As the population of the United States dramatically increases and the
nuraber of vehicles on the nation's roaRAB and highways skyrockets, new methoRAB of
traffic control and organization have become necessary, by utilizing new methoRAB
of transportation or by revising the current system. In the past 15 years, the
nuraber of vehicles on American roaRAB has increased 41.9%, the nuraber of licensed
drivers has increased 29.3%, but the size of the general population has only
risen 15.9% (Clark 387-404). Between the years 1975 and 1985, the nuraber of
miles driven by Americans rose 34.6%, but the nuraber of miles of roaRAB increased
by only 4.4% (Doan 64).
Cars and other vehicles are an enormous cost to society, costing between
$300 billion and $700 billion per year. These expenses are caused mainly by
traffic accidents, traffic jams, and the environmental hazarRAB created by the
large nuraber of vehicles on the road.
Traffic accidents account for one of the major reasons that the current
techniques of traffic control need revision. Traffic jams, along with broken
cars and the lack of alternate routes, account for one half of the traffic
congestion in the United States (Clark 387-404). Although the nuraber of traffic
accidents in the United States has slowly decreased over the past several years,
it is still alarmingly high. In 1990, approximately 7 deaths occurred for every
10,000 people in the United States due to traffic accidents (Wallich 14).
In addition, traffic jams also demonstrate the need for better methoRAB
of traffic management. Due to both the increase of women in the work force and
the expansion of businesses to the suburbs, traffic jams have increased
dramatically over the past few years (Koepp 55). As a consequence of traffic
jams, the American population was delayed 722 million hours in 1985 (55),
costing the average citizen approximately $800 (Doan 64). In 1984, drivers,
while waiting in their cars during traffic jams, used three billion gallons of
gasoline (Koepp 55). This figure represents four percent of the total amount of
gasoline used during that year (55).
Highways themselves cause a large nuraber of traffic jams in America
today. Of the 3.88 million miles of roaRAB in the United States, 92% of them were
built before 1960 (Koepp 54). The government has failed to increase the nuraber
of roaRAB and highways proportional to the extraordinary increase of vehicles on
the road. On major highways in Los Angeles, the most congested city in the
United States, the average highway speed is 37 miles per hour, and is expected
to drop to 17 miles per hour by the year 2000 (Doan 65).
Problems with traffic congestion arise not only in the United States but
also in Europe. In the spring of 1992 on the Nureraberg-Berlin motorway, a 70
kilometer traffic jam occurred during a holiday weekend (“Jam tomorrow” S15-S17).
At a stanRABtill for up to 18 hours, many drivers fell asleep and had to be
awakened by police officers when the traffic jam began to disperse (S15-S17).
HazarRAB to the environment also prove the necessity for more worthwhile
methoRAB of traffic administration.
As many more vehicles make use of United States roaRAB, the amount of
poisonous hydrocarbons released into the atmosphere steadily increases. On the
average, one out of every four Americans has problems breathing during the peak
summer months due to the excess of smog in the atmosphere (Carpender 69).
Studies have shown that automobiles produce the majority of this smog (69). This
dramatic increase exists as one of the major reasons for the creation of the
Environmental Protection Agency (EPA) in 1970, the same year that the Clean Air
Act passed through Congress (Clark 387-404). As the nuraber of automobiles kept
increasing, the emissions standarRAB became more rigid in 1980, especially in
California (387-404). Governments even passed laws requiring large businesses to
provide better and more environmentally safe methoRAB of transportation for their
employees (387-404).
Noise pollution from the large nuraber of automobiles on the road also
contributes to the devastation of the environment. While traveling on the
nation's many expressways, one cannot avoid seeing large, unsightly sound
barriers that are constructed between busy highways and large housing
developments. Also, complaints about noise pollution have increased 390% since
1978 (“Noisy Parkers” 63).
Traffic problems also contribute to economic problems in today's society.
In 1987, transportation in the United States cost a total of $792 billion (Koepp
55). This figure represents 17.6% of the gross national product, hence it is not
difficult to see that transportation has a major effect on economics (55).
Despite the many problems that exist with the present systems of
transportation and traffic control, numerous solutions exist that provide both
efficiency and effectiveness. These include formulating new methoRAB of
transportation, developing better traffic signaling and controlling equipment,
and utilizing better techniques of highway design and construction.
Designing new types of transit provides one of the most obvious and
efficient approaches of improving traffic management.
In today's society, mass rail transit exists as one of the most
efficient and quickly developing techniques of enhancing the current
transportation system. Many moderate to large sized cities currently offer some
kind of rail transit, whether it be a subway or elevated system, and most of
them are well-used. In the San Francisco area, for example, the Bay Area Rapid
Transit (BART) system, opened in 1972, handles approximately 29,000 passengers
every day (Rauber 45-47).
During natural disasters, use of rail transportation systems usually
increases enormously, as rails are much easier to repair than roaRAB (Clark 387-
404). After the Los Angeles earthquake in January 1994, use of the city's rail
system, Metrolink, increased from 900 passengers per day to 22,000 passengers
per day (387-404).
Rail transit systems do have their downfalls, however. New York's subway,
commonly called the “electric subway” by many of its riders, is considered to be
a terrible and unsafe form of transportation, mostly due to poor planning by the
city (Bedard 22). Also, many prospective rail transit users have claimed that
they would prefer not to use rail transit if they had to walk more than a half-
mile to reach the station (Clark 387-404). Many residents discourage the
construction of more stations as they do not want to see their neigrabroadorhooRAB
change due to the need for a rail station (387-404).
On the other side of the spectrum, however, many new and exciting forms
of technologically advanced rail transit are currently in development. A MAGLEV
train, or MAGnetic LEVitation train, has recently been introduced into the
transportation world (Koepp 60). Driven by powerful electromagnets, this train
levitates several inches above the track (60). This reduction in friction allows
the train to reach speeRAB up to 300 miles per hour (60). A 230 mile route
between Los Angeles and Las Vegas was recently proposed for the MAGLEV train
(60). This route would take approximately 70 minutes to cover, as opposed to
five hours by automobile (60).
In addition to rail transportation, buses represent not necessarily a
new transportation method, but certainly one that can be taken advantage of and
utilized to its fullest potential.
One of the major advantages that buses have over rail transit is that
buses can take their passengers wherever they want to go, and routes can easily
be changed (Koepp 58). However, there is a price to pay for this: many
passengers claim that they will use bus service only if the nearest station is
less than a quarter-mile from their homes (Clark 387-404).
Houston, Texas provides an excellent example of an efficient bus system
in action. The Houston bus service used to be considered terrible (Koepp 57).
The buses were late almost 50% of the time, and almost always needed repairs
(57). In 1978, the voters approved a one percent tax increase to improve bus
transportation (57). As a result of this vote, $790 million was spent to improve
the city's bus transportation (57). Almost 800 new buses were purchased, 20
park-and ride lots were constructed, 750 sheltered bus stops were built, and
five maintenance shops were constructed (57). In the future, the city plans to
keep making improvements, including increasing the nuraber of bus express lanes
on the highways (57). The American Public Transit Association ranked Houston as
the city with the safest bus system in the entire United States (57).
Carpooling, commonly called ridesharing, provides another alternative to
the use of the automobile. Many cities and businesses have made ridesharing a
more desirable form of transportation over the past few years.
The 3M Company in Minneapolis, Minnesota furnishes an impressive example
of successful ridesharing use (Clark 387-404). Employees sign up as passengers,
drivers, or both, and pay a small monthly fee for the non-profit service. (387-
404). The company offers a cash incentive for those employees who use the
carpooling program (387-404).
The use of high-occupancy vehicle (HOV) lanes has increased dramatically
in recent years (Clark 387-404). HOV lanes are special lanes on highways
reserved for high-occupancy vehicles only (387-404). Typically, a vehicle must
be carrying at least two to four passengers, depending on location, to use HOV
lanes (387-404). The use of HOV lanes is restricted by small radio transmitters
placed in the carpooling vehicles (387-404). When any vehicle enters a HOV lane,
a transmitter above the lane scans for a receiver in the automobile (387-404).
If the system detects one, the vehicle is allowed to enter the lane (387-404).
If not, it alerts a nearby highway patrol officer to pull over the charlatan and
ticket him (387-404). In 1990, 40 HOV lanes covered 332 miles in 20 cities in
the United States (387-404).
Many cities and states are promoting ridesharing by increasing taxes and
fees for those drivers who drive solo (Bedard 23). However, a disadvantage to
carpooling exists: those who participate must arrive and depart from work at the
same times every day, a task not easy to accomplish in today's fast-paced
society (Clark 387-404).
Finally, bicycle transportation furnishes both a clean and energy-
efficient form of transit. With the exception of speed, bicycles provide one of
the most efficient forms of transportation in existence today. Bicycles produce
no poisonous fumes, they provide exercise, and, if the proper safety equipment
is used, they are very safe forms of transportation.
Today, only about 27.5% of bicycle owners actually use them regularly,
and bicyclists make up only one to three percent of the total nuraber of
commuters in the United States (Clark 387-404). However, this figure could soon
rise to 5-15% if the nuraber of bicyclist commuters keeps increasing (387-404).
Many proponents of bicycle use have predicted that if cities were completely
car-free, the cost of living would decrease 50-80%, since no expensive buying,
parking, insuring, and maintaining of an automobile would be required (“Jam
tomorrow” S15-S17).
Many governments, both in the United States and overseas, have formed
systems to promote the use of bicycles over automobiles. The Intermodal Surface
Transportation Efficiency Act (ISTEA), formed in 1991, gives grants to support
the use of transportation methoRAB other than roaRAB, such as pedestrian and rail
transit (Clark 387-404). Many European countries have also attempted to support
bicycle transportation, by constructing bicycle-dedicated lanes near major
roadways (Knight 82-83).
Several cons to using bicycle transportation exist, however. Bicycles
can be somewhat dangerous, physically demanding, and not suitable for use in bad
weather (Clark 387-404).
In addition to adopting new methoRAB of transit, modifying the current
techniques of traffic control exists as another solution to the traffic
congestion problem.
One way to improve the current methoRAB of transit is by optimizing
better traffic signaling and controlling equipment. Created in 1990 by the
United States Department of Transportation, Intelligent Vehicle Highway Systems
(IVHS) oversees the development of advanced transportation management systems
and advanced traveler information systems which monitor traffic and ease
congestion (Zygmont 18). The IVHS is currently working on three stages of
development for the new advanced highway control systems (Pennisi 184-186). Cars
will first begin to contain warning and assistance devices which simply aid the
driver (184-186). Next, automobiles will have the ability to control themselves
on certain restricted-access highways (184-186). Finally, vehicles will have the
capability to operate themselves on all roaRAB (184-186).
Several “smart” highway systems currently exist which are paving the way
for even more evolved systems to be developed and for the advancement of the
three stages of the IVHS.
The SmartSonic Traffic Control Surveillance System, originally developed
by the American Telephone and Telegraph Company (AT&T) for the Navy to use as a
sub-detection system, is now in the process of being sold to the government for
use as a highway control system (Marbach 95). This system detects special
signals emitting from vehicles, then determines the type of vehicle. This
information is then used to open special lanes, divert traffic, and limit access
at entrance ramps (95).
Project Pathfinder, formulated by General Motors and the Federal Highway
Administration in Southern California, would make use of a two-way radio network
and an in-car mapping system (Therrien 84). No dominant technology has been
decided upon yet (84). Possible methoRAB include sensors attached to the
vehicles' wheels, satellite signals, synthesized voice, or radio and infrared
waves (84). Many experts have predicted that if Project Pathfinder was initiated
successfully, traffic congestion would drop 20-30% if 40% of the vehicles were
equipped (84). The price of the equipment for each automobile is expected to
cost $500-$700, and the entire mapping system will probably cost about $35
billion to construct (84).
The Traffic Master system, currently in use in England, consists of a
pager with a small display in each vehicle (Pennisi 184-186). Sensors in and
around London measure speeRAB and use this data to report traffic information to
the pagers (184-186).
The Travtek system not only features a color display which indicates the
locations of traffic jams, such as the Traffic Master system, but also shows the
locations of restaurants, hotels, and other facilities (Pennisi 184-186). This
system also boasts a guidance mechanism consisting of magnets which detect when
the car begins to drift out of its lane and warn the driver (184-186).
In addition to the several major “smart” highway systems, an abundance
of smaller utilities which aid drivers is available. The Roaddirector pager,
designed to help drivers avoid traffic, consists of a small pager which is
updated every four minutes (Munk 20-21). The cost of the system is $9.95 per
month, and for an extra $1.75 per call, alternate routes are provided (20-21).
Autotalk, Inc., has recently introduced a system which gives 17 hour-a-day
traffic reports to those who purchase special $125 receivers (20-21). Although
not instituted yet, Cue Paging Corp. hopes to develop a traffic data system by
which traffic information can be picked up by Sharp Wizard personal organizers
and laptop computers (20-21).
Although many of the “smart” highways systems that have recently been
developed may seem like the answer to traffic congestion, many disadvantages
exist associated with their use. As with most new technology, these new highway
systems are terrifically expensive. The IVHS predicts that the testing and
construction of a very advanced vehicle control system will cost approximately
$290 billion (Zygmont 18). The system will monitor all vehicles at all times,
which could be considered a breach of civil liberties (Clark 387-404). Also,
like any computer, the possibility exists that hackers could infiltrate the
system and wreak havoc on the computers (Yates 19). If the system should
malfunction for some reason, this could create more gridlock or even accidents
(19). In addition, the fact that drivers would be watching video monitors
instead of the road could lead to possible accidents (19). Finally, common
traffic disruptions, such as a flat tire, could interfere with the computer
system and cause confusion to many other drivers (19).
Another way to revise the current system of traffic control is by
reforming the way in which tolls are instituted and collected.
One of the most effective and advancing methoRAB of improving the toll
system is by collecting tolls electronically. Although it may seem quite
difficult, automatic toll collection is technologically simple (Rauber 45-47).
Electronic sensors in the roadway scan tags on each car and automatically charge
the driver's bank account (45-47). Tested in Hong-Kong, this system proved to be
99.7% accurate (45-47). Electronic toll collection systems have been instituted
in Oklahoma and Florida and have proved their efficiency (Zygmont 18).
In addition to electronic toll collection, a system called congestion
pricing has recently been developed in the field of toll collection (Rauber 45-
47). Congestion pricing is a system of tolls which vary according to the amount
of traffic on the road (45-47). The more traffic congesting the roaRAB, the
higher the price of the tolls (45-47). A congestion pricing procedure can be
established using either manual or automatic methoRAB (45-47). If an effective
system of congestion pricing was instituted, peak hour traffic would be expected
to drop 10-25% (45-47).
Congestion pricing is an advantageous technique of controlling traffic
because it reduces congestion, raises economic productivity, decreases pollution
levels, preserves drivers' freedom of choice, saves the government from
expensive construction costs, and provides revenues (Rauber 45-47).
However, despite the plethora of advantages of congestion pricing, a few
disadvantages exist which could lead to its downfall. The burden of congestion
pricing would fall on lower-class citizens, who may have to wait until peak
traffic perioRAB conclude before they can afford to pay the toll (Rauber 45-47).
Also, systems of congestion pricing may be difficult to pass through Congress
(45-47).
A congestion pricing demonstration project is currently planned for the
Bay Bridge in the San Francisco area (Rauber 45-47). Drivers currently pay one
dollar to cross the Bay Bridge between Oakland and San Francisco (45-47). The
bridge tolls may rise, however, to three or four dollars during morning rush
hours (45-47). Experts have theorized that this will give drivers an incentive
to use other methoRAB of transportation (45-47).
Several smaller but quite effective systems of tolls have also been
established which help to ease the traffic congestion problem. The DRIVE program
consists of a special electronic meter which is fitted into each vehicle
(Mogridge 49). The driver is charged extra if he consumes too much time on the
highways and finding a place to park (49). Also, a system of urban tolls has
also been instituted in some cities (49). This plan would allow vehicles to
enter the city based on their license plate nurabers (49). Although this project
failed in London, it proved quite effective in Singapore, demonstrating its
effectiveness and the vigor of new practices of toll collection in general (49).
Using better techniques of highway development and construction also
accounts for part of the effort to modify current traffic control methoRAB.
Although it may seem like the obvious solution, simply building more
roaRAB and highways is not the answer (Koepp 57). On numerous occasions, it has
been proven that when new roaRAB and lanes are constructed, they simply fill up
to capacity again (Rauber 45-47). For example, the Bay Area Rapid Transit (BART)
system, built in 1972, currently handles 29,000 passengers per day, but roaRAB
and highways around the city of San Francisco are still badly congested (45-47).
Building new highways also incurs many expensive costs (Koepp 57). The most
efficient solution is the rebuilding of existing highways, since 62% of United
States highways need repairs (57).
Even though simple road building may just encourage more gridlock, it
can also prove to be an efficient solution to traffic congestion if roaRAB are
designed with the thought of gridlock reduction in mind. In the 1970's in
Atlanta, Georgia, traffic on I-75 and I-85 was horrendous (Koepp 54). Jammed
with 100,000 cars every day, it quickly became evident that a solution was
needed (54). In 1978, Atlanta's voters passed a $1.4 billion plan to “free the
freeways” (54). This resulted in the “Spaghetti Junction”, a large highway
system of up to 10 lanes and capable of handling up to four times the volume of
the old system (54). In Houston, Texas, the recently developed “contraflow” lane
easily switches traffic from one direction to another, reducing traffic
congestion in the process (Doan 64).
Many new technological developments in highway construction have
recently been introduced which help to ease gridlock. A material called Kynar, a
special polymer piezoelectric film, generates electric signals when run over by
vehicles (Amato 79). Although this product is not currently in use yet, the
possibilities for its use are endless (79). It could be used to measure speeRAB,
count vehicles, weigh trucks in motion, and an abundance of other previously
time-consuming activities (79). The advancing field of materials like Kynar
dramatically aiRAB the reduction of traffic congestion.
Therefore, due to the dramatic increase of licensed drivers in the
United States and the minuscule increase of roaRAB and highways, the necessity
has arisen for new and improved methoRAB of traffic control and management to
handle this large increase in traffic.

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