wireless company

wireless company

1) Военный термин: рота радиосвязи

2) Связь: оператор беспроводной связи (англ. термин взят из статьи в журнале PC World; контекстуальный перевод)

wireless company

Бр. рота радиосвязи

company

рота; экипаж ( корабля), команда; компания, фирма; жарг. ЦРУ; см. тж. unit

armored (personnel) carrier company — рота БТР

bulk petrol (transport) company — Бр. рота подвоза наливного (бестарного) горючего

Commando (oil gas extraction area) company — рота охраны и защиты (нефтегазовых промыслов), рота «команчо»

engineer pipeline (transport) company — инженерная рота прокладки трубопроводов

field company, RE — Бр. саперная рота

field survey company, RE — Бр. полевая топографическая рота инженерных войск

forward (support) maintenance company — передовая рота технического обслуживания (и ремонта)

HQ and service(s) company — рота штабная и обслуживания

HQ company, US Army — штабная рота штаба СВ США

light (gun) tank company — рота легких танков

long-range (reconnaissance) patrol company — рота дальней [глубинной] разведки

medium (lift) helicopter company — рота средних (транспортных) вертолетов

ordnance forward (support) company — передовая артиллерийско-техническая рота

signal support (operations) company — рота обеспечения имуществом связи

special ammunition company (general support) — рота специальных боеприпасов (общей поддержки)

special boat company, Royal Marines — Бр. особая [отдельная] рота десантных катеров МП

— administrative services company

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— company of Pikemen and Musketeers

— conditioning company

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— dental company

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— division intermediate maintenance company

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— engineer airborne light equipment company

— engineer amphibious assault company

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— engineer base map depot company

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— escort guard company

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— field operations company

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— float bridge company

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— forward communications company

— forward logistics support company

— forward medical company

— forward support company

— gas company

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— general stores company

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— ground surveillance company

— guards independent parachute company

— Gurkhas demonstration company

— heavy automotive maintenance company

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— heavy maintenance company

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— heavy-lift helicopter company

— helicopter company

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— Honourable Artillery company

— hospital company

— howitzer company

— HQ and band company

— HQ and MP company

— HQ company

— independent in'antry company

— infantry company

— junior parachute company

— junior soldier's company

— labor company

— labor management company

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— landing support company

— lifting company

— light aircraft maintenance company

— light cargo helicopter company

— light equipment company

— light equipment maintenance company

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— line company

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— machinegun company

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— maintenance company

— maneuver company

— materiel management company

— mechanical flame chemical company

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— medical air holding company

— medical ambulance company

— medical clearing company

— medical collecting company

— medical company

— medical depot company

— medical holding company

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— medium boat company

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— medium transport helicopter company

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— meteorological company

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— missile maintenance company

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— mobile armor protected gun company

— mobile floating assault bridge company

— mobile shop company

— motor maintenance company

— motor repair company

— motor transport company

— motorized rifle company

— movement control company

— MP company

— MP guard company

— MP PW processing company

— NBC defense company

— near-shore company

— observation helicopter company

— operating company

— ordnance ammunition company

— ordnance armament and fire control rebuild company

— ordnance automotive heavy maintenance company

— ordnance automotive medium maintenance company

— ordnance aviation company

— ordnance classification company

— ordnance collecting point company

— ordnance company

— ordnance depot company

— ordnance depot maintenance company

— ordnance depot supply company

— ordnance evacuation company

— ordnance field supply company

— ordnance guided missile maintenance company

— ordnance heavy automotive maintenance company

— ordnance heavy maintenance company

— ordnance maintenance company

— ordnance medium maintenance company

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— ordnance recovery and classification company

— ordnance service company

— ordnance tank maintenance company

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— outpost company

— parachute company

— parachute heavy drop company

— personnel carrier company

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— petroleum distributing company

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— photo-interpretation company

— pioneer company

— pipeline and fuel depot service company

— ponton bridge company

— provost company

— psychological defense company

— QM company

— radio broadcasting company

— radio communications company

— radio intelligence company

— radiorelay and wire signal company

— Rangers company

— reclassification and reclamation company

— reconnaissance company

— reconnaissance helicopter company

— recovery company

— reinforcement company

— replacement regulating company

— replenishment park company

— returned stores company

— rifle company

— road-building company

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— sapper company

— separate reinforced company

— service company

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— short-leave company

— single-weapon company

— smoke generator company

— special air service separate company

— special forces company

— staging area company

— stock control company

— stores convoy company

— student officer company

— supply and service company

— supply company

— support and service company

— support command communications company

— support company

— surveillance aviation company

— tactical satellite communications company

— tank company

— tank salvage company

— technical intelligence company

— terminal transfer company

— traffic control company

— training company

— transportation aircraft maintenance company

— transportation company

— transportation motor transport company

— transportation terminal service company

— troop truck company

— tropospheric communications company

— variable time fuze countermeasures company

— vehicle company

— Veteran company

— water tank company

— wire company

— wireless company

wireless-phone company

Экономика: оператор мобильной связи (контекстуальный перевод; англ. оборот взят из репортажа агентства Bloomberg)

signal company (wireless)

SIGCO(W), signal company (wireless)

рота радиосвязи

Marconi, Marchese Guglielmo

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 25 April 1874 Bologna, Italy

d. 20 July 1937 Rome, Italy

[br]

Italian radio pioneer whose inventiveness and business skills made radio communication a practical proposition.

[br]

Marconi was educated in physics at Leghorn and at Bologna University. An avid experimenter, he worked in his parents' attic and, almost certainly aware of the recent work of Hertz and others, soon improved the performance of coherers and spark-gap transmitters. He also discovered for himself the use of earthing and of elevated metal plates as aerials. In 1895 he succeeded in transmitting telegraphy over a distance of 2 km (1¼ miles), but the Italian Telegraph authority rejected his invention, so in 1896 he moved to England, where he filed the first of many patents. There he gained the support of the Chief Engineer of the Post Office, and by the following year he had achieved communication across the Bristol Channel.

The British Post Office was also slow to take up his work, so in 1897 he formed the Wireless Telegraph \& Signal Company to work independently. In 1898 he sold some equipment to the British Army for use in the Boer War and established the first permanent radio link from the Isle of Wight to the mainland. In 1899 he achieved communication across the English Channel (a distance of more than 31 miles or 50 km), the construction of a wireless station at Spezia, Italy, and the equipping of two US ships to report progress in the America's Cup yacht race, a venture that led to the formation of the American Marconi Company. In 1900 he won a contract from the British Admiralty to sell equipment and to train operators. Realizing that his business would be much more successful if he could offer his customers a complete radio-communication service (known today as a "turnkey" deal), he floated a new company, the Marconi International Marine Communications Company, while the old company became the Marconi Wireless Telegraph Company.

His greatest achievement occurred on 12 December 1901, when Morse telegraph signals from a transmitter at Poldhu in Cornwall were received at St John's, Newfoundland, a distance of some 2,100 miles (3,400 km), with the use of an aerial flown by a kite. As a result of this, Marconi's business prospered and he became internationally famous, receiving many honours for his endeavours, including the Nobel Prize for Physics in 1909. In 1904, radio was first used to provide a daily bulletin at sea, and in 1907 a transatlantic wireless telegraphy service was inaugurated. The rescue of 1,650 passengers from the shipwreck of SS Republic in 1909 was the first of many occasions when wireless was instrumental in saving lives at sea, most notable being those from the Titanic on its maiden voyage in April 1912; more lives would have been saved had there been sufficient lifeboats. Marconi was one of those who subsequently pressed for greater safety at sea. In 1910 he demonstrated the reception of long (8 km or 5 miles) waves from Ireland in Buenos Aires, but after the First World War he began to develop the use of short waves, which were more effectively reflected by the ionosphere. By 1918 the first link between England and Australia had been established, and in 1924 he was awarded a Post Office contract for short-wave communication between England and the various parts of the British Empire.

With his achievements by then recognized by the Italian Government, in 1915 he was appointed Radio-Communications Adviser to the Italian armed forces, and in 1919 he was an Italian delegate to the Paris Peace Conference. From 1921 he lived on his yacht, the Elettra, and although he joined the Fascist Party in 1923, he later had reservations about Mussolini.

[br]

Principal Honours and Distinctions

Nobel Prize for Physics (jointly with K.F. Braun) 1909. Russian Order of S t Anne. Commander of St Maurice and St Lazarus. Grand Cross of the Order of the Crown (i.e. Knight) of Italy 1902. Freedom of Rome 1903. Honorary DSc Oxford. Honorary LLD Glasgow. Chevalier of the Civil Order of Savoy 1905. Royal Society of Arts Albert Medal. Honorary knighthood (GCVO) 1914. Institute of Electrical and Electronics Engineers Medal of Honour 1920. Chairman, Royal Society of Arts 1924. Created Marquis (Marchese) 1929. Nominated to the Italian Senate 1929. President, Italian Academy 1930. Rector, University of St Andrews, Scotland, 1934.

Bibliography

1896, "Improvements in transmitting electrical impulses and in apparatus thereof", British patent no. 12,039.

1 June 1898, British patent no. 12,326 (transformer or "jigger" resonant circuit).

1901, British patent no. 7,777 (selective tuning).

1904, British patent no. 763,772 ("four circuit" tuning arrangement).

Further Reading

D.Marconi, 1962, My Father, Marconi.

W.J.Baker, 1970, A History of the Marconi Company, London: Methuen.

KF

Fessenden, Reginald Aubrey

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 6 October 1866 East Bolton, Quebec, Canada

d. 22 July 1932 Bermuda

[br]

Canadian radio pioneer who made the first known broadcast of speech and music.

[br]

After initial education at Trinity College School, Port Hope, Ontario, Fessenden studied at Bishops University, Lennoxville, Quebec. When he graduated in 1885, he became Principal of the Whitney Institute in Bermuda, but he left the following year to go to New York in pursuit of his scientific interests. There he met Edison and eventually became Chief Chemist at the latter's Laboratory in Orange, New Jersey. In 1890 he moved to the Westinghouse Electric and Manufacturing Company, and two years later he returned to an academic career as Professor of Electrical Engineering, initially at Purdue University, Lafayette, Indiana, and then at the Western University of Pennsylvania, where he worked on wireless communication. From 1900 to 1902 he carried out experiments in wireless telegraphy at the US Weather Bureau, filing several patents relating to wire and liquid thermal detectors, or barretters. Following this he set up the National Electric Signalling Company; under his direction, Alexanderson and other engineers at the General Electric Company developed a high-frequency alternator that enabled him to build the first radiotelephony transmitter at Brant Rock, Massachusetts. This made its initial broadcast of speech and music on 24 December 1906, received by ship's wireless operators several hundred miles away. Soon after this the transmitter was successfully used for two-way wireless telegraphy communication with Scotland. Following this landmark event, Fessenden produced numerous inventions, including a radio compass, an acoustic depth-finder and several submarine signalling devices, a turboelectric drive for battleships and, notably, in 1912 the heterodyne principle used in radio receivers to convert signals to a lower (intermediate) frequency.

[br]

Principal Honours and Distinctions

Institute of Electrical and Electronics Engineers Medal of Honour 1921.

Bibliography

US patents relating to barretters include nos. 706,740, 706,742 and 706,744 (wire, 1902) and 731,029 (liquid, 1903). His invention of the heterodyne was filed as US patent no. 1,050,441 (1913).

Further Reading

Helen M.Fessenden, 1940, Fessenden. Builder of Tomorrow. E.Hawkes, 1927, Pioneers of Wireless, London: Methuen. O.E.Dunlop, 1944, Radio's 100 Men of Science.

KF

Preece, Sir William Henry

SUBJECT AREA: Electronics and information technology, Public utilities, Telecommunications

[br]

b. 15 February 1834 Bryn Helen, Gwynedd, Wales

d. 6 November 1913 Penrhos, Gwynedd, Wales

[br]

Welsh electrical engineer who greatly furthered the development and use of wireless telegraphy and the telephone in Britain, dominating British Post Office engineering during the last two decades of the nineteenth century.

[br]

After education at King's College, London, in 1852 Preece entered the office of Edwin Clark with the intention of becoming a civil engineer, but graduate studies at the Royal Institution under Faraday fired his enthusiasm for things electrical. His earliest work, as connected with telegraphy and in particular its application for securing the safe working of railways; in 1853 he obtained an appointment with the Electric and National Telegraph Company. In 1856 he became Superintendent of that company's southern district, but four years later he moved to telegraph work with the London and South West Railway. From 1858 to 1862 he was also Engineer to the Channel Islands Telegraph Company. When the various telegraph companies in Britain were transferred to the State in 1870, Preece became a Divisional Engineer in the General Post Office (GPO). Promotion followed in 1877, when he was appointed Chief Electrician to the Post Office. One of the first specimens of Bell's telephone was brought to England by Preece and exhibited at the British Association meeting in 1877. From 1892 to 1899 he served as Engineer-in-Chief to the Post Office. During this time he made a number of important contributions to telegraphy, including the use of water as part of telegraph circuits across the Solent (1882) and the Bristol Channel (1888). He also discovered the existence of inductive effects between parallel wires, and with Fleming showed that a current (thermionic) flowed between the hot filament and a cold conductor in an incandescent lamp.

Preece was distinguished by his administrative ability, some scientific insight, considerable engineering intuition and immense energy. He held erroneous views about telephone transmission and, not accepting the work of Oliver Heaviside, made many errors when planning trunk circuits. Prior to the successful use of Hertzian waves for wireless communication Preece carried out experiments, often on a large scale, in attempts at wireless communication by inductive methods. These became of historic interest only when the work of Maxwell and Hertz was developed by Guglielmo Marconi. It is to Preece that credit should be given for encouraging Marconi in 1896 and collaborating with him in his early experimental work on radio telegraphy.

While still employed by the Post Office, Preece contributed to the development of numerous early public electricity schemes, acting as Consultant and often supervising their construction. At Worcester he was responsible for Britain's largest nineteenth-century public hydro-electric station. He received a knighthood on his retirement in 1899, after which he continued his consulting practice in association with his two sons and Major Philip Cardew. Preece contributed some 136 papers and printed lectures to scientific journals, ninety-nine during the period 1877 to 1894.

[br]

Principal Honours and Distinctions

CB 1894. Knighted (KCB) 1899. FRS 1881. President, Society of Telegraph Engineers, 1880. President, Institution of Electrical Engineers 1880, 1893. President, Institution of Civil Engineers 1898–9. Chairman, Royal Society of Arts 1901–2.

Bibliography

Preece produced numerous papers on telegraphy and telephony that were presented as Royal Institution Lectures (see Royal Institution Library of Science, 1974) or as British Association reports.

1862–3, "Railway telegraphs and the application of electricity to the signaling and working of trains", Proceedings of the ICE 22:167–93.

Eleven editions of Telegraphy (with J.Sivewright), London, 1870, were published by 1895.

1883, "Molecular radiation in incandescent lamps", Proceedings of the Physical Society 5: 283.

1885. "Molecular shadows in incandescent lamps". Proceedings of the Physical Society 7: 178.

1886. "Electric induction between wires and wires", British Association Report. 1889, with J.Maier, The Telephone.

1894, "Electric signalling without wires", RSA Journal.

1898, "Aetheric telegraphy", Proceedings of the Institution of Electrical Engineers.

Further Reading

J.J.Fahie, 1899, History of Wireless Telegraphy 1838–1899, Edinburgh: Blackwood. E.Hawkes, 1927, Pioneers of Wireless, London: Methuen.

E.C.Baker, 1976, Sir William Preece, F.R.S. Victorian Engineer Extraordinary, London (a detailed biography with an appended list of his patents, principal lectures and publications).

D.G.Tucker, 1981–2, "Sir William Preece (1834–1913)", Transactions of the Newcomen Society 53:119–36 (a critical review with a summary of his consultancies).

GW / KF

De Forest, Lee

SUBJECT AREA: Broadcasting, Electronics and information technology, Photography, film and optics, Recording, Telecommunications

[br]

b. 26 August 1873 Council Bluffs, Iowa, USA

d. 30 June 1961 Hollywood, California, USA

[br]

American electrical engineer and inventor principally known for his invention of the Audion, or triode, vacuum tube; also a pioneer of sound in the cinema.

[br]

De Forest was born into the family of a Congregational minister that moved to Alabama in 1879 when the father became President of a college for African-Americans; this was a position that led to the family's social ostracism by the white community. By the time he was 13 years old, De Forest was already a keen mechanical inventor, and in 1893, rejecting his father's plan for him to become a clergyman, he entered the Sheffield Scientific School of Yale University. Following his first degree, he went on to study the propagation of electromagnetic waves, gaining a PhD in physics in 1899 for his thesis on the "Reflection of Hertzian Waves from the Ends of Parallel Wires", probably the first US thesis in the field of radio.

He then joined the Western Electric Company in Chicago where he helped develop the infant technology of wireless, working his way up from a modest post in the production area to a position in the experimental laboratory. There, working alone after normal working hours, he developed a detector of electromagnetic waves based on an electrolytic device similar to that already invented by Fleming in England. Recognizing his talents, a number of financial backers enabled him to set up his own business in 1902 under the name of De Forest Wireless Telegraphy Company; he was soon demonstrating wireless telegraphy to interested parties and entering into competition with the American Marconi Company.

Despite the failure of this company because of fraud by his partners, he continued his experiments; in 1907, by adding a third electrode, a wire mesh, between the anode and cathode of the thermionic diode invented by Fleming in 1904, he was able to produce the amplifying device now known as the triode valve and achieve a sensitivity of radio-signal reception much greater than possible with the passive carborundum and electrolytic detectors hitherto available. Patented under the name Audion, this new vacuum device was soon successfully used for experimental broadcasts of music and speech in New York and Paris. The invention of the Audion has been described as the beginning of the electronic era. Although much development work was required before its full potential was realized, the Audion opened the way to progress in all areas of sound transmission, recording and reproduction. The patent was challenged by Fleming and it was not until 1943 that De Forest's claim was finally recognized.

Overcoming the near failure of his new company, the De Forest Radio Telephone Company, as well as unsuccessful charges of fraudulent promotion of the Audion, he continued to exploit the potential of his invention. By 1912 he had used transformer-coupling of several Audion stages to achieve high gain at radio frequencies, making long-distance communication a practical proposition, and had applied positive feedback from the Audion output anode to its input grid to realize a stable transmitter oscillator and modulator. These successes led to prolonged patent litigation with Edwin Armstrong and others, and he eventually sold the manufacturing rights, in retrospect often for a pittance.

During the early 1920s De Forest began a fruitful association with T.W.Case, who for around ten years had been working to perfect a moving-picture sound system. De Forest claimed to have had an interest in sound films as early as 1900, and Case now began to supply him with photoelectric cells and primitive sound cameras. He eventually devised a variable-density sound-on-film system utilizing a glow-discharge modulator, the Photion. By 1926 De Forest's Phonofilm had been successfully demonstrated in over fifty theatres and this system became the basis of Movietone. Though his ideas were on the right lines, the technology was insufficiently developed and it was left to others to produce a system acceptable to the film industry. However, De Forest had played a key role in transforming the nature of the film industry; within a space of five years the production of silent films had all but ceased.

In the following decade De Forest applied the Audion to the development of medical diathermy. Finally, after spending most of his working life as an independent inventor and entrepreneur, he worked for a time during the Second World War at the Bell Telephone Laboratories on military applications of electronics.

[br]

Principal Honours and Distinctions

Institute of Electronic and Radio Engineers Medal of Honour 1922. President, Institute of Electronic and Radio Engineers 1930. Institute of Electrical and Electronics Engineers Edison Medal 1946.

Bibliography

1904, "Electrolytic detectors", Electrician 54:94 (describes the electrolytic detector). 1907, US patent no. 841,387 (the Audion).

1950, Father of Radio, Chicago: WIlcox \& Follett (autobiography).

De Forest gave his own account of the development of his sound-on-film system in a series of articles: 1923. "The Phonofilm", Transactions of the Society of Motion Picture Engineers 16 (May): 61–75; 1924. "Phonofilm progress", Transactions of the Society of Motion Picture Engineers 20:17–19; 1927, "Recent developments in the Phonofilm", Transactions of the Society of Motion Picture Engineers 27:64–76; 1941, "Pioneering in talking pictures", Journal of the Society of Motion Picture Engineers 36 (January): 41–9.

Further Reading

G.Carneal, 1930, A Conqueror of Space (biography).

I.Levine, 1964, Electronics Pioneer, Lee De Forest (biography).

E.I.Sponable, 1947, "Historical development of sound films", Journal of the Society of Motion Picture Engineers 48 (April): 275–303 (an authoritative account of De Forest's sound-film work, by Case's assistant).

W.R.McLaurin, 1949, Invention and Innovation in the Radio Industry.

C.F.Booth, 1955, "Fleming and De Forest. An appreciation", in Thermionic Valves 1904– 1954, IEE.

V.J.Phillips, 1980, Early Radio Detectors, London: Peter Peregrinus.

KF / JW

Sarnoff, David

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 27 February 1891 Uzlian, Minsk (now in Belarus)

d. 12 December 1971 New York City, New York, USA

[br]

Russian/American engineer who made a major contribution to the commercial development of radio and television.

[br]

As a Jewish boy in Russia, Sarnoff spent several years preparing to be a Talmudic Scholar, but in 1900 the family emigrated to the USA and settled in Albany, New York. While at public school and at the Pratt Institute in Brooklyn, New York, he helped the family finances by running errands, selling newspapers and singing the liturgy in the synagogue. After a short period as a messenger boy with the Commercial Cable Company, in 1906 he became an office boy with the Marconi Wireless Telegraph Company of America (see G. Marconi). Having bought a telegraph instrument with his first earnings, he taught himself Morse code and was made a junior telegraph operator in 1907. The following year he became a wireless operator at Nantucket Island, then in 1909 he became Manager of the Marconi station at Sea Gate, New York. After two years at sea he returned to a shore job as wireless operator at the world's most powerful station at Wanamaker's store in Manhattan. There, on 14 April 1912, he picked up the distress signals from the sinking iner Titanic, remaining at his post for three days.

Rewarded by rapid promotion (Chief Radio Inspector 1913, Contract Manager 1914, Assistant Traffic Manager 1915, Commercial Manager 1917) he proposed the introduction of commercial radio broadcasting, but this received little response. Consequently, in 1919 he took the job of Commercial Manager of the newly formed Radio Corporation of America (RCA), becoming General Manager in 1921, Vice- President in 1922, Executive Vice-President in 1929 and President in 1930. In 1921 he was responsible for the broadcasting of the Dempsey-Carpentier title-fight, as a result of which RCA sold $80 million worth of radio receivers in the following three years. In 1926 he formed the National Broadcasting Company (NBC). Rightly anticipating the development of television, in 1928 he inaugurated an experimental NBC television station and in 1939 demonstrated television at the New York World Fair. Because of his involvement with the provision of radio equipment for the armed services, he was made a lieutenant-colonel in the US Signal Corps Reserves in 1924, a full colonel in 1931 and, while serving as a communications consultant to General Eisenhower during the Second World War, Brigadier General in 1944.

With the end of the war, RCA became a major manufacturer of television receivers and then invested greatly in the ultimately successful development of shadowmask tubes and receivers for colour television. Chairman and Chief Executive from 1934, Sarnoff held the former post until his retirement in 1970.

[br]

Principal Honours and Distinctions

French Croix de Chevalier d'honneur 1935, Croix d'Officier 1940, Croix de Commandant 1947. Luxembourg Order of the Oaken Crown 1960. Japanese Order of the Rising Sun 1960. US Legion of Merit 1946. UN Citation 1949. French Union of Inventors Gold Medal 1954.

KF

See also: Zworykin, Vladimir Kosma

Shoenberg, Isaac

SUBJECT AREA: Broadcasting, Electronics and information technology

[br]

b. 1 March 1880 Kiev, Ukraine

d. 25 January 1963 Willesden, London, England

[br]

Russian engineer and friend of Vladimir Zworykin; Director of Research at EMI, responsible for creating the team that successfully developed the world's first all-electronic television system.

[br]

After his initial engineering education at Kiev Polytechnic, Shoenberg went to London to undertake further studies at the Royal College of Science. In 1905 he returned to Russia and rose to become Chief Engineer of the Russian Wireless Telegraphy Company. He then returned to England, where he was a consultant in charge of the Patent Department and then joint General Manager of the Marconi Wireless Telegraphy Company (see Marconi). In 1929 he joined the Columbia Graphophone Company, but two years later this amalgamated with the Gramophone Company, by then known as His Master's voice (HMV), to form EMI (Electric and Musical Industries), a company in which the Radio Corporation of America (RCA) had a significant shareholding. Appointed Director of the new company's Research Laboratories in 1931, Shoenberg gathered together a team of highly skilled engineers, including Blumlein, Browne, Willans, McGee, Lubszynski, Broadway and White, with the objective of producing an all-electronic television system suitable for public broadcasting. A 150-line system had already been demonstrated using film as the source material; a photoemissive camera tube similar to Zworykin's iconoscope soon followed. With alternate demonstrations of the EMI system and the mechanical system of Baird arranged with the object of selecting a broadcast system for the UK, Shoenberg took the bold decision to aim for a 405-line "high-definition" standard, using interlaced scanning based on an RCA patent and further developed by Blumlein. This was so successful that it was formally adopted as the British standard in 1935 and regular broadcasts, the first in the world, began in 1937. It is a tribute to Shoenberg's vision and the skills of his team that this standard was to remain in use, apart from the war years, until finally superseded in 1985.

[br]

Principal Honours and Distinctions

Knighted 1954. Institution of Electrical Engineers Faraday Medal 1954.

Further Reading

A.D.Blumlein et al., 1938, "The Marconi-EMI television system", Journal of the Institution of Electrical Engineers 83:729 (provides a description of the development of the 405-line system).

For more background information, see Proceedings of the International Conference on the History of Television. From Early Days to the Present, November 1986, Institution of Electrical Engineers Publication No. 271.

See also: Baird, John Logie; Campbell-Swinton, Alan Archibald

KF

WS

1) Общая лексика: steam

2) Компьютерная техника: Weak Script, Weather Satellite

3) Авиация: узел подвески на крыле

4) Морской термин: мировая шкала, мировая шкала базисных ставок фрахта, тариф шкалы WS, фиксированная ставка тарифа World Scale, шкала базисных номинальных фрахтовых ставок для танкеров, Worldwide Tanker Nominal Freight Scale

5) Военный термин: Wallops station, Weapons School, Weather Service, Women's Services, Word Send, war scale, war service, war site, war strength, war-like stores, warhead section, weapon specification, weapon system, weather squadron, weather station, wind shield (снаряда), windsonde, wing station, wireless section, wireless set, стабилизатор вооружения (weapons stabilizer)

6) Техника: warm shop, watts per steradian, weak signal, weapons system, winding specification, windshield, Wet Scrubber (Gasification Technology Conference)

7) Сельское хозяйство: Wire Shear, (water solution) ВР (используется для определения состояния гербицидов)

8) Химия: Wash Solution

9) Математика: Weight and Sum, сумма квадратов внутри блока (within-group sum of squares)

10) Метеорология: Warmer South

11) Юридический термин: Winchester Special, witness statements

12) Страхование: Worldscale (Worldwide Tanker Nominal Freight Scale)

13) Ветеринария: Week's Spawn, Working Samoyed

14) Грубое выражение: Wanker Shitface, Watery Shit, Worth Shit

15) Телекоммуникации: рабочее место

16) Сокращение: Samoa, Walk Sequence rate category abbreviation on letter mail key line, Weapon Subsystem (for the "Electronically-Enhanced Soldier"), Work Station, waste stack, weather stripping, wetted surface, yard, writer to the signet (// attorney), WAN (Wide Area Network) Server, Waardenburg Syndrome, Wadley Southern Railway Company, Wage Supervisor, Walkersville Southern (railroad), Walking Stick, Wall Slide (strength-building exercise), Wall Street, Wally Szczerbiak (basketball player), Ward Save (Warhammer gaming), Ware Shoals Railroad Company, Warp Star (gaming), Warpstorm (forum), Warren Sapp (football player), Warren Shepell Consultants Corporation (Toronto, ON, Canada), Warsong (gaming, World of Warcraft), Wartungssystem, Washington Star, Watch Supervisor, Watchtower Society (Jehovah's Witnesses), Water Solubility, Water Sports, Wave Shape, Wave Soldering, Waylon Smithers (The Simpsons), Wayward Spouse, Weapon Science, Weapon Skill (Warhammer gaming), Weapon Specification/System, Weapon(s) Specification, Weapon(s) System, Web Services, Web Site, Weber-Schafheitlin Integral, Wechselstrom (German: Alternating Current), Weebl's Stuff (website), Week Starting, Weekly Summary, Weird Silence, Wembley Stadium (England), Wesley Snipes (actor), West Seattle (Washington), West Side, West-Saxon (linguistics), Western Samoa, Western Shelter (manufacturer), Wet Season, Wheelin' Sportsmen, White Sheet, Whittaker - Shannon (sampling theorem), Widescreen, Width Skew, Wilderness Society, Wildlife Services, Wildlife Society, Will Shortz (creator of popular wordless crossword puzzle Sudoku), Will Smith (actor), William Shakespeare, William Shatner (actor), Williams Syndrome, Win Shares (arcane baseball stat), Wind Shear, Wind Speed, Wing Stow, Wing Support, Winston Salem (North Carolina), Winter Sonata (Korean TV show), Winter Springs (Florida), Wintersemester (German: winter semester), Wire Send, Wisselstroom (Dutch: Alternating Current), Women in Science, Women's Studies, WonderSwan, WordStar, Work Safe, Work Server, Work Space, Work Statement, Work Status, Work Surface, Worker Safety and Health, Worksheet, Workstation, World Senior, World Series, World Service (BBC), World Services, World Studies (course/class), Write Set, Writer to the Signet, Written Submission, Wrought Steel, water surface

17) Физиология: Watt Seconds

18) Вычислительная техника: Web Server (Corel), (Red Hat Enterprise Linux) WorkStation (RedHat, Linux)

19) Нефть: well site, whipstock, wireless station, отклонитель (whipstock), отклоняющий клин

20) Бумажная промышленность: wire side

21) Силикатное производство: water solid ratio

22) Фирменный знак: Williams- Sonoma cookware

23) Экология: Water Survey, water solution

24) СМИ: Wine Spectator

25) SAP. график рабочего времени

26) Бурение: уипсток (whipstock)

27) Глоссарий компании Сахалин Энерджи: water station, well services, wellsite

28) Полимеры: water spray, water supply, wet spinning

29) Программирование: Web-сервисы (см. Web Services)

30) Автоматика: working station

31) Химическое оружие: work station/site

32) Макаров: wait state, weather strip, wheel slide, working storage

33) Велосипеды: wheel size

34) Расширение файла: APL Worksheet

35) Нефть и газ: World Scale

36) Керамика: Water Solid

37) Фармация: Working Standard

38) Общественная организация: The Wildlife Society

39) Правительство: Warm Springs, Georgia, White Sands, New Mexico

40) Программное обеспечение: Windows Sockets

ws

1) Общая лексика: steam

2) Компьютерная техника: Weak Script, Weather Satellite

3) Авиация: узел подвески на крыле

4) Морской термин: мировая шкала, мировая шкала базисных ставок фрахта, тариф шкалы WS, фиксированная ставка тарифа World Scale, шкала базисных номинальных фрахтовых ставок для танкеров, Worldwide Tanker Nominal Freight Scale

5) Военный термин: Wallops station, Weapons School, Weather Service, Women's Services, Word Send, war scale, war service, war site, war strength, war-like stores, warhead section, weapon specification, weapon system, weather squadron, weather station, wind shield (снаряда), windsonde, wing station, wireless section, wireless set, стабилизатор вооружения (weapons stabilizer)

6) Техника: warm shop, watts per steradian, weak signal, weapons system, winding specification, windshield, Wet Scrubber (Gasification Technology Conference)

7) Сельское хозяйство: Wire Shear, (water solution) ВР (используется для определения состояния гербицидов)

8) Химия: Wash Solution

9) Математика: Weight and Sum, сумма квадратов внутри блока (within-group sum of squares)

10) Метеорология: Warmer South

11) Юридический термин: Winchester Special, witness statements

12) Страхование: Worldscale (Worldwide Tanker Nominal Freight Scale)

13) Ветеринария: Week's Spawn, Working Samoyed

14) Грубое выражение: Wanker Shitface, Watery Shit, Worth Shit

15) Телекоммуникации: рабочее место

16) Сокращение: Samoa, Walk Sequence rate category abbreviation on letter mail key line, Weapon Subsystem (for the "Electronically-Enhanced Soldier"), Work Station, waste stack, weather stripping, wetted surface, yard, writer to the signet (// attorney), WAN (Wide Area Network) Server, Waardenburg Syndrome, Wadley Southern Railway Company, Wage Supervisor, Walkersville Southern (railroad), Walking Stick, Wall Slide (strength-building exercise), Wall Street, Wally Szczerbiak (basketball player), Ward Save (Warhammer gaming), Ware Shoals Railroad Company, Warp Star (gaming), Warpstorm (forum), Warren Sapp (football player), Warren Shepell Consultants Corporation (Toronto, ON, Canada), Warsong (gaming, World of Warcraft), Wartungssystem, Washington Star, Watch Supervisor, Watchtower Society (Jehovah's Witnesses), Water Solubility, Water Sports, Wave Shape, Wave Soldering, Waylon Smithers (The Simpsons), Wayward Spouse, Weapon Science, Weapon Skill (Warhammer gaming), Weapon Specification/System, Weapon(s) Specification, Weapon(s) System, Web Services, Web Site, Weber-Schafheitlin Integral, Wechselstrom (German: Alternating Current), Weebl's Stuff (website), Week Starting, Weekly Summary, Weird Silence, Wembley Stadium (England), Wesley Snipes (actor), West Seattle (Washington), West Side, West-Saxon (linguistics), Western Samoa, Western Shelter (manufacturer), Wet Season, Wheelin' Sportsmen, White Sheet, Whittaker - Shannon (sampling theorem), Widescreen, Width Skew, Wilderness Society, Wildlife Services, Wildlife Society, Will Shortz (creator of popular wordless crossword puzzle Sudoku), Will Smith (actor), William Shakespeare, William Shatner (actor), Williams Syndrome, Win Shares (arcane baseball stat), Wind Shear, Wind Speed, Wing Stow, Wing Support, Winston Salem (North Carolina), Winter Sonata (Korean TV show), Winter Springs (Florida), Wintersemester (German: winter semester), Wire Send, Wisselstroom (Dutch: Alternating Current), Women in Science, Women's Studies, WonderSwan, WordStar, Work Safe, Work Server, Work Space, Work Statement, Work Status, Work Surface, Worker Safety and Health, Worksheet, Workstation, World Senior, World Series, World Service (BBC), World Services, World Studies (course/class), Write Set, Writer to the Signet, Written Submission, Wrought Steel, water surface

17) Физиология: Watt Seconds

18) Вычислительная техника: Web Server (Corel), (Red Hat Enterprise Linux) WorkStation (RedHat, Linux)

19) Нефть: well site, whipstock, wireless station, отклонитель (whipstock), отклоняющий клин

20) Бумажная промышленность: wire side

21) Силикатное производство: water solid ratio

22) Фирменный знак: Williams- Sonoma cookware

23) Экология: Water Survey, water solution

24) СМИ: Wine Spectator

25) SAP. график рабочего времени

26) Бурение: уипсток (whipstock)

27) Глоссарий компании Сахалин Энерджи: water station, well services, wellsite

28) Полимеры: water spray, water supply, wet spinning

29) Программирование: Web-сервисы (см. Web Services)

30) Автоматика: working station

31) Химическое оружие: work station/site

32) Макаров: wait state, weather strip, wheel slide, working storage

33) Велосипеды: wheel size

34) Расширение файла: APL Worksheet

35) Нефть и газ: World Scale

36) Керамика: Water Solid

37) Фармация: Working Standard

38) Общественная организация: The Wildlife Society

39) Правительство: Warm Springs, Georgia, White Sands, New Mexico

40) Программное обеспечение: Windows Sockets

Campbell-Swinton, Alan Archibald

SUBJECT AREA: Broadcasting, Electronics and information technology

[br]

b. 18 October 1863 Kimmerghame, Berwickshire, Scotland

d. 19 February 1930 London, England

[br]

Scottish electrical engineer who correctly predicted the development of electronic television.

[br]

After a time at Cargilfield Trinity School, Campbell-Swinton went to Fettes College in Edinburgh from 1878 to 1881 and then spent a year abroad in France. From 1882 until 1887 he was employed at Sir W.G.Armstrong's works in Elswick, Newcastle, following which he set up his own electrical contracting business in London. This he gave up in 1904 to become a consultant. Subsequently he was an engineer with many industrial companies, including the W.T.Henley Telegraph Works Company, Parson Marine Steam Turbine Company and Crompton Parkinson Ltd, of which he became a director. During this time he was involved in electrical and scientific research, being particularly associated with the development of the Parson turbine.

In 1903 he tried to realize distant electric vision by using a Braun oscilloscope tube for the. image display, a second tube being modified to form a synchronously scanned camera, by replacing the fluorescent display screen with a photoconductive target. Although this first attempt at what was, in fact, a vidicon camera proved unsuccessful, he was clearly on the right lines and in 1908 he wrote a letter to Nature with a fairly accurate description of the principles of an all-electronic television system using magnetically deflected cathode ray tubes at the camera and receiver, with the camera target consisting of a mosaic of photoconductive elements that were scanned and discharged line by line by an electron beam. He expanded on his ideas in a lecture to the Roentgen Society, London, in 1911, but it was over twenty years before the required technology had advanced sufficiently for Shoenberg's team at EMI to produce a working system.

[br]

Principal Honours and Distinctions

FRS (Member of Council 1927 and 1929). Freeman of the City of London. Liveryman of Goldsmiths' Company. First President, Wireless Society 1920–1. Vice-President, Royal Society of Arts, and Chairman of Council 1917–19,1920–2. Chairman, British Scientific Research Association. Vice-President, British Photographic Research Association. Member of the Broadcasting Board 1924. Vice-President, Roentgen Society 1911–12. Vice-President, Institution of Electrical Engineers 1921–5. President, Radio Society of Great Britain 1913–21. Manager, Royal Institution 1912–15.

Bibliography

1908, Nature 78:151; 1912, Journal of the Roentgen Society 8:1 (both describe his original ideas for electronic television).

1924, "The possibilities of television", Wireless World 14:51 (gives a detailed description of his proposals, including the use of a threestage valve video amplifier).

1926, Nature 118:590 (describes his early experiments of 1903).

Further Reading

The Proceedings of the International Conference on the History of Television. From Early Days to the Present, November 1986, Institution of Electrical Engineers Publication No. 271 (a report of some of the early developments in television). A.A.Campbell-Swinton FRS 1863–1930, Royal Television Society Monograph, 1982, London (a biography).

KF

See also: Baird, John Logie

AWCC

1) Техника: Active Well Coincidence Counter

2) Сокращение: Atlantic Womens Colleges Conference

3) Фирменный знак: Afghan Wireless Communication Company, Afghan Wireless Communications Company

4) Экология: Alberta Watercourse Crossing Committee

5) Общественная организация: Alaska Wildlife Conservation Center, Association Of Wisconsin Cleaning Contractors

6) Программное обеспечение: Animated Windows Capture Codec

Smith, Willoughby

SUBJECT AREA: Electricity, Telecommunications

[br]

b. 16 April 1828 Great Yarmouth, England

d. 17 July 1891 Eastbourne, England

[br]

English engineer of submarine telegraph cables who observed that light reduced the resistance of selenium.

[br]

Smith joined the Gutta Percha Company, London, in 1848 and successfully experimented with the use of gutta-percha, a natural form of latex, for the insulation of conducting wires. As a result, he was made responsible for the laying of the first cross-Channel cable between Dover and Calais in 1850. Four years later he laid the first Mediterranean cable between Spezia, Italy, and Corsica and Sardinia, later extending it to Algeria. On its completion he became Manager of the Gutta Percha works, which in 1864 became the Telegraph and Construction Company. In 1865 he assisted on board the Great Eastern with the laying of the transatlantic cable by Bright.

Clearly his management responsibilities did not stop him from experimenting practically. In 1866 he discovered that the resistance of a selenium rod was reduced by the action of incident light, an early discovery of the photoelectric effect more explicitly observed by Hertz and subsequently explained by Einstein. In 1883 he read a paper to the Society of Telegraph Engineers (later the Institution of Electrical Engineers), suggesting the possibility of wireless communication with moving trains, an idea that was later successfully taken up by others, and in 1888 he demonstrated the use of water as a practical means of communication with a lighthouse. Four years later, after his death, the system was tried between Alum Bay and the Needles in the Isle of Wight, and it was used subsequently for the Fastnet Rock lighthouse some 10 miles (16 km) off the south-west coast of Ireland.

[br]

Principal Honours and Distinctions

Founder and Council Member of the Society of Telegraph Engineers 1871; President 1873.

Bibliography

The effect of light on the resistance of selenium was reported in a letter to the Vice- Chairman of the Society of Telegraph Engineers on 4 February 1873.

7 June 1897, British patent no. 8,159 (the use of water, instead of cable, as a conductor).

November 1888, article in Electrician (describes his idea of using water as a conductor, rather than cable).

Further Reading

E.Hawkes, 1927, Pioneers of Wireless, London: Methuen.

C.T.Bright, 1898, Submarine Cables, Their History, Construction and Working.

See also: Field, Cyrus West

KF

network

1) сеть

а) локальная, региональная или глобальная вычислительная сеть

б) коммуникационная сеть; сеть связи (напр. телефонная)

в) сеть вещательных станций (напр. телевизионных)

г) нейронная сеть

д) замкнутая совокупность функционально однотипных организаций или предприятий

е) способ представления знаний в виде связного орграфа в системе искусственного интеллекта

ж) сетка

2) работать в сети; обмениваться информацией с помощью сети; использовать сеть или сети

3) создавать сеть или сети; покрывать сетью (напр. вещательных станций) определённую территорию

4) плести сеть или сетку; применять сеть или сетку; образовывать сеть или сетку

5) схема; цепь; контур

•

- networks ot general equivalence

- networks of limited equivalence
- network of microcomputer
- abstract semantic network
- active network
- activity network
- adaptive network
- adaptive resonance theory network
- additive Grossberg network

- advanced intelligent network

- advertiser network

- aeronautical fixed telecommunications network

- all-pass network

- aperiodic network
- ART network
- artificial mains network

- artificial neural network

- asynchronous network

- asynchronous neural network

- attached resource computer network

- attenuation network

- automatic digital network

- automatic voice network

- backbone network

- back propagation network
- back-up radio network
- balanced network
- balanced Feistel network
- balancing network
- BAM network
- banner network
- baseband network
- basic network
- Bayes network
- beam-forming network

- because it's time network

- Benetton network

- biconjugate network
- bidirectional associative memory network
- bilateral network
- biological neural network
- Boltzman machine neural network
- Boolean network
- brain-state-in-a-box network
- bridge network
- bridged-T network

- broadband communication network

- broadband integrated services digital network

- building-out network

- bus network
- butterfly network
- C-network
- cellular neural network
- cellular radio network
- channel-switching network
- chaotic neural network

- charge-routing network

- circuit-switched data network

- circuit-switched public data network

- circuit-switching network
- class A-network
- class B-network
- class C-network
- client-server network
- closed private network

- combinatorial network

- commercial network

- common-user network
- communications network
- company network
- compromise network
- computer network

- computer + science network

- concatenated network

- conferencing network

- connected network
- connectionist network
- connectionless network
- connection-oriented network
- constant-K network
- constant-M network
- continuous Hopfield network
- corrective network
- countable network

- counterpropagation network

- coupled-line network

- coupling network
- crossover network
- customer-access network
- data network
- data transmission network
- decoding network
- decoupling network
- dedicated network
- deemphasis network
- deep-space network
- delta network
- demand-assigned network
- dial-up network
- difference network
- differentiated network
- differentiating network
- digipeater network
- digital communication network
- digital satellite network
- digital switching network

- digital time-division network

- directed network

- discrete Hopfield network
- dislocation network
- dissymmetrical network
- distributed network
- distributed operating multi-access interactive-network
- distributed parameter network
- dividing network
- Doba's network
- dual network
- edge-dislocation network
- eight-pole network
- eight-terminal network
- electric network

- electronic space-division analog network

- elementary digital network

- equalizing network

- equivalent networks

- European academic and research network

- European Unix network

- exponential network

- extensional semantic network
- extensive network

- fast neural network

- FDNR network

- feedback network
- feedforward network
- Feistel network

- FIDO technology network

- firm network

- fixer network
- four-pole network
- four-terminal network
- fractal network
- frequency-dependent negative-resistance network
- fully connected network
- fully connected neural network
- full mesh network
- full meshed network
- fuzzy neural network
- generalized additive network

- general regression neural network

- global area network

- ground-station network

- ground-wave emergency network

- H-network

- Hamiltonian neural network
- Hamming's neural network
- Hebb network
- Hecht-Nielsen network
- Hecht-Nielsen neural network
- heterogeneous network
- heterogeneous neural network
- high-capacity network

- high energy physics network

- higher-order network

- higher-order neural network
- homogeneous network
- homogeneous neural network
- Hopfield's neural network
- Hopfield-Tank network
- Hopfield-Tank neural network
- hybrid network
- inductance network
- inductance-capacitance network
- inductance-resistance network
- industrial district network
- information network
- in-office network of links

- integrated broadband communication network

- integrated business network

- integrated digital network

- integrated enterprise network

- integrated services digital network

- integrating network

- intelligent network

- intelligent optical network

- intercom network

- Internet relay chat network
- inter-organizational network
- interstage network
- inverse networks
- IRC network
- irredundant network
- isolation network
- L-network
- ladder network

- LAN outer network

- land network

- lattice network
- lead network
- leased-line network
- linear network

- linear integrated network

- linear varying parameter network

- load-matching network

- local area network

- local computer network

- long-distance network
- long-haul network
- loop network
- loudspeaker dividing network
- lumped network
- lumped-constant network
- lumped-distributed network
- Kohonen network
- Kohonen self-organizing network
- Kosko network
- Kosko neural network
- learning vector quantization network
- LVQ network
- Markovian network
- matching network
- McCulloch-Pitts network
- merging network
- mesh network
- meshed network
- message-switched network
- metropolitan area network
- mid-level network
- minimum-phase network
- MPLS network
- multiaccess network
- multi-attractor network
- multidimensional network
- multidrop network
- multifractal network
- multiinput-multioutput network
- multilayer neuron network
- multiple-access network
- multiply-connected network
- multipoint network
- multiport network
- multiprotocol label switching network

- multiprotocol transport network

- multiservice network

- multistage switching network
- multistar network
- multistation network
- multisystem network
- multiterminal network
- multiterminal-pair network
- municipal area network

- national information network

- neural network

- neural network with local connections
- neural-like network
- nodal network
- nonlinear network
- nonplanar network
- nonreciprocal network
- nonuniformly distributed network
- notch network
- n-pole network
- n-port network
- n-terminal network
- n-terminal pair network
- O-network
- one-port network
- optical network
- optical fiber network
- optical neural network
- originating switching network
- packet commutation network

- packet data network

- packet radio network

- packet satellite network
- packet switch network
- packet switching network
- paging network
- parallel network
- parallel-T network
- parallel two-terminal pair networks
- partial mesh network
- partial meshed network
- passive network
- peaking network
- peer-to-peer network
- perceptron-type network
- percolation network
- personal communication network
- phase-advance network
- phase-shifting network
- phase-splitting network
- phasing network
- pi-network
- piece-linear network
- pilot wire controlled network
- planar network
- polarization matching network
- power distribution network
- preassigned network
- preemphasis network
- private network
- private-line intercity network

- probabilistic neural network

- projection pursuit network

- public data network

- public land mobile network

- public switched network

- public switched telephone network

- public telegraph network

- public telephone network

- pulse-forming network

- quadripole network

- quadrupole network

- quantum neural network

- queuing network

- radar network
- radio network
- radio access network
- radio intercom network
- radio-relay network
- rearrangeable network
- reciprocal network
- recognition network
- recurrent neural network
- regression neural network
- repeater network
- replicative neural network
- research network
- resistance-capacitance network
- resistive network
- resource-sharing computer-communication-network
- ring-switched computer network
- routing network
- satellite-earth stations network

- satellite tracking and data acquisition network

- screw-dislocation network

- second-order network
- selective network
- semantic network
- semiconductor network
- series network
- series-peaking network
- series-shunt network
- series-shunt peaking network
- shaping network
- short-haul network
- shuffle network
- shunt network
- shunt-peaking network
- signal-shaping network
- single-layer neural network
- singly terminated network

- small business network

- social network

- software defined network

- solid-state network

- sorting network
- speaker dividing network
- stabilization network
- star network
- statistical Hopfield's network
- statistical Hopfield's neural network
- steering network

- storage area network

- store-and-forward network

- strategic network
- structurally dual networks
- structurally symmetrical networks
- stub network
- summation network
- summing network
- support network
- switched network
- switched message network
- switched telecommunications network
- switching network
- synchronous network
- synchronous neural network

- synchronous optical network

- systolic network

- T-network
- tapered distribution network
- technologies support network
- telecommunication network

- telecommunications management network

- teletype network

- terminating switching network

- time delay neural network

- time-division analog network

- time-invariant network

- token bus network
- Token Ring network
- token ring network
- transit network
- transmission network
- transputer network
- tree network

- trimming resistive network

- trunk network

- trusted network
- twin-T network
- two-pole network
- two-port network
- two-terminal network
- two-terminal-pair network
- unbalanced Feistel network
- undersea network
- uniformly distributed network
- unilateral network
- universal network
- untrained neural network

- user network

- value-added network

- virtual private network

- weighting network

- wide area network

- wireless intelligent network

- wireless local area network

- wireless wide area network

- work station network

- world-wide communication network
- WS network
- X-network
- Y-network
- π-network

network

1) сеть

а) локальная, региональная или глобальная вычислительная сеть

б) коммуникационная сеть; сеть связи (напр. телефонная)

в) сеть вещательных станций (напр. телевизионных)

г) нейронная сеть

д) замкнутая совокупность функционально однотипных организаций или предприятий

е) способ представления знаний в виде связного орграфа в системе искусственного интеллекта

ж) сетка

2) работать в сети; обмениваться информацией с помощью сети; использовать сеть или сети

3) создавать сеть или сети; покрывать сетью (напр. вещательных станций) определённую территорию

4) плести сеть или сетку; применять сеть или сетку; образовывать сеть или сетку

5) схема; цепь; контур

•

- π-network

- abstract semantic network
- active network
- activity network
- adaptive network
- adaptive resonance theory network
- additive Grossberg network
- advanced intelligent network
- advertiser network
- aeronautical fixed telecommunications network
- all-pass network
- aperiodic network
- ART network
- artificial mains network
- artificial neural network
- asynchronous network
- asynchronous neural network
- attached resource computer network
- attenuation network
- automatic digital network
- automatic voice network
- back propagation network
- backbone network
- back-up radio network
- balanced Feistel network
- balanced network
- balancing network
- BAM network
- banner network
- baseband network
- basic network
- Bayes network
- beam-forming network
- because it's time network
- Benetton network
- biconjugate network
- bidirectional associative memory network
- bilateral network
- biological neural network
- Boltzman machine neural network
- Boolean network
- brain-state-in-a-box network
- bridge network
- bridged-T network
- broadband communication network
- broadband integrated services digital network
- building-out network
- bus network
- butterfly network
- C network
- cellular neural network
- cellular radio network
- channel-switching network
- chaotic neural network
- charge-routing network
- circuit-switched data network
- circuit-switched public data network
- circuit-switching network
- class A network
- class B network
- class C network
- client-server network
- closed private network
- combinatorial network
- commercial network
- common-user network
- communications network
- company network
- compromise network
- computer + science network
- computer network
- concatenated network
- conferencing network
- connected network
- connectionist network
- connectionless network
- connection-oriented network
- constant-K network
- constant-M network
- continuous Hopfield network
- corrective network
- countable network
- counterpropagation network
- coupled-line network
- coupling network
- crossover network
- customer-access network
- data network
- data transmission network
- decoding network
- decoupling network
- dedicated network
- deemphasis network
- deep-space network
- delta network
- demand-assigned network
- dial-up network
- difference network
- differentiated network
- differentiating network
- digipeater network
- digital communication network
- digital satellite network
- digital switching network
- digital time-division network
- directed network
- discrete Hopfield network
- dislocation network
- dissymmetrical network
- distributed network
- distributed operating multi-access interactive network
- distributed parameter network
- dividing network
- Doba's network
- dual network
- edge-dislocation network
- eight-pole network
- eight-terminal network
- electric network
- electronic space-division analog network
- elementary digital network
- equalizing network
- equivalent networks
- European academic and research network
- European Unix network
- exponential network
- extensional semantic network
- extensive network
- fast neural network
- FDNR network
- feedback network
- feedforward network
- Feistel network
- FIDO technology network
- firm network
- fixer network
- four-pole network
- four-terminal network
- fractal network
- frequency-dependent negative-resistance network
- full mesh network
- full meshed network
- fully connected network
- fully connected neural network
- fuzzy neural network
- general regression neural network
- generalized additive network
- global area network
- ground-station network
- ground-wave emergency network
- H network
- Hamiltonian neural network
- Hamming's neural network
- Hebb network
- Hecht-Nielsen network
- Hecht-Nielsen neural network
- heterogeneous network
- heterogeneous neural network
- high energy physics network
- high-capacity network
- higher-order network
- higher-order neural network
- homogeneous network
- homogeneous neural network
- Hopfield's neural network
- Hopfield-Tank network
- Hopfield-Tank neural network
- hybrid network
- inductance network
- inductance-capacitance network
- inductance-resistance network
- industrial district network
- information network
- in-office network of links
- integrated broadband communication network
- integrated business network
- integrated digital network
- integrated enterprise network
- integrated services digital network
- integrating network
- intelligent network
- intelligent optical network
- intercom network
- Internet relay chat network
- inter-organizational network
- interstage network
- inverse networks
- IRC network
- irredundant network
- isolation network
- Kohonen network
- Kohonen self-organizing network
- Kosko network
- Kosko neural network
- L network
- ladder network
- LAN outer network
- land network
- lattice network
- lead network
- learning vector quantization network
- leased-line network
- linear integrated network
- linear network
- linear varying parameter network
- load-matching network
- local area network
- local computer network
- long-distance network
- long-haul network
- loop network
- loudspeaker dividing network
- lumped network
- lumped-constant network
- lumped-distributed network
- LVQ network
- Markovian network
- matching network
- McCulloch-Pitts network
- merging network
- mesh network
- meshed network
- message-switched network
- metropolitan area network
- mid-level network
- minimum-phase network
- MPLS network
- multiaccess network
- multi-attractor network
- multidimensional network
- multidrop network
- multifractal network
- multiinput-multioutput network
- multilayer neuron network
- multiple-access network
- multiply-connected network
- multipoint network
- multiport network
- multiprotocol label switching network
- multiprotocol transport network
- multiservice network
- multistage switching network
- multistar network
- multistation network
- multisystem network
- multiterminal network
- multiterminal-pair network
- municipal area network
- national information network
- network of microcomputer
- networks of limited equivalence
- networks ot general equivalence
- neural network with local connections
- neural network
- neural-like network
- nodal network
- nonlinear network
- nonplanar network
- nonreciprocal network
- nonuniformly distributed network
- notch network
- n-pole network
- n-port network
- n-terminal network
- n-terminal pair network
- one-port network
- O-network
- optical fiber network
- optical network
- optical neural network
- originating switching network
- packet commutation network
- packet data network
- packet radio network
- packet satellite network
- packet switch network
- packet switching network
- paging network
- parallel network
- parallel two-terminal pair networks
- parallel-T network
- partial mesh network
- partial meshed network
- passive network
- peaking network
- peer-to-peer network
- perceptron-type network
- percolation network
- personal communication network
- phase-advance network
- phase-shifting network
- phase-splitting network
- phasing network
- piece-linear network
- pilot wire controlled network
- pi-network
- planar network
- polarization matching network
- power distribution network
- preassigned network
- preemphasis network
- private network
- private-line intercity network
- probabilistic neural network
- projection pursuit network
- public data network
- public land mobile network
- public switched network
- public switched telephone network
- public telegraph network
- public telephone network
- pulse-forming network
- quadripole network
- quadrupole network
- quantum neural network
- queuing network
- radar network
- radio access network
- radio intercom network
- radio network
- radio-relay network
- rearrangeable network
- reciprocal network
- recognition network
- recurrent neural network
- regression neural network
- repeater network
- replicative neural network
- research network
- resistance-capacitance network
- resistive network
- resource-sharing computer-communication network
- ring-switched computer network
- routing network
- satellite tracking and data acquisition network
- satellite-earth stations network
- screw-dislocation network
- second-order network
- selective network
- semantic network
- semiconductor network
- series network
- series-peaking network
- series-shunt network
- series-shunt peaking network
- shaping network
- short-haul network
- shuffle network
- shunt network
- shunt-peaking network
- signal-shaping network
- single-layer neural network
- singly terminated network
- small business network
- social network
- software defined network
- solid-state network
- sorting network
- speaker dividing network
- stabilization network
- star network
- statistical Hopfield's network
- statistical Hopfield's neural network
- steering network
- storage area network
- store-and-forward network
- strategic network
- structurally dual networks
- structurally symmetrical networks
- stub network
- summation network
- summing network
- support network
- switched message network
- switched network
- switched telecommunications network
- switching network
- synchronous network
- synchronous neural network
- synchronous optical network
- systolic network
- tapered distribution network
- technologies support network
- telecommunication network
- telecommunications management network
- teletype network
- terminating switching network
- time delay neural network
- time-division analog network
- time-invariant network
- T-network
- token bus network
- Token Ring network
- token ring network
- transit network
- transmission network
- transputer network
- tree network
- trimming resistive network
- trunk network
- trusted network
- twin-T network
- two-pole network
- two-port network
- two-terminal network
- two-terminal-pair network
- unbalanced Feistel network
- undersea network
- uniformly distributed network
- unilateral network
- universal network
- untrained neural network
- user network
- value-added network
- virtual private network
- weighting network
- wide area network
- wireless intelligent network
- wireless local area network
- wireless wide area network
- work station network
- world-wide communication network
- WS network
- X-network
- Y-network

Edison, Thomas Alva

SUBJECT AREA: Architecture and building, Automotive engineering, Electricity, Electronics and information technology, Metallurgy, Photography, film and optics, Public utilities, Recording, Telecommunications

[br]

b. 11 February 1847 Milan, Ohio, USA

d. 18 October 1931 Glenmont

[br]

American inventor and pioneer electrical developer.

[br]

He was the son of Samuel Edison, who was in the timber business. His schooling was delayed due to scarlet fever until 1855, when he was 8½ years old, but he was an avid reader. By the age of 14 he had a job as a newsboy on the railway from Port Huron to Detroit, a distance of sixty-three miles (101 km). He worked a fourteen-hour day with a stopover of five hours, which he spent in the Detroit Free Library. He also sold sweets on the train and, later, fruit and vegetables, and was soon making a profit of $20 a week. He then started two stores in Port Huron and used a spare freight car as a laboratory. He added a hand-printing press to produce 400 copies weekly of The Grand Trunk Herald, most of which he compiled and edited himself. He set himself to learn telegraphy from the station agent at Mount Clements, whose son he had saved from being run over by a freight car.

At the age of 16 he became a telegraphist at Port Huron. In 1863 he became railway telegraphist at the busy Stratford Junction of the Grand Trunk Railroad, arranging a clock with a notched wheel to give the hourly signal which was to prove that he was awake and at his post! He left hurriedly after failing to hold a train which was nearly involved in a head-on collision. He usually worked the night shift, allowing himself time for experiments during the day. His first invention was an arrangement of two Morse registers so that a high-speed input could be decoded at a slower speed. Moving from place to place he held many positions as a telegraphist. In Boston he invented an automatic vote recorder for Congress and patented it, but the idea was rejected. This was the first of a total of 1180 patents that he was to take out during his lifetime. After six years he resigned from the Western Union Company to devote all his time to invention, his next idea being an improved ticker-tape machine for stockbrokers. He developed a duplex telegraphy system, but this was turned down by the Western Union Company. He then moved to New York.

Edison found accommodation in the battery room of Law's Gold Reporting Company, sleeping in the cellar, and there his repair of a broken transmitter marked him as someone of special talents. His superior soon resigned, and he was promoted with a salary of $300 a month. Western Union paid him $40,000 for the sole rights on future improvements on the duplex telegraph, and he moved to Ward Street, Newark, New Jersey, where he employed a gathering of specialist engineers. Within a year, he married one of his employees, Mary Stilwell, when she was only 16: a daughter, Marion, was born in 1872, and two sons, Thomas and William, in 1876 and 1879, respectively.

He continued to work on the automatic telegraph, a device to send out messages faster than they could be tapped out by hand: that is, over fifty words per minute or so. An earlier machine by Alexander Bain worked at up to 400 words per minute, but was not good over long distances. Edison agreed to work on improving this feature of Bain's machine for the Automatic Telegraph Company (ATC) for $40,000. He improved it to a working speed of 500 words per minute and ran a test between Washington and New York. Hoping to sell their equipment to the Post Office in Britain, ATC sent Edison to England in 1873 to negotiate. A 500-word message was to be sent from Liverpool to London every half-hour for six hours, followed by tests on 2,200 miles (3,540 km) of cable at Greenwich. Only confused results were obtained due to induction in the cable, which lay coiled in a water tank. Edison returned to New York, where he worked on his quadruplex telegraph system, tests of which proved a success between New York and Albany in December 1874. Unfortunately, simultaneous negotiation with Western Union and ATC resulted in a lawsuit.

Alexander Graham Bell was granted a patent for a telephone in March 1876 while Edison was still working on the same idea. His improvements allowed the device to operate over a distance of hundreds of miles instead of only a few miles. Tests were carried out over the 106 miles (170 km) between New York and Philadelphia. Edison applied for a patent on the carbon-button transmitter in April 1877, Western Union agreeing to pay him $6,000 a year for the seventeen-year duration of the patent. In these years he was also working on the development of the electric lamp and on a duplicating machine which would make up to 3,000 copies from a stencil. In 1876–7 he moved from Newark to Menlo Park, twenty-four miles (39 km) from New York on the Pennsylvania Railway, near Elizabeth. He had bought a house there around which he built the premises that would become his "inventions factory". It was there that he began the use of his 200- page pocket notebooks, each of which lasted him about two weeks, so prolific were his ideas. When he died he left 3,400 of them filled with notes and sketches.

Late in 1877 he applied for a patent for a phonograph which was granted on 19 February 1878, and by the end of the year he had formed a company to manufacture this totally new product. At the time, Edison saw the device primarily as a business aid rather than for entertainment, rather as a dictating machine. In August 1878 he was granted a British patent. In July 1878 he tried to measure the heat from the solar corona at a solar eclipse viewed from Rawlins, Wyoming, but his "tasimeter" was too sensitive.

Probably his greatest achievement was "The Subdivision of the Electric Light" or the "glow bulb". He tried many materials for the filament before settling on carbon. He gave a demonstration of electric light by lighting up Menlo Park and inviting the public. Edison was, of course, faced with the problem of inventing and producing all the ancillaries which go to make up the electrical system of generation and distribution-meters, fuses, insulation, switches, cabling—even generators had to be designed and built; everything was new. He started a number of manufacturing companies to produce the various components needed.

In 1881 he built the world's largest generator, which weighed 27 tons, to light 1,200 lamps at the Paris Exhibition. It was later moved to England to be used in the world's first central power station with steam engine drive at Holborn Viaduct, London. In September 1882 he started up his Pearl Street Generating Station in New York, which led to a worldwide increase in the application of electric power, particularly for lighting. At the same time as these developments, he built a 1,300yd (1,190m) electric railway at Menlo Park.

On 9 August 1884 his wife died of typhoid. Using his telegraphic skills, he proposed to 19-year-old Mina Miller in Morse code while in the company of others on a train. He married her in February 1885 before buying a new house and estate at West Orange, New Jersey, building a new laboratory not far away in the Orange Valley.

Edison used direct current which was limited to around 250 volts. Alternating current was largely developed by George Westinghouse and Nicola Tesla, using transformers to step up the current to a higher voltage for long-distance transmission. The use of AC gradually overtook the Edison DC system.

In autumn 1888 he patented a form of cinephotography, the kinetoscope, obtaining film-stock from George Eastman. In 1893 he set up the first film studio, which was pivoted so as to catch the sun, with a hinged roof which could be raised. In 1894 kinetoscope parlours with "peep shows" were starting up in cities all over America. Competition came from the Latham Brothers with a screen-projection machine, which Edison answered with his "Vitascope", shown in New York in 1896. This showed pictures with accompanying sound, but there was some difficulty with synchronization. Edison also experimented with captions at this early date.

In 1880 he filed a patent for a magnetic ore separator, the first of nearly sixty. He bought up deposits of low-grade iron ore which had been developed in the north of New Jersey. The process was a commercial success until the discovery of iron-rich ore in Minnesota rendered it uneconomic and uncompetitive. In 1898 cement rock was discovered in New Village, west of West Orange. Edison bought the land and started cement manufacture, using kilns twice the normal length and using half as much fuel to heat them as the normal type of kiln. In 1893 he met Henry Ford, who was building his second car, at an Edison convention. This started him on the development of a battery for an electric car on which he made over 9,000 experiments. In 1903 he sold his patent for wireless telegraphy "for a song" to Guglielmo Marconi.

In 1910 Edison designed a prefabricated concrete house. In December 1914 fire destroyed three-quarters of the West Orange plant, but it was at once rebuilt, and with the threat of war Edison started to set up his own plants for making all the chemicals that he had previously been buying from Europe, such as carbolic acid, phenol, benzol, aniline dyes, etc. He was appointed President of the Navy Consulting Board, for whom, he said, he made some forty-five inventions, "but they were pigeonholed, every one of them". Thus did Edison find that the Navy did not take kindly to civilian interference.

In 1927 he started the Edison Botanic Research Company, founded with similar investment from Ford and Firestone with the object of finding a substitute for overseas-produced rubber. In the first year he tested no fewer than 3,327 possible plants, in the second year, over 1,400, eventually developing a variety of Golden Rod which grew to 14 ft (4.3 m) in height. However, all this effort and money was wasted, due to the discovery of synthetic rubber.

In October 1929 he was present at Henry Ford's opening of his Dearborn Museum to celebrate the fiftieth anniversary of the incandescent lamp, including a replica of the Menlo Park laboratory. He was awarded the Congressional Gold Medal and was elected to the American Academy of Sciences. He died in 1931 at his home, Glenmont; throughout the USA, lights were dimmed temporarily on the day of his funeral.

[br]

Principal Honours and Distinctions

Member of the American Academy of Sciences. Congressional Gold Medal.

Further Reading

M.Josephson, 1951, Edison, Eyre \& Spottiswode.

R.W.Clark, 1977, Edison, the Man who Made the Future, Macdonald \& Jane.

IMcN

Haddy, Arthur Charles

SUBJECT AREA: Electronics and information technology, Recording

[br]

b. 16 May 1906 Newbury, Berkshire, England

d. December 1989

[br]

English electronics engineer who developed Full Frequency Range Recording for the Decca Record Company and was instrumental in the development of stereo records.

[br]

He developed recording equipment for. the Crystallate Gramophone Company, becoming Chief Recording Engineer at Decca when Crystallate was taken over. Eventually he was made Technical Director of Decca Record Company Ltd, a position he held until 1980. The developments of good cutterheads accelerated due to contract work for the armed services during the Second World War, because an extended frequency range was needed. This necessitated the solution of the problem of surface noise, and the result became known publicly as the ffrr system. The experience gained enabled Haddy to pioneer European Long Play recording. Haddy started development of a practical stereo record system within the Decca group, and for economic reasons he eventually chose a solution developed outside his direct surveillance by Teldec. The foresight of Decca made the company an equal partner in the standards discussions during the late 1950s, when it was decided to use the American 45/45 system, which utilized the two side walls of the groove. The same foresight had led Decca to record their repertoire in stereo from 1954 in order to prepare for any commercialized distribution system. In 1967 Haddy also became responsible for cassette manufacture, which meant organizing the logistics of a tape-duplication plant.

[br]

Principal Honours and Distinctions

OBE 1976.

Bibliography

Haddy's patents are a good description of some of his technical achievements; for example: UK patent no. 770,465 (greater playing time from a record by changing the groove pitch); UK patent no. 807,301 (using feedback to linearize a cutterhead); UK patent no. 810,106 (two-channel by simultaneous vertical and lateral modulation).

Further Reading

G.A.Briggs (ed.), 1961, Audio Biographies, Wharfedale Wireless Works, pp. 157–63. H.E.Roys, "The coming of stereo", Jour. AES 25 (10/11):824–7 (an appreciation of Haddy's role in the standardization of stereo recording).

GB-N