AUTOMOBILE SAFETY

'Automobile safety' is the avoidance of automobile accidents or the minimization of harmful effects of accidents, in particular as pertaining to human life and health. Numerous safety features have been built into cars for years, some for the safety of car's occupants only, some for the safety of others.

Road traffic injuries represent about 25% of worldwide injury-related deaths (the leading cause) with an estimated 1.2 million deaths (2004) each year - World Health Organization ^[1]).
Major factors in accidents include driving under the influence of alcohol or other drugs; inattentive driving; crash compatibility between vehicles; driving while fatigued or unconscious; encounters with road hazards such as snow, potholes, and crossing animals; or reckless driving.

Contents

History

Colour

Passenger safety when driving

Pregnant women

Children

Infants

Toddlers

Young children

Teenage Drivers

Safety dangers

Safety features

Active safety

Passive safety

See also

External links

References

History

Car safety became an issue almost immediately after the invention of the automobile, when Nicolas-Joseph Cugnot crashed his steam-powered "Fardier" against a wall in 1771. One of the earliest recorded automobile fatalities was Mary Ward, on August 31, 1869 in Parsonstown, Ireland.
In the 1930s, plastic surgeon Claire L. Straith and physician C. J. Strickland advocated the use of seatbelts and padded dashboards. Strickland founded the Automobile Safety League of America ^[2][3].
In 1934 GM performed the first barrier Crash test ^[4].
In the 1940s SAAB incorporated aircraft safety thinking into automobiles making the Saab 92 the first production car first with a safety cage^[5].
In fact Volvo introduced the Safety Cage in 1944 (while Saab did in 1949).^[6]
In 1942 Hugh De Haven published the classic ''Mechanical analysis of survival in falls from heights of fifty to one hundred and fifty feet'' ^[7]
In the 1950's, Mercedes-Benz crash tested extensibly prototipes ^[8].
In 1958, the United Nations established the World Forum for Harmonization of Vehicle Regulations, an international standards body advancing auto safety. Many of the most life saving safety innovations, like seat belts and roll cage construction were brought to market under its auspices.
In 1966, the US established the United States Department of Transportation (DOT) with automobile safety one of its purposes. The National Transportation Safety Board (NTSB) was created as an independent organization on April 1, 1967, but was reliant on the DOT for administration and funding. However, in 1975 the organization was made completely independent by the Independent Safety Board Act (in 93-633; 49 U.S.C. 1901).
The NTSB and its European equivalent, EuroNCAP have each issued independent safety tests for all new automobiles, without reciprocity.
In June, 2004 the NTSB released new tests designed to test the rollover risk of new cars and SUVs. Only the Mazda RX-8 got a 5-star rating. However, the correlation between official crash test results and road deaths in vehicles is not exact. An alternative method of assessing vehicle safety is to study the road accident statistics on a model-by-model basis.
Despite technological advances, the death toll of car accidents remains high: about 40,000 people die every year in the US. While this number increases annually in line with rising population and increased travel, the rate per capita and per vehicle miles travelled decreases. In 1996 the US had about 2 deaths per 10,000 motor vehicles, comparable to 1.9 in Germany, 2.6 in France, and 1.5 in the UK ^[9]. In 1998 there were 3,421 fatal accidents in the UK, the fewest since 1926 ^[10].
A much higher number of accidents result in permanent disability.

Colour

A Swedish study found that pink cars are indeed safer, with black cars being most likely to be involved in crashes. This test also showed Saab to be the "safest car in Sweden [In terms of passive safety]" (Land transport NZ 2005).
In Auckland New Zealand, a study found that there was a significantly lower risk of serious injury in silver cars; with higher risks in brown, black, and green cars. (Furness ''et al'', 2003)

Passenger safety when driving

Pregnant women

When pregnant, women should continue to use seatbelts and airbags properly. A University of Michigan study found that ''"unrestrained or improperly restrained pregnant women are 5.7 times more likely to have an adverse fetal outcome than properly restrained pregnant women"'' [2]. If seatbelts are not long enough, extensions are available from the car manufacturer or an aftermarket supplier.

Children

Car safety is especially critical for young children, as car safety is generally designed for normal sized adults. Safety features that could save an adult can actually cause more damage to a child than if the feature was not there. It is important to review with others, who may be supervising the child, the rules for car safety. All children age 12 and under should ride in the back seat. Also children weighing less than 85 lb (40 kg) should be in the back seat. This is especially the case if there are airbags in the front seat, as airbags are only designed to protect adults and may injure children. That is not just an opinion but is also law in many of the U.S. states and other countries. The Center for Injury Research and Prevention at The Children's Hospital Of Philadelphia has developed a website for parents and caregivers with extensive information about transporting children safely in automobiles.
Child safety locks prevent children from accidentally opening doors from inside the vehicle, even if the door is unlocked. The door, once unlocked, can then be opened only from the outside. To find out more about laws relating to children car safety contact your local department of transportation authority.

Infants

Newborn babies should be put in a car seat until they weigh at least 20 or 22 pounds (10 or 11 kg). These carriers are designed to be placed in the rear seat and face towards the rear with the baby looking towards the back window. Some of these carriers are "Convertibles" which can also be used forward facing for older children. With infants, these should 'only' be used 'facing the rear'. Harness straps should be at or below shoulder level.
A rear-facing infant restraint must never be put in the front seat of a vehicle with a front passenger air bag. A rear-facing infant restraint places an infant's head close to the air bag module, which can cause severe head injuries or death if the air bag deploys. Modern cars include a switch to turn off the airbag system of the passenger seat, in which case a child-supporting seat must be installed.

Toddlers

Toddlers over 1 year old and between 10 and 20 kg (20 and 40 pounds) should be placed in rearward facing child seats or convertibles placed in the rear seat. Harness straps should be at or above the child's shoulders.
In Scandinavia the recommendation is to use rearward facing seats up to the age of 4 or 5 (size of seat permitting), and in Scandinavia you will find very few children under the age of 4 facing forward.

Young children

Children who weigh less than 80 pounds (35 kg), are younger than 8, or are shorter than 4 ft 9 in (1.4 m) are advised to use belt positioning booster seats which raise them to a level that allows seat belts to work effectively. These seats are forward facing and must be used with both lap and shoulder belts.
Make sure the lap belt fits low and tight across the lap/upper thigh area and the shoulder belt fits snug crossing the chest and shoulder to avoid abdominal injuries.
There are two main types of booster seats. If the car's back seat is lower than the child's ears, a 'high back booster seat' should be used to help protect the child's head and neck. If the car's seat back is higher than the child's ears, a 'backless booster seat' can be used.

Teenage Drivers

Most areas in the United States will issue a full driver's license at the age of 16, and all within a range between 14 and 18 [3]. In addition to being relatively inexperienced, teen drivers are also cognitively immature, compared to other drivers. This combination leads to an increased risk of accidents among this demographic. ^[11].

Safety dangers

Main safety dangers for automobiles are the wind (maintaining the direction) and the rain.
Other safety dangers include drunk driving, driving when fatigued or unconscious, or driving with distractions inside the car.
Driving while talking on your cell phone can be exceptionally hazardus, due to the fact that you are taking your mind off driving, even with hands free items, such as bluetooth headsets.

Safety features

Active safety refers to systems in a vehicle which utilize feedback, using information about a car's external environment to change the response of the vehicle and improve the safety of the vehicle in the pre-crash time period, or during the crash event.
Passive safety refers to built-in features of the vehicle such as crumple zones, seatbelts, and airbags, which work passively to prevent injury and do not change their action in response to crash scenario or severity.

Active safety

To make driving safer and prevent crashes from occurring, and also to better protect occupants during a crash, cars may have the following active safety features:

★ Turn signals and brake lights, including Center High Mounted Stop Lamps (CHMSL)

★ Rear end Collision Warning Lamps senses deceleration of lead vehicle and flashes amber warning strobe rearward to warn following vehicles of a pending braking or stopping event

★ Variable assist power steering allows assistance to the motorist while parking, but reduces steering effort assistance at motorway speeds

★ Headlight wipers/washers

★ Mercedes style ribbed tailights to prevent snow and grime build-up

★ Dynamic steering response (DSR) corrects the rate of power steering system to adapt it to vehicle's speed and road conditions.

★ Traction control (TCS) actuates brakes or reduces throttle to restore traction if driven wheels begin to spin.

★ Hill holder.

★ Four wheel drive (AWD) with a center differential. Distributing power to all four wheels lessens the chances of wheel spin. It also suffers less from oversteer and understeer than front wheel drive, but more understeer than rear wheel drive.

★ Reverse backup sensors, which alert drivers to nearby objects in their path, are installed in some high-end vehicles, but may also be purchased separately.

★ Electronic Stability Control (ESC, also known by ESP and other numerous manufacturer-specific names). Uses various sensors to intervene when the car senses a possible loss of control. The car's control unit can reduce power from the engine and even apply the brakes to prevent the car from understeering or oversteering. See car stability

★ Lateral Support : Lane Departure Warning System (LDWS).

★ Directional headlights, which allow the driver to see obstacles ahead in the roadway while cornering.

★ Low center of gravity and other conventional features promoting good car handling and braking, and helping to avoid rollover.

★ Comfortable suspension and seating to avoid accidents from driver fatigue.

★ Large (relative to weight) high performance tires, suited to the weather and road conditions, contribute to braking and handling. Soft high histeresis rubber, tread and cord design are important. See Run flat tire.

★ Visibility for the driver, mirrors, elimination of blind spots and possibly other awareness aids such as radar, wireless vehicle safety communications and night vision.

★ Death Brake; there is a move to introduce deadman's braking into automotive application, primarily heavy vehicles, there may also be a need to add penalty switches to ''cruise control''s.

★ Four wheel steering gives, at the cost of mechanical complexity, quicker, more accurate maneuvers at high speed and/or decreased turning circle at low speed. It may also help stability.

★ Adaptive cruise control (ACC).

★ AWAKE and intelligent car features.

★ Precrash system

★ Seatbelts might also play a minor role in active safety by keeping (via locking of the inertial reel) the driver firm on his/her seat in a high-g turn or deceleration. This has been further developed and patented by Mercedes-Benz in the PreSafe™ technology which provides a synergy between active and passive systems, helping the driver avoid a danger and preparing him/her for an imminent crash.

★ Brakes

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★ Anti-lock braking system (ABS)

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★ Electronic brakeforce distribution (EBD)

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★ Cornering Brake Control (CBC)

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★ Emergency brake assist (EBA)

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★ Brake assist system (BAS)

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★ Forward Collision Warning System (FCW)

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★ Lane Departure Warning System (LDW)

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★ Dynamic Brake Control (DBC).

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★ Inboard brakes allow large fade resistant discs or drums, without contributing to unsprung weight and wheel bounce, which degrade braking, handling and ride, and increase mechanical loads.

Passive safety

When a crash is imminent, various passive safety systems work together to minimize injury to the individuals involved. Much research has been done using crash test dummies to make modern cars safer than ever. Recently, attention has also been given to cars' design regarding the safety of pedestrians in car-pedestrian collisions. Controversial proposals in Europe would require cars sold there to have a minimum/maximum hood height. This has caused automakers to complain that the requirements will restrict their design choices, resulting in ugly cars. Others have pointed out that a notable percentage of pedestrians in these accidents are drunk. From 2006 the use of ''"bull bars"'' (known as ''"roo bars"'' in Australia), in fashion on 4x4s and SUVs, will be illegal.

★ Seatbelts (or safety belts) absorb energy and limit forward motion of an occupant, and help keep occupants from being ejected from the vehicle.

★ Airbags: There are many types of airbags, all of which should be considered supplemental restraint systems (SRS), used in addition to belts.

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★ Front airbags inflate in a medium speed head on collision to cushion the impact of the head to the steering wheel (driver) or dashboard to the (front passenger) .

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★ Side airbags inflate in a side impact (T-bone) collision to cushion the torso and sometimes the pelvis and head.

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★ Curtain airbags protect the head and upper body of passengers in a side collision. Newer models may stay inflated for a longer period of time, and may help to keep unbelted occupants in vehicle during a rollover, but should be considered supplemental to belts and never used in place of belts.

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★ Knee airbags inflate in frontal impact collisions to protect the driver's knees and are now available in many newer high end model vehicles.

★ Crumple zone technology absorbs the energy of a collision by displacing the impact of a crash and diverting it from the internal (passenger compartment) critical structure of the vehicle.

★ Side impact bars for protection against side on collisions

★ Collapsible steering column, sometimes provided with steel sheet bellows.

★ Crash compatibility can be improved by matching vehicles by weight and by matching crumple zones with points of structural rigidity, particularly for side-on collisions. Some pairs of vehicle front end structures interact better than others in crashes.

★ Cage construction is designed to protect vehicle occupants. Some racing vehicles have a tubular roll cage

★ Reinforced side door structural members

★ Fuel pump shutoff devices turn off gas flow in the event of a collision for the purpose of preventing gasoline fires.

★ Active pedestrian protection systems [4].

★ Driver State Sensor - Research, Utilizing cutting edge video processing technology, the system remotely and unobtrusively measures 3D head pose and eyelid motion parameters of the driver.

See also

★ The 100% Safe Car ★ Artificial passenger ★ Aurora safety car (1957) ★ Automated highway system ★ Automobile ★ Automobile design ★ Automotive navigation system ★ Car accident ★ ★ Crash ★ Car handling ★ Crash test dummy ★ Click It or Ticket ★ Defensive driving ★ Driver distraction ★ Driverless car

★ Emergency road service ★ Emergency vehicle ★ European Transport Safety Council (ETSC) [5]. ★ Experimental Safety Vehicle ★ Federal Motor Carrier Safety Administration (FMCSA). ★ First-aid kit ★ Frame (vehicle) ★ Hazard-warning triangle ★ Hazardous materials ★ Intelligent car ★ Lateral Support ★ Management systems for road safety ★ Mobile phones and driving safety ★ Motor carrier ★ Motorcycle Safety ★ Night vision

★ Pedestrian Safety Through Vehicle Design ★ Procon-ten ★ Road-traffic safety ★ Risk compensation ★ Safetec ★ Safety car ★ Smart car ★ Tow truck ★ Traffic psychology ★ Traffic safety. ★ ''Unsafe at Any Speed'' ★ Vehicle inspection ★ Criticism of sport utility vehicles

External links

★ Toyota Top-Rated Safety (Toyota official site)

★ Car Safety Equipment - Frontal and Side car crash video in slow motion

★ Teen Safe Driver - Drive Cam

★ Vehicle Safety Site

★ European safety ratings

★ [http://detnews.com/2004/specialreport/0404/13/a09-119932.htm [6] European vs US roof strength]

★ American safety ratings

★ National Transportation Safety Board. (USA)

★ California Highway Patrol booster seat webpage

★ Vehicle Research Center

★ Child Passenger Safety Resource

★ The Flicker Fusion Factor Why we can't drive safely at high speed

★ Insurance Institute for Highway Safety Status Report Newsletters

★ 2007 Used Car Safety Rating Report

References

1. World Health Organization: World report on road traffic injury prevention (2004)
2. http://www.straithclinic.com/aboutUs/history.htm
3. ''The Seat Belt, Swedish Research and Development for Global Automotive Safety'', ISBN 9163093898 , page 13
4. ''VEHICLE SAFETY PAST, PRESENT AND FUTURE'' Page 3
5. 4Car: Saab shows its first concept car
6. [1]
7. http://injuryprevention.bmj.com/cgi/content/extract/6/1/62-b?maxtoshow=&HITS=10&hits=10&RESULTFORMAT=&author1=de+haven&andorexactfulltext=and&searchid=1&FIRSTINDEX=0&sortspec=relevance&resourcetype=HWCIT
8. AutoSpeed: Early Mercedes Safety
9. Estimating global road fatalities - Regional Analyses - Highly Motorised Countries
10. UK Road deaths fall to record low, BBC News, September 9, 1999
11. Brain Immaturity Could Explain Teen Crash Rate, Washington Post, February 1, 2005


★ Car colour and risk of car crash injury: population based case control study. Furness, Sue, J Connor, E Robinson, R Norton, S Ameratunga, R Jackson

★ ''IEEE Communications Magazine'', April 2005, "Ad Hoc Peer-to-Peer Network Architecture for Vehicle Safety Communications"

★ ''IEEE Communications Magazine'', April 2005, "The Application-Based Clustering Concept and Requirements for Intervehicle Networks"

★ Safe vehicle colours.

★ The injury chart book: a graphical overview of the global burden of injuries. Peden M, McGee K, Sharma G. ISBN 92-4-156220-X

★ ''Physics Today'', January 2006, "Vehicle Design and the Physics of Traffic Safety"

★ Traffic Safety, , Leonard, Evans, Science Serving Society, ,