technical gap

technical gap

1. нерешённая техническая проблема

 

нерешённая техническая проблема
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]

Тематики

• энергетика в целом

EN

• technical gap

technical gap

нерешенная техническая проблема

technical gap

нерешённая техническая проблема

technical gap

Техника: нерешённая техническая проблема

technical gap

нерешённая техническая проблема

technical gap

невирішена технічна проблема

gap

1) зазор; просвет; промежуток; щель; интервал; разрыв

2) матем. лакуна

3) люфт

4) искровой промежуток

5) немагнитный зазор

6) связь пауза; перерыв ( в работе), отсутствие сигнала

7) рлк мёртвая зона

8) минимум диаграммы направленности ( антенны)

9) запрещённая (энергетическая) зона; ширина запрещенной ( энергетической) зоны

•

gap between tanks — (противопожарный) разрыв между резервуарами ( на нефтебазе)

-
air gap
-
annular gap
-
arc gap
-
armature gap
-
back gap
-
band gap
-
block gap
-
breaker point gap
-
buncher gap
-
bushing spark gap
-
catcher gap
-
chopping gap
-
closing gap
-
cloud gap
-
communication gap
-
contact gap
-
coordinating gap
-
crushing gap
-
cylinder gap
-
deion gap
-
differential gap
-
direct band gap
-
direct gap
-
discharge gap
-
distributed gap
-
electrochemical machining gap
-
electrochemical gap
-
electrode gap
-
energy gap
-
expansion gap
-
expulsion gap
-
external gap
-
file gap
-
fit-up gap
-
flashing gap
-
forbidden gap
-
front gap
-
gaseous gap
-
gas-filled spark gap
-
glow gap
-
graded band gap
-
grinding gap
-
head gap
-
horn gap
-
information gap
-
input gap
-
insulating gap
-
interaction gap
-
interblock gap
-
interelectrode gap
-
interface gap
-
interrecord gap
-
ion spark gap
-
isolating gap
-
joint gap
-
keying gap
-
lightning gap
-
magnet gap
-
magnetic-head gap
-
main gap
-
measuring spark gap
-
metallization gap
-
needle-point spark gap
-
needle spark gap
-
oil filled spark gap
-
optical band gap
-
outer gap
-
output gap
-
overvoltage gap
-
point spark gap
-
pole gap
-
pressurized spark gap
-
protective spark gap
-
protector gap
-
proximity gap
-
quenched spark gap
-
quenched gap
-
rail joint gap
-
rear gap
-
record gap
-
rod gap
-
roll gap
-
root gap
-
rotary gap
-
safety gap
-
shrink-off gap
-
spark gap
-
specific gap
-
sphere gap
-
starter gap
-
stator-to-rotor gap
-
surge gap
-
switching spark gap
-
technical gap
-
terminal gap
-
tile-to-tile gap
-
time gap
-
trigger gap
-
triggered spark gap
-
untriggered spark gap
-
vacuum gap
-
vertical interval gap
-
wedge gap
-
word gap
-
working interelectrode gap

gap

зазор; промежуток; щель; просвет

gap between wheeles — межвенцовый зазор ( гидродинамической передачи)

- air gap of a magnetic circuit

- bed gap
- clearance gap
- contact gap
- damping gap
- de-stressing gap
- EDM gap
- electrode gap
- electroerosion gap
- expansion gap
- frontal spark gap
- interelectrode gap
- lateral spark gap
- loading gap
- machining gap
- power-adjustable gap
- predischarge gap
- seam gap
- spark gap
- technical gap
- working gap

gap

n

1) проміжок

2) зазор

3) проміжок, інтервал; "вікно" (напр. у розкладі)

4) відстань між крилами біплана

5) військ. прорив у обороні

6) рлк. мертва зона

•

- air gap

- cloud gap - communication gap - rotor-stator gap - spark-plug gap - technical gap

technical analysis

бирж. технический анализ (прогнозирование движения цен исключительно на основе анализа графиков изменения цен и объемов торговли для выявления и предугадывания повторяемости (чартизм); не имеет теоретической основы; большинство финансовых теорий утверждают, что технический анализ не может принести прибыли на эффективном рынке)

Syn:

technical analysis research

See:

random walk, chartism, fundamental analysis, accumulation/distribution line, bearish engulfing pattern, break above, break below, breakout, buy signal, sell signal, advance-decline index, Swing Index, Anaume, Average Directional Movement Index, Chaikin oscillator, closing tick, tick-by-tick

* * *
technical research technical analysis технический анализ рыночной конъюнктуры: система методов анализа и прогнозирования тенденций движения цен фьючерских товарных контрактов и финансовых инструментов, их разброса и устойчивости, объема операций и др. характеристик; важной частью технического анализа является анализ графиков изменения цен и объемов торговли на предмет повторяемости (чартизм); в отличие от фундаментального анализа технический анализ не рассматривает финансовое положение компаний-эмитентов ценных бумаг; см. advance-decline;

ascending tops;

breakout;

chartism 1;

correction;

descending tops;

dip;

double bottom;

double top;

flag;

fundamental analysis;

gap;

head and shoulders;

horizontal price movement;

moving average;

pennant;

point and figure chart;

resistance level;

reversal;

rising bottoms;

saucer;

selling climax;

support level;

triangle;

V-formation;

vertical line charting;

W-formation.

* * *

Технический анализ

. Анализ ценных бумаг, целью которого является выявление и объяснение тенденций движения цен на основе статистических данных . An approach to analysis of futures markets which examines patterns of price change, rates of change, and changes in volume of trading, open interest and other statistical indicators. See also Charting. Инвестиционная деятельность .

technical research

фин. = technical analysis

* * *
technical research technical analysis технический анализ рыночной конъюнктуры: система методов анализа и прогнозирования тенденций движения цен фьючерских товарных контрактов и финансовых инструментов, их разброса и устойчивости, объема операций и др. характеристик; важной частью технического анализа является анализ графиков изменения цен и объемов торговли на предмет повторяемости (чартизм); в отличие от фундаментального анализа технический анализ не рассматривает финансовое положение компаний-эмитентов ценных бумаг; см. advance-decline;

ascending tops;

breakout;

chartism 1;

correction;

descending tops;

dip;

double bottom;

double top;

flag;

fundamental analysis;

gap;

head and shoulders;

horizontal price movement;

moving average;

pennant;

point and figure chart;

resistance level;

reversal;

rising bottoms;

saucer;

selling climax;

support level;

triangle;

V-formation;

vertical line charting;

W-formation.

runaway gap

бирж. "убегающий" разрыв в ценах* (на графике технического анализа: разрыв в середине быстрого подъема или падения цены)

See:

breakaway gap, common area gap, exhaustion gap, technical analysis

* * *
"убегающий" разрыв в ценах на графике технического анализа (примерно в середине быстрого подъема или падения цены).

runaway gap

бирж. *"убегающий" разрыв в ценах* (на графике технического анализа (примерно в середине быстрого подъема или падения цены))

See:

breakaway gap, common area gap, exhaustion gap, technical analysis

нерешенная техническая проблема

technical gap

нерешенная техническая проблема

technical gap

Hertz, Heinrich Rudolph

SUBJECT AREA: Electricity, Electronics and information technology, Telecommunications

[br]

b. 22 February 1857 Hamburg, Germany

d. 1 January 1894 Bonn, Germany

[br]

German physicist who was reputedly the first person to transmit and receive radio waves.

[br]

At the age of 17 Hertz entered the Gelehrtenschule of the Johaneums in Hamburg, but he left the following year to obtain practical experience for a year with a firm of engineers in Frankfurt am Main. He then spent six months at the Dresden Technical High School, followed by year of military service in Berlin. At this point he decided to switch from engineering to physics, and after a year in Munich he studied physics under Helmholtz at the University of Berlin, gaining his PhD with high honours in 1880. From 1883 to 1885 he was a privat-dozent at Kiel, during which time he studied the electromagnetic theory of James Clerk Maxwell. In 1885 he succeeded to the Chair in Physics at Karlsruhe Technical High School. There, in 1887, he constructed a rudimentary transmitter consisting of two 30 cm (12 in.) rods with metal balls separated by a 7.5 mm (0.3 in.) gap at the inner ends and metallic plates at the outer ends, the whole assembly being mounted at the focus of a large parabolic metal mirror and the two rods being connected to an induction coil. At the other side of his laboratory he placed a 70 cm (27½ in.) diameter wire loop with a similar air gap at the focus of a second metal mirror. When the induction coil was made to create a spark across the transmitter air gap, he found that a spark also occurred at the "receiver". By a series of experiments he was not only able to show that the invisible waves travelled in straight lines and were reflected by the parabolic mirrors, but also that the vibrations could be refracted like visible light and had a similar wavelength. By this first transmission and reception of radio waves he thus confirmed the theoretical predictions made by Maxwell some twenty years earlier. It was probably in his experiments with this apparatus in 1887 that Hertz also observed that the voltage at which a spark was able to jump a gap was significantly reduced by the presence of ultraviolet light. This so-called photoelectric effect was subsequently placed on a theoretical basis by Albert Einstein in 1905. In 1889 he became Professor of Physics at the University of Bonn, where he continued to investigate the nature of electric discharges in gases at low pressure until his death after a long and painful illness. In recognition of his measurement of radio and other waves, the international unit of frequency of an oscillatory wave, the cycle per second, is now universally known as the Hertz.

[br]

Principal Honours and Distinctions

Royal Society Rumford Medal 1890.

Bibliography

Much of Hertz's work, including his 1890 paper "On the fundamental equations of electrodynamics for bodies at rest", is recorded in three collections of his papers which are available in English translations by D.E.Jones et al., namely Electric Waves (1893), Miscellaneous Papers (1896) and Principles of Mechanics (1899).

Further Reading

J.G.O'Hara and W.Pricha, 1987, Hertz and the Maxwellians, London: Peter Peregrinus. J.Hertz, 1977, Heinrich Hertz, Memoirs, Letters and Diaries, San Francisco: San Francisco Press.

R.Appleyard, 1930, Pioneers of Electrical Communication.

See also: Heaviside, Oliver

KF

structure

структура (1. строение; внутренняя организация 2. схема; система; конструкция 3. интегральная структура; интегральная схема 4. форма; вид) || образовывать структуру; структурировать; организовывать || структурный

- 1: N structure

- air-isolation monolithic structure
- antiasperomagnetic structure
- antiferromagnetic structure
- array structure
- asperomagnetic structure
- asymmetric-chevron bubble propagating structure
- backward-wave structure
- band structure
- base-centered structure
- beam-lead structure
- bias-pin resonator structure
- biperiodic structure
- BIST structure
- block structure
- branch control structure
- bubble array structure
- bubble-domain array structure
- bucket-brigade structure
- built-in self-test structure
- built-in self-testing structure
- buried-collector structure
- BW structure
- canted magnetic structure
- CCD structure
- cell structure
- charge-coupled-device structure
- charge-sloshing structure
- charge-transfer structure
- chevron layer structure
- cholesteric structure
- class structure
- close-packed structure
- cluster spin glass structure
- collinear structure
- comb structure
- commensurate magnetic structure
- complementary metal-oxide-semiconductor structure
- computing structure
- conceptual structure
- cone magnetic structure
- contiguous data structure
- continuous slow-wave structure
- control structure
- coordination structure
- coplanar-electrode structure
- crystal structure
- cubic structure
- current-induced magnetic-flux structure
- data structure
- decision structure
- deep structure
- dendrite structure
- diamagnetic structure
- dielectric-anisotropic electrooptic crystal sandwich structure
- dielectric-isolated structure
- directory structure
- disordered structure
- dissipative structure
- distributed data structure
- domain structure
- domain-wall structure
- double-drift structure
- dual-base structure
- electronic band structure
- endohedral structure
- energy-band structure
- epitaxial structure
- extended-interaction structure
- face-centered structure
- FAMOS structure
- fan magnetic structure
- feed-backward lattice structure
- feed-forward lattice structure
- ferrimagnetic spiral structure
- ferrimagnetic structure
- ferromagnetic spiral structure
- ferromagnetic structure
- file structure
- fine structure
- flat antiferromagnetic spiral structure
- floating-gate avalanche-injection MOS structure
- forward-wave structure
- fractal structure
- generic structure
- graded-base structure
- graphic data structure
- gross crystal structure
- guard-ring structure
- half-disk bubble propagating structure
- Hamiltonian structure
- helicoidal magnetic structure
- heterodesmic structure
- heterojunction structure
- hexagonal structure
- hill-and-valley structure
- homodesmic structure
- honeycomb domain structure
- honeycomb structure
- hybrid ferromagnet-semiconductor structure
- hyperfine structure
- I2-PLASA structure
- ideal spin glass structure
- IF-THEN-ELSE structure
- incommensurate magnetic structure
- integrated-circuit structure
- intellectual structure
- interdigital structure
- interdigitated structure
- internally striped planar structure
- intracell charge-transfer structure
- inverted structure
- ion-implanted planar mesa structure
- ion-implanted structure
- island structure
- isomorphic structures
- iteration control structure
- junction-isolated structure
- ladder-line slow-wave structure
- lag structure
- lateral complementary-transistor structure
- lattice structure
- leapfrog multi-feedback structure
- light-guiding structure
- line injecting structure
- linear structure
- local periodic structure
- logic control structure
- logic structure
- log-periodic structure
- long-periodic magnetic structure
- loop structure
- LP structure
- lyotropic structure
- major-minor loop memory structure
- MAS structure
- meander-line slow-wave structure
- merged structure
- mesa structure
- mesh structure
- metal-alumina-semiconductor structure
- metal-ferroelectric-semiconductor structure
- metal-insulator-metal structure
- metal-insulator-metal-insulator-metal structure
- metal-insulator-metal-insulator-semiconductor structure
- metal-insulator-oxide-semiconductor structure
- metal-insulator-semiconductor annular structure
- metal-insulator-semiconductor structure
- metal-insulator-semiconductor-insulator-semiconductor structure
- metal-nitride-oxide-semiconductor structure
- metal-nitride-semiconductor structure
- metal-oxide-metal structure
- metal-oxide-semiconductor structure
- metal-oxide-silicon structure
- metal-silicon nitride-silicon oxide-silicon structure
- metal-thick oxide-nitride-silicon structure
- metal-thick oxide-silicon structure
- MFS structure
- microwave structure
- mictomagnetic structure
- MIM structure
- MIMIM structure
- MIMIS structure
- MIOS structure
- MIS annular structure
- MIS structure
- MISIS structure
- MNOS structure
- MNS structure
- modular structure
- modulated magnetic structure
- modulated structure
- molecular structure
- monoclinic structure
- monolithic structure
- MOS structure
- MQW structure
- MSNSOS structure
- multidomain structure
- multiemitter structure
- multijunction structure
- multilevel structure
- multilevel-metallized structure
- multimode structure
- multiple-base structure
- multiple-junction structure
- multipole structure
- multiquantum-well structure
- n on p structure
- n on p substrate structure
- narrow-gap structure
- nematic structure
- nested structure
- n-i-p-i structure
- noncollinear structure
- non-contiguous data structure
- nonuniform-base structure
- n-p-n structure
- object structure
- one-element failure permissible structure
- optical-waveguide structure
- ordered structure
- organizational structure
- orthorhombic structure
- overlapping-gate structure
- overlay structure
- p on n structure
- p on n substrate structure
- paramagnetic structure
- percolation structure
- periodic domain structure
- periodic magnetic focusing structure
- periodic permanent-magnet structure
- perovskite structure
- phase slip structure
- photoconductor-elastomer structure
- planar structure
- plane-injection structure
- p-n structure
- p-n-i-p structure
- pnotojunction structure
- p-n-p structure
- polycrystalline structure
- position-dependent zone structure
- PPM structure
- program structure
- p-si-n structure
- punch-through structure
- radar absorbing structure
- Read structure
- rearrangeable multistage structure
- record structure
- redundant structure
- reflexive structure
- relational structure
- rhombohedral structure
- RM structure
- sandwich structure
- sectorial structure of crystal
- selection structure
- self-referent structure
- self-similar structure
- semiconductor-metal-semiconductor structure
- sequence structure
- sequential data structure
- signal structure
- silicon-on-insulated substrate structure
- silicon-on-insulator structure
- silicon-on-spinel structure
- simple cubic structure
- simple spiral magnetic structure
- slowing structure
- slow-wave propagation structure
- slow-wave structure
- smectic structure
- SMS structure
- social structure
- space-antenna support structure
- sperimagnetic structure
- speromagnetic structure
- spin structure
- spin-screw structure
- spiral magnetic structure
- spiral structure
- staggered-electrode structure
- standard buried-collector structure
- star structure
- stripe domain structure
- structure of management information
- sub-band structure
- supercritically doped structure
- superlattice structure
- surface structure
- symbol structure
- tape helix slow-wave structure
- technical structure
- tesselation structure
- test structure
- tetragonal structure
- T-I-bar structure
- transverse-tape slow-wave structure
- tree structure
- triclinic structure
- trigonal structure
- twin structure
- two-element failure permissible structure
- two-sleeve spiral magnetic structure
- umbrella magnetic structure
- undercut mesa structure
- uniform-base structure
- unipolar structure
- vertical p-n-p structure
- V-groove metal-oxide-semiconductor structure
- volume-centered structure
- vortex structure
- wide-gap structure
- Y-bar structure
- Y-I-bar structure
- zig-zag line slow-wave structure

control

1) управление; регулирование || управлять; регулировать

2) контроль || контролировать

3) управляющее устройство; устройство управления; регулятор

4) профессиональное мастерство, квалификация, техническая квалификация

5) pl органы управления

•

control by measurement — измерительный контроль

"in control" — "в поле допуска" ( о результатах измерения)

to control closed loop — управлять в замкнутой системе; регулировать в замкнутой системе

to control open loop — управлять в разомкнутой системе; регулировать в разомкнутой системе

to program at the control — готовить УП у станка

- 2 1/2 D control

- 2-handed controls
- 32-bit CPU control
- acceptance control
- access control
- acknowledge control
- active process control
- adaptable control
- adaptive constraint control
- adaptive control for optimization
- adaptive control
- adaptive feed rate control
- adaptive quality control
- adjustable feed control
- adjustable rotary control
- adjustable speed control
- adjusting control
- adjustment control
- AI control
- air logic control
- analog data distribution and control
- analogical control
- analytical control
- application control
- arrows-on-curves control
- autodepth control
- autofeed control
- automated control of a document management system
- automated technical control
- automatic backlash control
- automatic control
- automatic editing control
- automatic gain control
- automatic gripper control
- automatic level control
- automatic process closed loop control
- automatic remote control
- automatic sensitivity control
- automatic sequence control
- automatic speed control
- automatic stability controls
- auxiliaries control
- balanced controls
- band width control
- bang-bang control
- bang-bang-off control
- basic CNC control
- batch control
- bibliographic control
- bin level control
- boost control
- built-in control
- button control
- cam control
- cam throttle control
- camshaft control
- carriage control
- Cartesian path control
- Cartesian space control
- cascade control
- C-axis spindle control
- cell control
- center control
- central control
- central supervisory control
- centralized control
- centralized electronic control
- central-station control
- changeover control
- chip control
- circumferential register control
- close control
- closed cycle control
- closed loop control
- closed loop machine control
- closed loop manual control
- closed loop numerical control
- closed loop position control
- clutch control
- CNC control
- CNC indexer control
- CNC programmable control
- CNC symbolic conversational control
- CNC/CRT control
- CNC/MDI control
- coarse control
- coded current control
- coded current remote control
- color control
- combination control
- command-line control
- compensatory control
- composition control
- compound control
- computed-current control
- computed-torque control
- computer control
- computer numerical control
- computer process control
- computer-aided measurement and control
- computer-integrated manufacturing control
- computerized control
- computerized numerical control
- computerized process control
- constant surface speed control
- constant value control
- contactless control
- contact-sensing control
- contamination control
- continuous control
- continuous path control
- continuous process control
- contour profile control
- contouring control
- conventional hardware control
- conventional numerical control
- conventional tape control
- convergent control
- conversational control
- conversational MDI control
- coordinate positioning control
- coordinate programmable control
- copymill control
- counter control
- crossed controls
- current control
- cycle control
- dash control
- data link control
- data storage control
- deadman's handle controls
- depth control
- derivative control
- dial-in control
- differential control
- differential gaging control
- differential gain control
- differential temperature control
- digital brushless servo control
- digital control
- digital position control
- digital readout controls
- dimensional control
- direct computer control
- direct control
- direct digital control
- direct numerical control
- direction control
- directional control
- dirt control
- discontinuous control
- discrete control
- discrete event control
- discrete logic controls
- dispatching control
- displacement control
- distance control
- distant control
- distributed control
- distributed numerical control
- distributed zone control
- distribution control
- dog control
- drum control
- dual control
- dual-mode control
- duplex control
- dust control
- dynamic control
- eccentric control
- edge position control
- EDP control
- electrical control
- electrofluidic control
- electromagnetic control
- electronic control
- electronic level control
- electronic speed control
- electronic swivel control
- elevating control
- emergency control
- end-point control
- engineering change control
- engineering control
- entity control
- environmental control
- error control
- error plus error-rate control
- error-free control
- external beam control
- factory-floor control
- false control
- feed control
- feed drive controls
- feedback control
- feed-forward control
- field control
- fine control
- finger-tip control
- firm-wired numerical control
- fixed control
- fixed-feature control
- fixture-and-tool control
- flexible-body control
- floating control
- flow control
- fluid flow control
- follow-up control
- foot pedal control
- force adaptive control
- forecasting compensatory control
- fork control
- four quadrant control
- freely programmable CNC control
- frequency control
- FROG control
- full computer control
- full order control
- full spindle control
- gage measurement control
- gain control
- ganged control
- gap control
- gear control
- generative numerical control
- generic path control
- geometric adaptive control
- graphic numerical control
- group control
- grouped control
- guidance control
- hairbreath control
- hand control
- hand feed control
- hand wheel control
- hand-held controls
- handle-type control
- hand-operated controls
- hardened computer control
- hardwared control
- hardwared numerical control
- heating control
- heterarchical control
- hierarchical control
- high-integrity control
- high-level robot control
- high-low control
- high-low level control
- high-technology control
- horizontal directional control
- humidity control
- hybrid control
- hydraulic control
- I/O control
- immediate postprocess control
- inching control
- in-cycle control
- independent control
- indexer control
- indirect control
- individual control
- industrial processing control
- industrial-style controls
- infinite control
- infinite speed control
- in-process control
- in-process size control
- in-process size diameters control
- input/output control
- integral CNC control
- integral control
- integrated control
- intelligent control
- interacting control
- interconnected controls
- interlinking control
- inventory control
- job control
- jogging control
- joint control
- joystick control
- just-in-time control
- language-based control
- laser health hazards control
- latching control
- lead control
- learning control
- lever control
- lever-operated control
- line motion control
- linear control
- linear path control
- linearity control
- load control
- load-frequency control
- local control
- local-area control
- logic control
- lubricating oil level control
- machine control
- machine programming control
- machine shop control
- macro control
- magnetic control
- magnetic tape control
- main computer control
- malfunction control
- management control
- manual control
- manual data input control
- manual stop control
- manually actuatable controls
- manufacturing change control
- manufacturing control
- master control
- material flow control
- MDI control
- measured response control
- mechanical control
- memory NC control
- memory-type control
- metering control
- metrological control of production field
- microbased control
- microcomputer CNC control
- microcomputer numerical control
- microcomputer-based sequence control
- microprocessor control
- microprocessor numerical control
- microprogrammed control
- microprogramming control
- milling control
- model reference adaptive control
- model-based control
- moisture control
- motion control
- motor control
- motor speed control
- mouse-driven control
- movable control
- multicircuit control
- multidiameter control
- multilevel control
- multimachine tool control
- multiple control
- multiple-processor control
- multiposition control
- multistep control
- multivariable control
- narrow-band proportional control
- navigation control
- NC control
- neural network adaptive control
- noise control
- noncorresponding control
- noninteracting control
- noninterfacing control
- nonreversable control
- nonsimultaneous control
- numerical contouring control
- numerical control
- numerical program control
- odd control
- off-line control
- oligarchical control
- on-board control
- one-axis point-to-point control
- one-dimensional point-to-point control
- on-line control
- on-off control
- open loop control
- open loop manual control
- open loop numerical control
- open-architecture control
- operating control
- operational control
- operator control
- optical pattern tracing control
- optimal control
- optimalizing control
- optimizing control
- oral numerical control
- organoleptic control
- overall control
- overheat control
- override control
- p. b. control
- palm control
- parameter adaptive control
- parameter adjustment control
- partial d.o.f. control
- path control
- pattern control
- pattern tracing control
- PC control
- PC-based control
- peg board control
- pendant control
- pendant-actuated control
- pendant-mounted control
- performance control
- photoelectric control
- physical alignment control
- PIC control
- PID control
- plugboard control
- plug-in control
- pneumatic control
- point-to-point control
- pose-to-pose control
- position/contouring numerical control
- position/force control
- positional control
- positioning control
- positive control
- postprocess quality control
- power adaptive control
- power control
- power feed control
- power-assisted control
- powered control
- power-operated control
- precision control
- predictor control
- preselective control
- preset control
- presetting control
- pressbutton control
- pressure control
- preview control
- process control
- process quality control
- production activity control
- production control
- production result control
- programmable adaptive control
- programmable cam control
- programmable control
- programmable logic adaptive control
- programmable logic control
- programmable machine control
- programmable microprocessor control
- programmable numerical control
- programmable sequence control
- proportional plus derivative control
- proportional plus floating control
- proportional plus integral control
- prototype control
- pulse control
- pulse duration control
- punched-tape control
- purpose-built control
- pushbutton control
- quality control
- radio remote control
- radium control
- rail-elevating control
- ram stroke control
- ram-positioning control
- rapid-traverse controls for the heads
- rate control
- ratio control
- reactive control
- real-time control
- reduced-order control
- register control
- registration control
- relay control
- relay-contactor control
- remote control
- remote program control
- remote switching control
- remote valve control
- remote-dispatch control
- resistance control
- resolved motion rate control
- retarded control
- reversal control
- revolution control
- rigid-body control
- robot control
- robot perimeter control
- robot teach control
- rod control
- safety control
- sampled-data control
- sampling control
- schedule control
- SCR's control
- second derivative control
- selective control
- selectivity control
- self-acting control
- self-adaptive control
- self-adjusting control
- self-aligning control
- self-operated control
- self-optimizing control
- self-programming microprocessor control
- semi-automatic control
- sensitivity control
- sensor-based control
- sequence control
- sequence-type control
- sequential control
- series-parallel control
- servo control
- servo speed control
- servomotor control
- servo-operated control
- set value control
- shaft speed control
- shape control
- shift control
- shop control
- shower and high-pressure oil temperature control
- shut off control
- sight control
- sign control
- single variable control
- single-flank control
- single-lever control
- size control
- slide control
- smooth control
- software-based NC control
- softwared numerical control
- solid-state logic control
- space-follow-up control
- speed control
- stabilizing control
- stable control
- standalone control
- start controls
- static control
- station control
- statistical quality control
- steering control
- step-by-step control
- stepless control
- stepped control
- stick control
- stock control
- stop controls
- stop-point control
- storage assignment control
- straight cut control
- straight line control
- stroke control
- stroke length control
- supervisor production control
- supervisory control
- swarf control
- switch control
- symbolic control
- synchronous data link control
- table control
- tap-depth controls
- tape control
- tape loop control
- teach controls
- temperature control
- temperature-humidity air control
- template control
- tension control
- test control
- thermal control
- thermostatic control
- three-axis contouring control
- three-axis point-to-point control
- three-axis tape control
- three-mode control
- three-position control
- throttle control
- thumbwheel control
- time control
- time cycle control
- time optimal control
- time variable control
- time-critical control
- time-proportional control
- timing control
- token-passing access control
- tool life control
- tool run-time control
- torque control
- total quality control
- touch-panel NC control
- touch-screen control
- tracer control
- tracer numerical control
- trajectory control
- triac control
- trip-dog control
- TRS/rate control
- tuning control
- turnstile control
- two-axis contouring control
- two-axis point-to-point control
- two-dimension control
- two-hand controls
- two-position control
- two-position differential gap control
- two-step control
- undamped control
- user-adjustable override controls
- user-programmable NC control
- variable flow control
- variable speed control
- variety control
- varying voltage control
- velocity-based look-ahead control
- vise control
- vision responsive control
- visual control
- vocabulary control
- vocal CNC control
- vocal numerical control
- voltage control
- warehouse control
- washdown control
- water-supply control
- welding control
- wheel control
- wide-band control
- zero set control
- zoned track control

Economy

   Portugal's economy, under the influence of the European Economic Community (EEC), and later with the assistance of the European Union (EU), grew rapidly in 1985-86; through 1992, the average annual growth was 4-5 percent. While such growth rates did not last into the late 1990s, portions of Portugal's society achieved unprecedented prosperity, although poverty remained entrenched. It is important, however, to place this current growth, which includes some not altogether desirable developments, in historical perspective. On at least three occasions in this century, Portugal's economy has experienced severe dislocation and instability: during the turbulent First Republic (1911-25); during the Estado Novo, when the world Depression came into play (1930-39); and during the aftermath of the Revolution of 25 April, 1974. At other periods, and even during the Estado Novo, there were eras of relatively steady growth and development, despite the fact that Portugal's weak economy lagged behind industrialized Western Europe's economies, perhaps more than Prime Minister Antônio de Oliveira Salazar wished to admit to the public or to foreigners.

   For a number of reasons, Portugal's backward economy underwent considerable growth and development following the beginning of the colonial wars in Africa in early 1961. Recent research findings suggest that, contrary to the "stagnation thesis" that states that the Estado Novo economy during the last 14 years of its existence experienced little or no growth, there were important changes, policy shifts, structural evolution, and impressive growth rates. In fact, the average annual gross domestic product (GDP) growth rate (1961-74) was about 7 percent. The war in Africa was one significant factor in the post-1961 economic changes. The new costs of finance and spending on the military and police actions in the African and Asian empires in 1961 and thereafter forced changes in economic policy.

   Starting in 1963-64, the relatively closed economy was opened up to foreign investment, and Lisbon began to use deficit financing and more borrowing at home and abroad. Increased foreign investment, residence, and technical and military assistance also had effects on economic growth and development. Salazar's government moved toward greater trade and integration with various international bodies by signing agreements with the European Free Trade Association and several international finance groups. New multinational corporations began to operate in the country, along with foreign-based banks. Meanwhile, foreign tourism increased massively from the early 1960s on, and the tourism industry experienced unprecedented expansion. By 1973-74, Portugal received more than 8 million tourists annually for the first time.

   Under Prime Minister Marcello Caetano, other important economic changes occurred. High annual economic growth rates continued until the world energy crisis inflation and a recession hit Portugal in 1973. Caetano's system, through new development plans, modernized aspects of the agricultural, industrial, and service sectors and linked reform in education with plans for social change. It also introduced cadres of forward-looking technocrats at various levels. The general motto of Caetano's version of the Estado Novo was "Evolution with Continuity," but he was unable to solve the key problems, which were more political and social than economic. As the boom period went "bust" in 1973-74, and growth slowed greatly, it became clear that Caetano and his governing circle had no way out of the African wars and could find no easy compromise solution to the need to democratize Portugal's restive society. The economic background of the Revolution of 25 April 1974 was a severe energy shortage caused by the world energy crisis and Arab oil boycott, as well as high general inflation, increasing debts from the African wars, and a weakening currency. While the regime prescribed greater Portuguese investment in Africa, in fact Portuguese businesses were increasingly investing outside of the escudo area in Western Europe and the United States.

   During the two years of political and social turmoil following the Revolution of 25 April 1974, the economy weakened. Production, income, reserves, and annual growth fell drastically during 1974-76. Amidst labor-management conflict, there was a burst of strikes, and income and productivity plummeted. Ironically, one factor that cushioned the economic impact of the revolution was the significant gold reserve supply that the Estado Novo had accumulated, principally during Salazar's years. Another factor was emigration from Portugal and the former colonies in Africa, which to a degree reduced pressures for employment. The sudden infusion of more than 600,000 refugees from Africa did increase the unemployment rate, which in 1975 was 10-15 percent. But, by 1990, the unemployment rate was down to about 5-6 percent.

   After 1985, Portugal's economy experienced high growth rates again, which averaged 4-5 percent through 1992. Substantial economic assistance from the EEC and individual countries such as the United States, as well as the political stability and administrative continuity that derived from majority Social Democratic Party (PSD) governments starting in mid-1987, supported new growth and development in the EEC's second poorest country. With rapid infrastruc-tural change and some unregulated development, Portugal's leaders harbored a justifiable concern that a fragile environment and ecology were under new, unacceptable pressures. Among other improvements in the standard of living since 1974 was an increase in per capita income. By 1991, the average minimum monthly wage was about 40,000 escudos, and per capita income was about $5,000 per annum. By the end of the 20th century, despite continuing poverty at several levels in Portugal, Portugal's economy had made significant progress. In the space of 15 years, Portugal had halved the large gap in living standards between itself and the remainder of the EU. For example, when Portugal joined the EU in 1986, its GDP, in terms of purchasing power-parity, was only 53 percent of the EU average. By 2000, Portugal's GDP had reached 75 percent of the EU average, a considerable achievement. Whether Portugal could narrow this gap even further in a reasonable amount of time remained a sensitive question in Lisbon. Besides structural poverty and the fact that, in 2006, the EU largesse in structural funds (loans and grants) virtually ceased, a major challenge for Portugal's economy will be to reduce the size of the public sector (about 50 percent of GDP is in the central government) to increase productivity, attract outside investment, and diversify the economy. For Portugal's economic planners, the 21st century promises to be challenging.

    See also Empire, Portuguese overseas.

TRG

1) Американизм: The Restaurant Government

2) Спорт: Team Rocket Garrison, That Rollercoaster Game

3) Военный термин: tactical reconnaissance group, technical reconnaissance group, truck, goods

4) Шутливое выражение: Those Renaissance Guys

5) Сокращение: trailing, Tip and Ring Ground (test)

6) Вычислительная техника: Tip and Ring Ground (test, Telephony)

7) Фирменный знак: Translation Research Group, Technology Research Group (Company)

8) Правительство: Tye River Gap

9) НАСА: Technical Requirements Group