Abstract: There is provided an information processing device for measuring a dimension of an object to be measured in a low-load calculation processing. A handy terminal includes a depth map sensor block for generating a depth map of an object to be measured by use of a depth map sensor, and a coordinate transformation/side length calculation unit that measures a dimension of the object to be measured based on the depth map. The handy terminal may further includes a delivery fee calculation unit that calculates a delivery fee of the object to be measured based on the dimension.

Abstract: A device to inspect a non-pattern wafer includes a light source to emit light that reflected from a wafer. A judgment unit converts the detected light into a quantitative measured value to determine whether the wafer is faulty. The wafer comprises a first region and a second region. The detection unit sequentially detects lights reflected from the first and second regions of the wafer, and a judgment unit converts the lights reflected from the first and second regions of the wafer into first and second quantitative measured values, respectively. The second region of the wafer is determined to be faulty by comparing the second measured value with a first reference value, wherein the first reference value is calculated using an average value between the first and second measured values, and a characteristic value that indicates distribution of the first and second measured values.

Abstract: Provided are a bending sensor that is less dependent on an input speed of a strain and in which a response delay is unlikely to occur, and a deformed shape measurement method using the bending sensor. The bending sensor is configured to include a base material; a sensor body arranged on a surface of the base material and containing a matrix resin and conductive filler particles filled in the matrix resin at a filling rate of 30% by volume or more, and in which three-dimensional conductive paths are formed by contact among the conductive filler particles, and electrical resistance increases as an deformation amount increases; an elastically deformable cover film arranged so as to cover the sensor body; and a plurality of electrodes connected to the sensor body and capable of outputting electrical resistances. In the sensor body, cracks are formed in advance in such a direction that the conductive paths are cut off during a bending deformation.

Abstract: With the different methods of fluorescence correlation spectroscopy, physical and biological transport processes in or between cells in the microscopic range, for example diffusion processes, can be analyzed. For this purpose, correlations of the fluorescence measurement data are determined for different sample regions and mathematical transport models are adapted thereto. Erroneous fluorescence correlation analyses were previously identified on the basis of the properties of the adapted model function parameters and were discarded. The a-priori knowledge necessary for the identification had to be obtained in time-consuming series of tests. With the invention, sample properties can be determined in a simpler, quicker and more exact way from fluorescence correlations.

Abstract: A time synchronization calibration method and system for image taking and coordinate reading and a delay time calculation method thereof are disclosed. The time synchronization calibration method is as follows. Firstly, every time point, a calibrator coordinate, an operation target coordinate and an image thereof are obtained. The image similarity index of every image and the image of previous time point thereof is calculated. When the image similarity index is lower than a preset similarity index, a reading time of the image is output followed with calculating the difference of the reading time and a time delay to obtain a taking time of the image. Finally, calculating the coordinate transformation of the calibrator coordinate and the operation target coordinate, and corresponding it to the image to output an image-coordinate correspondence relation. The time delay can be obtained correctly with only one test, and provided for the consequent synchronization calibration.

Abstract: A method and system for object location detection in a space, the method including the steps of: configuring the resolution of a multi dimensional sensing apparatus to divide a multi dimensional space into M first sub spaces; scanning the multi dimensional space to generate M first sensed data and at least one first locked space; configuring the resolution of the multi dimensional sensing apparatus to divide each of the at least one first locked space into N second sub spaces; scanning the at least one first locked space to generate at least one group of second sensed data and at least one second locked space; and combining at least one of the M first sensed data that corresponds to the at least one first locked space, with the at least one group of second sensed data to form a set of output sensed data.

Abstract: The disclosure describes a method for cutting a food product into slices for producing portions by taking into account the target weight thereof. Information about a remainder of the food product to be sliced is used to control corresponding actuators for a successive food product to be sliced.

Abstract: A method can include providing spatial data for a base case of a subsurface geologic formation; providing spatial data for a simulation case of the subsurface geologic formation; performing box counting for the spatial data for the base case; performing box counting for the spatial data for the simulation case; based on the box counting for the spatial data for the base case, determining a fractal dimension for the base case; based on the box counting for the spatial data for the simulation case, determining a fractal dimension for the simulation case; comparing the simulation case to the base case based at least in part on the fractal dimensions; and, based on the comparing, adjusting one or more simulation parameters to generate spatial data for an additional simulation case of the subsurface geologic formation. Various other apparatuses, systems, methods, etc., are also disclosed.

Abstract: An optical measurement apparatus, comprising a reference support on which are mounted a fixed headstock and a movable tailstock opposed to the fixed headstock and movable in order to maintain a piece to be measured between headstock and tailstock, and a mobile carriage movable along the linear axis, the carriage carrying a light source for directing a beam of collimated light across the x axis to be interrupted by the piece under measurement, the carriage further carrying an optical detector aligned with the light source and arranged to receive the residual light of the beam of collimated light that has not been interrupted by the piece under measurement. The measuring apparatus has a automatic measure mode triggered by a button on the apparatus, that is arranged to automatically guess the features of a workpiece and/or recognize workpieces for which a measurement program is available.

Abstract: A cable pull calculator may be provided. First, wire number data, a wire type, and size data may be received. Next, a minimum conduit size for the conduit maybe calculated based upon the received wire number data indicating the number of wires to be placed in the conduit and the received size data corresponding to each of the wires to be placed in the conduit. Then, the calculated minimum conduit size may be displayed. Next, a first desired conduit size, a conduit type, and pull information indicating a course of the conduit may be received. Then, for each of the plurality of segments, a tension value and a sidewall pressure value may be calculated based at least on the conduit type, the first desired conduit size, the received wire type, and the received size data. The calculated tension value and the calculated sidewall pressure value may then be displayed.

Abstract: In some embodiments, methods and systems are provided for assisting a user in determining a real-world distance. Hardware-based sensors (e.g., present in a mobile electronic device) may allow for a fast low-power determination of distances. In one embodiment, one or more telemetry-related sensors may be incorporated into a device. For example, data detected by a frequently-calibrated integrated accelerometer may be used to determine a tilt of the device. A device height may be estimated based on empirical data or based on a time difference between a signal (e.g., a sonar signal) emitted towards the ground and a corresponding detected signal. A triangulation technique may use the estimated tilt and height to estimate other real-world distances (e.g., from the device to an endpoint or between endpoints).

Abstract: Methods and apparatus are described herein for calibration and correction of non-constant sensor errors, and in particular non-constant compass errors, that are based in part on changing software and hardware modes of a host device. The non-constant errors induced in the sensor by each mode and combination of modes is determined in a calibration that may be determined during pre-production testing of one or more host devices. The calibration results can be incorporated into software and/or hardware of the host device. During normal operation, a sensor correction can be applied to sensor measurements based in part on the active mode or combination of modes.

Abstract: Pipetting errors are detected by: (a) during pipetting, measuring the pressure in the tip of a pipetting device and determining an earlier rate of change of the pressure in the tip; (b) based on the earlier rate of pressure change and a previous pressure value pi, determining an expectation range for the pressure pi+1 at a further moment in time and/or an expectation range for the rate of pressure change ?i+1 based on the pressure at the further moment in time ti+1; (c) at the further moment in time ti+1 measuring the pressure pi+1 in the tip; and (d) determining the occurrence of a pipetting error by comparing the measured pressure pi+1 at the further moment ti+1 in time and/or a rate of pressure change ?i+1 calculated on the basis of the pressure pi+1 at the further moment ti+1 in time.

Abstract: Data, including a plurality of spatial positions of a device that moves through the space, at least some of the positions being positions along the boundary, is accessed; a physical measurement of a region at the boundary is accessed; a determined measurement of the region at the boundary, the determined measurement being based on a subset of the plurality of spatial positions; comparing the physical measurement and the determined measurement, is accessed; a correction based on the comparison is determined; the correction is applied to at least some of the plurality of spatial positions to generate corrected spatial positions; a diagram of the space based on the corrected spatial positions is generated; and the diagram of the space is presented.

Abstract: The present invention provides a method of calculating a surface shape of a target surface, including the steps of defining, as a measurement target region, each of a plurality of regions on the target surface in which adjacent regions overlap each other, and obtaining data that give the heights at the plurality of positions in each of the plurality of regions, and removing, for each of the plurality of regions, an average data from the data that are obtained in the step of obtaining the data and give the heights at the plurality of positions in each of the plurality of regions, thereby generating correction data for each of the plurality of regions.

Abstract: A surface measurement apparatus having at least one sensor and a reference point with pre-determined relative position relative to the sensor measures a distance between the sensor and a point on a surface over which the surface measurement apparatus is configured to travel. A receiver receives data related to a position of the reference point a calculated distance between the reference point and a position measurement station; and a processor calculates an absolute position of the point on the surface based on (a) the measured distance between the at least one sensor and the point, (b) the pre-determined relative position difference between the reference point and the at least one sensor, and (c) the position of the reference point or the calculated distance between the position measurement station and the reference point.

Abstract: A unit of absolute rotary position encoding, where the angular range of encoding is matched to the number of poles of an electrical motor it is intended that the encoder is to be attached to. The electrical motor is suitably a brushless DC motor. This provides unique rotational position values only through an angle corresponding to an angle between two consecutive poles to enable control/drive electronics to accurately and smoothly turn the rotor from standstill and at low speeds with varying loads applied to the motor.

Abstract: Various embodiments provide systems, computer program products and computer implemented methods. In some embodiments, the system includes a method of determining a characteristic of an optical mask. The method including: generating a first set of electromagnetic field (EMF) simulation data about the optical mask, using a first set of simulation criteria; determining a first correlation between optical metrology data about the optical mask and the first set of EMF simulation data; and determining the characteristic of the optical mask based upon the first correlation between the optical metrology data and the first set of EMF simulation data.

Abstract: A computerized method for estimating a size of a nanometric part of an inspected article, the method including: (a) acquiring inspection results generated by processing an inspection image which was generated by collecting signals arriving from a portion of the article which includes the part by an inspection system; (b) fitting to the inspection results an approximation function from a group of functions which is related to a response pattern of the inspection system; and (c) determining an estimated size of the part, based on at least one parameter of the approximation function.

Abstract: Conducting a plurality of tests of a manufacturing process, with each test conducted at a different combination of a first process variable and a second process variable. Each test includes locally heating a region of a part, wherein the local heating results in the formation of a thermal field in the part, and assessing a dimension of the thermal field. In some cases, based on the results of the plurality of tests, a process map of the dimension of the thermal field is generated as a function of the first process variable and the second process variable.

Abstract: According to one embodiment, an electronic device includes a display module, an operation module, a communication module, an obtaining module, and a calculator. The operation module obtains operation on the display screen of the display module. The communication module communicates with another electronic device. The obtaining module obtains trace information indicating a trace of operation moving from the electronic device to the other electronic device or a trace of operation moving from the other electronic device to the electronic device based on operation on the display screen of the electronic device and operation on the display screen of the other electronic device. The calculator calculates a positional relationship between the electronic device and the other electronic device based on the trace information.

Abstract: A method for providing static and dynamic position information of a designated point of a measuring device having a surface and a structure that includes the designated point and being arranged moveable relatively to the surface. The method includes defining a model for representing an actual position of the designated point relative to the surface and deriving the actual position of the designated point by a calculation based on the defined model. At least two cells are used to model the structure. The at least two cells are linearly arranged in a linear extension direction. At least one of the cells is a variable cell of a set of at least one variable cell and exhibits variable elongation as to the extension direction. An actual elongation of the at least one variable cell is set to model a positional change, particularly in linear extension direction, of the designated point.

Abstract: A method for providing dynamic state information for a coordinate measuring machine that includes a base, a probe head, a machine structure with structural components linking the probe head to the base and a drive mechanism that moves the probe head relative to the base. A dynamic model is defined with actual state variables related to physical properties representing an actual state of the coordinate measuring machine. The actual state is derived by a calculation based on the dynamic model. A filtering process using the dynamic model includes deriving prediction variables based on the state variables that describe an expected proximate state of the coordinate measuring machine, measuring at least one of the state variables and determining observables, deriving successive state variables by comparing the prediction variables with the observables and updating the dynamic model using the successive state variables as the actual state variables.

Abstract: Apparatus and methods are disclosed that may be integrated into a steel bridge fabrication shop to improve steel bridge fabrication. The apparatus and methods measures aspects of completely fabricated bridge girders and virtually assembles girders in order to design custom splice plates to fit girders together. The apparatus and method further comprises of a noncontact three-dimensional coordinate measurement apparatus and methods that measures aspects of a completely fabricated girder, stores measurements as a permanent record of the girder, and combines these measurements with measurements from other girders to create a virtual assembly for a steel bridge.

Abstract: It is the object of the present invention to provide a pattern measurement apparatus which suitably evaluates a pattern formed by a double patterning method prior to a transfer using masks or which suitably evaluates a deviation of patterns formed by the double patterning method. To achieve the object, a pattern measurement apparatus is proposed which performs an exposure simulation on data about contour lines obtained by converting the pattern edges of first and mask images formed based on charged-particle beam irradiation of the two masks used for subsequent double exposure and which overlaps two exposure-simulated contour lines based on the coordinate information of design data about the masks. Furthermore, a pattern dimension measuring apparatus is proposed which sets measurement conditions using a charged-particle beam based on the positional information about parts or portions separated for double exposure.

Abstract: A method and system are presented for monitoring measurement of parameters of patterned structures based on a predetermined fitting model. The method comprises: (a) providing data indicative of measurements in at least one patterned structure; and (b) applying at least one selected verification mode to said data indicative of measurements, said at least one verification mode comprising: I) analyzing the data based on at least one predetermined factor and classifying the corresponding measurement result as acceptable or unacceptable, II) analyzing the data corresponding to the unacceptable measurement results and determining whether one or more of the measurements providing said unacceptable result are to be disregarded, or whether one or more parameters of the predetermined fitting model are to be modified.

Abstract: The invention relates to devices and methods for designing and manufacturing customized footwear, and components thereof. An example method includes a method of designing at least a portion of a sole of an article of footwear customized for a user. The method includes the steps of determining at least one input parameter related to a user, analyzing the at least one input parameter to determine at least one performance metric of a foot of the user, and determining at least one customized structural characteristic of at least a portion of a sole of an article of footwear for the user based on the performance metric.

Abstract: A method for determining the geometry and/or the localisation of an object comprising the steps of: sending one or more signals by using one transmitter; receiving by one or more receivers the transmitted signals and the echoes of the transmitted signals as reflected by one or more reflective surfaces building by a computing module a first Euclidean Distance Matrix (EDM) comprising the mutual positions of the receivers; adding to the EDM matrix a new row and a new column, the new row and a new column comprising time of arrivals of said echoes and computing its rank or distance to an EDM matrix determining the geometry and/or the position of the object based on said rank or distance.

Abstract: A measurement method of the present invention is a measurement method which measures a target divided into a plurality of partial regions to measure a whole shape of the target by stitching the plurality of partial regions. The measurement method comprises Steps S501 to S511 which measures a plurality of partial regions, Step S102 which determines an error in a partial region that is a reference, Step S105 which calculates each of errors in the plurality of partial regions, and Step S107 which performs a correction depending on each of the errors to stitch the plurality of partial regions. Steps S102 to S107 are repeatedly performed by changing the partial region that is the reference (S110).

Abstract: Provided are techniques for numerically integrating an intensity distribution function over a numerical aperture in a manner dependent on a determination of whether the numerical aperture spans a Rayleigh singularity. Where a singularity exists, Gaussian quadrature (cubature) is performed using a set of weights and points (nodes) that account for the effect of the Wood anomaly present within the aperture space. The numerical aperture may be divided into subregions separated by curves where the Wood anomaly condition is satisfied. Each subregion is then numerically integrated and a weighted sum of the subregion contributions is the estimate of the integral. Alternatively, generalized Gaussian quadrature (cubature) is performed where an analytical polynomial function which accounts for the effect of the Wood anomaly present within the aperture space is integrated. Points and nodes generated from a fit of the analytical polynomial function are then used for integration of the intensity distribution function.

Abstract: A method for determining disposition of via hole on printed circuit board (PCB) includes the steps of: providing a PCB on which is disposed with a geometric layout and a via hole; providing a line on the PCB for intersecting the geometric layout to form a plurality of points of intersection; defining line segments by segmenting the line at each of the points of intersection to form a plurality of line segments; deleting some of the line segments having one end not being point of intersection for the geometric layout to form a plurality of segmented regions; searching a closed region by repeatedly searching region from any one of the points in the plurality of segmented regions; determining whether a closed region is a smallest closed region; determining whether a via hole is located within the smallest closed region.

Abstract: A sensor system for a host vehicle may detect whether another in-path vehicle is turning. The sensor system may include a transmitter, a receiver and a controller. Signals may be emitted by the transmitter over a detection area. The emitted signals may reflect off an object vehicle in the detection area and be received by the receiver. The receiver may include a number of channels, each corresponding to a different region of the detection area. The sensor system may determine whether the in-path vehicle is turning and in what direction based on the reflected signals received at each channel.

Abstract: Method for measuring the shape of a workpiece includes a measuring sensor used to find measured values that represent the shape of a workpiece. The shape of the workpiece is determined by an iterative method using the measured values. The shape of the workpiece is determined during machining. The determining of the shape during machining is particularly suited for determining the shape during grinding. The shape determined may be the shape of a pin, especially a crankpin for a crankshaft.

Abstract: A method for developing a landfill with a compactor machine having a three-dimensional position sensing equipment, a computer, and a display. The method includes traversing the worksite with the compactor machine and determining deflection of the worksite at a plurality of locations while each of the locations is beneath the compactor machine. The compactor machine defines wheel tracks over which a plurality of wheels pass while traversing the worksite. The method includes recording the determined deflection of each of the locations on the display. The deflection may be recorded beneath only the wheel tracks of the compactor machine, such that areas passing between the wheel tracks of the compactor machine are not recorded on the display.

Abstract: The invention relates to a one-piece protective toe cap for safety footwear, forming a concave frame consisting of a front wall with connected side walls, the upper edges of which are joined by a concave surface along the profile of the last. The contour or edge of the flange of the toe cap is provided with a recess in order to house a tab and provide comfort, as well as improving the appearance of the footwear (not shown in these documents). The design withstands impact tests of approximately 101.7 to 146.7 Joules (10.4 to 14.95 kgf-m), leaving clearance of approximately 11 mm to 14 mm in the capped shoe and not only at the tip of the cap.

Abstract: Autonomous non-destructive inspection equipment provides automatic and/or continuous inspection and evaluation of a material under inspection. The inspection equipment comprises at least one detection sensor and at least one detection sensor interface for a computer. The signals are communicated from the sensor to the computer. The signals are then conditioned and evaluated according to knowledge already inputted into the computer. The computer iterations are processed until an acceptable conclusion is made regarding the type of imperfection that is detected.

Abstract: Measurement apparatus is described that comprises a measurement portion for acquiring object measurements and an output portion for outputting measurement data relating to the acquired object measurements. A deactivation portion is provided for inhibiting normal operation of the measurement apparatus such that output of the measurement data is prevented. The deactivation portion, in use, reads apparatus usage information from an apparatus usage module and inhibits normal operation of the measurement apparatus if said apparatus usage information fails to meet one or more predetermined criteria. The apparatus usage module may be provided as an integral part of the measurement apparatus or as a separate activation button. The measurement apparatus may comprise a measurement probe such as a touch trigger measurement probe.

Abstract: A method for determining the outlet cross-section of a component including one or more turbine blades, in particular of a turbine blade twin, of a gas turbine, in which at least one closed outlet cross-section is measured between the turbine blades, and/or respective open outlet cross-sections are measured on the side of the at least one turbine blade, using a measurement device, wherein in order to determine the corresponding outlet cross-section its respective bounding walls are traversed by the measurement device along a measurement line.

Abstract: A method for measuring verticality of a container having a base and vertical wall comprises measuring at each rotational position of the container, at least the position along a first measurement axis, of at least one first measuring point located on the base, and a second measuring point located on the base diametrically opposite to the first measuring point, the position along a third measurement axis, of at least one third measuring point located on the vertical wall at a distance from the base. An angle defined between a first segment passing through the first and second measuring points and a second segment intersecting the first segment and passing through at least the third measuring point is selected to be representative of the container verticality. For each rotational position of the container, a quantity depending on the angle is calculated. Verticality is measured from the variations of the calculated quantity.

Abstract: A method is provided for ascertaining a wheel circumference of a vehicle wheel attached to a vehicle with reference to the distance travelled by the vehicle and measuring signals of a wheel revolution sensor associated with a vehicle wheel. The method includes, but is not limited to positioning the vehicle in front of a stationary obstacle and registering the obstacle with a distance measuring device of the vehicle, moving the vehicle in direction of the obstacle, ascertaining the distance travelled as the reference distance with the distance measuring device, ascertaining the number of measuring pulses of the wheel sensor over the distance travelled, and determining the wheel circumference from the ascertained distance and the ascertained number of measuring pulses of the wheel sensor. A parking assistance system is also provided for a motor vehicle, a motor vehicle, a computer program product and a computer program.

Abstract: Shortest path searcher 105 searches shortest paths from each landmark node to other landmark nodes based on the measured values of distance metrics between the landmark nodes which are stored in distance metric storage 102, and calculates distance metrics along the discovered shortest paths. Coordinate generator 101a generates coordinate axes of a predetermined dimension number from the distance metrics along the shortest paths which are calculated by shortest path searcher 105. Coordinate calculator 104a calculates coordinates of a coordinate-to-be-calculated node from the distance metrics between the coordinate-to-be-calculated node and the landmark nodes and the coordinate axes generated by coordinate generator 101a. Distance metric estimator 134 estimates a distance metric between two coordinate-to-be-calculated nodes whose coordinates are calculated by coordinate calculator 104a, using the calculated coordinates.

Abstract: The disclosure provides a size measuring and comparing system and a method. The method includes steps: acquiring coordinates of at least four points which are not assigned on a same side of an object, creating a cuboid model including the at least four points as vertices based on the coordinates of the at least four points, calculating a height and a width of a space, determining whether it is feasible for the object to pass through the space based on a length, a width, and a height of the cuboid model and the height and the width of the space; and outputting a comparison result.

Abstract: Embodiments of the invention provide a step detection. An accelerometer measurement in the form of a multi-dimensional acceleration vector is obtained. The magnitude of the accelerometer measurement is filtered using a low pass filter. A threshold for a down-crossing is provided as is a threshold for an up-crossing. A step detection is triggered if the magnitude of the accelerometer measurement is greater than or equal to the threshold for an up-crossing.

Abstract: Disclosed is an algorithmic measurement data tool, method and system of tools used to standardize bra cup sizing, that can be useful to women, surgeons, and bra manufacturers to provide consistency and realistic expectations of breast and standardize bra cup sizes. The method utilizes measurement of the breast hemicircumference, used in conjunction with a standardized scale developed according to measurement results obtained from over 5000 patients, to accurately determine the woman's cup size. Tools, such as a slide rule, a software program, and 3D imaging may also be used, establishing the breast hemicircumference, to determine the proper bra size. The tool documents and algorithmically compares documented hemicircumference measurements to actual reported cup sizes and manufacturers.

Abstract: A method outputs measurement data automatically using an electronic device. The method obtains measurement data of feature elements from a two dimensional (2D) image of a measured object, determines a type of measurement applied to each feature element, obtains feature elements from planes of a three dimensional (3D) image of the measured object, and maps each of the obtained feature elements in the 3D image to the 2D image. The method further obtains sequential marked numbers from the 2D image, determines a feature element which is nearest to any marked number from the mapped feature elements, determines an output axis for each of the determined feature elements, and outputs measured results and measurement codes of the determined feature elements by reference to the measurement data, the type of measurement and the output axis of each determined feature element.

Abstract: Systems, methods, and machine-readable media are disclosed to assign one or more tasks to a plurality of warehouse employees. In one embodiment, a method is provided which comprises receiving an order for an item stored in a warehouse. A location of the item in the warehouse can be determined. A current location of each of the warehouse employees can be determined based on a strength of a signal from a wireless device assigned to each of the warehouse employees. The signal can be detected by at least two wireless access points at different location in the warehouse. At least one of the warehouse employees can be selected to fill the order based on the current location of each of the warehouse employees and the locations of the item.

Abstract: A computing device provides a random number table. Formulas for calculating size differences between a first object and a second object are written to the random number table. The random number table is controlled to select random samples which are taken as an actual size of the first object and an actual size of the second object. According to a user's requirement, the random samples are selected many times. The computing device obtains an absolute value of size difference which is the most in the random number table. All actual maximum differences and all actual minimum differences corresponding to the obtained absolute value of size difference are obtained. The computing device selects a maximum value of the all actual maximum differences and a minimum value of the all actual minimum differences as a standard for manufacturing the first object and the second object.

Abstract: An non-contacting measurement apparatus for measuring distances, angles and related geometric quantities, and for computing other quantities based on the measurements, is provided. A visible light beam or ultrasonic beam allows a user to point the device at one or more points to which the distance is measured, and angular rotation between the various points of interest can be measured and recorded. Then, geometric and trigonometric relationships are used to compute and display lengths, areas, volumes or other facts derived from the measurements. Various input and output features are provided in the present embodiments.

Abstract: Provided is a loading device that is provided in a tire testing machine including a testing station (30) provided with a spindle (31) attached with a tire (50) to be tested and feeds the tire (50) from a predetermined standby position to a testing position where the center of the spindle matches the center of the tire (50) in the testing station (30). The loading device includes: conveyors (1, 2) that convey the tire (50) from the standby position toward the testing position in a direction perpendicular to the axial direction of the tire; and positioning devices (6B, 20) that position the tire to be tested to a position, in which a front end of the tire in the feeding direction matches a point separated from the spindle by a predetermined distance, as the standby position. Setting of the standby position based on the position of the front end of the tire (50) in the feeding direction shortens the feeding distance and the feeding time and hence shortens the testing cycle time.

Abstract: The present invention is directed to automated apparatuses and methods for measuring fastener hole depth, fastener length, countersink depth and/or hole diameters in a workpiece (or other object) in an automated and extremely rapid, efficient and accurate manner. The apparatuses may be operably connected with a power source and with one or a plurality of computers or other data collection devices to transmit fastener hole depth, countersink depth and/or hole diameter measurement data and/or information to them each time that a fastener hole is measured, while the apparatus is continuously measuring fastener holes (i.e., with no interruptions).