RADIO

Radio is the transmission of signals by modulation of electromagnetic waves with frequencies below those of visible light.^[1] Electromagnetic radiation travels by means of oscillating electromagnetic fields that pass through the air and the vacuum of space. Information is carried by systematically changing (modulating) some property of the radiated waves, such as amplitude, frequency, or phase. When radio waves pass an electrical conductor, the oscillating fields induce an alternating current in the conductor. This can be detected and transformed into sound or other signals that carry information.

Contents [hide] 1 Etymology 2 Processes 2.1 Electromagnetic spectrum 3 History 3.1 Invention 3.2 Commercialization 4 Uses of radio 4.1 Audio 4.2 Telephony 4.3 Video 4.4 Navigation 4.5 Radar 4.6 Data (digital radio) 4.7 Heating 4.8 Amateur radio service 4.9 Unlicensed radio services 4.10 Radio control (R C) 5 See also 6 References 7 Further reading 8 External links

[edit] Etymology

Originally, radio or radiotelegraphy was called "wireless telegraphy", which was shortened to "wireless" by the British. The prefix radio- in the sense of wireless transmission, was first recorded in the word radioconductor, coined by the French physicist Édouard Branly in 1897 and based on the verb to radiate (in Latin "radius" means "spoke of a wheel, beam of light, ray"). "Radio" as a noun is said to have been coined by the advertising expert Waldo Warren (White 1944). This word also appears in a 1907 article by Lee De Forest, was adopted by the United States Navy in 1912 and became common by the time of the first commercial broadcasts in the United States in the 1920s. (The noun "broadcasting" itself came from an agricultural term, meaning "scattering seeds widely".) The term was then adopted by other languages in Europe and Asia. British Commonwealth countries continued to mainly use the term "wireless" until the mid-20th century, though the magazine of the BBC in the UK has been called Radio Times ever since it was first published in the early 1920s.

In recent years the term "wireless" has gained renewed popularity through the rapid growth of short-range computer networking, e.g., Wireless Local Area Network (WLAN), WiFi, and Bluetooth, as well as mobile telephony, e.g., GSM and UMTS. Today, the term "radio" often refers to the actual transceiver device or chip, whereas "wireless" refers to the system and/or method used for radio communication, hence one talks about radio transceivers and Radio Frequency Identification (RFID), but about wireless devices and wireless sensor networks.

[edit] Processes

Radio systems used for communications will have the following elements. With more than 100 years of development, each process is implemented by a wide range of methods, specialized for different communications purposes.

Each system contains a transmitter. This consists of a source of electrical energy, producing alternating current of a desired frequency of oscillation. The transmitter contains a system to modulate (change) some property of the energy produced to impress a signal on it. This modulation might be as simple as turning the energy on and off, or altering more subtle properties such as amplitude, frequency, phase, or combinations of these properties. The transmitter sends the modulated electrical energy to a tuned resonant antenna; this structure converts the rapidly-changing alternating current into an electromagnetic wave that can move through free space (sometimes with a particular polarisation).

Electromagnetic waves travel through space either directly, or have their path altered by reflection, refraction or diffraction. The intensity of the waves diminishes due to geometric dispersion (the inverse-square law); some energy may also be absorbed by the intervening medium in some cases. Noise will generally alter the desired signal; this electromagnetic interference comes from natural sources, as well as from artificial sources such as other transmitters and accidental radiators. Noise is also produced at every step due to the inherent properties of the devices used. If the magnitude of the noise is large enough, the desired signal will no longer be discernible; this is the fundamental limit to the range of radio communications.

The electromagnetic wave is intercepted by a tuned receiving antenna; this structure captures some of the energy of the wave and returns it to the form of oscillating electrical currents. At the receiver, these currents are demodulated, which is conversion to a usable signal form by a detector sub-system. The receiver is "tuned" to respond preferentially to the desired signals, and reject undesired signals.

Early radio systems relied entirely on the energy collected by an antenna to produce signals for the operator. Radio became more useful after the invention of electronic devices such as the vacuum tube and later the transistor, which made it possible to amplify weak signals. Today radio systems are used for applications from walkie-talkie children's toys to the control of space vehicles, as well as for broadcasting, and many other applications.

[edit] Electromagnetic spectrum

Main article: Electromagnetic spectrum

Radio frequencies occupy the range from a few tens of hertz to three hundred gigahertz, although commercially important uses of radio use only a small part of this spectrum.^[2] Other types of electromagnetic radiation, with frequencies above the RF range, are microwave, infrared, visible light, ultraviolet, X-rays and gamma rays. Since the energy of an individual photon of radio frequency is too low to remove an electron from an atom, radio waves are classified as non-ionizing radiation.

[edit] History

Main article: History of radio

[edit] Invention

Main article: Invention of radio

The meaning and usage of the word "radio" has developed in parallel with developments within the field and can be seen to have three distinct phases: electromagnetic waves and experimentation; wireless communication and technical development; and radio broadcasting and commercialization. Many individuals -- inventors, engineers, developers, businessmen - contributed to produce the modern idea of radio and thus the origins and 'invention' are multiple and controversial. Early radio could not transmit sound or speech and was called the "wireless telegraph".

Development from a laboratory demonstration to a commercial entity spanned several decades and required the efforts of many practitioners. Experiments, later patented, were undertaken by Thomas Edison and his employees of Menlo Park.^[3] Edison applied in 1885 to the U.S. Patent Office for his patent on an electrostatic coupling system between elevated terminals. The patent was granted as U.S. Patent 465,971 on December 29, 1891. The Marconi Company would later purchase rights to the Edison patent to protect them legally from lawsuits.^[4]

Tesla demonstrating wireless transmissions during his high frequency and potential lecture of 1891. After continued research, Tesla presented the fundamentals of radio in 1893.

In 1893, in St. Louis, Missouri, Nikola Tesla made devices for his experiments with electricity. Addressing the Franklin Institute in Philadelphia and the National Electric Light Association, he described and demonstrated the principles of his wireless work.^[5] The descriptions contained all the elements that were later incorporated into radio systems before the development of the vacuum tube. He initially experimented with magnetic receivers, unlike the coherers (detecting devices consisting of tubes filled with iron filings which had been invented by Temistocle Calzecchi-Onesti at Fermo in Italy in 1884) used by Guglielmo Marconi and other early experimenters.^[6]

A demonstration of wireless telegraphy took place in the lecture theater of the Oxford University Museum of Natural History on August 14, 1894, carried out by Professor Oliver Lodge and Alexander Muirhead. During the demonstration a radio signal was sent from the neighboring Clarendon laboratory building, and received by apparatus in the lecture theater.

In 1895 Alexander Stepanovich Popov built his first radio receiver, which contained a coherer. Further refined as a lightning detector, it was presented to the Russian Physical and Chemical Society on May 7, 1895. A depiction of Popov's lightning detector was printed in the Journal of the Russian Physical and Chemical Society the same year. Popov's receiver was created on the improved basis of Lodge's receiver, and originally intended for reproduction of its experiments.

[edit] Commercialization

Telephone Herald in Budapest, Hungary (1901).

In 1896, Marconi was awarded the British patent 12039, Improvements in transmitting electrical impulses and signals and in apparatus there-for, for radio. In 1897 he established a radio station on the Isle of Wight, England. Marconi opened his "wireless" factory in Hall Street, Chelmsford, England in 1898, employing around 50 people.

The next advancement was the vacuum tube detector, invented by Westinghouse engineers. On Christmas Eve, 1906, Reginald Fessenden used a synchronous rotary-spark transmitter for the first radio program broadcast, from Ocean Bluff-Brant Rock, Massachusetts. Ships at sea heard a broadcast that included Fessenden playing O Holy Night on the violin and reading a passage from the Bible. This was, for all intents and purposes, the first transmission of what is now known as amplitude modulation or AM radio. The first radio news program was broadcast August 31, 1920 by station 8MK in Detroit, Michigan, which survives today as all-news format station WWJ under ownership of the CBS network. The first college radio station began broadcasting on October 14, 1920, from Union College, Schenectady, New York under the personal call letters of Wendell King, an African-American student at the school.^[7] That month 2ADD, later renamed WRUC in 1940, aired what is believed to be the first public entertainment broadcast in the United States, a series of Thursday night concerts initially heard within a 100-mile (160 km) radius and later for a 1,000-mile (1,600 km) radius. In November 1920, it aired the first broadcast of a sporting event.^[7][8] At 9 pm on August 27, 1920, Sociedad Radio Argentina aired a live performance of Richard Wagner's Parsifal opera from the Coliseo Theater in downtown Buenos Aires. Only about twenty homes in the city had receivers to tune in this radio program. Meanwhile, regular entertainment broadcasts commenced in 1922 from the Marconi Research Centre at Writtle, England.

American girl listens to radio during the Great Depression.

One of the first developments in the early 20th century (1900-1959) was that aircraft used commercial AM radio stations for navigation. This continued until the early 1960s when VOR systems finally became widespread (though AM stations are still marked on U.S. aviation charts). In the early 1930s, single sideband and frequency modulation were invented by amateur radio operators. By the end of the decade, they were established commercial modes. Radio was used to transmit pictures visible as television as early as the 1920s. Commercial television transmissions started in North America and Europe in the 1940s. In 1954, the Regency company introduced a pocket transistor radio, the TR-1, powered by a "standard 22.5 V Battery".

In 1960, the Sony company introduced its first transistorized radio. It was small enough to fit in a vest pocket, and able to be powered by a small battery. It was durable, because it had no vacuum tubes to burn out. Over the next 20 years, transistors replaced tubes almost completely except for very high-power transmitter uses. By 1963, color television was being regularly broadcast commercially (though not all broadcasts or programs were in color), and the first (radio) communication satellite, Telstar, was launched. In the late 1960s, the U.S. long-distance telephone network began to convert to a digital network, employing digital radios for many of its links. In the 1970s, LORAN became the premier radio navigation system. Soon, the U.S. Navy experimented with satellite navigation, culminating in the invention and launch of the GPS constellation in 1987. In the early 1990s, amateur radio experimenters began to use personal computers with audio cards to process radio signals. In 1994, the U.S. Army and DARPA launched an aggressive, successful project to construct a software-defined radio that can be programmed to be virtually any radio by changing its software program. Digital transmissions began to be applied to broadcasting in the late 1990s.

[edit] Uses of radio

Early uses were maritime, for sending telegraphic messages using Morse code between ships and land. The earliest users included the Japanese Navy scouting the Russian fleet during the Battle of Tsushima in 1905. One of the most memorable uses of marine telegraphy was during the sinking of the RMS Titanic in 1912, including communications between operators on the sinking ship and nearby vessels, and communications to shore stations listing the survivors.

Radio was used to pass on orders and communications between armies and navies on both sides in World War I; Germany used radio communications for diplomatic messages once it discovered that its submarine cables had been tapped by the British. The United States passed on President Woodrow Wilson's Fourteen Points to Germany via radio during the war. Broadcasting began from San Jose, California in 1909,^[9] and became feasible in the 1920s, with the widespread introduction of radio receivers, particularly in Europe and the United States. Besides broadcasting, point-to-point broadcasting, including telephone messages and relays of radio programs, became widespread in the 1920s and 1930s. Another use of radio in the pre-war years was the development of detection and locating of aircraft and ships by the use of radar (RAdio Detection And Ranging).

Today, radio takes many forms, including wireless networks and mobile communications of all types, as well as radio broadcasting. Before the advent of television, commercial radio broadcasts included not only news and music, but dramas, comedies, variety shows, and many other forms of entertainment. Radio was unique among methods of dramatic presentation in that it used only sound. For more, see radio programming.

[edit] Audio

A Fisher 500 AM/FM hi-fi receiver from 1959.

AM radio uses amplitude modulation, in which the amplitude of the transmitted signal is made proportional to the sound amplitude captured (transduced) by the microphone, while the transmitted frequency remains unchanged. Transmissions are affected by static and interference because lightning and other sources of radio emissions on the same frequency add their amplitudes to the original transmitted amplitude. In the early part of the 20th century, American AM radio stations broadcast with powers as high as 500 kW, and some could be heard worldwide; these stations' transmitters were commandeered for military use by the US Government during World War II. Currently, the maximum broadcast power for a civilian AM radio station in the United States and Canada is 50 kW, and the majority of stations that emit signals this powerful were grandfathered in (see List of 50kw AM radio stations in the USA). In 1986 KTNN received the last granted 50,000 watt license. These 50 kW stations are generally called "clear channel" stations (not to be confused with Clear Channel Communications), because within North America each of these stations has exclusive use of its broadcast frequency throughout part or all of the broadcast day.

Bush House, home of the BBC World Service.

FM broadcast radio sends music and voice with higher fidelity than AM radio. In frequency modulation, amplitude variation at the microphone causes the transmitter frequency to fluctuate. Because the audio signal modulates the frequency and not the amplitude, an FM signal is not subject to static and interference in the same way as AM signals. Due to its need for a wider bandwidth, FM is transmitted in the Very High Frequency (VHF, 30 MHz to 300 MHz) radio spectrum. VHF radio waves act more like light, traveling in straight lines; hence the reception range is generally limited to about 50-100 miles. During unusual upper atmospheric conditions, FM signals are occasionally reflected back towards the Earth by the ionosphere, resulting in long distance FM reception. FM receivers are subject to the capture effect, which causes the radio to only receive the strongest signal when multiple signals appear on the same frequency. FM receivers are relatively immune to lightning and spark interference.

High power is useful in penetrating buildings, diffracting around hills, and refracting in the dense atmosphere near the horizon for some distance beyond the horizon. Consequently, 100,000 watt FM stations can regularly be heard up to 100 miles (160 km) away, and farther (e.g., 150 miles, 240 km) if there are no competing signals. A few old, "grandfathered" stations do not conform to these power rules. WBCT-FM (93.7) in Grand Rapids, Michigan, USA, runs 320,000 watts ERP, and can increase to 500,000 watts ERP by the terms of its original license. Such a huge power level does not usually help to increase range as much as one might expect, because VHF frequencies travel in nearly straight lines over the horizon and off into space. Nevertheless, when there were fewer FM stations competing, this station could be heard near Bloomington, Illinois, USA, almost 300 miles (500 km) away.^{[citation needed]}

FM subcarrier services are secondary signals transmitted in a "piggyback" fashion along with the main program. Special receivers are required to utilize these services. Analog channels may contain alternative programming, such as reading services for the blind, background music or stereo sound signals. In some extremely crowded metropolitan areas, the sub-channel program might be an alternate foreign language radio program for various ethnic groups. Sub-carriers can also transmit digital data, such as station identification, the current song's name, web addresses, or stock quotes. In some countries, FM radios automatically re-tune themselves to the same channel in a different district by using sub-bands.

Aviation voice radios use VHF AM. AM is used so that multiple stations on the same channel can be received. (Use of FM would result in stronger stations blocking out reception of weaker stations due to FM's capture effect). Aircraft fly high enough that their transmitters can be received hundreds of miles (or kilometres) away, even though they are using VHF.

Marine voice radios can use single sideband voice (SSB) in the shortwave High Frequency (HF—3 MHz to 30 MHz) radio spectrum for very long ranges or narrowband FM in the VHF spectrum for much shorter ranges. Narrowband FM sacrifices fidelity to make more channels available within the radio spectrum, by using a smaller range of radio frequencies, usually with five kHz of deviation, versus the 75 kHz used by commercial FM broadcasts, and 25 kHz used for TV sound.

Government, police, fire and commercial voice services also use narrowband FM on special frequencies. Early police radios used AM receivers to receive one-way dispatches.

Civil and military HF (high frequency) voice services use shortwave radio to contact ships at sea, aircraft and isolated settlements. Most use single sideband voice (SSB), which uses less bandwidth than AM. On an AM radio SSB sounds like ducks quacking, or the adults in a Charlie Brown cartoon. Viewed as a graph of frequency versus power, an AM signal shows power where the frequencies of the voice add and subtract with the main radio frequency. SSB cuts the bandwidth in half by suppressing the carrier and (usually) lower sideband. This also makes the transmitter about three times more powerful, because it doesn't need to transmit the unused carrier and sideband.

TETRA, Terrestrial Trunked Radio is a digital cell phone system for military, police and ambulances. Commercial services such as XM, WorldSpace and Sirius offer encrypted digital Satellite radio.

[edit] Telephony

Mobile phones transmit to a local cell site (transmitter/receiver) that ultimately connects to the public switched telephone network (PSTN) through an optic fiber or microwave radio and other network elements. When the mobile phone nears the edge of the cell site's radio coverage area, the central computer switches the phone to a new cell. Cell phones originally used FM, but now most use various digital modulation schemes. Recent developments in Sweden (such as DROPme) allow for the instant downloading of digital material from a radio broadcast (such as a song) to a mobile phone.

Satellite phones use satellites rather than cell towers to communicate.

[edit] Video

Television sends the picture as AM and the sound as AM or FM, with the sound carrier a fixed frequency (4.5 MHz in the NTSC system) away from the video carrier. Analog television also uses a vestigial sideband on the video carrier to reduce the bandwidth required.

Digital television uses 8VSB modulation in North America (under the ATSC digital television standard), and COFDM modulation elsewhere in the world (using the DVB-T standard). A Reed–Solomon error correction code adds redundant correction codes and allows reliable reception during moderate data loss. Although many current and future codecs can be sent in the MPEG transport stream container format, as of 2006 most systems use a standard-definition format almost identical to DVD: MPEG-2 video in Anamorphic widescreen and MPEG layer 2 (MP2) audio. High-definition television is possible simply by using a higher-resolution picture, but H.264/AVC is being considered as a replacement video codec in some regions for its improved compression. With the compression and improved modulation involved, a single "channel" can contain a high-definition program and several standard-definition programs.

[edit] Navigation

All satellite navigation systems use satellites with precision clocks. The satellite transmits its position, and the time of the transmission. The receiver listens to four satellites, and can figure its position as being on a line that is tangent to a spherical shell around each satellite, determined by the time-of-flight of the radio signals from the satellite. A computer in the receiver does the math.

Radio direction-finding is the oldest form of radio navigation. Before 1960 navigators used movable loop antennas to locate commercial AM stations near cities. In some cases they used marine radiolocation beacons, which share a range of frequencies just above AM radio with amateur radio operators. LORAN systems also used time-of-flight radio signals, but from radio stations on the ground. VOR (Very High Frequency Omnidirectional Range), systems (used by aircraft), have an antenna array that transmits two signals simultaneously. A directional signal rotates like a lighthouse at a fixed rate. When the directional signal is facing north, an omnidirectional signal pulses. By measuring the difference in phase of these two signals, an aircraft can determine its bearing or radial from the station, thus establishing a line of position. An aircraft can get readings from two VORs and locate its position at the intersection of the two radials, known as a "fix." When the VOR station is collocated with DME (Distance Measuring Equipment), the aircraft can determine its bearing and range from the station, thus providing a fix from only one ground station. Such stations are called VOR/DMEs. The military operates a similar system of navaids, called TACANs, which are often built into VOR stations. Such stations are called VORTACs. Because TACANs include distance measuring equipment, VOR/DME and VORTAC stations are identical in navigation potential to civil aircraft.

[edit] Radar

Radar (Radio Detection And Ranging) detects objects at a distance by bouncing radio waves off them. The delay caused by the echo measures the distance. The direction of the beam determines the direction of the reflection. The polarization and frequency of the return can sense the type of surface. Navigational radars scan a wide area two to four times per minute. They use very short waves that reflect from earth and stone. They are common on commercial ships and long-distance commercial aircraft.

General purpose radars generally use navigational radar frequencies, but modulate and polarize the pulse so the receiver can determine the type of surface of the reflector. The best general-purpose radars distinguish the rain of heavy storms, as well as land and vehicles. Some can superimpose sonar data and map data from GPS position.

Search radars scan a wide area with pulses of short radio waves. They usually scan the area two to four times a minute. Sometimes search radars use the Doppler effect to separate moving vehicles from clutter. Targeting radars use the same principle as search radar but scan a much smaller area far more often, usually several times a second or more. Weather radars resemble search radars, but use radio waves with circular polarization and a wavelength to reflect from water droplets. Some weather radar use the Doppler effect to measure wind speeds.

[edit] Data (digital radio)

2008 Pure One Classic digital radio

Most new radio systems are digital, see also: Digital TV, Satellite Radio, Digital Audio Broadcasting. The oldest form of digital broadcast was spark gap telegraphy, used by pioneers such as Marconi. By pressing the key, the operator could send messages in Morse code by energizing a rotating commutating spark gap. The rotating commutator produced a tone in the receiver, where a simple spark gap would produce a hiss, indistinguishable from static. Spark gap transmitters are now illegal, because their transmissions span several hundred megahertz. This is very wasteful of both radio frequencies and power.

The next advance was continuous wave telegraphy, or CW (Continuous Wave), in which a pure radio frequency, produced by a vacuum tube electronic oscillator was switched on and off by a key. A receiver with a local oscillator would "heterodyne" with the pure radio frequency, creating a whistle-like audio tone. CW uses less than 100 Hz of bandwidth. CW is still used, these days primarily by amateur radio operators (hams). Strictly, on-off keying of a carrier should be known as "Interrupted Continuous Wave" or ICW or on-off keying (OOK).

Radio teletypes usually operate on short-wave (HF) and are much loved by the military because they create written information without a skilled operator. They send a bit as one of two tones. Groups of five or seven bits become a character printed by a teletype. From about 1925 to 1975, radio teletype was how most commercial messages were sent to less developed countries. These are still used by the military and weather services.

Aircraft use a 1200 Baud radioteletype service over VHF to send their ID, altitude and position, and get gate and connecting-flight data. Microwave dishes on satellites, telephone exchanges and TV stations usually use quadrature amplitude modulation (QAM). QAM sends data by changing both the phase and the amplitude of the radio signal. Engineers like QAM because it packs the most bits into a radio signal when given an exclusive (non-shared) fixed narrowband frequency range. Usually the bits are sent in "frames" that repeat. A special bit pattern is used to locate the beginning of a frame.

Modern GPS receivers.

Communication systems that limit themselves to a fixed narrowband frequency range are vulnerable to jamming. A variety of jamming-resistant spread spectrum techniques were initially developed for military use, most famously for Global Positioning System satellite transmissions. Commercial use of spread spectrum began in the 1980s. Bluetooth, most cell phones, and the 802.11b version of Wi-Fi each use various forms of spread spectrum.

Systems that need reliability, or that share their frequency with other services, may use "coded orthogonal frequency-division multiplexing" or COFDM. COFDM breaks a digital signal into as many as several hundred slower subchannels. The digital signal is often sent as QAM on the subchannels. Modern COFDM systems use a small computer to make and decode the signal with digital signal processing, which is more flexible and far less expensive than older systems that implemented separate electronic channels. COFDM resists fading and ghosting because the narrow-channel QAM signals can be sent slowly. An adaptive system, or one that sends error-correction codes can also resist interference, because most interference can affect only a few of the QAM channels. COFDM is used for Wi-Fi, some cell phones, Digital Radio Mondiale, Eureka 147, and many other local area network, digital TV and radio standards.

[edit] Heating

Radio-frequency energy generated for heating of objects is generally not intended to radiate outside of the generating equipment, to prevent interference with other radio signals. Microwave ovens use intense radio waves to heat food. Diathermy equipment is used in surgery for sealing of blood vessels. Induction furnaces are used for melting metal for casting, and induction hobs for cooking.

[edit] Amateur radio service

Amateur radio station with multiple receivers and transceivers

Amateur radio, also known as "ham radio", is a hobby in which enthusiasts are licensed to communicate on a number of bands in the radio frequency spectrum non-commercially and for their own enjoyment. They may also provide emergency and public service assistance. This has been very beneficial in emergencies, saving lives in many instances.^[10] Radio amateurs use a variety of modes, including nostalgic ones like Morse code and experimental ones like Low-Frequency Experimental Radio. Several forms of radio were pioneered by radio amateurs and later became commercially important including FM, single-sideband (SSB), AM, digital packet radio and satellite repeaters. Some amateur frequencies may be disrupted by power-line internet service.

[edit] Unlicensed radio services

Unlicensed, government-authorized personal radio services such as Citizens' band radio in Australia, the USA, and Europe, and Family Radio Service and Multi-Use Radio Service in North America exist to provide simple, (usually) short range communication for individuals and small groups, without the overhead of licensing. Similar services exist in other parts of the world. These radio services involve the use of handheld units.

Free radio stations, sometimes called pirate radio or "clandestine" stations, are unauthorized, unlicensed, illegal broadcasting stations. These are often low power transmitters operated on sporadic schedules by hobbyists, community activists, or political and cultural dissidents. Some pirate stations operating offshore in parts of Europe and the United Kingdom more closely resembled legal stations, maintaining regular schedules, using high power, and selling commercial advertising time.^[11][12]

[edit] Radio control (R C)

Radio remote controls use radio waves to transmit control data to a remote object as in some early forms of guided missile, some early TV remotes and a range of model boats, cars and airplanes. Large industrial remote-controlled equipment such as cranes and switching locomotives now usually use digital radio techniques to ensure safety and reliability.

In Madison Square Garden, at the Electrical Exhibition of 1898, Nikola Tesla successfully demonstrated a radio-controlled boat.^[13] He was awarded U.S. patent No. 613,809 for a "Method of and Apparatus for Controlling Mechanism of Moving Vessels or Vehicles."^[14]

persian love

Persian

"Even after all this time the sun never says to the earth you owe me. Look what happens with a Love like that, It lights the whole Sky." Iranian ( Persian ) Poet and Mystic, Hafez

Rumi, Hafez and Omar Khayyam are just symbols of the passion and love that the Persian culture and language presents.

Over seven centuries ago, Sa'di, an Iranian poet, wrote the following verses:

"The children of Adam are limbs of each other Having been created of one essence. When the calamity of time afflicts one limb The other limbs cannot remain at rest. If thou hast no sympathy for the troubles of others Thou art unworthy to be called by the name of a man."

Love in Persian is the word Eshgh. In the Persian culture, everything is encompassed by love and all is for love, but for starters we practice loving our friends and family, then our husbands and wives, our country and culture, and eventually the ultimate love of divine love which is the ultimate goal in life.

[edit] Turkish (Shaman & Islamic)

In Turkish the word "Love" comes up with several meanings. A person can love the god, a person, the parents or the family. But that person can "Love" just one person from the opposite sex which they call the word " Ask ".

Ask (read as Ashk) is a feeling for to love, as it still is in Turkish today. The Turks used this word just for love in a romantic or sexual sense. If a Turk says that he is in Love (Ask) with somebody, it is not a love that a person can feel for his or her parents. It is just for one person and it indicates infatuation.

[edit] Chinese

• Ai (愛) is used as a verb (e.g. Wo ai ni, "I love you") or as a noun, especially in aiqing (愛情), "love" or "romance." In mainland China since 1949, airen (愛人, originally "lover," or more literally, "love person") is the dominant word for "spouse" (with separate terms for "wife" and "husband" originally being de-emphasized).
• Lian (戀) is not generally used alone, but instead as part of such terms as "being in love" (談戀愛, tan lian'ai — also containing ai), "lover" (戀人, lianren) or "homosexuality" (同性戀, tongxinglian).
• Qing (情), commonly meaning "feeling" or "emotion," often indicates "love" in several terms. It is contained in the word aiqing (愛情); qingren (情人) is a term for "lover". It is comparable to the English word "dear".

In Confucianism, lian is a virtuous benevolent love. Lian should be pursued by all human beings, and reflects a moral life. The Chinese philosopher Mozi developed the concept of ai (愛) in reaction to Confucian lian. Ai, in Mohism, is universal love towards all beings, not just towards friends or family, without regard to reciprocation. Extravagance and offensive war are inimical to ai. Although Mozi's thought was influential, the Confucian lian is how most Chinese conceive of love.

Gănqíng (感情), the feeling of a relationship. A person will express love by building good gănqíng, accomplished through helping or working for another. Emotional attachment toward another person or anything.

Yuanfen (緣份) is a connection of bound destinies. A meaningful relationship is often conceived of as dependent strong yuanfen. It is very similar to serendipity. A similar conceptualization in English is, "They were made for each other," "fate," or "destiny".

Zaolian (Simplified: 早恋, Traditional: 早戀, pinyin: zǎoliàn), "puppy love" or literally "early love," is a contemporary term in frequent use for romantic feelings or attachments among children or adolescents. Zaolian describes both relationships among a teenaged boyfriend and girlfriend, as well as the "crushes" of early adolescence or childhood. The concept essentially indicates a prevalent belief in contemporary Chinese culture that due to the demands of their studies (especially true in the highly competitive educational system of China), youth should not form romantic attachments lest they jeopardize their chances for success in the future. Reports have appeared in Chinese newspapers and other media detailing the prevalence of the phenomenon and its perceived dangers to students and the fears of parents.

[edit] Japanese

In Japanese Buddhism, ai (愛) is passionate caring love, and a fundamental desire. It can develop towards either selfishness or selflessness and enlightenment.

Amae (甘え), a Japanese word meaning "indulgent dependence", is part of the child-rearing culture of Japan. Japanese mothers are expected to hug and indulge their children, and children are expected to reward their mothers by clinging and serving. Some sociologists (most notably, Takeo Doi) have suggested that Japanese social interactions in later life are modeled on the mother-child amae.

Linguistically, the two most common words for love are ai （愛）and koi (恋). Generally speaking, most forms of non-romantic love are expressed using the former, while romantic love is expressed using the latter. "Parental love", for example, is oya no ai (親の愛), while "to be in love with" is koi suru (恋する). There are of course exceptions. The word aijin (愛人) means "lover" and implies an illicit, often extramarital relationship, whereas koibito (恋人) has the connotation of "boyfriend", "girlfriend", or "partner".

In everyday conversation, however, ai (愛) and koi (恋) are rarely used because to many Japanese people the word "ai" sounds either overly dramatic or desperate. Rather than using ai shiteiru (愛している) or koi shiteiru (恋している) to say "I love you", for example, most Japanese would say daisuki desu (大好きです), which means "I really like you" -- suki (好き) being the same word used to express preferences for food, music, etc., as in sushi ga suki desu (寿司が好きです), or "I like sushi." Rather than diluting the sentiment, however, the implied meaning of "love" is understood. (The phrase ai shiteiru (愛している), "I love you", however, tends to show up frequently in pop song love ballads.)

[edit] Greek

See also: Greek words for love

Greek distinguishes several different senses in which the word love is used. For example, ancient Greek has the words philia, eros, agape, storge and xenia. As with many other languages, it is difficult to separate the meanings of these words totally. The ancient Greek text of the Bible has examples of the verb agapo being used with the same meaning as phileo.^{[citation needed]}

Agape (ἀγάπη agápē) means love in modern day Greek. The term s'agapo means I love you in Greek. The word agapo is the verb I love. It generally refers to a "pure", ideal type of love rather than the physical attraction suggested by eros. However, there are some examples of agape used to mean the same as eros. It has also been translated as "love of the soul".

Eros (ἔρως érōs) is passionate love, with sensual desire and longing. The Greek word erota means in love. Plato refined his own definition. Although eros is initially felt for a person, with contemplation it becomes an appreciation of the beauty within that person, or even becomes appreciation of beauty itself. Eros helps the soul recall knowledge of beauty, and contributes to an understanding of spiritual truth. Lovers and philosophers are all inspired to seek truth by eros. Some translations list it as "love of the body".

Philia (φιλία philía), means friendship in modern Greek, a dispassionate virtuous love, was a concept developed by Aristotle. It includes loyalty to friends, family, and community, and requires virtue, equality and familiarity. Philia is motivated by practical reasons; one or both of the parties benefit from the relationship.

Storge (στοργή storgē) means affection in modern Greek; it is natural affection, like that felt by parents for offspring.

Xenia (ξενία philoxenía), means hospitality in modern Greek, and was an extremely important practice in ancient Greece. It was an almost ritualized friendship formed between a host and their guest, who could previously be strangers. The host fed and provided quarters for the guest, who was only expected to repay with gratitude. The importance of this can be seen throughout Greek mythology, in particular Homer's Iliad and Odyssey.

[edit] Latin

Amare is the basic word for to love, as it still is in Italian, Spanish, and French today. The Romans used it both in an affectionate sense, as well as in a romantic or sexual sense. From this verb come amans, a lover, amator, 'professional lover', often with the accessory notion of lechery, and amica, 'girlfriend' in the English sense, often as well being applied euphemistically to a prostitute. The corresponding noun is amor, which is also used in the plural form to indicate 'love affairs' or 'sexual adventures'. This same root also produces amicus, 'friend', and amicitia, 'friendship' ed on mutual advantage, and corresponding sometimes more closely to 'indebtedness' or 'influence'). Cicero wrote a treatise called On Friendship (de Amicitia) which discusses the notion at some length. Ovid wrote a guide to dating called Ars Amatoria (The Art of Lovers), which addresses in depth everything from extramarital affairs to overprotective parents.

Complicating the picture somewhat, Latin sometimes uses amare where English would simply say to like; this notion, however, is much more generally expressed in Latin by placere or delectare, which are used more colloquially, and the latter of which is used frequently in the love poetry of Catullus.

Diligere often has the notion 'to be affectionate for', 'to esteem', and rarely if ever is used of romantic love. This word would be appropriate to describe the friendship between two men. The corresponding noun diligentia, however, has the meaning 'diligence' 'carefulness' and has little semantic overlap with the verb.

Observare is a synonym for 'diligere'; despite the cognate with English, this verb and its corresponding noun 'observantia' often denote 'esteem' or 'affection'.

Caritas is used in Latin translations of the Christian Bible to mean 'charitable love'. This meaning, however, is not found in Classical pagan Roman literature. As it arises from a conflation with a Greek word, there is no corresponding verb.

[edit] Indonesian

In Indonesia, the word Cinta literally means love and describes the interpersonal feeling of affection. In everyday conversation, Cinta gives more romantic and dramatic value, but in some condition, cinta kasih can describe a general love and compassion. Kasih literally means giving, however, Kekasih (kasih with infix -ek-) means a lover. However, in everyday conversation, sayang is used more generally as an expression of romantic affection.

[edit] Filipino Concepts

In Filipino concepts love is expressed in a wide variety of terms. In Filipino culture, love is divided between purely personal and reciprocal variants. These terms are conveyed in the Tagalog, the most widely-spoken language in the Philippines beside English:

Ibig is used to imply a fond love, and is used in to convey desire in an affection. An example is: "Umibig si Ningning kay Buboy" (Ningning loves Buboy). It is a commonly used term in casual conversation of the topic. Yet in courtship or between couples, the term "Iniibig kita" - "I love you" is understood to be an intimate, romantic love.(Cebuano language: Gugma)

Mahal implies a highly valued affection. Its literal meaning is close to the English word "dear", in terms of expense, with an emphasis on that love being reciprocal. An example would be the phrase "Mahal kita" - "I love you". As well as being a main term for love between partners or in courtship, it is also the main term to express Platonic love. An example phrase is: "Mahalin mo ang iyong mga Magulang" (Love your parents.)

Giliw is used to term a "yearning intent love" harboured personally for someone, declared or undeclared. It has connotations of personal loneliness when the partner or person for whom such feelings are directed towards, is absent. Used in situations to prove or emphasize a persons affections for another. It is also used as an endearing address similar to the English word "baby".

Sinta is a confident reciprocal established romantic love between partners, where both partners consider an equally high affection for each other. Because sinta is an archaic term (equivalent linguistically to the Malay/Indonesian word Cinta, but differing in its exact connotation), it is considered malalim (deep) and poetic. Hence sinta is rarely used in everyday conversation, but may be used by couples in an address similar to the English terms "darling" or "dearest".

Pagnanais is used to convey a heavy desire with a main focus on the partner or courtee. It places focus on the actor achieving a higher stage of affection, such as sinta, with the object of affection. In contrast to the other terms, the linguistic element of pagnanais, which has its root in nais (to want), is a more grave wanting love. Because of the root word's meaning, it is avoided as a term in conversation when referring to affections, but its rather used for "wanting and liking" a certain object.

[edit] Religious views

[edit] Christian

The heart, a frequent modern symbol of love

The Christian understanding is that love comes from God. The love of man and woman, eros in Greek, and the unselfish love of others, agape, are often contrasted as 'ascending' and 'descending' love, respectively, but are ultimately the same thing. ^[1]

There are several Greek words for Love that are regularly referred to in Christian circles.

• Agape - In the New Testament, agapē is charitable, selfless, altruistic, and unconditional. It is parental love seen as creating goodness in the world, it is the way God is seen to love humanity, and it is seen as the kind of love that Christians aspire to have for one another.
• Phileo - Also used in the New Testament, Phileo is a human response to something that is found to be delightful. Also known as "brotherly love".
• Two other words for love in the Greek language—Eros (sexual love) and storge (needy child-to-parent love) were never used in the New Testament.

Christians believe that to Love God with all your heart, mind, and strength and Love your neighbor as yourself are the two most important things in life (the greatest commandment of the Jewish Torah, according to Jesus - c.f. Gospel of Mark chapter 12, verses 28-34). Saint Augustine summarized this when he wrote "Love God, and do as thou wilt".

Paul the Apostle glorified love as the most important virtue of all. Describing love in the famous poem in 1 Corinthians he wrote, "Love is patient, love is kind. It does not envy, it does not boast, it is not proud. It is not rude, it is not self-seeking, it is not easily angered, it keeps no record of wrongs. Love does not delight in evil but rejoices with the truth. It always protects, always trusts, always hopes, and always perseveres." - 1 Cor. 13:4-7 (NIV)

John the Apostle wrote, "For God so loved the world that he gave his one and only Son, that whoever believes in him shall not perish but have eternal life. For God did not send his Son into the world to condemn the world, but to save the world through him. Whoever believes in him is not condemned, but whoever does not believe stands condemned already because he has not believed in the name of God's one and only Son." - John 3:16-18 (NIV)

John also wrote, "Dear friends, let us love one another for love comes from God. Everyone who loves has been born of God and knows God. Whoever does not love does not know God, because God is love." - 1 John 4:7-8 (NIV)

Saint Augustine says that one must be able to decipher the difference between love and lust. Lust, according to Saint Augustine, is an over indulgence, but to love and be loved is what he has sought for his entire life. He even says, “I was in love with love.” Finally, he does fall in love and is loved back, by God. Saint Augustine says the only one who can love you truly and fully is God, because love with a human only allows for flaws such as, “jealousy, suspicion, fear, anger, and contention.” According to Saint Augustine to love God is “to attain the peace which is yours.” (Saint Augustine Confessions)

Christian theologians see God as the source of love, which is mirrored in humans and their own loving relationships. Influential Christian theologian C.S. Lewis wrote a book called The Four Loves.

Benedict XVI wrote his first encyclical on God is love. He said that a human being, created in the image of God who is love, is able to practice love: to give himself to God and others (agape), by receiving and experiencing God's love in contemplation (eros). This life of love, according to him, is the life of the saints such as Teresa of Calcutta and the Blessed Virgin Mary, and is the direction Christians take when they believe that God loves them.^[1]

[edit] Buddhist

In Buddhism, Kāma is sensuous, sexual love. It is an obstacle on the path to enlightenment, since it is selfish.

Karuṇā is compassion and mercy, which reduces the suffering of others. It is complementary to wisdom, and is necessary for enlightenment.

Adveṣa and maitrī are benevolent love. This love is unconditional and requires considerable self-acceptance. This is quite different from the ordinary love, which is usually about attachment and sex, which rarely occur without self-interest. Instead, in Buddhism it refers to detachment and unselfish interest in others' welfare.

The Bodhisattva ideal in Mahayana Buddhism involves the complete renunciation of oneself in order to take on the burden of a suffering world. The strongest motivation one has in order to take the path of the Bodhisattva is the idea of salvation within unselfish, altustic love for all sentient beings.

[edit] Hindu

In Hinduism kāma is pleasurable, sexual love, personified by the god Kama. For many Hindu schools it is the third end in life (artha).

In contrast to kāma, prema or prem refers to elevated love. However, the term bhakti is used to mean the higher, divine love.

Karuna is compassion and mercy, which reduces the suffering of others.

Bhakti is a Sanskrit term from Hinduism meaning 'loving devotion to the supreme God'. A person who practices bhakti is called bhakta. Hindu writers, theologians, and philosophers have distinguished nine forms of devotion that they call bhakti, for example in the Bhagavata Purana and according to Tulsidas. The philosophical work Narada Bhakti Sutras written by an unknown author (presumed to be Narada) distinguishes eleven forms of love.

[edit] Islamic

In a sense, love does encompass the Islamic view of life as universal brotherhood which applies to all who hold the faith. There are no direct references stating that God is love, but amongst the 99 names of God (Allah), there is the name Al-Wadud or 'the Loving One', which is found in Surah 11:90 as well as Surah 85:14. It refers to God as being "full of loving kindness". In Islam, love is more often than not used as an incentive for sinners to aspire to be as worthy of God's love as they may. One still has God's love, but how the person evaluates his own worth is to his own and God's own counsel. All who hold the faith have God's love, but to what degree or effort he has pleased God depends on the individual itself.

Ishq, or divine love, is the emphasis of Sufism. Sufis believe that love is a projection of the essence of God to the universe. God desires to recognize beauty, and as if one looks at a mirror to see oneself, God "looks" at itself within the dynamics of nature. Since everything is a reflection of God, the school of Sufism practices to see the beauty inside the apparently ugly. Sufism is often referred to as the religion of Love. God in Sufism is referred to in three main terms which are the Lover, Loved, and Beloved with the last of these terms being often seen in Sufi poetry. A common viewpoint of Sufism is that through Love humankind can get back to its inherent purity and grace. The saints of Sufism are infamous for being "drunk" due to their Love of God hence the constant reference to wine in Sufi poetry and music.

[edit] Jewish

In Hebrew Ahava is the most commonly-used term for both interpersonal love and love of God. Other related but dissimilar terms are Chen (grace) and Hesed, which basically combines the meaning of "affection" and "compassion" and is sometimes rendered in English as "loving-kindness".

Judaism employs a wide definition of love, both between people and between man and the Deity. As for the former, the Torah states: "Love your neighbor like yourself" (Leviticus 19:18). As for the latter, one is commanded to love God "with all your heart, with all your soul and with all your might" (Deuteronomy 6:5), taken by the Mishnah (a central text of the Jewish oral law) to refer to good deeds, willingness to sacrifice one's life rather than commit certain serious transgressions, willingness to sacrifice all one's possessions and being grateful to the Lord despite adversity (tractate Berachoth 9:5). Rabbinic literature differs how this love can be developed, e.g. by contemplating Divine deeds or witnessing the marvels of nature.

As for love between marital partners, this is deemed an essential ingredient to life: "See life with the wife you love" (Ecclesiastes 9:9). The Biblical book Song of Songs is considered a romantically-phrased metaphor of love between God and his people, but in its plain reading reads like a love song.

The 20th century Rabbi Eliyahu Eliezer Dessler is frequently quoted as defining love from the Jewish point-of-view as "giving without expecting to take" (from his Michtav me-Eliyahu, vol. 1). Romantic love per se has few echoes in Jewish literature, although the Medieval Rabbi Judah Halevi wrote romantic poetry in Arabic in his younger years (he appears to have regretted this later).