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C) Civil Engineers Track Roaming Cell Phones to Monitor Traffic

Viii Matching operational requirements with considerations of appearance | Artificial Vision Used To Improve Recycling Of Electronic Scrap Metal | Drawing up the project | GRAPHS, DIAGRAMS, FORMULAE | ИЗВЛЕЧЕНИЕ КОРНЯ | Theory revision | Tips for Making a Successful Presentation | How to Make a PowerPoint Presentation | LESSONS 31, 32, 33 | REFERENCES (LITERATURE CITED) |


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BALTIMORE-Frustrated and stuck in a traffic tie-up? Now, your cell phone might be able to get you out of it. Commuters trapped in traffic might find relief on the phone with a new technology that's helping unlock highway gridlock.

We sit, we wait, we inch along... And with time to kill and no where to go, it's no wonder many drivers turn to a cell phone for relief.

Now, civil engineers are putting all that talk time to good use with new technology that monitors jammed-up roads by tracking cell phone signals.

Mike Zezeski, a civil engineer at the Maryland State Highway Administration in Baltimore, says, "We are pretty much taking data from the cellular provider and converting it to travel time."

The new system works whether you're talking on your cell phone or not; the phone only needs to be turned on. The technology follows the movement of cell phone signals from one cell tower to another. When this information is displayed on a map, it shows how quickly or slowly traffic is moving.

"When you start to see oranges and yellow, that means traffic's starting to slow up," Zezeski says. "The technology will provide the motorists with really good travel information, much better than what they have today."

The more accurate and reliable mapping system is a faster way to warn drivers of traffic accidents and give alternate routes before drivers are stuck in a sea of brake lights.

This new traffic system cannot monitor your conversations, only your cell signal. So far, Maryland, Virginia, Missouri and Georgia have already started testing the new system on roadways.

BACKGROUND: Cell phones are everywhere, so scientists want to use them as tracking devices. Several state transportation agencies, including those in Maryland and Virginia, are starting to test technology that allows them to watch traffic patterns by tracking cell phone signals and comparing them to road grids. These new traffic systems can monitor several hundred thousand cell phones at once -- not private phone calls, just the radio signals emitted by the devices. The phones only need to be turned on, not necessarily in use. And advanced software now makes it possible to tell whether a signal is coming from a moving car or a pedestrian, for example.

HOW IT WORKS: Any cell phone that is turned on constantly interacts with cellular towers, which are placed every few hundred feet in a metropolitan area, or every half-mile or so in a rural area. In the new system, listening posts are placed throughout a city that can detect but not send radio signals. The listening post picks up a signal from a cell phone that's on and time-stamps the signal's arrival. By analyzing how long it takes the radio wave to reach the listening post from the cell phone, a computer can calculate almost precisely where someone is located on the highway. Three such posts are needed to determine a 2D position of a cell phone user. Radio tags, or transponders, can also be placed along highways to time when vehicles pass between those points. This data is fed into a computer system, which can then determine the car's location and speed. Collected information can be disseminated via Web sites, electronic road signs, or even registered cell phone users who sign up for customized traffic reports. By getting this information to commuters more quickly, they will have more time to react to traffic warnings and avoid congested areas.

TRAFFICKING IN PHYSICS: On a sparsely populated highway the cars are generally far apart, and can move at whatever speed they choose while freely maneuvering between lanes. A physicist would compare this to molecules in a gas, which are spaced further apart and move around randomly, only occasionally encountering other molecules. During rush hour, traffic density is much greater, so there is less room for cars to maneuver without risking collision, and the average speed is lower. Traffic is more like a liquid at that point. If the density of cars on the highway becomes too great, the flow of traffic freezes up: clusters of a "solid" can form, where cars are packed so closely together they can't move -- a traffic jam.

TRAFFIC FACTS: State and federal agencies spend $750 million a year on traffic monitoring with sensors, signal meters and other technologies. It is not yet clear how much a cell phone monitoring system would cost. The average American motorist spends 36 hours in traffic delays ever year. The cost of traffic congestion in the U.S. alone is about $78 billion, representing the 4.5 billion hours of travel time and 6.8 billion gallons of fuel wasted sitting in traffic.


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