communication. While many successful tests based on the Dedicated Short Range Communication (DSRCundefined, undefined, undefined%) protocol are ongoing in Japan (ITS-Safety 2010 project), Europe (ERTICO, CAR 2 CAR Communication Consortium) and the US (DoT’s IntelliDriveSM project), full rollout is not expected before 2015.

Click here to read more. 

1st International Summit on the State of the Connected Vehicle – April 16-17 – Detroit

March 5, 2009 at 6:21 pm

The Connected Vehicle Trade Association in conjunction with the Michigan Department of Transportation and SAE International is hosting The FirstInternational Summit on the State of the Connected Vehicle with a Primary Focus on Policy and Strategy for Deployment. The first day will emphasis policy,funding, issues and strategies to accelerate deployments regionally andinternationally, and the second half day will address near term business opportunities. The Summit will be held on April 16-17, 2009 at Cobo Hall inDetroit, Michigan.  The Summit brings together senior executives and policy officials fromgovernment and industry with responsibility for the deployment and operation ofConnected Vehicle programs systems and products. Presenters from Europe,Asia and North America will provide perspectives from their respectiveregions. In addition, major corporate business leaders from automotive companies, the technology supplier community and communication companieswill discuss the business and partnering opportunities in this rapidly evolving environment. This event will bring together the international public and private sector leadership with responsibility for deployment in the connected vehicle environment. 

For more information, visit:  http://www.sae.org/events/scv/