Real Time Traffic Data for Navigation ITS TEXAS 2009 Mission Statement Total Traffic Network strives to provide a best-in-class, real-time traffic data service for broadcast, web, wireless, and navigation consumers, with an emphasis on providing accurate, relative, and timely information to help motorists navigate their routes more intelligently. Our goal is to provide a traffic product that will ultimately save time, fuel resources, and alleviate roadway stress. Through a method of planning and implementing resources, analyzing results, and acting to fuse multiple traffic resources, Total Traffic Network aims to meet these goals for a positive customer experience.
Who Is Total Traffic Network? Clear Channel Radio is the first broadcaster to launch a ground-breaking programming and technology service delivering real-time traffic data directly to vehicles, using its own network of reporters, traffic cameras, aircraft, broadcast towers, and strategic partners to verify and produce traffic information Total Traffic Network. Total Traffic Network serves more than 100 metropolitan markets in four countries, including the United States, Canada, Mexico, and New Zealand. Total Traffic Network delivers real-time traffic data via incar and portable navigation systems, broadcast media, wireless, and Internet-based services using a key journalistic approach to verify data sources. Through its network of publically available and privately held assets, Total Traffic Network provides incident, event, construction, congestion, and impact information for customers, and is the leading company in North America providing a traffic subscription service to consumers.
We are the experts! In eight years, we have evolved from providing exclusive traffic content on Clear Channel-only stations in just 15 markets Atlanta, GA Cincinnati, OH Denver-Boulder, CO Houston, TX Los Angeles, CA Louisville, KY Nassau-Suffolk, NY New York, NY Riverside, CA Sacramento, CA Salt Lake City, UT San Diego, CA San Francisco, CA San Jose, CA Tampa, FL
Akron, OH Albany, GA Albany, NY Albuquerque, NM Allentown, PA Anchorage, AK Ann Arbor, MI Asheville, NC Atlanta, GA Augusta, GA Austin, TX Bakersfield, CA Baltimore, MD Baton Rouge, LA Biloxi-Gulfport, MS Binghamton, NY Birmingham, AL Bismarck, ND Boise, ID Boston, MA Buffalo-Niagara Falls, NY Burlington, VT Casper, WY (Highway Net.) Cedar Rapids, IA Charleston, SC Charlotte, NC Chattanooga, TN Chicago, IL Cheyenne, WY (Highway Net.) Cincinnati, OH Cleveland, OH Colorado Springs, CO Columbia, SC Columbus, OH Dallas, TX Dayton, OH Defiance-Napoleon, OH Denver-Boulder, CO Des Moines, IA Detroit, MI El Paso, TX Erie, PA Fairbanks, AK Frederick, MD Fresno, CA Ft. Collins, CO Ft. Myers, FL Ft. Pierce, FL Grand Forks, ND-MN Grand Rapids, MI Greensboro, NC Greenville, SC Harrisburg, PA Hartford, CT Honolulu, HI Houston, TX Huntsville, AL Indianapolis, IN Jackson, MS Jacksonville, FL Laramie, WY (Highway Net.) Las Vegas, NV Lexington, KY Lima, OH Lincoln, NE Little Rock, AR Los Angeles, CA Louisville, KY Macon, GA Madison, WI Manchester, NH Mankato, MN McAllen-Brownsville, TX Melbourne, FL Memphis, TN Miami, FL Milwaukee, WI Minneapolis, MN Minot, ND Mobile, AL Modesto, CA Monterey, CA Muskegon, MI Nashville, TN Nassau-Suffolk, NY New Haven, CT New Orleans, LA New York, NY Norfolk, VA Oklahoma City, OK Omaha, NE Orlando, FL Parkersburg, WV Pensacola, FL Philadelphia, PA Phoenix, AZ Pittsburgh, PA Portland, OR Portsmouth, NH Providence, RI Poughkeepsie, NY Raleigh-Durham, NC Reading, PA Richmond, VA Riverside, CA Rochester, MN Rochester, NY Sacramento, CA Salt Lake City, UT San Antonio, TX San Diego, CA San Francisco, CA San Jose, CA San Luis Obispo, CA Santa Barbara, CA Santa Maria, CA Sarasota, FL Savannah, GA Seattle-Tacoma, WA Spokane, WA Springfield, MA Springfield, MO St. Louis, MO Stockton, CA Sussex, NJ Syracuse, NY Tampa, FL Toledo, OH Tucson, AZ Tulsa, OK Tuscaloosa, AL Victor Valley, CA Visalia-Tulare-Hanford, CA Washington, DC West Palm Beach, FL Wheeling, WV Wichita, KS Wilmington, DE Worcester, MA Youngstown, OH
How Does It Work? Local Traffic Operations The TTN Toolbox of Resources Local DoT Cameras and Sensors Proprietary Cameras INRIX GPS Sensors State of the Art Digital Scanners Mobile Spotter Units Police Callouts Police/Fire/EMS/Toll Websites Local Traffic Tip Lines Dedicated Personnel with Intuitive Knowledge
Multipurpose Data: The CCTraffic.Net Platform Our proprietary software CCTraffic.Net enables our producers to enter the data once for use in broadcast, navigation, web and wireless functions. CCTraffic.Net has been evolving since it s debut Aug 2004 First geocoding platform Jan 2005 Integrated consortium location codes for RDS-TMC Oct 2005 Complete redesign, tabbed interface allows for multiple markets Apr 2006 Introduced scheduler and routes functions Feb 2007 Road search and favorites functions speed entry process Feb 2008 Integrated mapping and camera viewing, dashboard software created to track daily, weekly, monthly and yearly trends, monitor employee performance Dec 2009 Complete redesign with intelligent conflict resolution and more intuitive interface for producers
CCTrafficNet
How Do We Determine Data Quality? Accurate Relative Timely
Data Quality Validation BMW, in conjunction with Soft Solutions AG and Clear Channel developed and employed a collection and processing software package called Trace Runner Trace Runner's drivers mode collects latitude, longitude, speed and direction in 2 second intervals as well as accident, construction and other information Testers gather information covering all TMC location points multiple times in both directions during a test Test files (.nmea) are uploaded daily to a storage site for processing and analysis
Data Collection Mileage minimums were initially set for every market using Texas Transportation Institute s study of market congestion and have been adjusted annually for higher statistically relevance. Mileage varies from 1,500 to 10,000 miles per market. Multiple test vehicles deployed at all times over multiple days Initial time slots were 6am-9am, 4pm-7pm, 9am-3pm, 7pm-mid and mid-5am Lack of congestion from 7pm-mid and mid-5am provided statistically irrelevant data Current time slots being tested are 5am-9am, 4pm-8pm, 9am-4pm
We are interpreting Quality in two ways: Quality Index #1 is the Detection Rate Target value is 100% Describes the degree to which the traffic message coincides with the actual congestion event and is calculated from the ration of the area of the intersection Univision in 13 markets including the #1 Hispanic market in the country! to the area of the congestion event. QFCD1=D/E CCT is a major player we re in more markets than the competition. Also on radio stations in Mexico, New Zealand; now providing content to portable navigation devices in Canada and China! Today, CCT is much more than just Clear Channel Citadel in ten markets! Lincoln Financial Media radio stations in Denver and Atlanta Quality Cumulus in Ann Index Arbor #2 and Battle is the Creek False Alarm Rate Target value is 0% Main Line Broadcasting in Richmond Describes the proportion of the traffic message that is not relevant to the Saga in Des Moines congestion i.e., the proportion of the area of the message that lies outside the Salem in Los Angeles congestion Grupo Uniradio in area. San Diego This index is calculated by subtracting the ration of the intersection Television stations to in the five markets! area of the message from 1: QFCD2=1-(D/A)
Time Ground Truth Testing HIT MISS
NATWG The North American Traffic Working Group (NATWG) are ITS America members in the traffic and weather industries working collaboratively to define, accept and advocate for the unique needs of North America traffic information services. The NATWG is comprised of content providers, distributors, device manufacturers, mapping industry members, consumer electronics manufacturers and the public sector. NATWG seeks to develop a coordinated, proactive market driven implementation of traffic and travel information services and products by both influencing international standards efforts and coordinating the development of non-competitive commercial agreements.
How Do We Improve Data Quality? Increased Resources Create resource analysis reports, add new resources where there are data gaps cameras, increased callouts, additional spotters, etc. Right of Way Issues Creative positioning of installed cameras (using a BMW dealership sign in NY on Garden State Parkway, Clear Channel Outdoor digital billboards in numerous locations) Operator Training On-going training and re-training of staff and managers, and additional functionality in CCTrafficNet platform for data aggregation and delivery
TTN Traffic Data Distribution Methods RDS-TMC Launched Commercially - January 2005 114 markets covered in US and Canada with over 300 towers Traffic Data runs concurrently with FM signal Data is transmitted as a TMC Message consisting of an event code and a location code, according to Alert C standard HD-TMC Delivers traffic information at speeds of more than 500 messages per minute Larger bandwidth allows for advanced data services including fuel prices, weather, news, stocks, local events and more First device designed by Cydle in stores soon
For More Information Amy Austin Total Traffic Network Director of Communications o-214-866-8818 m-214-616-2588 AmyAustin@TotalTraffic.com