Traffic lights are signalling devices positioned at road intersections, pedestrian crossings, and other locations to control flows of traffic. The history of traffic lights is associated with the historic growth of the automobile. [1]
Traffic lights were first introduced in December 1868 on Parliament Square in London to reduce the need for police officers to control traffic. [2] Since then, electricity and computerised control has advanced traffic light technology and increased intersection capacity. [3] : 141
Before traffic lights, traffic police controlled the flow of traffic. A well-documented example is that on London Bridge in 1722. [3] Three men were given the task of directing traffic coming in and out of either London or Southwark. Each officer would help direct traffic coming out of Southwark into London and he made sure all traffic stayed on the west side of the bridge. A second officer would direct traffic on the east side of the bridge to control the flow of people leaving London and going into Southwark.
On 9 December 1868, [4] the first non-electric gas-lit traffic lights were installed outside the Houses of Parliament in London to control the traffic in Bridge Street, Great George Street, and Parliament Street. [2] They were proposed by the railway engineer J. P. Knight of Nottingham who had adapted this idea from his design of railway signaling systems [5] and constructed by the railway signal engineers of Saxby & Farmer. The main reason for the traffic light was that there was an overflow of horse-drawn traffic over Westminster Bridge which forced thousands of pedestrians to walk next to the Houses of Parliament. [6] The design combined three semaphore arms with red and green gas lamps for night-time use, on a pillar, operated by a police constable. The gas lantern was manually turned by a traffic police officer with a lever at its base so that the appropriate light faced traffic. [7] The signal was 22 feet (6.7 m) high. The light was called the semaphore and had arms that would extend horizontally that commanded drivers to "Stop" and then the arms would lower to a 45 degrees angle to tell drivers to proceed with "Caution". At night a red light would command "Stop" and a green light would mean use "Caution". [3] Although it was said to be successful at controlling traffic, its operational life was brief. It exploded on 2 January 1869 as a result of a leak in one of the gas lines underneath the pavement [8] and injured the policeman who was operating it. [9]
Despite the failure of the world's first traffic light in London in 1869, countries all around the world still made traffic lights. By 1880, traffic lights spread all over the world, and it has always been like that, since then. However, the early traffic lights in the late 19th century were very different from the ones that exist now. In the first two decades of the 20th century, semaphore traffic signals like the one in London were in use all over the United States with each state having its own design of the device. One example was from Toledo, Ohio in 1908. The words "Stop" and "Go" were in white on a green background and the lights had red and green lenses illuminated by kerosene lamps for night travellers and the arms were 8 feet (2.4 m) above ground. [3] : 22 It was controlled by a traffic officer who would blow a whistle before changing the commands on this signal to help alert travellers of the change. The design was also used in Philadelphia and Detroit. [3] : 23 The example in Ohio was the first time America tried to use a more visible form of traffic control that involved the use of semaphores. The device that was used in Ohio was designed based on the use of railroad signals. [1] : 382
In 1912, a traffic control device was placed on top of a tower in Paris at the intersection of rue Montmartre and the boulevard Montmartre. This tower signal was operated by a policewoman and she used a revolving four-sided metal box on top of a glass showcase where the word "Stop" was painted in red and the word "Go" painted in white. [3] : 33
In 1912, the first electric traffic light was developed by Lester Wire, a policeman in Salt Lake City, Utah. [10] It was installed by the American Traffic Signal Company on the corner of East 105th Street and Euclid Avenue in Cleveland, Ohio. [3] : 27–28 [11] [12] It had two colors, red and green, and a buzzer, based on the design of James Hoge, to provide a warning for color changes. The design by James Hoge [13] allowed police and fire stations to control the signals in case of emergency. The first interconnected traffic signal system was installed in Salt Lake City in 1917, with six connected intersections controlled simultaneously from a manual switch. [3] : 32
The first four-way, three-color traffic light was created by police officer William Potts in Detroit, Michigan in 1920. [14] [15] He was concerned about how police officers at four different lights signals could not change their lights all at the same time. The answer was a third light that was colored amber, which was the same color used on the railroad. [6] Potts also placed a timer with the light to help coordinate the lights. A tower was used to mount the lights as the junction at which it was installed was one of the busiest in the world, with over 20,000 vehicles a day. [3] : 35
Los Angeles installed its first automated traffic signals in October 1920 at five locations on Broadway. These early signals, manufactured by the Acme Traffic Signal Co., paired "Stop" and "Go" semaphore arms with small red and green lights. Bells played the role of today's amber lights, ringing when the flags changed—a process that took five seconds. By 1923 the city had installed 31 Acme traffic control devices. [16]
In 1922 traffic towers were beginning to be controlled by automatic timers. The first company to add timers in traffic lights was Crouse Hinds. They built railroad signals and were the first company to place timers in traffic lights in Houston, which was their home city. [1] : 385 The main advantage for the use of the timer was that it saved cities money by replacing traffic officers. The city of New York was able to reassign all but 500 of its 6,000 officers working on the traffic squad; this saved the city $12,500,000. [1] : 385 Wolverhampton was the first British town to introduce automated traffic lights in 1927 in Princes Square at the junction of Lichfield Street and Princess Street on a trial basis. [17] Great Britain's first permanent automated traffic lights were opened on 16 March 1928 in Leeds, on the corner of Park Row and Bond Street. [18] [19]
The introduction of automated traffic signals required a change of behavior for pedestrians. Most urban groups welcomed traffic lights; signals were seen by many as favorable to police officer control because they were not affected by potential human biases such as racism or mistrust of transit companies. [1] : 386–7 After witnessing an accident between an automobile and a horse-drawn carriage, inventor Garrett Morgan filed a U.S. patent for a traffic signal. [20] Patent No. 1,475,024 was granted on 20 November 1923 for Morgan's three-position traffic signal. [21]
A further development of traffic signals were staggered systems. These allowed the implementation of early green waves, so that vehicles travelling at a certain speed along a single street would only encounter green lights. The first staggered system was installed in 1926 on Sixteenth Street, Washington, D.C., leading to a doubling of commuting speed. [1] : 388
The twelve-light system did not become available until 1928 and another feature of the light system was that hoods were placed over the light and each lens was sand-blasted to increase daytime visibility. [1] : 383 Both the tower and semaphores were phased out by 1930. Towers were too big and obstructed traffic; semaphores were too small and drivers could not see them at night. [1] : 382
Ashville, Ohio, claims to be the home of the oldest working traffic light in the world, used at an intersection of public roads from 1932 to 1982 when it was moved to a local museum. [22] [23] Guinness World Records backed this claim by naming it the Oldest functional traffic light. [24]
In 1949, the first traffic light in the continent of Asia was installed in Haifa, Israel. [25] The first traffic light in South India was installed at Egmore Junction, Chennai in 1953. The city of Bangalore installed its first traffic light at Corporation Circle in 1963. [26]
The control of traffic lights made a big turn with the rise of computers in America in the 1950s. Thanks to computers, the changing of lights made traffic flow even better thanks to computerised detection. A pressure plate was placed at intersections so that computers would know that a car was waiting at the red light. [3] : 135 Some of this detection included knowing the number of waiting cars against the red light and the length of time waited by the first vehicle at the red. [3] : 141 One of the best historical examples of computerized control of lights was in Denver in 1952. One computer took control of 120 lights with six pressure-sensitive detectors measuring inbound and outbound traffic. The control room that housed the computer in charge of the system was in the basement of the City and County Building. [3] : 141 As computers started to evolve, traffic light control also improved and became easier. In 1967, the city of Toronto was the first to use more advanced computers that were better at vehicle detection. [3] : 141 The computers maintained control over 159 signals in the cities through telephone lines. [3] : 143
Countdown timers on traffic lights were introduced in the 1990s. Timers are useful for pedestrians, to plan whether there is enough time to cross the intersection before the end of the walk phase, and for drivers, to know the amount of time before the light switches. In the United States, timers for vehicle traffic are prohibited, but pedestrian timers are now required on new or upgraded signals on wider roadways. Some pedestrian timers can be used by motorists as well to know how much time remains in the green cycle, because often when the pedestrian timer reaches zero, the signal will simultaneously turn amber.[ citation needed ]
When incandescent lamps began to replace gas-powered lamps, it was necessary to incorporate a coloured lens in red, yellow or green to produce the signals, as incandenscent bulbs can only shine white light. In France in particular, the units were equipped with a reflector and a different coloured lens of types such as Fresnel, prismatic or others. [27] This drawbacks of these were their short lifetime and a glare effect when the sun is shinning in colored lens. It was often impossible to identify which signal was in operation. As such, traffic lights have often since been equipped with visors. [28]
In the 1960's, new lighting source began to be deployed using a discharge tube. The patent of the Silec Society filed in 1957 explains this technology. [29] The advantages were that the light source did not need a coloured lens, and this technology resolved the glare effect, reduced energy consumption and lengthed the lifetime when compared with incandescent sources.[ citation needed ]
In 1980, incandescent lamps were improved, with a lower 12V voltage, a better lifetime and reduced energy consumption. [30]
At the end of 1980, the great turning point was the introduction of Light Emitting Diode (LED) lights, which benefitted from an even longer replacement cycle and lower energy use. The first LED main traffic light was put in service in 1989 in California. The system was created by Electro-techs in Corona (California), a company created by Raymond Deese in 1981. [31]
A ramp meter, ramp signal, or metering light is a device, usually a basic traffic light or a two-section signal light together with a signal controller, that regulates the flow of traffic entering freeways according to current traffic conditions. Ramp meters are used at freeway on-ramps to manage the rate of automobiles entering the freeway. Ramp metering systems have proved to be successful in decreasing traffic congestion and improving driver safety.
A pedestrian crossing is a place designated for pedestrians to cross a road, street or avenue. The term "pedestrian crossing" is also used in the Vienna and Geneva Conventions, both of which pertain to road signs and road traffic.
Traffic lights, traffic signals, or stoplights – also known as robots in South Africa and Namibia – are signaling devices positioned at road intersections, pedestrian crossings, and other locations in order to control the flow of traffic.
A railway signal is a visual display device that conveys instructions or provides warning of instructions regarding the driver's authority to proceed. The driver interprets the signal's indication and acts accordingly. Typically, a signal might inform the driver of the speed at which the train may safely proceed or it may instruct the driver to stop.
Jaywalking is the act of pedestrians walking in or crossing a roadway if that act contravenes traffic regulations. The term originated in the United States as a derivation of the phrase jay-drivers, people who drove horse-drawn carriages and automobiles on the wrong side of the road, before taking its current meaning. Jaywalking was coined as the automobile arrived in the street in the context of the conflict between pedestrian and automobiles, more specifically the nascent automobile industry.
A street light, light pole, lamp pole, lamppost, streetlamp, light standard, or lamp standard is a raised source of light on the edge of a road or path. Similar lights may be found on a railway platform. When urban electric power distribution became ubiquitous in developed countries in the 20th century, lights for urban streets followed, or sometimes led.
A signal lamp is a visual signaling device for optical communication by flashes of a lamp, typically using Morse code. The idea of flashing dots and dashes from a lantern was first put into practice by Captain Philip Howard Colomb, of the Royal Navy, in 1867. Colomb's design used limelight for illumination, and his original code was not the same as Morse code. During World War I, German signalers used optical Morse transmitters called Blinkgerät, with a range of up to 8 km (5 miles) at night, using red filters for undetected communications.
The railway signalling system used across the majority of the United Kingdom rail network uses lineside signals to control the movement and speed of trains.
The New York City Department of Transportation (NYCDOT) is the agency of the government of New York City responsible for the management of much of New York City's transportation infrastructure. Ydanis Rodriguez is the Commissioner of the Department of Transportation, and was appointed by Mayor Eric Adams on January 1, 2022. Former Commissioners have included Polly Trottenberg, Janette Sadik-Khan, and Iris Weinshall. The NYCDOT has a training center in eastern Queens.
Lester Farnsworth Wire was an American police officer and inventor. He is credited with the invention of the electric traffic light in 1912.
In traffic engineering, there are regional and national variations in traffic light operation. This may be in the standard traffic light sequence or by the use of special signals.
William Potts was a Detroit police officer who is credited with inventing the modern, three-lens traffic light in Detroit in 1920.
John Peake Knight was an English railway manager and inventor, credited with inventing the traffic light in 1868.
North American railroad signals generally fall into the category of multi-headed electrically lit units displaying speed-based or weak route signaling. Signals may be of the searchlight, color light, position light, or color position light types, each displaying a variety of aspects which inform the locomotive operator of track conditions so that they may keep their train under control and able to stop short of any obstruction or dangerous condition.
Railway semaphore signal is one of the earliest forms of fixed railway signals. This semaphore system involves signals that display their different indications to train drivers by changing the angle of inclination of a pivoted 'arm'. Semaphore signals were patented in the early 1840s by Joseph James Stevens, and soon became the most widely used form of mechanical signal. Designs have altered over the intervening years, and colour light signals have replaced semaphore signals in most countries, but in a few they remain in use.
Xiaolüren can refer to any pedestrian traffic lights, but most often the animated traffic light system originally from Taiwan. It was first implemented in Taipei City between Songshou Road and Songzhi Road, in 1999, and came into widespread use around the country and almost replaced incandescent, static and non-animated pedestrian traffic lights within a few years.
The normal function of traffic lights requires more than sight control and coordination to ensure that traffic and pedestrians move as smoothly, and safely as possible. A variety of different control systems are used to accomplish this, ranging from simple clockwork mechanisms to sophisticated computerized control and coordination systems that self-adjust to minimize delay to people using the junction.
Solar traffic lights are signalling devices powered by solar panels positioned at road intersections, pedestrian crossings and other locations to control the flows of traffic. They assign the right of way to road users by the use of lights in standard colors, using a universal color code.
Semaphore is the use of an apparatus to create a visual signal transmitted over distance. A semaphore can be performed with devices including: fire, lights, flags, sunlight, and moving arms. Semaphores can be used for telegraphy when arranged in visually connected networks, or for traffic signalling such as in railway systems, or traffic lights in cities.
Traffic lights – devices positioned at road intersections, pedestrian crossings and other locations – control flows of traffic with social norms and laws created by the state. Traffic signals have to convey messages to drivers in a short period of time about constantly-changing road rules.
[Professor Roni Gamzo would probably be interested to know that the word traffic light is made up of the basics of the words "hint" and "light" - the light hints to cars and pedestrians what they should do. The word was renewed after the placement of the first traffic light in Israel, in the city of Haifa in 1949.]