| G | SK | PHYSICS |
| G06 | KL | COMPUTING; CALCULATING; COUNTING (score computers for games A63B 71/06 , A63D 15/20 , A63F 1/18; combinations of writing implements with computing devices B43K 29/08) |
| G06G | UKL | ANALOGUE COMPUTERS (analogue optical computing devices G06E 3/00; computer systems based on specific computational models G06N) |
| G06G 1/00 | HGR | Hand-manipulated computing devices (planimeters G01B 5/26) |
| G06G 1/02 | UGR1 | | . | Devices in which computing is effected by adding, subtracting, or comparing lengths of parallel or concentric graduated scales |
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| G06G 1/04 | UGR2 | | . . | characterised by construction (G06G 1/10 takes precedence) |
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| G06G 1/06 | UGR3 | | . . . | with rectilinear scales, e.g. slide rule |
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| G06G 1/08 | UGR3 | | . . . | with circular or helical scales |
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| G06G 1/10 | UGR2 | | . . | characterised by the graduation |
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| G06G 1/12 | UGR3 | | . . . | logarithmic graduations, e.g. for multiplication |
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| G06G 1/14 | UGR1 | | . | in which a straight or curved line has to be drawn from given points on one or more input scales to one or more points on a result scale |
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| G06G 1/16 | UGR1 | | . | in which a straight or curved line has to be drawn through related points on one or more families of curves |
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| G06G 3/00 | HGR | Devices in which the computing operation is performed mechanically (G06G 1/00 takes precedence) |
| G06G 3/02 | UGR1 | | . | for performing additions or subtractions, e.g. differential gearing |
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| G06G 3/04 | UGR1 | | . | for performing multiplications or divisions, e.g. variable-ratio gearing |
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| G06G 3/06 | UGR1 | | . | for evaluating functions by using cams and cam followers |
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| G06G 3/08 | UGR1 | | . | for integrating or differentiating, e.g. by wheel and disc |
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| G06G 3/10 | UGR1 | | . | for simulating specific processes, systems, or devices |
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| G06G 5/00 | HGR | Devices in which the computing operation is performed by means of fluid-pressure elements (such elements in general F15C) |
| G06G 7/00 | HGR | Devices in which the computing operation is performed by varying electric or magnetic quantities (neural networks for image data processing G06T) |
| G06G 7/02 | UGR1 | |
| G06G 7/04 | UGR1 | | . | Input or output devices (graph readers G06K 11/00; using function plotters, co-ordinate plotters G06K 15/22) |
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| G06G 7/06 | UGR1 | | . | Programming arrangements, e.g. plugboard for interconnecting functional units of the computer; Digital programming |
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| G06G 7/10 | UGR1 | | . | Power supply arrangements |
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| G06G 7/12 | UGR1 | | . | Arrangements for performing computing operations, e.g. amplifiers specially adapted therefor (amplifiers in general H03F) |
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| G06G 7/122 | UGR2 | | . . | for optimisation, e.g. least square fitting, linear programming, critical path analysis, gradient method [2] |
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| G06G 7/14 | UGR2 | | . . | for addition or subtraction (of vector quantities G06G 7/22) |
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| G06G 7/16 | UGR2 | | . . | for multiplication or division |
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| G06G 7/161 | UGR3 | | . . . | with pulse modulation, e.g. modulation of amplitude, width, frequency, phase, or form [2] |
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| G06G 7/162 | UGR3 | | . . . | using galvano-magnetic effects, e.g. Hall effect; using similar magnetic effects [2] |
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| G06G 7/163 | UGR3 | | . . . | using a variable impedance controlled by one of the input signals, variable amplification or transfer function [2] |
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| G06G 7/164 | UGR3 | | . . . | using means for evaluating powers, e.g. quarter square multiplier (evaluating powers G06G 7/20) [3] |
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| G06G 7/18 | UGR2 | | . . | for integration or differentiation (G06G 7/19 takes precedence) [3] |
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| G06G 7/182 | UGR3 | | . . . | using magnetic elements [3] |
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| G06G 7/184 | UGR3 | | . . . | using capacitive elements [3] |
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| G06G 7/186 | UGR4 | | . . . . | using an operational amplifier comprising a capacitor or a resistor in the feedback loop [3] |
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| G06G 7/188 | UGR3 | | . . . | using electromechanical elements [3] |
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| G06G 7/19 | UGR2 | | . . | for forming integrals of products, e.g. Fourier integrals, Laplace integrals, correlation integrals; for analysis or synthesis of functions using orthogonal functions (Fourier or spectrum analysis G01R 23/16; speech analysis or synthesis G10L) [3] |
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| G06G 7/195 | UGR3 | | . . . | using electro-acoustic elements [3] |
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| G06G 7/20 | UGR2 | | . . | for evaluating powers, roots, polynomes, mean square values, standard deviation (G06G 7/122 , G06G 7/28 take precedence; gamma correction in television systems H04N 5/202 , H04N 9/69) [3] |
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| G06G 7/22 | UGR2 | | . . | for evaluating trigonometric functions; for conversion of co-ordinates; for computations involving vector quantities (trigonometric computations using simultaneous equations G06G 7/34) |
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| G06G 7/24 | UGR2 | | . . | for evaluating logarithmic or exponential functions, e.g. hyperbolic functions |
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| G06G 7/25 | UGR2 | | . . | for discontinuous functions, e.g. backlash, dead zone, limiting, absolute value, or peak value [2] |
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| G06G 7/26 | UGR2 | | . . | Arbitrary function generators (using orthogonal functions, e.g. Fourier series, G06G 7/19; using curve follower G06K 11/02) |
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| G06G 7/28 | UGR3 | | . . . | for synthesising functions by piecewise approximation |
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| G06G 7/30 | UGR2 | | . . | for interpolation or extrapolation (G06G 7/122 takes precedence) [2] |
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| G06G 7/32 | UGR2 | | . . | for solving of equations |
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| G06G 7/34 | UGR3 | | . . . | of simultaneous equations (G06G 7/122 takes precedence) [2] |
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| G06G 7/36 | UGR3 | | . . . | of single equations of quadratic or higher degree (G06G 7/22 , G06G 7/24 take precedence) |
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| G06G 7/38 | UGR3 | | . . . | of differential or integral equations |
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| G06G 7/40 | UGR4 | | . . . . | of partial differential equations (simulating specific devices G06G 7/48) |
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| G06G 7/42 | UGR5 | | . . . . . | using electrolytic tank |
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| G06G 7/44 | UGR5 | | . . . . . | using continuous medium, current-sensitive paper |
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| G06G 7/46 | UGR5 | | . . . . . | using discontinuous medium, e.g. resistance network |
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| G06G 7/48 | UGR1 | | . | Analogue computers for specific processes, systems, or devices, e.g. simulators [2] |
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| G06G 7/50 | UGR2 | | . . | for distribution networks, e.g. for fluids (G06G 7/62 takes precedence) |
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| G06G 7/52 | UGR2 | |
| G06G 7/54 | UGR2 | | . . | for nuclear physics, e.g. nuclear reactors, radioactive fallout |
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| G06G 7/56 | UGR2 | | . . | for heat flow (G06G 7/58 takes precedence) |
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| G06G 7/57 | UGR2 | | . . | for fluid flow (G06G 7/50 takes precedence) |
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| G06G 7/58 | UGR2 | | . . | for chemical processes (G06G 7/75 takes precedence) |
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| G06G 7/60 | UGR2 | | . . | for living beings, e.g. their nervous systems |
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| G06G 7/62 | UGR2 | | . . | for electric systems or apparatus |
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| G06G 7/625 | UGR3 | | . . . | for impedance networks, e.g. determining response, determining poles or zeros, determining the Nyquist diagram (measuring impedance G01R 27/00) [2] |
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| G06G 7/63 | UGR3 | | . . . | for power apparatus, e.g. motors, or supply distribution networks [2] |
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| G06G 7/635 | UGR4 | | . . . . | for determining the most economical distribution in power systems [2] |
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| G06G 7/64 | UGR2 | | . . | for non-electric machines, e.g. turbine |
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| G06G 7/66 | UGR2 | |
| G06G 7/68 | UGR2 | | . . | for civil-engineering structures, e.g. beam, strut, girder |
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| G06G 7/70 | UGR2 | | . . | for vehicles, e.g. to determine permissible loading of ships |
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| G06G 7/72 | UGR3 | | . . . | Flight simulators (Link trainers G09B 9/08) |
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| G06G 7/75 | UGR2 | | . . | for component analysis, e.g. of mixtures, of colours (G06G 7/122 takes precedence) [2] |
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| G06G 7/76 | UGR2 | |
| G06G 7/78 | UGR2 | | . . | for direction-finding, locating, distance or velocity measuring, or navigation systems |
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| G06G 7/80 | UGR2 | | . . | for gun-laying; for bomb aiming; for guiding missiles [2] |
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