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41 hard
[hɑːd] 1. adjobject, surface, drugs twardy; question, problem trudny; work, life ciężki; person surowy; evidence niepodważalny, niezbity; drink mocny2. advI find it hard to believe that … — trudno mi uwierzyć, że …
* * *1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) twardy2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) trudny3) (not feeling or showing kindness: a hard master.) surowy4) ((of weather) severe: a hard winter.) srogi5) (having or causing suffering: a hard life; hard times.) ciężki6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) twarda (o wodzie)2. adverb1) (with great effort: He works very hard; Think hard.) ciężko2) (with great force; heavily: Don't hit him too hard; It was raining hard.) mocno3) (with great attention: He stared hard at the man.) uważnie4) (to the full extent; completely: The car turned hard right.) zupełnie, całkiem•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up -
42 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) ciets2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) Viņam grūti izpatikt.3) (not feeling or showing kindness: a hard master.) bargs; stingrs4) ((of weather) severe: a hard winter.) (par laika apstākļiem) bargs5) (having or causing suffering: a hard life; hard times.) grūts; smags6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) (par ūdeni) ciets2. adverb1) (with great effort: He works very hard; Think hard.) grūti; smagi; cītīgi2) (with great force; heavily: Don't hit him too hard; It was raining hard.) stipri; spēcīgi3) (with great attention: He stared hard at the man.) cieši4) (to the full extent; completely: The car turned hard right.) tuvu klāt•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up* * *ciets; grūts, smags; stiprs, spēcīgs; bargs, stingrs; strādīgs, centīgs; bargs; griezīgs, ass; noteikts, stingrs; alkoholisks, stiprs; ieradumu radošs; nebalsīgs; spēcīgi, stipri; centīgi, cītīgi, enerģiski; grūti, smagi; cieši, stingri; pārlieku, pārmērīgi; tuvu -
43 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) kietas2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) sunkus3) (not feeling or showing kindness: a hard master.) griežtas, kietas4) ((of weather) severe: a hard winter.) atšiaurus5) (having or causing suffering: a hard life; hard times.) sunkus6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) kietas2. adverb1) (with great effort: He works very hard; Think hard.) sunkiai, smarkiai, daug2) (with great force; heavily: Don't hit him too hard; It was raining hard.) smarkiai3) (with great attention: He stared hard at the man.) įdėmiai4) (to the full extent; completely: The car turned hard right.) tiesiai•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up -
44 hard
adj. svår, hård--------adv. ansträngande; nära tätt intill* * *1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) hård2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) svår3) (not feeling or showing kindness: a hard master.) hård[], sträng4) ((of weather) severe: a hard winter.) hård, sträng, svår5) (having or causing suffering: a hard life; hard times.) hård6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) hårt []2. adverb1) (with great effort: He works very hard; Think hard.) hårt, ordentligt2) (with great force; heavily: Don't hit him too hard; It was raining hard.) hårt, häftigt3) (with great attention: He stared hard at the man.) hårt, stint4) (to the full extent; completely: The car turned hard right.) hårt, häftigt, våldsamt•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up -
45 operation
1) операция, технологическая операция; переход, технологический переход2) работа; действие3) эксплуатация6) управление ( оборудованием)•in operation — в работе; в действии
in one operation — за одну операцию; с одного установа ( на станок)
- acceptable operationto come into operation — вступать в работу; входить в действие
- accidental operation
- adaptive operation
- AMT operations
- assembly operation
- at-a-glance operation
- attendant operation
- auto lathe operation
- automatic cycle operation
- back-face operation
- batch operation
- benching operations
- bidirectional random select operation
- bidirectional skip operation
- blanking operation
- Boolean operation
- bore operation
- bulk metal removal operation
- carbide operation
- cavity dumped operation
- CCS operation
- cell-style operation
- checking operation
- chipmaking operation
- chucking operation
- clearing operation
- CNC operation
- CNC-mode operation
- coded operation
- computer operation
- concurrent operation
- conditional branch operation
- constrained current operation
- continuous machining operation
- continuous operation
- continuous wave laser operation
- continuous wave operation
- control operation
- counting operation
- creep feed operation
- critical tolerance operation
- cross-slide operation
- cross-working operation
- cubing operation
- cutting operation
- cyclic operation
- degraded-mode operation
- die operations
- directional operation
- DNC operation
- do-nothing operation
- downstream operation
- dressing operation
- drill operation
- drilling operation
- drop operation
- dual operation
- dual-system operation
- dummy operation
- EDM operation
- emergency operation
- end milling operation
- end operations
- English/metric operations
- erroneous operation
- error-corrective operation
- extended operations
- extended untended operation
- facing operation
- failsafe operation
- fail-soft operation
- fault-free operation
- finish operation
- finish-turning operation
- five-axis operation
- fixed cycle operation
- flexible operation
- floor-to-floor operation
- follower operation
- form milling contour operation
- forming operation
- four quadrant operation
- free current operation
- gang milling operation
- giant-pulse operation
- GO TO operation
- grinding operation
- grouped operation
- hand operation
- handling operation
- hands-on operation
- hardware operation
- high-feed operation
- highly repetitive operations
- high-speed operation
- high-temperature operation
- high-torque operation
- high-volume drilling operations
- high-volume operations
- high-volume turning operations
- hole-finishing operation
- hole-making operations
- hot operations
- icon-based operation
- ID operation
- inadvertent operation
- independent operation
- index head operation
- integral robotic and manual operations
- interactive operation
- intermittent operation
- interrelated operations
- irreversible operation
- lathe-facing operation
- lean operation
- lights-out operations
- logical operation
- long production operations
- low-maintenance operation
- low-torque operation
- machining operation
- macro operation
- manned operation
- manual joystick operation
- manual operation
- manufacturing operation
- mass-production operations
- matrix operation
- mechanical operation
- memory operation
- mill operation
- milling operation
- minimally-manned operation
- minimally-tended operation
- missing operation
- mixed metal forming-and-machining operations
- mixed operation
- mode-locking operation
- multifixtured operation
- multihead operation
- multimachine operation
- multimachining operation
- multimode operation
- multiple-pass operation
- multiturning operations
- multiwheel operation
- NC operation
- no-failure operation
- no-load operation
- non personal operation
- non technical personal operation
- noninterruptible operation
- nonloaded operation
- nonproductive operation
- nonturning operation
- normal operation
- OD operation
- off-line prequalifying operation
- off-wire operation
- often-used keyboard operation
- one-button hit operation
- one-step operation
- one-touch manual operation
- on-line operation
- on-load operation
- on-off operation
- open-air operation
- open-circuit operation
- overlapping operations
- parting off operation
- pedal operation
- peripheral operation
- pick-and-place operation
- pilot operation
- plant-floor operations
- point-to-point operation
- postdrill operation
- post-forming operation
- post-machining operations
- power operation
- predrill operation
- premachining operation
- press operation
- privileged operation
- profiling operation
- pulse laser operation
- pulsed operation
- punched tape operation
- Q-switched operation
- qualifying operation
- quiet operation
- read operation
- remanufacturing operations
- remote operation
- repetitive operation
- reworking operation
- roughing operation
- round-the-clock operation
- safe operation
- search operation
- searching operation
- secondary operations
- self-contained operation
- self-correcting operation
- semifinish operation
- sequence-linked operations
- sequential operation
- serial operation
- setting operation
- short-circuit operation
- shuttle operation over several workpieces
- shuttle operation
- single setup operation
- single-block operation
- single-frequency laser operation
- single-handed operation
- single-mode operation
- single-part operations
- single-pass operation
- single-point operation
- slitting operation
- smooth operation
- software operation
- stall/restart operation
- standalone operation
- steady operation
- stopping operation
- straight turning operation
- switch operation
- switchable inch-metric operation
- switching operation
- take operation
- tapeless operation
- teach pendant operation
- tended operation
- three-axis operation
- time-sharing operation
- tooling operation
- toolroom operations
- torquing operation
- transfer operation
- trouble-free operation
- turning operation
- turnkey operations
- turn-round operation
- two-axis operation
- two-frequency laser operation
- two-handed operation
- two-shift operation
- two-sided operation
- two-step operation
- unattended operation
- unconditional branch operation
- universal operation
- unmanned operation
- untended operation
- upstream operation
- vertical shaping operation
- wet operation
- write operation
- zeroing operation
- zero-point return operationEnglish-Russian dictionary of mechanical engineering and automation > operation
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46 unit
1) сборочная единица; узел; блок2) установка; агрегат3) единица, единица измерения || единичный; удельный4) часть; секция || секционный•as a unit — 1) в сборе 2) как единая сборочная единица; как единый узел
unit under test — 1) объект контроля 2) объект диагностирования, объект технического диагностирования
- AC unit- actuating unit
- adapter plate unit
- adaptive control unit
- address and data interface unit
- address unit
- adjusting unit
- air-aspirating unit
- answer-back unit
- arithmetic unit
- arithmetic/logic unit
- arithmetical unit
- ASC unit
- assembly unit of N-order
- assembly unit
- audio response unit
- autoloading unit
- automatic calling unit
- auxiliary data translator unit
- availability control unit
- axis unit
- axis-processing unit
- balancer unit
- banking unit
- bar feed unit
- base assembly unit
- base unit
- basic information unit
- basic length unit
- basic logic unit
- batch control unit
- bearing unit
- behind-the-tape reader unit
- belt shuttle unit
- belt-driven shuttle unit
- bench-testing unit
- blemished unit
- bolt-on unit
- booster unit
- boring spindle unit
- boring unit
- boring-and-milling unit
- brake unit
- broach retriever unit
- broach-handling unit
- broken tool sensing unit
- buffer unit
- building-block machining unit
- bulk transfer unit
- business unit
- card punching unit
- carousel loading unit
- carousel unit
- carrier unit
- cartridge unit
- cellular unit
- center unit for machine frame
- central processing unit
- central processor unit
- chain storage unit
- changer unit
- changing unit
- check unit
- chiller unit
- chip disposal unit
- clamping unit
- claw unit
- CNC machining unit
- CNC standard unit
- CNC unit
- coating application unit
- coating removal unit
- coherent unit
- column unit
- combination valve unit
- command unit
- communications central processing unit
- complementary unit
- computerized numerical control unit
- condensing unit
- cone variable-speed friction drive unit
- console unit
- constant coefficient unit
- constant delay unit
- construction unit
- control unit
- controlling unit
- conveying unit
- conveyor unit
- coolant management unit
- coolant recovery unit
- coolant unit
- cooler unit
- cooling unit
- coordinate preprogramming unit
- copying unit
- correction unit
- cover unit
- CPC handling unit
- cross tapping unit
- cross-slide unit
- cutoff unit
- cutting unit
- D unit
- damping unit
- data preparation unit
- data transmission control unit
- deep hole boring unit
- delay unit
- derived unit
- detecting unit
- detection unit
- developing unit
- digital display unit
- digital readout unit
- digital unit
- dimension readout unit
- diode array unit
- disk-type variable-speed friction drive unit
- displacement unit
- display unit
- distance-keeping unit
- double-acting unit
- double-notching unit
- double-pump and combination unit
- double-pump unit
- double-reduction gear unit
- double-reduction right-angle reduction gear unit
- double-reduction twin gear unit
- double-reduction twin unit
- double-reduction wormgear unit
- double-spindle unit
- down-hole internal deburrer unit
- dresser unit
- dressing unit
- drill unit
- drilling and milling unit
- drilling spindle unit
- drilling unit
- drilling/tapping unit
- drive unit
- drive/feed unit
- DRO unit
- dual work pallet shuttle unit
- dual-head laser beam unit
- dust-collecting unit
- dust-removing unit
- dynamic unit
- EDM unit
- electrical machining units
- electromagnetic unit
- electron-beam unit
- entry level dedicated unit
- environmental compensation unit
- exchanger unit
- fabricated unit
- facing unit
- fan coil unit
- feed box unit
- feed change unit
- feed drive cartridge unit
- feed unit
- feedback unit
- feed-in boring unit
- feed-out boring unit
- fetch-and-carry unit
- filtration unit
- fine boring unit
- flexible spindle units
- flexible tray unit
- floor unit
- focusing unit
- free-standing unit
- free-wheel unit
- free-wheeling unit
- frontal variable-speed friction drive unit
- functional unit
- fundamental unit
- gage control unit
- gage indicating unit
- gage unit
- gaging unit
- gas turbine starter auxiliary power unit
- gear unit
- gearbox unit
- gear-reversing unit
- grasping unit
- grinding spindle unit
- gripper unit
- guide unit
- handling unit
- hardware/software add-on unit
- harmonic drive unit
- head unit
- headstock-type workpiece holding unit
- hoisting unit
- horizontal power unit
- horizontal way unit
- hydraulic clamping unit
- hydraulic feed unit
- hydraulic power unit
- hydraulic testing unit
- hydraulic unit
- hydrostatic bearing unit
- ICAM manufacturing unit
- ICAM unit
- icon-driven control unit
- indexer/fourth axis unit
- indexing head unit
- indexing platen unit
- indexing table unit
- indexing unit
- in-die tapping unit
- information retrieval unit
- information unit
- input batch control unit
- input unit
- input-output unit
- in-system unit
- integral unit
- interface unit
- intermediate storage unit
- interpolating unit
- inverting unit
- keyboard unit
- knee-type unit
- lapping and superfinishing unit
- laser beam composition unit
- laser beam unit
- laser processing unit
- laser unit
- laser-calibration unit
- laser-source unit
- lead screw tap unit
- lexical unit
- lift unit
- lift-and-carry unit
- light unit
- linear ball bearing unit
- linear drive unit
- linear screw unit
- linear slide roller bearing unit
- linear unit
- live storage unit
- load/unload unit
- loading unit
- loading-and-unloading unit
- logic unit
- logical unit
- lubricating pump unit
- machine control unit
- machine tool control unit
- machine tooling unit
- machine unit
- machine-dedicated unit
- machining center unit
- machining head unit
- machining unit
- magnetic pickup unit
- magnetic tape unit
- manned flexible unit
- marking unit
- master unit
- material-handling unit
- MDI unit
- measurement unit
- measuring unit
- memory unit
- message display unit
- microdispensing unit
- microprocessor correction unit
- microprocessor NC unit
- microprocessor unit
- microprocessor-based unit
- microprocessor-type NC unit
- middle-level 3-D representation unit
- milling spindle unit
- minicomputer control unit
- miniload AS/RS unit
- mist coolant unit
- miter saw unit
- mobile unit
- mobile work storage unit
- modular cell unit
- modular loading unit
- modular unit
- motor unit
- motor-reduction unit
- multichannel analyzer unit
- multidrill unit
- multiple screw-driving unit
- multiple-power path gear unit
- multiple-reduction gear unit
- multiple-reduction unit
- multiple-spindle torque unit
- multipurpose machining unit
- multispindle boring unit
- multitap unit
- NC data creation unit
- NC unit
- nested gear unit
- notching unit
- nutating unit
- off-machine unit
- off-system unit
- oil coalescer unit
- oil-filled feed unit
- one stage gear unit
- one stage unit
- on-machine unit
- operation unit
- operational unit
- operator-friendly program unit
- orientation transfer unit
- output batch control unit
- output unit
- overhead gantry unit
- overhead spindle unit
- pack unit
- pallet change unit
- pallet exchange unit
- pallet shuttle unit
- pallet-pool unit
- parallel-shaft reduction gear unit
- PC expansion board unit
- PC-based CAD unit
- pendant control unit
- pendant pushbutton control unit
- pendant unit
- peripheral control unit
- peripheral processing unit
- photo-eye tracing unit
- pick-and-place unit
- pickup unit
- piece-holding unit
- pilot unit
- placement unit
- planetary gear unit
- planetary reduction gearing unit
- plant unit
- plasma-arc unit
- plasmarc unit
- platen unit
- PLC unit
- plugboard input unit
- plugboard unit
- plug-in unit
- pneumatic unit
- portable unit
- power feed unit
- power supply unit
- power train unit
- power unit
- power-generating unit
- power-tooling unit
- practical correction unit
- practical unit
- presetting unit
- pressurized air bearing unit
- primary storage unit
- probe unit
- processing unit
- production unit
- program unit
- programming unit
- propulsion unit
- pulling unit
- pump unit
- pumping unit
- pump-motor unit
- quill feed cam unit
- quill spindle unit
- quill unit
- raster unit
- readout unit
- reducing unit
- reduction gear unit
- reduction gearing unit
- reduction unit
- reed make contact unit
- regulating unit
- remote display unit
- replacement unit
- retriever unit
- right-angle milling unit
- right-angled milling unit
- robot power unit
- robot unit
- robot-transfer unit
- roller bearing unit
- roller unit
- roller-marking unit
- rotary unit
- rotating seal unit
- S unit
- scanning unit
- scheduling unit
- screen projection unit
- screwing unit
- sealed reed contact unit
- self-contained NC unit
- self-contained unit
- sensing unit
- sensor unit
- servo unit
- shankless boring unit
- sheet metal stamping automatic unit
- shop replaceable unit
- shuttle unit
- shuttle-and-lift unit
- side unit
- single-acting unit
- single-light unit
- single-reduction gear unit
- single-reduction unit
- sizing unit
- slant bed unit
- slave unit
- slide unit
- sliding table unit
- smallest replaceable unit
- spare unit
- speeder unit
- speed-increase unit
- speed-up spindle unit
- speed-up unit
- spindle box unit
- spindle cartridge unit
- spindle drive unit
- spindle unit
- stabilizing unit
- stand-alone unit
- standard build units
- starter auxiliary power unit
- static tooling unit
- steam generating unit
- stock feed unit
- storage unit
- stylus unit
- sub-multiple unit
- swing arm-mounted control unit
- tangent unit
- tapping unit
- teach control unit
- terminal control unit
- test unit
- testing unit
- thermal detecting unit
- tilting unit
- tolerance unit
- tool storage unit
- tool-presetting unit
- tool-spindle unit
- toroidal variable-speed friction drive unit
- track and store unit
- transfer unit
- transmission control unit
- transmission unit
- transmitter/receiver unit
- transport unit
- triple-reduction gear unit
- triple-reduction unit
- tuning unit
- turnaround unit
- turning spindle unit
- turnround unit
- turret unit
- twin gear unit
- twin saw unit
- twin-drive unit
- twin-screen unit
- unit of displacement
- unit of measure
- unit of measurement
- unit of physical quantity
- unit of product
- unit of work per unit of time
- unmanned machining unit
- vacuum unit
- variable coefficient unit
- variable delay unit
- variable preload bearing unit
- variable ratio unit
- variable speed unit
- variable-speed friction drive unit
- V-axis grinding unit
- V-belt variable-speed drive unit
- V-drive unit
- vertical way unit
- vibratory feed unit
- vise unit
- visual display unit
- vocal output unit
- VTL unit
- waveform gear reduction unit
- wheel-dressing unit
- wheel-head unit
- wing unit
- wing-base unit
- work storage unit
- work-holding headstock unit
- workshop video unit
- work-testing unit
- worm reduction unit
- writing unit
- yet-to-be-assembled unitEnglish-Russian dictionary of mechanical engineering and automation > unit
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47 check
проверка, контроль (см. тж test); сличение || проверять; контролировать; сличать- check against- check for instructions
- check on accuracy
- check the figures
- accounting check
- arithmetical check
- arithmetic check
- automatic check
- bias check
- block check
- bounds check
- brush-compare check
- built-in check
- bus-out check
- card check
- casting-out-nines check
- check by resubstitution
- compile-time check
- composition check
- consistency check
- continuity check
- control totals check
- copy check
- cross check
- current check
- cycle check
- cyclic check - data-type check
- desk check
- diagnostic check
- differencing check
- digit check
- divide check
- dump check
- duplicate-process check
- duplication check
- echo check
- error check
- even-old check
- even-parity check
- exceed capacity check
- false-code check
- flag check
- forbidden-combination check
- forbidden-digit check
- functional check
- hardware check
- high-low bias check
- hole count check
- horizontal check
- illegal-command check
- imparity check
- improper-command check
- inadmissible character check
- in-line check
- line-by-line check
- logical check
- longitudinal check
- loop check
- machine check
- marginal check
- mod N check
- module-parity check
- modulo N check
- naught check
- negative check
- nondestructive check
- nonexistence code check
- not-null check
- odd-even check
- odd-parity check
- overflow check
- page check
- parity check
- peek-a-boo check
- photocell light check
- postmortem check
- privacy check
- program check
- programmed check
- programming check
- punching check
- punch check
- range check
- read-after-write check
- read-back check
- reasonability check
- reasonableness check
- redundancy error check
- redundancy check
- redundant-data check
- redundant check
- residue check
- reversal check
- rights check
- routine check
- running check
- run-time check
- selection check
- sequence check
- sight check
- sign check
- spacing check
- static check
- sum check
- summation check
- system check
- testability check
- total check
- transfer check
- transverse check
- twin check
- type check
- unallowable code check
- validity check
- vertical check
- wired-in checkEnglish-Russian dictionary of computer science and programming > check
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48 code
1) код || кодировать3) (машинная) программа || программировать4) код, (машинное) слово (напр., команда)•- absolute code
- abstract code
- access code - address code
- alphanumeric code
- alphameric code
- alphabetical code
- alphabetic code
- amplitude code
- ASA code
- attribute-control code
- augmented operation 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- 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 - convolution code
- convolutional code
- correcting code- CP code- cyclic code
- cyclic permuted code
- data code
- data conversion code
- data link 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 - error-checking code
- error-control code
- error-correcting code
- error-detecting code
- error-detection code
- error-limited code
- escape 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 - 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 - 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 - 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- positional code- position code
- position-independent code
- precedence code
- print restore 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 - self-checking code
- self-complementaring code
- self-complementing code
- self-correcting code
- self-demarcating code
- separable code
- serial code - severity code
- Shannon code
- short computer code
- short code
- sign code
- signal code
- significant-digit subset code - single-address code
- single-error correcting and double-error detecting code
- single-error correcting code
- single-error detecting code
- single-parity code - skip code
- source code
- space code
- space-efficient code
- specific 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 - weighted code
- weighted-checksum code - zero-address code
- zone codeEnglish-Russian dictionary of computer science and programming > code
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49 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) tvrdý2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) nesnadný3) (not feeling or showing kindness: a hard master.) přísný4) ((of weather) severe: a hard winter.) tuhý5) (having or causing suffering: a hard life; hard times.) těžký6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) tvrdý2. adverb1) (with great effort: He works very hard; Think hard.) usilovně2) (with great force; heavily: Don't hit him too hard; It was raining hard.) silně, hodně3) (with great attention: He stared hard at the man.) upřeně4) (to the full extent; completely: The car turned hard right.) úplně, zcela•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up* * *• těžký• tvrdě• vážný• tvrdý• tuhý• zatvrzelý• pilně• pevný• perný• obtížný• hrubý• krutý• krutě• natvrdo• nesnadný• bezcitný -
50 carry
1. verb1) везти, перевозить; to carry hay (corn) убирать сено (хлеб); the wine will not carry well это вино портится от перевозки2) нести, носить, переносить;to carry the war into the enemy's countryа) переносить войну на территорию противника;б) предъявлять встречное обвинение3) нести на себе тяжесть, поддерживать (о колоннах и т. п.)4) refl. держаться; вести себя; to carry oneself with dignity держаться с достоинством5) передавать6) приносить (доход, процент)7) доводить; to carry to extremes доводить до крайности; to carry into effect приводить в исполнение, осуществлять8) брать приступом (крепость и т. п.)9) увлекать за собой; he carried his audience with him он увлек слушателей10) добиться; to carry one's point отстоять свою позицию; добиться своего11) проводить; принимать; the bill was carried законопроект был принят12) влечь за собой; to carry penalty влечь за собой наказание13) достигать; доходить, доноситься; долетать (о снаряде, звуке); попадать в цель14) продолжать, удлинять15) торговать, продавать; держать; the store also carries hardware магазин торгует также скобяными изделиями16) содержать; заключать; the book carries many tables в книге много таблиц; the hospital carries a good staff в больнице хороший персонал; to carry conviction убеждать, быть убедительнымcarry awaycarry backcarry forwardcarry offcarry oncarry outcarry overcarry throughto carry all (или everything)before oneа) преодолевать все препятствия;б) иметь большой успех; преуспевать; выйти победителем; взять верхto carry weight иметь вес, влияниеto carry the day одержать победуto carry one math. (держать) один в умеto carry too many guns for one оказаться не по силам кому-л.Syn:bear, bring, convey, take, transportAnt:leave2. noun1) переноска; перевозка2) дальнобойность (орудия); дальность полета (снаряда; мяча в гольфе)3) mil. положение 'на плечо'4) волок (лодки)* * *1 (n) стоимость финансирования срочной биржевой позиции2 (v) вынести; выносить; довести; доводить; доставить; доставлять; нести; носить; перевозить; приносить; удержать товар до уплаты покупателем его стоимости; удерживать товар до уплаты покупателем его стоимости* * *везти, перевозить; носить* * *[car·ry || 'kærɪ] n. переноска, перевозка, дальнобойность, дальность полета; волок, перенос v. нести, носить, возить; иметь при себе; содержать; заключать, нести тяжесть; удлинять; доводить, влечь за собой; торговать, продавать, держать* * *везтивестивозитьвыполнятьнестинестьноситьотсрочиватьперевезтиперевозитьперенестиперенестьперенесяперенесясьпереноспереноситьпринестиприноситьпроводитьпродолжатьпрокладыватьуносить* * *1. гл. 1) а) везти б) нести 2) иметь при себе, носить с собой 3) вести, доставлять 4) переносить 5) нести 6) носить, разносить (болезни и т. п.) 7) сообщать 8) а) выпускать, выстреливать; достигать б) доходить, доноситься, долетать (о звуке) 9) а) б) доставлять в) продолжать, удлинять; тж. перен. заводить, доводить 10) увлекать за собой 2. сущ. 1) а) переноска б) транспортное средство, средство для перевозки 2) перенос 3) спорт перенос мяча (в американском футболе) 4) воен. положение 'на плечо' -
51 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) tvrdý2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) ťažký3) (not feeling or showing kindness: a hard master.) prísny4) ((of weather) severe: a hard winter.) drsný5) (having or causing suffering: a hard life; hard times.) ťažký6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) tvrdý2. adverb1) (with great effort: He works very hard; Think hard.) usilovne2) (with great force; heavily: Don't hit him too hard; It was raining hard.) silno3) (with great attention: He stared hard at the man.) uprene4) (to the full extent; completely: The car turned hard right.) úplne•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up* * *• tvrdý• tažký• usilovne• tvrdo• tažko• prísny• pevný• krutý• namáhavý• namáhavo -
52 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) tare2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) dificil3) (not feeling or showing kindness: a hard master.) dur4) ((of weather) severe: a hard winter.) aspru5) (having or causing suffering: a hard life; hard times.) greu6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) dur2. adverb1) (with great effort: He works very hard; Think hard.) din greu; serios2) (with great force; heavily: Don't hit him too hard; It was raining hard.) tare3) (with great attention: He stared hard at the man.) fix4) (to the full extent; completely: The car turned hard right.) cu totul•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up -
53 interface
1) нечто, по определённым правилам соединяющее две отдельные сущности и/или позволяющее им взаимодействовать. Имеется множество видов интерфейсов: аппаратные, программные, пользовательские, связные, цифровые, аналоговые, внешние, внутренние и т. п.см. тж. adaptive interface, back-end interface, communications interface, drop-side interface, electrical interface, glueless interface, high-level interface, iconic interface, interface standard, memory interface, network interface, object interface, optical interface, physical interface, public interface, social interface, user interface, visual interface, wireless interface2) программные и/или аппаратные средства преобразования входных/выходных данных или сигналов, например, для соединения компьютера с периферийными устройствами. Для аппаратных интерфейсовSyn:см. тж. API, bus interface, digital interface, GUI, hardware interface, infrared interface, I/O Interface, parallel interface, serial port3) программа или часть программы, взаимодействующая с пользователем4) в некоторых ЯВУ - часть программы, в которой определяются константы, переменные и структуры данных5) в ООП - видимая часть класса, т. е. переменные и методы, объявленные в секции public. Интерфейс содержит только имена и списки параметров методов, но не их реализацииАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > interface
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54 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) σκληρός2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) δύσκολος3) (not feeling or showing kindness: a hard master.) σκληρός4) ((of weather) severe: a hard winter.) βαρύς5) (having or causing suffering: a hard life; hard times.) δύσκολος6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) σκληρός2. adverb1) (with great effort: He works very hard; Think hard.) σκληρά2) (with great force; heavily: Don't hit him too hard; It was raining hard.) δυνατά3) (with great attention: He stared hard at the man.) επίμονα4) (to the full extent; completely: The car turned hard right.) εντελώς•- harden- hardness
- hardship
- hard-and-fast
- hard-back
- hard-boiled
- harddisk
- hard-earned
- hard-headed
- hard-hearted
- hardware
- hard-wearing
- be hard on
- hard at it
- hard done by
- hard lines/luck
- hard of hearing
- a hard time of it
- a hard time
- hard up -
55 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) dur2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) difficile3) (not feeling or showing kindness: a hard master.) dur4) ((of weather) severe: a hard winter.) rigoureux5) (having or causing suffering: a hard life; hard times.) difficile6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) dur2. adverb1) (with great effort: He works very hard; Think hard.) dur, sérieusement2) (with great force; heavily: Don't hit him too hard; It was raining hard.) fort, à verse3) (with great attention: He stared hard at the man.) fixement4) (to the full extent; completely: The car turned hard right.) à droite toute•- harden- hardness - hardship - hard-and-fast - hard-back - hard-boiled - harddisk - hard-earned - hard-headed - hard-hearted - hardware - hard-wearing - be hard on - hard at it - hard done by - hard lines/luck - hard of hearing - a hard time of it - a hard time - hard up -
56 hard
1. adjective1) (firm; solid; not easy to break, scratch etc: The ground is too hard to dig.) duro2) (not easy to do, learn, solve etc: Is English a hard language to learn?; He is a hard man to please.) difícil3) (not feeling or showing kindness: a hard master.) severo4) ((of weather) severe: a hard winter.) rigoroso5) (having or causing suffering: a hard life; hard times.) difícil6) ((of water) containing many chemical salts and so not easily forming bubbles when soap is added: The water is hard in this part of the country.) pesado2. adverb1) (with great effort: He works very hard; Think hard.) intensamente2) (with great force; heavily: Don't hit him too hard; It was raining hard.) forte3) (with great attention: He stared hard at the man.) firmemente4) (to the full extent; completely: The car turned hard right.) totalmente•- harden- hardness - hardship - hard-and-fast - hard-back - hard-boiled - harddisk - hard-earned - hard-headed - hard-hearted - hardware - hard-wearing - be hard on - hard at it - hard done by - hard lines/luck - hard of hearing - a hard time of it - a hard time - hard up -
57 Gillette, King Camp
[br]b. 5 January 1855 Fond du Lac, Wisconsin, USAd. 9 July 1932 Los Angeles, California, USA[br]American inventor and manufacturer, inventor of the safety razor.[br]Gillette's formal education in Chicago was brought to an end when a disastrous fire destroyed all his father's possessions. Forced to fend for himself, he worked first in the hardware trade in Chicago and New York, then as a travelling salesman. Gillette inherited the family talent for invention, but found that his successful inventions barely paid for those that failed. He was advised by a previous employer, William Painter (inventor of the Crown Cork), to look around for something that could be used widely and then thrown away. In 1895 he succeeded in following that advice of inventing something which people could use and then throw away, so that they would keep coming back for more. An idea came to him while he was honing an old-fashioned razor one morning; he was struck by the fact that only a short piece of the whole length of a cutthroat razor is actually used for shaving, as well as by the potentially dangerous nature of the implement. He "rushed out to purchase some pieces of brass, some steel ribbon used for clock springs, a small hand vise and some files". He thought of using a thin steel blade sharpened on each side, placed between two plates and held firmly together by a handle. Though coming from a family of inventors, Gillette had no formal technical education and was entirely ignorant of metallurgy. For six years he sought a way of making a cheap blade from sheet steel that could be hardened, tempered and sharpened to a keen edge.Gillette eventually found financial supporters: Henry Sachs, a Boston lamp manufacturer; his brother-in-law Jacob Heilbron; and William Nickerson, who had a considerable talent for invention. By skilled trial and error rather than expert metallurgical knowledge, Nickerson devised ways of forming and sharpening the blades, and it was these that brought commercial success. In 1901, the American Safety Razor Company, later to be renamed the Gillette Safety Razor Company, was set up. When it started production in 1903 the company was badly in debt, and managed to sell only fifty-one razors and 168 blades; but by the end of the following year, 90,000 razors and 12.4 million blades had been sold. A sound invention coupled with shrewd promotion ensured further success, and eight plants manufacturing safety razors were established in various parts of the world. Gillette's business experiences led him into the realms of social theory about the way society should be organized. He formulated his views in a series of books published over the years 1894 to 1910. He believed that competition led to a waste of up to 90 per cent of human effort and that want and crime would be eliminated by substituting a giant trust to plan production centrally. Unfortunately, the public in America, or anywhere else for that matter, were not ready for this form of Utopia; no omniscient planners were available, and human wants and needs were too various to be supplied by a single agency. Even so, some of his ideas have found favour: air conditioning and government provision of work for the unemployed. Gillette made a fortune from his invention and retired from active participation in the business in 1913, although he remained President until 1931 and Director until his death.[br]Bibliography"Origin of the Gillette razor", Gillette Blade (February/March).Further ReadingObituary, 1932, New York Times (11 July).J.Jewkes, D.Sawers and R.Stillerman, 1958, The Sources of Invention, London: Macmillan.LRD / IMcN -
58 check
[tʃek]access check вчт. контроль доступа automatic check вчт. автоматический контроль bias check профилактический контроль block check вчт. контроль блоков block check вчт. проверка по блокам bound check вчт. контроль границ built-in check вчт. встроенный контроль bus-out check вчт. контроль выходной шины check attr. клетчатый; to keep (или to hold) in check сдерживать; to cash (или to hand, to pass) in one's checks умереть cashier's check кассирский чек check багажная квитанция check делать выговор; давать нагоняй check делать выговор check задержка check клетка (на материи); клетчатая ткань check контрамарка; корешок (билета и т. п.) check контрамарка check контролировать check контроль, проверка; loyalty check амер. проверка лояльности (государственных служащих) check контроль check контрольный штемпель; галочка (знак проверки) check корешок, номерок check корешок билета check номерок (в гардеробе) check обуздывать check шахм. объявлять шах check останавливать(ся); сдерживать; препятствовать check останавливать check остановка check отметка в документе check отметка о проверке check отмечать галочкой check переводной вексель, оплачиваемый по предъявлении check потеря охотничьей собакой следа check препятствие; остановка; задержка; without check без задержки, безостановочно check препятствие check препятствовать check принимать на хранение check проверка check проверять, контролировать check проверять check располагать в шахматном порядке check расследовать check ревизовать check амер. сдавать (в гардероб, в камеру хранения, в багаж и т. п.); check in сдавать под расписку; регистрировать (ся), записывать(ся) check сдерживать check сличать check трещина, щель (в дереве) check амер. фишка, марка (в карт. игре) check амер. чек check (амер.) чек check чек check шахм. шах (употр. тж. как int); the king is in check королю объявлен шах check ярлык; багажная квитанция check against проверять на соответствие check attr. клетчатый; to keep (или to hold) in check сдерживать; to cash (или to hand, to pass) in one's checks умереть check attr. контрольный; check experiment контрольный опыт; check ballot проверочное голосование check attr. контрольный; check experiment контрольный опыт; check ballot проверочное голосование check attr. контрольный; check experiment контрольный опыт; check ballot проверочное голосование check амер. сдавать (в гардероб, в камеру хранения, в багаж и т. п.); check in сдавать под расписку; регистрировать (ся), записывать(ся) check in отмечаться при приходе на работу check in регистрировать check in сдавать на хранение check in сдавать под расписку check off отмечать галочкой check off удерживать из заработной платы check out освободить номер в гостинице check out амер. отметиться при уходе с работы по окончании рабочего дня check out отмечаться при уходе с работы check out радио отстроиться check out оформлять выдачу check out оформлять получение check out подсчитывать стоимость покупок и выбивать чек check out амер. уйти в отставку check the figures проверять расчеты check up проверять check with совпадать, соответствовать claim check квитанция на получение заказа, вещей после ремонта claim check квитанция на получение товара code check вчт. проверка программы compile-time check вчт. статическая проверка composition check вчт. проверка плотности composition check вчт. проверка полноты computation check вчт. проверка вычислений consistency check вчт. проверка на непротиворечивость control totals check вчт. проверка с помощью контрольных сумм copy check вчт. контроль дублированием copy check проверка копии credibility check проверка правдоподобия cross check вчт. перекрестный контроль current check вчт. текущий контроль customs check таможенный досмотр customs check таможенный контроль customs check таможенный чек cyclic redundancy check вчт. контроль циклическим избыточным кодом data check вчт. контроль данных data-type check вчт. контроль типов данных desk check вчт. проверка программы за столом diagnostic check вчт. диагностический контроль dump check вчт. контроль по распечатке duplication check вчт. контроль дублированием dynamic check вчт. динамический контроль edit check вчт. контрольное редактирование error check вчт. контроль ошибок even-odd check вчт. контроль по четности even-parity check вчт. контроль по четности false-code check вчт. контроль запрещенных комбинаций flag check вчт. флаговый контроль format check вчт. контроль формата functional check вчт. функциональная проверка gate check пропускной контроль hardware check вчт. аппаратный контроль hierarchical check вчт. иерархический контроль high-low bias check вчт. граничная проверка horizontal redundancy check вчт. поперечный контроль illegal-command check вчт. контроль запрещенных команд imparity check вчт. контроль по нечетности imparity check вчт. проверка на нечетность improper-command check вчт. контроль запрещенных команд in-line check вчт. встроенный контроль in-line check вчт. оперативный контроль input check вчт. входный контроль internal check вчт. внутренний контроль internal check внутренняя проверка check attr. клетчатый; to keep (или to hold) in check сдерживать; to cash (или to hand, to pass) in one's checks умереть check шахм. шах (употр. тж. как int); the king is in check королю объявлен шах lexical check вчт. лексический контроль limit check проверка возможностей line-by-line check вчт. построчная проверка loop check вчт. контроль путем обратной передачи check контроль, проверка; loyalty check амер. проверка лояльности (государственных служащих) marginal check вчт. граничная проверка marginal check вчт. профилактический котроль naught check вчт. проверка на ноль negative check вчт. проверка на отрицательное значение odd-even check вчт. контроль по четности odd-even check вчт. контроль четности odd-parity check вчт. контроль четности on-line rule check вчт. оперативная проверка правила on-the-spot check контроль на месте overflow check вчт. контроль переполнения page check вчт. групповой страничный контроль parity check вчт. контроль по четности parity check вчт. контроль четности pass-out check амер. = passout pass-out check амер. = passout passcheck: passcheck = passout passport check паспортный контроль peak-a-boo check вчт. проверка на просчет photocell ligth check оптический контроль postmortem check вчт. постконтроль privacy check вчт. проверка конфиденциальности program check вчт. проверка программы program check вчт. программный контроль programmed check вчт. программный контроль quality check проверка качества random check выборочная проверка random sample check проверка случайной выборки range check вчт. контроль границ range check вчт. контроль попадания read-back check вчт. эхопроверка reasonability check вчт. проверка на непротиворечивость reasonability check вчт. смысловая проверка redundancy check вчт. контроль за счет избыточности residue check вчт. контроль по остатку reversal check вчт. реверсивная проверка rights check вчт. проверка прав routine check обычная проверка routine check вчт. программный контроль routine check текущая проверка run-time check вчт. динамическая проверка run-time check вчт. динамический контроль security check проверка безопасности selection check вчт. выборочный контроль semantic check вчт. семантический контроль sequence check вчт. контроль порядка следования sequence check comp. контроль порядка следования sequence check comp. проверка упорядоченности sight check вчт. визуальный контроль sight check вчт. проверка на просвет sign check вчт. контроль по знаку special crossed check специальный кроссированный чек spelling check comp. орфографическая проверка spot check выборочная проверка spot check выборочная ревизия spot check проверка на выборку static check вчт. статический контроль status check comp. контроль состояния stock check проверка состояния запасов store check проверка состояния запасов structural check вчт. структурный контроль sum check контроль по сумме sum check контроль суммированием sum check вчт. проверка по сумме sum check проверка по сумме sum check проверка суммированием summation check вчт. контроль суммированием summation check контроль суммированием summation check проверка суммированием summation check вчт. проверка суммирования syntactic check вчт. синтаксический контроль system check вчт. системный контроль systems check проверка состояния систем technical check технический контроль test check контрольная проверка test check контрольное испытание test check вчт. тестовый контроль total check вчт. проверка по сумме transfer check вчт. контроль передачи transfer check переводной чек tranverce check вчт. поперечный контроль twin check вчт. двойной счет type check вчт. контроль соответствия типов type check вчт. контроль типов validity check вчт. контроль правильности validity check вчт. проверка адекватности validity check вчт. проверка достоверности validity check вчт. проверка на достоверность wired-in check вчт. аппаратный контроль wired-in check вчт. встроенный аппаратный контроль check препятствие; остановка; задержка; without check без задержки, безостановочно -
59 Artificial Intelligence
In my opinion, none of [these programs] does even remote justice to the complexity of human mental processes. Unlike men, "artificially intelligent" programs tend to be single minded, undistractable, and unemotional. (Neisser, 1967, p. 9)Future progress in [artificial intelligence] will depend on the development of both practical and theoretical knowledge.... As regards theoretical knowledge, some have sought a unified theory of artificial intelligence. My view is that artificial intelligence is (or soon will be) an engineering discipline since its primary goal is to build things. (Nilsson, 1971, pp. vii-viii)Most workers in AI [artificial intelligence] research and in related fields confess to a pronounced feeling of disappointment in what has been achieved in the last 25 years. Workers entered the field around 1950, and even around 1960, with high hopes that are very far from being realized in 1972. In no part of the field have the discoveries made so far produced the major impact that was then promised.... In the meantime, claims and predictions regarding the potential results of AI research had been publicized which went even farther than the expectations of the majority of workers in the field, whose embarrassments have been added to by the lamentable failure of such inflated predictions....When able and respected scientists write in letters to the present author that AI, the major goal of computing science, represents "another step in the general process of evolution"; that possibilities in the 1980s include an all-purpose intelligence on a human-scale knowledge base; that awe-inspiring possibilities suggest themselves based on machine intelligence exceeding human intelligence by the year 2000 [one has the right to be skeptical]. (Lighthill, 1972, p. 17)4) Just as Astronomy Succeeded Astrology, the Discovery of Intellectual Processes in Machines Should Lead to a Science, EventuallyJust as astronomy succeeded astrology, following Kepler's discovery of planetary regularities, the discoveries of these many principles in empirical explorations on intellectual processes in machines should lead to a science, eventually. (Minsky & Papert, 1973, p. 11)5) Problems in Machine Intelligence Arise Because Things Obvious to Any Person Are Not Represented in the ProgramMany problems arise in experiments on machine intelligence because things obvious to any person are not represented in any program. One can pull with a string, but one cannot push with one.... Simple facts like these caused serious problems when Charniak attempted to extend Bobrow's "Student" program to more realistic applications, and they have not been faced up to until now. (Minsky & Papert, 1973, p. 77)What do we mean by [a symbolic] "description"? We do not mean to suggest that our descriptions must be made of strings of ordinary language words (although they might be). The simplest kind of description is a structure in which some features of a situation are represented by single ("primitive") symbols, and relations between those features are represented by other symbols-or by other features of the way the description is put together. (Minsky & Papert, 1973, p. 11)[AI is] the use of computer programs and programming techniques to cast light on the principles of intelligence in general and human thought in particular. (Boden, 1977, p. 5)The word you look for and hardly ever see in the early AI literature is the word knowledge. They didn't believe you have to know anything, you could always rework it all.... In fact 1967 is the turning point in my mind when there was enough feeling that the old ideas of general principles had to go.... I came up with an argument for what I called the primacy of expertise, and at the time I called the other guys the generalists. (Moses, quoted in McCorduck, 1979, pp. 228-229)9) Artificial Intelligence Is Psychology in a Particularly Pure and Abstract FormThe basic idea of cognitive science is that intelligent beings are semantic engines-in other words, automatic formal systems with interpretations under which they consistently make sense. We can now see why this includes psychology and artificial intelligence on a more or less equal footing: people and intelligent computers (if and when there are any) turn out to be merely different manifestations of the same underlying phenomenon. Moreover, with universal hardware, any semantic engine can in principle be formally imitated by a computer if only the right program can be found. And that will guarantee semantic imitation as well, since (given the appropriate formal behavior) the semantics is "taking care of itself" anyway. Thus we also see why, from this perspective, artificial intelligence can be regarded as psychology in a particularly pure and abstract form. The same fundamental structures are under investigation, but in AI, all the relevant parameters are under direct experimental control (in the programming), without any messy physiology or ethics to get in the way. (Haugeland, 1981b, p. 31)There are many different kinds of reasoning one might imagine:Formal reasoning involves the syntactic manipulation of data structures to deduce new ones following prespecified rules of inference. Mathematical logic is the archetypical formal representation. Procedural reasoning uses simulation to answer questions and solve problems. When we use a program to answer What is the sum of 3 and 4? it uses, or "runs," a procedural model of arithmetic. Reasoning by analogy seems to be a very natural mode of thought for humans but, so far, difficult to accomplish in AI programs. The idea is that when you ask the question Can robins fly? the system might reason that "robins are like sparrows, and I know that sparrows can fly, so robins probably can fly."Generalization and abstraction are also natural reasoning process for humans that are difficult to pin down well enough to implement in a program. If one knows that Robins have wings, that Sparrows have wings, and that Blue jays have wings, eventually one will believe that All birds have wings. This capability may be at the core of most human learning, but it has not yet become a useful technique in AI.... Meta- level reasoning is demonstrated by the way one answers the question What is Paul Newman's telephone number? You might reason that "if I knew Paul Newman's number, I would know that I knew it, because it is a notable fact." This involves using "knowledge about what you know," in particular, about the extent of your knowledge and about the importance of certain facts. Recent research in psychology and AI indicates that meta-level reasoning may play a central role in human cognitive processing. (Barr & Feigenbaum, 1981, pp. 146-147)Suffice it to say that programs already exist that can do things-or, at the very least, appear to be beginning to do things-which ill-informed critics have asserted a priori to be impossible. Examples include: perceiving in a holistic as opposed to an atomistic way; using language creatively; translating sensibly from one language to another by way of a language-neutral semantic representation; planning acts in a broad and sketchy fashion, the details being decided only in execution; distinguishing between different species of emotional reaction according to the psychological context of the subject. (Boden, 1981, p. 33)Can the synthesis of Man and Machine ever be stable, or will the purely organic component become such a hindrance that it has to be discarded? If this eventually happens-and I have... good reasons for thinking that it must-we have nothing to regret and certainly nothing to fear. (Clarke, 1984, p. 243)The thesis of GOFAI... is not that the processes underlying intelligence can be described symbolically... but that they are symbolic. (Haugeland, 1985, p. 113)14) Artificial Intelligence Provides a Useful Approach to Psychological and Psychiatric Theory FormationIt is all very well formulating psychological and psychiatric theories verbally but, when using natural language (even technical jargon), it is difficult to recognise when a theory is complete; oversights are all too easily made, gaps too readily left. This is a point which is generally recognised to be true and it is for precisely this reason that the behavioural sciences attempt to follow the natural sciences in using "classical" mathematics as a more rigorous descriptive language. However, it is an unfortunate fact that, with a few notable exceptions, there has been a marked lack of success in this application. It is my belief that a different approach-a different mathematics-is needed, and that AI provides just this approach. (Hand, quoted in Hand, 1985, pp. 6-7)We might distinguish among four kinds of AI.Research of this kind involves building and programming computers to perform tasks which, to paraphrase Marvin Minsky, would require intelligence if they were done by us. Researchers in nonpsychological AI make no claims whatsoever about the psychological realism of their programs or the devices they build, that is, about whether or not computers perform tasks as humans do.Research here is guided by the view that the computer is a useful tool in the study of mind. In particular, we can write computer programs or build devices that simulate alleged psychological processes in humans and then test our predictions about how the alleged processes work. We can weave these programs and devices together with other programs and devices that simulate different alleged mental processes and thereby test the degree to which the AI system as a whole simulates human mentality. According to weak psychological AI, working with computer models is a way of refining and testing hypotheses about processes that are allegedly realized in human minds.... According to this view, our minds are computers and therefore can be duplicated by other computers. Sherry Turkle writes that the "real ambition is of mythic proportions, making a general purpose intelligence, a mind." (Turkle, 1984, p. 240) The authors of a major text announce that "the ultimate goal of AI research is to build a person or, more humbly, an animal." (Charniak & McDermott, 1985, p. 7)Research in this field, like strong psychological AI, takes seriously the functionalist view that mentality can be realized in many different types of physical devices. Suprapsychological AI, however, accuses strong psychological AI of being chauvinisticof being only interested in human intelligence! Suprapsychological AI claims to be interested in all the conceivable ways intelligence can be realized. (Flanagan, 1991, pp. 241-242)16) Determination of Relevance of Rules in Particular ContextsEven if the [rules] were stored in a context-free form the computer still couldn't use them. To do that the computer requires rules enabling it to draw on just those [ rules] which are relevant in each particular context. Determination of relevance will have to be based on further facts and rules, but the question will again arise as to which facts and rules are relevant for making each particular determination. One could always invoke further facts and rules to answer this question, but of course these must be only the relevant ones. And so it goes. It seems that AI workers will never be able to get started here unless they can settle the problem of relevance beforehand by cataloguing types of context and listing just those facts which are relevant in each. (Dreyfus & Dreyfus, 1986, p. 80)Perhaps the single most important idea to artificial intelligence is that there is no fundamental difference between form and content, that meaning can be captured in a set of symbols such as a semantic net. (G. Johnson, 1986, p. 250)Artificial intelligence is based on the assumption that the mind can be described as some kind of formal system manipulating symbols that stand for things in the world. Thus it doesn't matter what the brain is made of, or what it uses for tokens in the great game of thinking. Using an equivalent set of tokens and rules, we can do thinking with a digital computer, just as we can play chess using cups, salt and pepper shakers, knives, forks, and spoons. Using the right software, one system (the mind) can be mapped into the other (the computer). (G. Johnson, 1986, p. 250)19) A Statement of the Primary and Secondary Purposes of Artificial IntelligenceThe primary goal of Artificial Intelligence is to make machines smarter.The secondary goals of Artificial Intelligence are to understand what intelligence is (the Nobel laureate purpose) and to make machines more useful (the entrepreneurial purpose). (Winston, 1987, p. 1)The theoretical ideas of older branches of engineering are captured in the language of mathematics. We contend that mathematical logic provides the basis for theory in AI. Although many computer scientists already count logic as fundamental to computer science in general, we put forward an even stronger form of the logic-is-important argument....AI deals mainly with the problem of representing and using declarative (as opposed to procedural) knowledge. Declarative knowledge is the kind that is expressed as sentences, and AI needs a language in which to state these sentences. Because the languages in which this knowledge usually is originally captured (natural languages such as English) are not suitable for computer representations, some other language with the appropriate properties must be used. It turns out, we think, that the appropriate properties include at least those that have been uppermost in the minds of logicians in their development of logical languages such as the predicate calculus. Thus, we think that any language for expressing knowledge in AI systems must be at least as expressive as the first-order predicate calculus. (Genesereth & Nilsson, 1987, p. viii)21) Perceptual Structures Can Be Represented as Lists of Elementary PropositionsIn artificial intelligence studies, perceptual structures are represented as assemblages of description lists, the elementary components of which are propositions asserting that certain relations hold among elements. (Chase & Simon, 1988, p. 490)Artificial intelligence (AI) is sometimes defined as the study of how to build and/or program computers to enable them to do the sorts of things that minds can do. Some of these things are commonly regarded as requiring intelligence: offering a medical diagnosis and/or prescription, giving legal or scientific advice, proving theorems in logic or mathematics. Others are not, because they can be done by all normal adults irrespective of educational background (and sometimes by non-human animals too), and typically involve no conscious control: seeing things in sunlight and shadows, finding a path through cluttered terrain, fitting pegs into holes, speaking one's own native tongue, and using one's common sense. Because it covers AI research dealing with both these classes of mental capacity, this definition is preferable to one describing AI as making computers do "things that would require intelligence if done by people." However, it presupposes that computers could do what minds can do, that they might really diagnose, advise, infer, and understand. One could avoid this problematic assumption (and also side-step questions about whether computers do things in the same way as we do) by defining AI instead as "the development of computers whose observable performance has features which in humans we would attribute to mental processes." This bland characterization would be acceptable to some AI workers, especially amongst those focusing on the production of technological tools for commercial purposes. But many others would favour a more controversial definition, seeing AI as the science of intelligence in general-or, more accurately, as the intellectual core of cognitive science. As such, its goal is to provide a systematic theory that can explain (and perhaps enable us to replicate) both the general categories of intentionality and the diverse psychological capacities grounded in them. (Boden, 1990b, pp. 1-2)Because the ability to store data somewhat corresponds to what we call memory in human beings, and because the ability to follow logical procedures somewhat corresponds to what we call reasoning in human beings, many members of the cult have concluded that what computers do somewhat corresponds to what we call thinking. It is no great difficulty to persuade the general public of that conclusion since computers process data very fast in small spaces well below the level of visibility; they do not look like other machines when they are at work. They seem to be running along as smoothly and silently as the brain does when it remembers and reasons and thinks. On the other hand, those who design and build computers know exactly how the machines are working down in the hidden depths of their semiconductors. Computers can be taken apart, scrutinized, and put back together. Their activities can be tracked, analyzed, measured, and thus clearly understood-which is far from possible with the brain. This gives rise to the tempting assumption on the part of the builders and designers that computers can tell us something about brains, indeed, that the computer can serve as a model of the mind, which then comes to be seen as some manner of information processing machine, and possibly not as good at the job as the machine. (Roszak, 1994, pp. xiv-xv)The inner workings of the human mind are far more intricate than the most complicated systems of modern technology. Researchers in the field of artificial intelligence have been attempting to develop programs that will enable computers to display intelligent behavior. Although this field has been an active one for more than thirty-five years and has had many notable successes, AI researchers still do not know how to create a program that matches human intelligence. No existing program can recall facts, solve problems, reason, learn, and process language with human facility. This lack of success has occurred not because computers are inferior to human brains but rather because we do not yet know in sufficient detail how intelligence is organized in the brain. (Anderson, 1995, p. 2)Historical dictionary of quotations in cognitive science > Artificial Intelligence
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60 remote maintenance
дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]Параллельные тексты EN-RU из ABB Review. Перевод компании Интент
Service from afarДистанционный сервисABB’s Remote Service concept is revolutionizing the robotics industryРазработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехникуABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).Proactive maintenanceRemote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.Прогнозирование неисправностейRemote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.MyRobot: 24-hour remote access
Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the mostСайт MyRobot: круглосуточный дистанционный доступДля того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.Award-winning solutionIn June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.Приз за удачное решениеВ июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.Higher production uptimeSince the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”Увеличение полезного времениС момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».Service accessRemote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.Доступность сервисаСеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.Тематики
- тех. обсл. и ремонт средств электросвязи
Обобщающие термины
EN
Англо-русский словарь нормативно-технической терминологии > remote maintenance
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