function-based

monitoring

1) мониторинг, оперативный контроль, автоматический контроль, автоматический текущий контроль

2) диспетчерское управление, диспетчирование

3) автоматическое слежение или наблюдение

•

monitoring for damage — контроль на неисправность

monitoring for swarf contamination — контроль на загрязнение стружкой

- automatic monitoring

- blade load monitoring
- broken tool monitoring
- cell status monitoring
- CNC function monitoring
- condition monitoring
- continuous monitoring
- feed force monitoring
- feed thrust monitoring
- force monitoring
- hole monitoring
- horsepower monitoring
- hydraulic oil monitoring
- in-place monitoring
- intermittent monitoring
- machine condition monitoring
- maintenance monitoring
- manufacturing monitoring
- model-based monitoring
- monitoring of abnormal cutting conditions
- monitoring of production performance
- monitoring of tool breakage
- monitoring of tool length
- monitoring of vibration at the cutting tool
- network watching monitoring
- pallet monitoring
- part monitoring
- personnel monitoring
- power monitoring for tool wear
- power monitoring
- process control monitoring
- process monitoring
- production monitoring
- quality monitoring
- real-time shopfloor monitoring
- spindle torque monitoring
- spindle-power monitoring
- status monitoring
- storage monitoring
- storage process monitoring
- tool condition monitoring
- tool failure monitoring
- tool health monitoring
- tool life monitoring
- tool service life monitoring
- tool wear monitoring
- tool wear rate monitoring
- torque monitoring of tools
- transient photoacoustic monitoring
- vibration monitoring
- video monitoring
- vision monitoring
- WIP monitoring
- work in progress monitoring
- workpiece quality check monitoring

analysis

анализ; изучение, исследование

- ad hoc analysis

- algorithmic analysis
- analysis by synthesis
- analysis of causes
- analysis of covariance
- analysis of variance by ranks
- analysis of variance components
- analysis of variance
- approximate analysis
- automatic number analysis
- backward error analysis
- behavior pattern analysis
- behavioral analysis
- benchmark analysis
- botton-up analysis
- break-even analysis
- bus state analysis
- circuit analysis
- clickstream analysis
- cluster analysis
- competitive analysis
- computer analysis
- computerized analysis
- contour analysis
- critical-path analysis
- failure analysis
- feasibility analysis
- flow analysis
- forward error analysis
- Fourier analysis
- frequency-domain analysis
- function point analysis
- harmonic analysis
- immediate constituents analysis
- interconnect analysis
- interval analysis
- layout analysis
- lexical analysis
- linguistic analysis
- logic analysis
- mathematical analysis
- means-aids analysis
- mixed-mode analysis
- model-based analysis
- model analysis
- morphological analysis
- multiresolution analysis
- neighborhood analysis
- network analysis
- nodal analysis
- numerical analysis
- on-line analysis
- parametric analysis
- parasitic analysis
- pattern analysis
- peak hour analysis
- predictive analysis
- procedure analysis
- protocol analysis
- queueing analysis
- recursive analysis
- regression analysis
- security analysis
- sentence-by-sentence syntactic analysis
- sentiment analysis
- sequential analysis
- signature analysis
- state analysis
- statistical analysis
- statistic analysis
- stem analysis
- structural analysis
- structured analysis
- surface analysis
- symbolic analysis
- syntactic analysis
- systems analysis
- time-and-frequency analysis
- timing analysis
- top-down analysis
- topological analysis
- topological timing analysis
- trace analysis
- transient analysis
- variance analysis
- wavelet analysis

code

1) код || кодировать

2) система кодирования

3) (машинная) программа || программировать

4) код, (машинное) слово (напр., команда)

•

- 12-row Hollerith code

- absolute code
- abstract code
- access code

- account code

- actual code

- address code
- alphanumeric code
- alphameric code
- alphabetical code
- alphabetic code
- amplitude code
- ASA code
- attribute-control code
- augmented operation code

- authentication code

- automatic code

- balanced code
- bar code
- baseline code
- basic code
- basic order code
- Baudot code
- binary code
- binary decimal code
- binary-coded decimal code
- biquinary code
- block code
- block structured code
- Bose-Chaudhuri code
- brevity code
- bug-arresting code
- burst error correcting code
- cable code
- call directing code
- call direction code

- cap code

- card code

- catastrophic code

- chain code

- character code
- check code
- checkable code
- Chinese binary code
- color code
- column binary code
- comma-free code
- command code
- compiler-produced code
- completion code
- computer code
- conditional code
- condition code
- constant ratio code
- continuous progressive code

- control code

- conversion code

- convolution code
- convolutional code
- correcting code

- country code

- CP code

- custom code

- cyclic binary code

- cyclic code
- cyclic permuted code
- data code
- data conversion code
- data link code

- dead code

- decimal code

- dense binary code
- deposited source code
- destination code
- device code
- digital code
- direct code
- directing character code
- dot-and-dash code
- double-error correcting code
- eight channel code
- entry code

- epilogue code

- error code

- error status code

- error-catching code

- error-checking code
- error-control code
- error-correcting code
- error-detecting code
- error-detection code
- error-limited code
- escape code

- event code

- excess-three code

- executable code
- exit code
- exponent code
- extended mneminic code
- external readable code
- factorable code
- false code
- fault code
- feature code
- Fire code
- five bit code
- five channel code
- forbidden-character code
- forbidden code
- format code
- four-adress code
- fragile code
- frequency code
- function code
- Gray code
- group code
- Hamming code
- hash code

- hit-or-miss code

- hit-test code

- Hollerith code

- Huffman code
- identification code
- identifying code
- illegal code
- improper code
- in-line code
- inner code
- instantaneously decodable code
- instruction code
- internal code
- interpretive code
- inverted code

- kangaroo code

- letter code

- line code
- linear code
- line-feed code
- lock code
- machine code
- machine-instruction code
- machine-language code
- machine-operation code
- machine-readable code
- machine-treatable code
- magnetic bar code
- magnetic tape code
- Manchester code
- message-format code
- micro code
- minimum-access code
- minimum-delay code
- minimum-distance code
- minimum-latency code
- minimum-redundance code
- mnemonic code
- modified binary code
- modular code
- modulation code

- Morse code

- m-out-of-n code

- Muller code
- multiple-address code
- multiple-error correcting code
- N-adjacent code
- name code
- N-ary code
- native code
- natural binary code
- N-bit code
- N-error correcting code
- N-level code
- noise combating code
- nonconsistently based code
- nonexistent code
- nonprint code
- nonreproducing code
- non-return-to-zero code
- nonsystematic code
- nonweighted code
- N-place code
- number address code
- number code
- numerical code
- numeric code
- N-unit code
- object code
- one-address code
- one-dimensional code
- one-level code
- one-out-of-ten code
- op code
- operand code
- operation code
- optimum code
- order code
- outer code
- own code
- paired-disparity code
- paper tape code
- parallel code
- parity-checking code
- parity-check code
- perforated tape code
- permutation code
- permuted code
- personal-identification code
- phonetic code
- physical-hardware-dependent code

- portable code

- positional code

- position code
- position-independent code
- precedence code
- print restore code

- prologue code

- pseudo code

- pseudocyclic code
- pseudorandom code
- pulse code
- punched card code
- punched tape code
- pure code
- quibinary code
- ready-to-run code
- recurrent code
- redundant code
- Reed-Muller code
- Reed-Solomon code
- reenterable code
- reentrant code
- reflected binary code
- reflected code
- relative code
- relocatable code
- repertory code
- reproducing code
- residual class code
- residue code
- restricted-magnitude-error correcting code
- retrieval code
- return code
- return-to-zero code
- routing code
- row-binary code
- safety code

- scan code

- scroll-bar code

- security code

- select code

- self-checking code
- self-complementaring code
- self-complementing code
- self-correcting code
- self-demarcating code
- separable code
- serial code

- server-side code

- seven bit code

- severity code
- Shannon code
- short computer code
- short code
- sign code
- signal code
- significant-digit subset code

- significant-digit subset code

- simple parity-check code

- single-address code
- single-error correcting and double-error detecting code
- single-error correcting code
- single-error detecting code
- single-parity code

- site code

- skeletal code

- skip code
- source code
- space code
- space-efficient code
- specific code

- startup code

- state code

- status code
- Stone's code
- stop code
- straight binary code
- straight-line code
- strip code
- syllable code
- symbol code
- symbolic code
- systematic error checking code
- tape code
- task code
- telecommunication code
- telegraph code
- teleprinter code
- teletype code
- ternary code
- threaded code
- three-adress code
- throw-away code
- time code
- timing code
- trace back code
- transmission code
- transmitter-start code
- triple-error correcting code
- two-address code
- two-out-of-five code
- two-rail code
- uniquely decipherable code
- uniquely decodable code
- unitary code
- unit-distance code
- unused code
- variable-length code
- viral code

- virtual key code

- Wagner code

- weighted code
- weighted-checksum code

- write-only code

- XS-3 code

- zero-address code
- zone code

fault-tolerance

отказоустойчивость

- algorithm-based fault-tolerance

- array-level fault-tolerance
- cell-level fault-tolerance
- function-level fault-tolerance
- partial fault-tolerance
- software implemented fault-tolerance

program

программа, см. тж application || программировать

a program has ended — программа завершила работу

a program is too big to fit in memory — программа не умещается в отведённой памяти ( машинное сообщение)

- program in

- absolute program
- accessory program
- active program
- administration program
- application program
- A-program
- archive program
- assembler program
- assembler-program
- assembly language program
- assembly program
- automatic recovery program
- background program
- benchmark program
- binary program
- blue-ribbon program
- bootstrap program
- brittle program
- C++ program
- C++-program
- called program
- calling program
- cataloged program
- chain additions program
- chain maintenance program
- channel program
- check program
- checking program
- common program
- communication program
- compaction program
- compiled object program
- compiler program
- compiling program
- complete program
- compressor program
- computer program
- concordance program
- concurrent program
- concurrently running programs
- concurrent-scheduling supervisor program
- condensing program
- configuration program
- consulting program
- control program
- conversational program
- conversion program
- copy-protected program
- copyrighted program
- core-resident program
- correct program
- crash-proof program
- curve-fitting program
- data abstraction program
- data access program
- data flow program
- data set utility program
- data-vet program
- debugging program
- decision program
- development program
- diagnosis program
- diagnostic program
- digital simulation program
- disk-resident program
- editor program
- embedded program
- emulator program
- epistemic logic program
- executable program
- executive program
- exerciser program
- externally stored program
- fail-recognition program
- fault-diagnosis program
- fault-location program
- fine-grained program
- fixed program
- foreground program
- format program
- FORTRAN program
- FORTRAN-program
- fragmented programs
- free-standing program
- function program
- gap filling program
- general-purpose program
- generating program
- generator program
- graphic display program
- hardware program
- hardware-maintenance program
- help program
- heuristic program
- high frequency program
- high volume program
- host program
- illustrative program
- impenetrable program
- inactive program
- independent program
- initial input program
- initial loading program
- in-line program
- integer program
- interactive program
- interconsole message program
- internally stored program
- interpreter program
- interpretive program
- introspective program
- job control program
- job program
- knowledge-based program
- language-understanding program
- learning program
- librarian program
- library program
- license program
- linear program
- link-edited program
- load program
- load-and-go program
- loading program
- logical program
- logical relational program
- machine language program
- machine program
- macroassembly program
- macrogenerating program
- mail program
- main program
- manager program
- manufacturer programs
- map program
- mask-level digitization program
- master program
- mathematical program
- menu-driven program
- message control program
- message processing program
- micromodular program
- minimal access program
- minimum access program
- minimum latency program
- modular-sized program
- monitor program
- monitoring program
- monolithic program
- multisupplier program
- mutated program
- network control program
- networking program
- nonexpansible program
- nonprocedural program
- nucleus initialization program
- object program
- operating program
- optimally coded program
- overlay program
- overlays program
- packaged program
- paint program
- panel program
- PASCAL program
- PASCAL-program
- patched program
- placement program
- plugged program
- polling program
- pop-up program
- portable program
- position-independent program
- postedit program
- postmortem program
- precanned program
- precompiler program
- pre-edit program
- prewired program
- prime program program
- printed program
- print-intensive program
- problem-state program
- problem program
- procedural program
- processing program
- production program
- program for Windows
- program in assembler
- program in C++
- program in FORTRAN
- program in PASCAL
- proper program
- prototype program
- pseudoapplication program
- punched tape program
- read-in program
- real-world program
- reduction program
- reenterable program
- reentrant program
- relocatable program
- report program
- resident program
- restructuring program
- reusable program
- robot program
- robust program
- routine program
- routing program
- running program
- runtime program
- salvation program
- sample program
- scrutinous program
- segmented program
- self-adapting program
- self-contained program
- self-diagnostic program
- self-modification program
- self-modifying program
- self-monitoring program
- self-organizing program
- self-relocatable program
- self-relocating program
- self-resetting program
- self-test program
- self-triggering program
- sequence-scheduling supervisor program
- service program
- shareable program
- shell program
- simulation program
- slave program
- snapshot dump program
- snapshot trace program
- software program
- sort program
- sort/merge program
- sorting program
- source language program
- source program
- spaghetti program
- specific program
- spreadsheet program
- stand-alone program
- standard program
- standby program
- start-up program
- steering program
- stored program
- structured program
- subject program
- superconsistent program
- supervisor program
- supervisory program
- support program
- surface program
- suspended program
- symbolic program
- system program
- systems program
- tape-to-printer program
- teaching program
- test program
- throwaway program
- total-load program
- trace program
- trace-interpretive program
- tracing program
- tracking program
- transaction program
- translating program
- translation program
- translator program
- troubleshooting program
- TSR program
- unmaintable program
- unreadable program
- updated program
- user program
- utility program
- wavelet program
- wired-in program

test

испытание, испытания, проверка, контроль, тестирование, испытывать, проверять, контролировать, тест, проба, тестировать, брать пробу, критерий

– test bed
– test cell
– test conditions
– test console
– test coverage
– test data
– test data analysis
– test desk
– test equipment
– test facilities
– test function
– test log
– test loop
– test mock-up
– test mode
– test plan
– test plant
– test problem
– test procedure
– test program
– test regime
– test routine
– test run
– test set
– test simulator
– test stand
– test station
– test step
– test subprogram
– test validation
– test-bed-based experiment

functional decomposition

функциональная декомпозиция

разбиение задачи на неизбыточные блоки, которые могут быть запрограммированы как набор функций. Применяется, в частности, в структурном программировании.

Most operating systems developed to date, including the popular UNIX and Windows NT operating systems, have been based on a functional decomposition model. — Большинство разработанных до настоящего времени операционных систем, в том числе популярные ОС UNIX и Windows NT, созданы на основе модели функциональной декомпозиции см. тж. decomposition, function, structured programming

analysis

анализ; исследование; изучение; расчет

accelerated analysis

aerodynamic analysis

aeroelasticanalysis

aeroservoelastic analysis

bending analysis

Bode analysis

boundary element analysis

buckling analysis

campaign analysis

canard-wing analysis

characteristic analysis

closed-loop analysis

covariance analysis

crack growth analysis

crack propagation analysis

crash analysis

decoupled analysis

deferred-time analysis

describing function analysis

divergence analysis

dynamic response analysis

effectiveness analysis

eigenvalue analysis

elastoplastic analysis

elastostatic analysis

equivalent plate analysis

fatigue analysis

finite-element analysis

flap-lag analysis

flight dynamics analysis

flight data analysis

Floquet analysis

flow analysis

flutter analysis

Fourier analysis

fractographic analysis

fracture analysis

frequency domain analysis

frequency-of-maintenance analysis

Galerkin analysis

harmonic analysis

heavy-rain analysis

hover analysis

hydroelastic analysis

inelastic analysis

J-integral analysis

lateral-directional analysis

lifting-line analysis

loads analysis

longitudinal analysis

Mach box analysis

maneuver analysis

mass property analysis

matrix analysis

mission analysis

mission-area analysis

mixed mode analysis

modal analysis

model-based analysis

Monte Carlo analysis

Myklestad analysis

Neal-Smith analysis

nonlinear analysis

nonlinear flutter analysis

Nyquist analysis

open-loop analysis

parabolized Navier-Stokes analysis

parameter analysis

parametric analysis

pilot-in-the-loop analysis

pilot-vehicle analysis

pneumodynamic analysis

post-buckling analysis

pre-aerobatic analysis

predevelopment analysis

PSD analysis

R-R analysis

Rayleigh-Ritz analysis

real-time analysis

regression analysis

repair-level analysis

root-locus analysis

rotor-body analysis

rotor-fuselage analysis

rotorcraft analysis

second-approximation analysis

sensitivity analysis

signature analysis

single-degree-of-freedom analysis

single-sortie analysis

singular perturbation analysis

small-perturbation analysis

spectral analysis

spectrum analysis

stability analysis

statistical analysis

stress analysis

structural analysis

structural dynamic analysis

tension analysis

time dependent analysis

time domain analysis

tradeoff analysis

transient analysis

trending analysis

trim analysis

trim point analysis

V-g analysis

vibration analysis

viscoplastic analysis

viscous/inviscid analysis

Weibull analysis

weight tradeoff analysis

wind shear analysis

X-ray analysis

generator

1. генератор; формирователь; задатчик; орган создания <напр. управляющей силы или момента>

2. (программа-)генератор

air turbo generator

co-rotating generators

co-rotating vortex generators

command generator

computer image generator

computer-driven generator

contra-rotating generators

contra-rotating vortex generators

control force generator

finite element mesh generator

flight profile generator

function generator

gas generator

helium-bubble generator

hydraulic motor generator

image generator

lift generator

moment generator

motion generator

nitrogen generator

oil-spray-cooled generator

path generator

pitch generator

power generator

random number generator

shock generator

side-force generator

smoke generator

sound generator

trajectory generator

two-eyepoint image generator

video-disc-based image generator

vortex generator

wind-driven generator

departmentalization

Gen Mgt

the division of an organization into sections. Departmentalization is usually based on operating function, and organizations will commonly have departments for, for example, finance, personnel, or marketing. Such organizational structure is typical of a bureaucracy. It may be used in centralization, when a particular activity is undertaken by one department in one location on behalf of the whole organization, but may equally be a feature of a decentralized organization, in which departments are used as individual operating units responsible for their own management.

Leavitt’s Diamond

Gen Mgt

a model for analyzing management change, developed by Harold J. Leavitt. Leavitt’s Diamond is based on the idea that it is rare for any change to occur in isolation. Leavitt sees technology, tasks, people, and the organizational structure in which they function as four interdependent variables, visualized as the four points of a diamond. Change at any one point of the diamond will impact some or all of the others. Thus, a changed task will necessarily affect the people involved in it, the structure in which they work, and the technology that they use. Failure to manage these interdependencies at critical times of change can create problems.

See also change management

product management

Mktg

a system for the coordination of all the stages through which a product passes during its life cycle. Product management involves control of a product from its innovation and development to its decline. The process is coordinated by a product manager who focuses on the marketing of the product but may also be responsible for pricing, packaging, branding, research and development, production, distribution, sales targets, and product performance appraisal. This cross-departmental approach is based on the theory that a dedicated product management system will lead to tighter control over the product, and thus higher sales and profits. A brand manager fulfills a similar function to a product manager, concentrating on products within one brand.

Chapelon, André

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 26 October 1892 Saint-Paul-en-Cornillon, Loire, France

d. 29 June 1978 Paris, France

[br]

French locomotive engineer who developed high-performance steam locomotives.

[br]

Chapelon's technical education at the Ecole Centrale des Arts et Manufactures, Paris, was interrupted by extended military service during the First World War. From experience of observing artillery from the basket of a captive balloon, he developed a method of artillery fire control which was more accurate than that in use and which was adopted by the French army.

In 1925 he joined the motive-power and rolling-stock department of the Paris-Orléans Railway under Chief Mechanical Engineer Maurice Lacoin and was given the task of improving the performance of its main-line 4–6–2 locomotives, most of them compounds. He had already made an intensive study of steam locomotive design and in 1926 introduced his Kylchap exhaust system, based in part on the earlier work of the Finnish engineer Kyläla. Chapelon improved the entrainment of the hot gases in the smokebox by the exhaust steam and so minimized back pressure in the cylinders, increasing the power of a locomotive substantially. He also greatly increased the cross-sectional area of steam passages, used poppet valves instead of piston valves and increased superheating of steam. PO (Paris-Orléans) 4–6–2s rebuilt on these principles from 1929 onwards proved able to haul 800-ton trains, in place of the previous 500-ton trains, and to do so to accelerated schedules with reduced coal consumption. Commencing in 1932, some were converted, at the time of rebuilding, into 4–8–0s to increase adhesive weight for hauling heavy trains over the steeply graded Paris-Toulouse line.

Chapelon's principles were quickly adopted on other French railways and elsewhere.

H.N. Gresley was particularly influenced by them. After formation of the French National Railways (SNCF) in 1938, Chapelon produced in 1941 a prototype rebuilt PO 2–10–0 freight locomotive as a six-cylinder compound, with four low-pressure cylinders to maximize expansive use of steam and with all cylinders steam-jacketed to minimize heat loss by condensation and radiation. War conditions delayed extended testing until 1948–52. Meanwhile Chapelon had, by rebuilding, produced in 1946 a high-powered, three-cylinder, compound 4–8–4 intended as a stage in development of a proposed range of powerful and thermally efficient steam locomotives for the postwar SNCF: a high-speed 4–6–4 in this range was to run at sustained speeds of 125 mph (200 km/h). However, plans for improved steam locomotives were then overtaken in France by electriflcation and dieselization, though the performance of the 4–8–4, which produced 4,000 hp (3,000 kW) at the drawbar for the first time in Europe, prompted modification of electric locomotives, already on order, to increase their power.

Chapelon retired from the SNCF in 1953, but continued to act as a consultant. His principles were incorporated into steam locomotives built in France for export to South America, and even after the energy crisis of 1973 he was consulted on projects to build improved, high-powered steam locomotives for countries with reserves of cheap coal. The eventual fall in oil prices brought these to an end.

[br]

Bibliography

1938, La Locomotive à vapeur, Paris: J.B.Bailière (a comprehensive summary of contemporary knowledge of every function of the locomotive).

Further Reading

H.C.B.Rogers, 1972, Chapelon, Genius of French Steam, Shepperton: Ian Allan.

1986, "André Chapelon, locomotive engineer: a survey of his work", Transactions of the Newcomen Society 58 (a symposium on Chapelon's work).

Obituary, 1978, Railway Engineer (September/October) (makes reference to the technical significance of Chapelon's work).

PJGR

Dondi, Giovanni

SUBJECT AREA: Horology

[br]

b. 1318 Chioggia, Italy

d. 22 June 1389 Milan, Italy

[br]

Italian physician and astronomer who produced an elaborate astronomical clock.

[br]

Giovanni was the son of Jacopo de'Dondi dall'-Orologio, a physician who designed a public clock that was installed in Padua in 1344. The careers of both father and son followed similar paths, for Giovanni became Physician to Emperor Charles IV and designed a complicated astronomical clock (astrarium) for which he became famous. Around 1350 he was appointed Professor of Astronomy at the University of Padua. Dondi completed his astrarium in 1381, having worked on it for sixteen years. Unlike the clock of Richard of Wallingford, it used the common form of verge escapement and had no facility for sounding the hours on a bell. It did, however, indicate time on a 24- hour dial and had calendars for both the fixed and movable feasts of the Church. Its principal function was to show the motions of the planets on the Ptolemaic theory, i.e. the Sun, Moon, Mercury, Venus, Mars, Jupiter and Saturn. Like the Wallingford clock, it also indicated the position of the nodes, or points where the orbits of the Sun and Moon intersected, so that eclipses could be predicted. The astrarium was acquired by the Duke of Milan and its history can be traced to c.1530, when it was in disrepair. It is now known only from copies of Dondi's manuscript "Tractus astarii". Several modern reconstructions have been made based upon the details in the various manuscripts.

[br]

Bibliography

1987, Astrarium Johannis de Dondis; fac-simile du manuscript de Padoue et traduction française par Emmanuel Poulle, Padua/Paris. For an English translation of Astrarium, see G.H. Baillie, H.A.Lloyd and F.A.B.Ward, 1974, The Planetarium of Giovanni de Dondi, London; however, this translation is less satisfactory as it is a composite of two manuscripts, with illustrations from a third.

Further Reading

S.Bedini and F.Maddison, 1966, "Mechanical universe. The astrarium of Giovanni de"Dondi' Transactions of the American Philosophical Society 56:1–69 (for the history of the clock).

H.A.Lloyd, 1958, Some Outstanding Clocks Over 700 Years, 1250–1950, London, pp. 9–24 (for its construction).

DV

Rittinger, Peter von

SUBJECT AREA: Mining and extraction technology

[br]

b. 23 January 1811 Neutitschein, Moravia (now Now Jicin, Czech Republic)

d. 7 December 1872 Vienna, Austria

[br]

Austrian mining engineer, improver of the processing of minerals.

[br]

After studying law, philosophy and politics at the University of Olmutz (now Olomouc), in 1835 Rittinger became a fellow of the Mining Academy in Schemnitz (now Banská Štiavnica), Slovakia. In 1839, the year he finished at the academy, he published a book on perspective drawing. The following year, he became Inspector of Mills at the ore mines in Schemnitz, and in 1845 he was engaged in coal mining in Bohemia and Moravia. In 1849 he joined the mining administration at Joachimsthal (now Jáchymov), Bohemia. In these early years he contributed his first important innovations for the mining industry and thus fostered his career in the government's service. In 1850 he was called to Vienna to become a high-ranked officer in various ministries. He was responsible for the construction of buildings, pumping installations and all sorts of machinery in the mining industry; he reorganized the curricula of the mining schools, was responsible for the mint and became head of the department of mines, forests and salt-works in the Austrian empire.

During all his years of public service, Rittinger continued his concern with technological innovations. He improved the processing of ores by introducing in 1844 the rotary washer and the box classifier, and later his continuously shaking concussion table which, having been exhibited at the Vienna World Fair of 1873, was soon adopted in other countries. He constructed water-column pumps, invented a differential shaft pump with hydraulic linkage to replace the heavy iron rods and worked on centrifugal pumps. He was one of the first to be concerned with the transfer of heat, and he developed a system of using exhaust steam for heating in salt-works. He kept his eye on current developments abroad, using his function as official Austrian commissioner to the world exhibitions, on which he published frequently as well as on other matters related to technology. With his systematic handbook on mineral processing, first published in 1867, he emphasized his international reputation in this specialized field of mining.

[br]

Principal Honours and Distinctions

Knighted 1863. Order of the Iron Crown 1863. Honorary Citizen of Joachimsthal 1864. President, Austrian Chamber of Engineers and Architects 1863–5.

Bibliography

1849, Der Spitzkasten-Apparat statt Mehlrinnen und Sümpfen…bei der nassen Aufbereitung, Freiberg.

1854, Theoretisch-praktische Anleitung zur Rader-Verzahnung, Vienna.

1855, Theoretisch-praktische Abhandlung über ein für alle Gattungen von Flüssigkeiten anwendbares neues Abdampfverfahren, Vienna.

1861, Theorie und Bau der Rohrturbinen, Prague.

1867, Lehrbuch der Aufbereitungskunde, Berlin (with supplements, 1870–73).

Further Reading

H.Kunnert, 1972, "Peter Ritter von Rittinger. Lebensbild eines grossen Montanisten", Der Anschnitt 24:3–7 (a detailed description of his life, based on source material).

J.Steiner, 1972, "Der Beitrag von Peter Rittinger zur Entwicklung der Aufbereitungstechnik". Berg-und hüttenmännische Monatshefte 117: 471–6 (an evaluation of Rittinger's achievements for the processing of ores).

WK

Sullivan, Louis Henry

SUBJECT AREA: Architecture and building

[br]

b. 3 September 1856 Boston, Massachusetts, USA

d. 14 April 1924 Chicago, Illinois, USA

[br]

American architect whose work came to be known as the "Chicago School of Architecture" and who created a new style of architecture suited specifically to steel-frame, high-rise structures.

[br]

Sullivan, a Bostonian, studied at the Massachusetts Institute of Technology. Soon he joined his parents, who had moved to Chicago, and worked for a while in the office of William Le Baron Jenney, the pioneer of steel-frame construction. After spending some time studying at the Ecole des Beaux Arts in Paris, in 1875 Sullivan returned to Chicago, where he later met and worked for the Danish architect Dankmar Adler, who was practising there. In 1881 the two architects became partners, and during the succeeding fifteen years they produced their finest work and the buildings for which Sullivan is especially known.

During the early 1880s in Chicago, load-bearing, metal-framework structures that made lofty skyscrapers possible had been developed (see Jenney and Holabird). Louis H.Sullivan initiated building design to stress and complement the metal structure rather than hide it. Moving onwards from H.H.Richardson's treatment of his Marshall Field Wholesale Store in Chicago, Sullivan took the concept several stages further. His first outstanding work, built with Adler in 1886–9, was the Auditorium Building in Chicago. The exterior, in particular, was derived largely from Richardson's Field Store, and the building—now restored—is of bold but simple design, massively built in granite and stone, its form stressing the structure beneath. The architects' reputation was established with this building.

The firm of Sullivan \& Adler established itself during the early 1890s, when they built their most famous skyscrapers. Adler was largely responsible for the structure, the acoustics and function, while Sullivan was responsible for the architectural design, concerning himself particularly with the limitation and careful handling of ornament. In 1892 he published his ideas in Ornament in Architecture, where he preached restraint in its quality and disposition. He established himself as a master of design in the building itself, producing a rhythmic simplicity of form, closely related to the structural shape beneath. The two great examples of this successful approach were the Wainwright Building in St Louis, Missouri (1890–1) and the Guaranty Building in Buffalo, New York (1894–5). The Wainwright Building was a ten-storeyed structure built in stone and brick and decorated with terracotta. The vertical line was stressed throughout but especially at the corners, where pilasters were wider. These rose unbroken to an Art Nouveau type of decorative frieze and a deeply projecting cornice above. The thirteen-storeyed Guaranty Building is Sullivan's masterpiece, a simple, bold, finely proportioned and essentially modern structure. The pilaster verticals are even more boldly stressed and decoration is at a minimum. In the twentieth century the almost free-standing supporting pillars on the ground floor have come to be called pilotis. As late as the 1920s, particularly in New York, the architectural style and decoration of skyscrapers remained traditionally eclectic, based chiefly upon Gothic or classical forms; in view of this, Sullivan's Guaranty Building was far ahead of its time.

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Bibliography

Article by Louis H.Sullivan. Address delivered to architectural students June 1899, published in Canadian Architecture Vol. 18(7):52–3.

Further Reading

Hugh Morrison, 1962, Louis Sullivan: Prophet of Modern Architecture.

Willard Connely, 1961, Louis Sullivan as He Lived, New York: Horizon Press.

DY

GDI

"An executable program that processes graphical function calls from a Windows-based application and passes those calls to the appropriate device driver, which performs the hardware-specific functions that generate output. By acting as a buffer between applications and output devices, GDI presents a device-independent view of the world for the application while interacting in a device-dependent format with the device."

GDI

Graphics Device Interface

"An executable program that processes graphical function calls from a Windows-based application and passes those calls to the appropriate device driver, which performs the hardware-specific functions that generate output. By acting as a buffer between applications and output devices, GDI presents a device-independent view of the world for the application while interacting in a device-dependent format with the device."

واجهة جهاز رسومية

anonymous method

A practical language construct that allows programmers to create code blocks that can be encapsulated in a delegate and executed at a later time. They are based on a language concept called a lambda function and are similar to those found in Lisp and Python.

الطريقة المجهولة

Unified Connection Manager

"A Windows service that is designed to aggregate network information (connection availability/status, profiles lists, radio state/strength, etc.) from infrastructure networks so that it can be presented to the user in a meaningful way. The main function of the UCM service includes making connection decisions (connect/disconnect) based on policy across multiple media types. The UCM service also allows for third-party media types to be seamlessly integrated into the system making the UCM expandable with future media types."

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