production+workers

loading 1.

(ANZ) HR

a payment made to workers over and above the basic wage in recognition of special skills or unfavorable conditions, for example, for overtime or shiftwork

2. Ops

the assignment of tasks or jobs to a workstation. The loading of jobs is worked out through the use of master production scheduling. Workstations may be loaded to finite or infinite loading levels.

manpower forecasting

Gen Mgt

the prediction of future levels of demand for, and supply of, workers and skills at organizational, regional, or national level. A variety of techniques are used in manpower forecasting, including the statistical analysis of current trends and the use of mathematical models. At national level, these include the analysis of census statistics; at organizational level, projections of future requirements may be made from sales and production figures. Manpower forecasting forms part of the manpower planning process.

Babbage, Charles

SUBJECT AREA: Electronics and information technology

[br]

b. 26 December 1791 Walworth, Surrey, England

d. 18 October 1871 London, England

[br]

English mathematician who invented the forerunner of the modern computer.

[br]

Charles Babbage was the son of a banker, Benjamin Babbage, and was a sickly child who had a rather haphazard education at private schools near Exeter and later at Enfield. Even as a child, he was inordinately fond of algebra, which he taught himself. He was conversant with several advanced mathematical texts, so by the time he entered Trinity College, Cambridge, in 1811, he was ahead of his tutors. In his third year he moved to Peterhouse, whence he graduated in 1814, taking his MA in 1817. He first contributed to the Philosophical Transactions of the Royal Society in 1815, and was elected a fellow of that body in 1816. He was one of the founders of the Astronomical Society in 1820 and served in high office in it.

While he was still at Cambridge, in 1812, he had the first idea of calculating numerical tables by machinery. This was his first difference engine, which worked on the principle of repeatedly adding a common difference. He built a small model of an engine working on this principle between 1820 and 1822, and in July of the latter year he read an enthusiastically received note about it to the Astronomical Society. The following year he was awarded the Society's first gold medal. He submitted details of his invention to Sir Humphry Davy, President of the Royal Society; the Society reported favourably and the Government became interested, and following a meeting with the Chancellor of the Exchequer Babbage was awarded a grant of £1,500. Work proceeded and was carried on for four years under the direction of Joseph Clement.

In 1827 Babbage went abroad for a year on medical advice. There he studied foreign workshops and factories, and in 1832 he published his observations in On the Economy of Machinery and Manufactures. While abroad, he received the news that he had been appointed Lucasian Professor of Mathematics at Cambridge University. He held the Chair until 1839, although he neither resided in College nor gave any lectures. For this he was paid between £80 and £90 a year! Differences arose between Babbage and Clement. Manufacture was moved from Clement's works in Lambeth, London, to new, fireproof buildings specially erected by the Government near Babbage's house in Dorset Square, London. Clement made a large claim for compensation and, when it was refused, withdrew his workers as well as all the special tools he had made up for the job. No work was possible for the next fifteen months, during which Babbage conceived the idea of his "analytical engine". He approached the Government with this, but it was not until eight years later, in 1842, that he received the reply that the expense was considered too great for further backing and that the Government was abandoning the project. This was in spite of the demonstration and perfectly satisfactory operation of a small section of the analytical engine at the International Exhibition of 1862. It is said that the demands made on manufacture in the production of his engines had an appreciable influence in improving the standard of machine tools, whilst similar benefits accrued from his development of a system of notation for the movements of machine elements. His opposition to street organ-grinders was a notable eccentricity; he estimated that a quarter of his mental effort was wasted by the effect of noise on his concentration.

[br]

Principal Honours and Distinctions

FRS 1816. Astronomical Society Gold Medal 1823.

Bibliography

Babbage wrote eighty works, including: 1864, Passages from the Life of a Philosopher.

1832, On the Economy of Manufacture and Machinery.

July 1822, Letter to Sir Humphry Davy, PRS, on the Application of Machinery to the purpose of calculating and printing Mathematical Tables.

Further Reading

1961, Charles Babbage and His Calculating Engines: Selected Writings by Charles Babbage and Others, eds Philip and Emily Morrison, New York: Dover Publications.

IMcN

Hall, Joseph

SUBJECT AREA: Metallurgy

[br]

b. 1789

d. 1862

[br]

English ironmaker who invented the wet puddling process.

[br]

Hall was a practical man with no theoretical background: his active years were spent at Bloomfield Ironworks, Tipton, Staffordshire. Around 1816 he began experimenting in the production of wrought iron. At that time, blast-furnace or cast iron was converted to wrought iron by the dry puddling process invented by Henry Cort in 1784. In this process, the iron was decarburized (i.e. had its carbon removed) by heating it in a current of air in a furnace with a sand bed. Some of the iron combined with the silica in the sand to form a slag, however, so that no less than 2 tons of cast iron were needed to produce 1 ton of wrought. Hall found that if bosh cinder was charged into the furnace, a vigorous reaction occurred in which the cast iron was converted much more quickly than before, to produce better quality wrought iron, a ton of which could be formed by no more than 21 cwt (1,067 kg) of cast iron. Because of the boiling action, the process came to be known as pig boiling. Bosh cinder, essentially iron oxide, was formed in the water troughs or boshes in which workers cooled their tools used in puddling and reacted with the carbon in the cast iron. The advantages of pig boiling over dry puddling were striking enough for the process to be widely used by the late 1820s. By mid-century it was virtually the only process used for producing wrought iron, an essential material for mechanical and civil engineering during the Industrial Revolution. Hall reckoned that if he had patented his invention he would have "made a million". As luck would have it, the process that he did patent in 1838 left his finances unchanged: this was for the roasting of cinder for use as the base of the puddling furnace, providing better protection than the bosh cinder for the iron plates that formed the base.

[br]

Bibliography

1857, The Iron Question Considered in Connection with Theory, Practice and Experience with Special Reference to the Bessemer Process, London.

Further Reading

J.Percy, 1864, Metallurgy. Iron and Steel, London, pp. 670 ff. W.K.V.Gale, Iron and Steel, London: Longmans, pp. 46–50.

LRD

Leclanché, Georges

SUBJECT AREA: Electricity

[br]

b. 1839 Paris, France

d. 14 September 1882 Paris, France

[br]

French chemist and inventor of the primary cell named after him, from which the electrochemical principles of the modern dry cell have been developed.

[br]

Leclanché was sent to England for his early education. Returning to France, he entered the Central School of Arts and Manufacture, from which he graduated as a chemical engineer in 1860. He spent some years with a railway company in setting up an electrical timing system, and this work led him to electrochemical research. Driven by political pressure into exile, he set up a small laboratory in Brussels to continue the studies of the behaviour of voltaic cells he had started in France. Many workers directed their efforts to constructing a cell with a single electrolyte and a solid insoluble depo-larizer, but it was Leclanché who produced, in 1866, the prototype of a battery that was rugged, cheap and contained no highly corro-sive liquid. With electrodes of carbon and zinc and a solution of ammonium chloride, polarization was prevented by surrounding the positive electrode with manganese dioxide. The Leclanché cell was adopted by the Belgian Government Telegraph Service in 1868 and rapidly came into general use wherever an intermittent current was needed; for example, in telegraph and later in telephone circuits. Carl Gassner in 1888 pioneered successful dry cells based on the Leclanché system, with the zinc anode serving as the container, and c. 1890 commercial production of such cells began.

[br]

Bibliography

10 October 1866, British patent no. 2,623 (Leclanché cell).

1868, "Pile au peroxyde de manganèse à seul liquide", Les Mondes 16:532–3 (describes the Leclanché cell).

Further Reading

M.Barak, 1966, "Georges Leclanché (1939–1882)", IEE Electronics and Power 12:184– 91 (a detailed account).

N.C.Cahoon and G.W.Heise (eds), 1976, The Primary Battery, Vol. II, New York, pp. 1–147 (describes subsequent developments), GW

Lumière, Auguste

SUBJECT AREA: Photography, film and optics

[br]

b. 19 October 1862 Besançon, France

d. 10 April 1954 Lyon, France

[br]

French scientist and inventor.

[br]

Auguste and his brother Louis Lumière (b. 5 October 1864 Besançon, France; d. 6 June 1948 Bandol, France) developed the photographic plate-making business founded by their father, Charles Antoine Lumière, at Lyons, extending production to roll-film manufacture in 1887. In the summer of 1894 their father brought to the factory a piece of Edison kinetoscope film, and said that they should produce films for the French owners of the new moving-picture machine. To do this, of course, a camera was needed; Louis was chiefly responsible for the design, which used an intermittent claw for driving the film, inspired by a sewing-machine mechanism. The machine was patented on 13 February 1895, and it was shown on 22 March 1895 at the Société d'Encouragement pour l'In-dustrie Nationale in Paris, with a projected film showing workers leaving the Lyons factory. Further demonstrations followed at the Sorbonne, and in Lyons during the Congrès des Sociétés de Photographie in June 1895. The Lumières filmed the delegates returning from an excursion, and showed the film to the Congrès the next day. To bring the Cinématographe, as it was called, to the public, the basement of the Grand Café in the Boulevard des Capuchines in Paris was rented, and on Saturday 28 December 1895 the first regular presentations of projected pictures to a paying public took place. The half-hour shows were an immediate success, and in a few months Lumière Cinématographes were seen throughout the world.

The other principal area of achievement by the Lumière brothers was colour photography. They took up Lippman's method of interference colour photography, developing special grainless emulsions, and early in 1893 demonstrated their results by lighting them with an arc lamp and projecting them on to a screen. In 1895 they patented a method of subtractive colour photography involving printing the colour separations on bichromated gelatine glue sheets, which were then dyed and assembled in register, on paper for prints or bound between glass for transparencies. Their most successful colour process was based upon the colour-mosaic principle. In 1904 they described a process in which microscopic grains of potato starch, dyed red, green and blue, were scattered on a freshly varnished glass plate. When dried the mosaic was coated with varnish and then with a panchromatic emulsion. The plate was exposed with the mosaic towards the lens, and after reversal processing a colour transparency was produced. The process was launched commercially in 1907 under the name Autochrome; it was the first fully practical single-plate colour process to reach the public, remaining on the market until the 1930s, when it was followed by a film version using the same principle.

Auguste and Louis received the Progress Medal of the Royal Photographic Society in 1909 for their work in colour photography. Auguste was also much involved in biological science and, having founded the Clinique Auguste Lumière, spent many of his later years working in the physiological laboratory.

[br]

Further Reading

Guy Borgé, 1980, Prestige de la photographie, Nos. 8, 9 and 10, Paris. Brian Coe, 1978, Colour Photography: The First Hundred Years, London ——1981, The History of Movie Photography, London.

Jacques Deslandes, 1966, Histoire comparée du cinéma, Vol. I, Paris. Gert Koshofer, 1981, Farbfotografie, Vol. I, Munich.

BC

Matzeliger, Jan

SUBJECT AREA: Domestic appliances and interiors

[br]

b. 1852 Surinam

d. 1889 Lynn, Massachusetts, (?) USA

[br]

African-American inventor of the shoe-lasting machine.

[br]

He served an apprenticeship as a machinist in his native country, Surinam. As a young man he emigrated to New England in the USA, but he was unable to secure employment in his trade. To survive, he took various odd jobs, including sewing soles on to shoes in a factory at Lynn, Massachusetts, a centre of the shoemaking industry. Much of the shoemaking process had already been mechanized, but lasting remained laborious, painstaking hand work. Matzeliger turned his undoubted inventive powers to mechanizing this operation. It took him four years to achieve a working model of a mechanical last that could be patented. By this time his health and finances had been undermined by the struggle to reach this stage; to raise funds he had to dispose of two-thirds of his rights in his patent to two local investors. Eventually he demonstrated a trial model of his lasting machine and successfully lasted seventy-five pairs of shoes. Not satisfied with that, Matzeliger went on to produce two improved machines, protected by further patents. Finally, the United Shoe Machine Company bought up his patents, but that relief came too late to prevent Matzeliger from dying in poor circumstances. The mechanization of shoe lasting made a significant contribution to the manufacture of shoes, raising production and reducing costs. It also effectively extinguished the final element of skilled hand work required in shoemaking, earning him considerable unpopularity among the workers who were about to be displaced, and resulting in the machine being derogatorily nicknamed "Niggerhead".

[br]

Further Reading

P.P.James, 1989, The Real McCoy: African-American Invention and Innovation 1619– 1930, Washington, DC: Smithsonian Institution, pp. 70–2.

LRD

education

[ˌedju:ˈkeɪʃən]

adult education обучение взрослых; образование взрослых adult education обучение взрослых education образование; просвещение, обучение; all-round education разностороннее образование basic education начальное образование basic education основное образование; основы знаний (в к.-л. области) basic vocational education начальное профессиональное образование basic vocational education основной курс профессионального образования business education коммерческое образование career education образование направленное на карьеру classical (commercial, art) education классическое (коммерческое, художественное) образование consumer education обучение потребителей continuing education постоянно продолжающееся образование continuous education непрерывное образование distance education заочное образование distance education заочное обучение education воспитание, развитие (характера, способностей) education воспитание education дрессировка, обучение (животных) education культура, образованность education образование, просвещение education образование, воспитание education образование; просвещение, обучение; all-round education разностороннее образование education образование education образованность, культура education образованность education просвещение Education: Education: State Centre for Aid to education Государственный центр по оказанию помощи образованию education: education: tertiary education высшее образование education and training promoting employment обучение и дополнительная подготовка education with production обучение совмещенное с производственным процессом elementary education начальное образование family education семейное воспитание; домашнее образование further education дальнейшее образование further: education дальнейший; добавочный; further education дальнейшее образование (исключая университетское) general education всеобщее образование health education медицинское образование health: education attr. гигиенический, санитарный; health education санитарное просвещение; health bill карантинное свидетельство higher education высшее образование higher: higher высший; higher education высшее образование informal education неформальное образование (вне организационных форм) legal education юридическое образование lifelong education непрерывное образование lifelong education учеба в течение всей жизни, непрерывная учеба nonformal education неформальное образование (организованная систематическая учебная деятельность, часто непосредственно связанная с работой, проводимая вне формальной образовательной системы) occupational education профессиональное образование out-of-school education внешкольное образование permanent education непрерывное обучение permanent education постоянное образование popular education народное образование post-qualifying education последипломное образование postsecondary education высшее образование; обучение после завершения среднего образования (независимо от продолжительности курса или выдаваемого сертификата) primary education начальное образование professional education профессиональное обучение public education народное образование remedial education исправительное обучение safety education образование в области безопасности труда secondary-level education среднее образование education: tertiary education высшее образование trade education специальное образование university education университетское образование vocational education профессионально-техническое образование vocational education профессиональное образование vocational education профессиональное обучение workers education рабочее образование; подготовка прфсоюзных работников

model

[ˈmɔdl]

abstract model абстрактная модель abstract model building вчт. абстрактное моделирование allocation model модель распределения analytical model аналитическая модель associative model ассоциативная модель autonomous model автономная модель autoregressive model авторегрессионная модель backlogging model модель с задалживанием роста заказов battle model модель боя behavioral model модель поведения binomial model биномиальная модель binomial model биномиальное распределение clay-clay model жесткая модель closed model замкнутая модель coalition model модель коалиции cobweb model паутинообразная модель cognitive model когнитивная модель communication model модель общения computational model вычислительная модель computer model машинная модель conceptual model концептуальная модель cyclic queueing model вчт. циклическая модель массового обслуживания data model вчт. модель данных decision model модель принятия решений decision-theory model модель выбора решений decision-theory model модель принятия решений double-risk model модель с двойным риском dynamic model динамическая модель dynamic programming model вчт. модель динамического программирования econometric model эконометрическая модель entity-relationship model модель типа объект-отношение equilibrium model модель равновесия estimation model модель оценивания explaining model поясняющая модель finite-horizon model модель с конечным интервалом fixed-horizon model модель с постоянным интервалом fixed-service-level model модель с фиксированным уровнем обслуживания formal model формальная модель game model игровая модель game-theory model теоретико-игровая модель general duel model общая модель дуэли generalized model обобщенная модель generic model типовая модель global model глобальная модель imaging model модель изображений interindustry programming model вчт. межотраслевая модель программирования interruption model модель с возможностью прерывания обслуживания knowledge model вчт. модель знаний labyrinth model лабиринтная модель language model модель языка learning model модель обучения linear model линейная модель linear programming model модель линейного программирования linear regressive model линейный регрессионная модель linguistic model лингвистическая модель logical model логическая модель logical-linguistic model логико-лингвистическая модель macrosectoral model макроотраслевая модель many-server model вчт. многоканальная модель master-workers model модель хозяин-работники matrix model матричная модель model быть натурщиком, натурщицей, живой моделью, манекенщицей model живая модель (в магазине одежды) model макет model манекен model моделировать; лепить model модель, макет; шаблон model модель model натурщик; натурщица model образец, эталон model образец model attr. образцовый, примерный model оформлять model примерный, типовой (о конвенции, уставе и т.д.) model создавать по образцу (чего-л.; after, on); to model oneself ((up)on smb.) брать (кого-л.) за образец model тип model разг. точная копия model тех. формировать model шаблон model создавать по образцу (чего-л.; after, on); to model oneself ((up)on smb.) брать (кого-л.) за образец moving-average model модель скользящего среднего multichannel priority model вчт. многоканальная модель с приоритетами multifactor model многофакторная модель multiple model многоуровневая модель multistation queueing model вчт. многоканальная модель обслуживания network model сетевая модель no-backlog model модель без задалживания заказов no-queue model модель без образования очереди non-poisson model непуассоновская модель one-factor model однофакторная модель one-period model однопериодная модель open model открытая модель open model разомкнутая модель operations research model модель исследования операций phenomenological model феноменологическая модель pictorial model графическая модель pilot model опытный образец pilot: model plant опытный завод, опытная установка; pilot model опытная модель poisson model пуассоновская модель predicitive model прогнозирующая модель preference model модель предпочтений priority model модель с приоритетами probability model вероятностная модель probability model стохастическая модель production model производственная модель prognostic model прогностическая модель queueing model модель массового обслуживания queueing model модель очереди random model вероятностная модель random model стохастическая модель reduced model упрощенная модель regression model регрессионная модель relational model реляционная модель scaling model шкальная модель security model модель механизма защиты semi-poisson model полупуассоновская модель shortest-route model модель выбора кратчайшего пути sign model знаковая модель simplex model симплексная модель simulation model имитационная модель single-channel model одноканальная модель single-period model однопериодная модель single-phase model однофазовая модель single-server model одноканальная модель singular model одноуровневая модель software model вчт. программная модель solid model объемная модель sophisticated model усложненная модель standard model типовая модель static equilibrium model модель статического равновесия static inventory model статическая модель управления запасами static model статическая модель station-to-station model многошаговая модель stochastic model вероятностная модель teaching model учебная модель (машины, оборудования) three-dimensional model трехмерная модель transportation model транспортная задача transshipment model модель перевозок с промежуточными пунктами trend-free model модель с отсутствием тренда trial model испытательный образец trial model пробный образец two-echelon model двухступенчатая модель two-state model модель с двумя состояниями user model модель пользователя waiting line model модель очереди wire-frame model каркасная модель world decision model всеобщая модель решений world model модель мира

industrial building

1. промышленное предприятие (здание)
2. производственное здание

 

производственное здание
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

industrial building
A building directly used in manufacturing or technically productive enterprises. Industrial buildings are not generally or typically accessible to other than workers. Industrial buildings include buildings used directly in the production of power, the manufacture of products, the mining of raw materials, and the storage of textiles, petroleum products, wood and paper products, chemicals, plastics, and metals. (Source: JJK)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• industrial building

DE

• Betriebsgebäude

FR

• bâtiment industriel

 

промышленное предприятие (здание)
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

промышленное здание
-
[Интент]

промышленное здание
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]

EN

industrial plant (building)
Buildings where the operations related to industrial productive processes are carried out. (Source: ZINZAN)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• industrial building
• industrial environment
• industrial plant (building)

DE

• Industrieanlage

FR

• établissement industriel (bâtiment)