Abstract: The present disclosure relates to a machining apparatus for laser machining a workpiece, such as laser cutting. The apparatus includes a machining laser source for generating a machining laser beam; an illumination laser source having a power for generating an illumination laser beam having a spectral range; an outlet opening for the machining laser beam and the illumination laser beam; and a laser beam guiding device which is designed such that the machining laser beam and the illumination laser beam emerge coaxially through the outlet opening; wherein at least one element selected from the power of the illumination laser source and the spectral range of the illumination laser beam is selected such that the illumination by the illumination laser beam is brighter than a self-emission of the workpiece in a machining region during laser machining. Additionally, a method for laser machining a workpiece is also included in the present disclosure.

Abstract: A forage harvester. The forage harvester has a work assembly for harvesting a crop and for processing harvested material of the crop, which includes grain components and non-grain components. In operation, the harvested material is transported in a harvested material flow along a harvested material transport path through the harvesting machine. The forage harvester also has a control assembly that includes an optical measuring system arranged on the harvested material transport path. The optical measuring system has a camera for recording image data of the harvested material of the harvested material flow. The control assembly, using an image recognition routine, determines image regions assigned to a non-grain component in the image data, determines geometric properties of the assigned non-grain components based on the image regions, and determines an indicator of a structural percentage of the harvested material from the geometric properties.

Abstract: A measuring apparatus for measuring positional relation between a chuck table for holding a workpiece thereon and a processing tool for processing the workpiece held on the chuck table. The measuring apparatus includes a broadband light source, a mirror for reflecting light emitted from the broadband light source to travel toward the processing tool, a chromatic aberration condensing lens disposed between the broadband light source and the mirror or between the mirror and the processing tool, a light branching unit branching reflected light from the processing tool that has been reflected by the mirror and traveled back through the chromatic aberration condensing lens, and a position detecting unit detecting the position of the processing tool on the basis of intensity of the reflected light that corresponds to a wavelength of the reflected light branched by the light branching unit.

Abstract: Methods and systems for welding contacts of a plurality of battery cells are provided. A method includes using a detector to perform a scan of the cell electrode contact area for each of the plurality of battery cells. Based upon the scan of each cell electrode contact area, a determination is made of whether one or more possible weld sites for each electrode contact area are viable for welding. In response to determining that one or more weld sites are viable, one or more of the viable weld sites are selected and a welder is used to weld at least one of the selected weld sites.

Abstract: A time-of-flight depth camera includes a VCSEL array, an optical arrangement, an evaluator and a light detector having at least one detector pixel. The VCSEL array or the optical arrangement are arranged to provide different illumination patterns in a reference plane in a defined field-of-view of the time-of-flight depth camera. The light detector is arranged to detect the different illumination patterns and the evaluator is arranged to reconstruct a depth image of the field of view with a resolution of a predefined number of pixels P based on the detected different illumination patterns. A number of the detected different illumination patterns N is at least 5% of the predefined number of pixels P, preferably at least 10% of the predefined number of pixels P and most preferred at least 20% of the predefined number of pixels P.

Abstract: An apparatus and method for precise and fast measurement of distances between fiducial features of samples such as transducers spans. In one approach, the apparatus includes a sample holder for holding a plurality of discrete samples having fiducial features thereon. The apparatus also includes a device configured to acquire locations of the fiducial features of the samples positioned in the sample holder. An x-y stage is configured to move the sample holder along an x-y plane for selectively positioning a first fiducial feature of a selected one of the samples to within ±10 micrometers or better of a predefined location in a field of view of the device in both x and y directions. A precision stage is configured to control an extent of movement of the selected one of the samples along an axis a predefined distance to an accuracy of about ±50 nanometers or better.

Abstract: The present disclosure proposes a three-dimensional computational imaging method and apparatus based on a single-pixel sensor, and a storage medium. The method includes the following. A stripe coding is combined with a two-dimensional imaging coding through a preset optical coding to generate a new optical coding, and the new optical coding is loaded into an spatial light modulator (SLM); a two-dimensional spatial information and depth information of a scene are coupled into a one-dimensional measurement value by using a single-pixel detector and the SLM loaded with the new optical coding; and the two-dimensional spatial information and the depth information of the scene are reconstructed, from the one-dimensional measurement value through a decoupling algorithm, for three-dimensional imaging.

Abstract: A LiDAR detection system includes optical sources generating a plurality of output optical signals disposed along a first direction. A modulation circuit applies an output signal from a signal generator to the optical sources to modulate the output optical signals such that the output optical signals are envelope-modulated output optical signals having frequency-modulated modulation envelopes. A scanning device scans the output optical signals into a region over a second direction. A receiver comprising a two-dimensional array of optical detectors receives return optical signals and generates receive signals indicative of the return optical signals. The return optical signals impinge on a mask between the region and the array, the mask comprising a plurality of apertures aligned with a first dimension of the array. The receive signals are generated for a set of detectors in the array disposed along the first dimension of the array and aligned with the mask apertures.

Abstract: A display apparatus having a display panel, a humidity DETECTION method thereof and a GAMMA curve calibration method are provided. A humidity detection method and a gamma curve calibration method for the display panel of the display apparatus are also provided. The humidity detection method for the display panel includes: displaying a test pattern via the display panel; projecting an incident light to the test pattern of the display panel via a light source to generate a diffraction light; and detecting the diffraction light via a light detector to obtain a humidity information of the display panel. Therefore, a gamma setting of the display panel may be adjusted via the humidity information of the display panel.

Abstract: A differential mode delay (DMD) measurement system for an optical fiber is provided. The system includes an optical test fiber with a plurality of modes; a single mode light source that provides a continuous light wave signal to a modulator; and a pulse generator that provides an electrical pulse train signal to the modulator and a triggering signal to a receiver. The modulator is configured to generate a modulated optical test signal through the optical fiber based at least in part on the received light wave and pulse train signals, and the receiver is configured to receive the test signal transmitted through the fiber and evaluate the test signal based at least in part on the triggering signal. The system can be employed to create DMD waveform and centroid charts to obtain minEMBc bandwidth information for a fiber within a wavelength range.

Abstract: What is disclosed is a system and method for enhancing a spatio-temporal resolution of a depth data stream. In one embodiment, time-sequential reflectance frames and time-sequential depth frames of a scene are received. If a temporal resolution of the reflectance frames is greater than the depth frames then a new depth frame is generated based on correlations determined between motion patterns in the sequence of reflectance frames and the sequence of depth frames. The new depth frame is inserted into the sequence of depth frames at a selected time point. If a spatial resolution of the reflectance frames is greater than the depth frames then the spatial resolution of a selected depth frame is enhanced by generating new pixel depth values which are added to the selected depth frame. The spatially enhanced depth frame is then inserted back into the sequence of depth frames.

Abstract: An unevenness detecting device includes: a pulsed illuminating light source emitting light having a predetermined wavelength range; a first condensing lens condensing return light reflected by a workpiece held on a chuck table and passed through a chromatic aberration lens and a half-silvered mirror; a mask disposed at the position of a focal point of the first condensing lens, the mask passing only the condensed return light; a diffraction grating performing light separation so as to correspond to the wavelengths of the return light; a second condensing lens condensing the return light resulting from the light separation by the diffraction grating; and an imaging element disposed at the position of a focal point of the second condensing lens.

Abstract: An assembly tool includes a head and an actuator system. The head includes a collar swaging tool that is moveable along a first axis substantially perpendicular to a longitudinal axis of the assembly tool. A sensor system detects a first position of the head within the confined space, and a second position of the collar swaging tool relative to the target object. The actuator system positions the head within the confined space, and the collar swaging tool relative to the target object.

Abstract: A method of determining the dimensions of a parcel, in which method the parcel to be measured is placed against an orthogonal reference support made up of at least two perpendicular vertical side panels, each of which is provided with a grid, and an image of the support and of the parcel together is acquired so as to determine at least three perpendicular edges of the parcel, and then the number of intervals of the grid that form each of the edges is counted so as to obtain the dimensions in mm of the parcel.

Abstract: Provided are an apparatus and method for measuring a growth volume of a plant. The apparatus includes a measurement unit configured to generate light and measure a circumference length and an internode length of the plant by using a reflection pattern signal of light obtained by reflecting the generated light, and a control unit configured to respectively compare the measured circumference length and internode length of the plant with a previously measured circumference length and internode length of the plant to calculate respective change amounts of the circumference length and internode length of the plant, and calculate a growth volume of the plant by using the calculated change amounts of the circumference length and internode length of the plant.

Abstract: A rugged hand-held mobile computing device for a forester to collect and use dendrometric data from trees and tree stands is claimed. The device includes a processor which operates in connection with a memory, a user interface, a GPS receiver, a sound sensor capable of emitting an ultra-sonic pulse and a computer readable code embodied on the memory. The device communicates with a transponder by way of the ultra-sonic pulse emitted by the sound sensor. The transponder also emits an ultra-sonic pulse back to device. The device calculates the distance traveled based on the knowledge of the speed of the pulses. The memory, which also includes basic mapping software, uses the data to update a map in real time with the location of the trees and other information collected.

Abstract: An optical semiconductor device includes: a resonator end face; an optical waveguide; a window structure located between the resonator end face and the optical waveguide; and a vernier on the window structure and allowing measurement of length of the window structure along an optical axis direction.

Abstract: The present invention extends to methods, systems, apparatus, and computer program products related to a cable-based measuring system. The cable-based measuring system includes a cable, comprising an inner cable member configured to move linearly within an outer cable housing. The measuring system also includes a measuring device configured to generate measurement information regarding movement of the inner cable member relative to the outer cable housing using one or more encoders. A computer system receives the measurement information from the measuring device. The measurement information indicates length as a function of time, and represents three orthogonal dimensional measurements of a three-dimensional object. Based on the measurement information, the computer system identifies a length of each dimensional measurement, including a length, a width, and a height of the three-dimensional object.

Abstract: Depth information about a scene of interest is acquired by illuminating the scene, capturing reflected light energy from the scene with one or more photodetectors, and processing resulting signals, in at least one embodiment, a pseudo-randomly generated series of spatial light modulation patterns is used to modulate the light pulses either before or after reflection.

Abstract: The present invention relates to a method for measuring cracks remotely and the device thereof. First, multiple laser spots with known a shape are projected onto a remote wall and beside a crack. Then, by using geometric calculations, the relative coordinates of the laser spots on the wall and the real distance can be given and used as the reference length of the crack. Next, a camera is used for taking a picture of the remote crack along with the laser spots; the image identification technology is used for calculating the relevant parameters of the crack. Thereby, to acquire the parameters of the crack, a user needs not to be present at the site for measuring at a short distance or placing a reference object, and thus providing safety and convenience.

Abstract: An apparatus and methods for scanning and measuring transparent fibers. One example method includes placing the transparent fibers on a platen of a flat-bed style scanner and compressing the transparent fibers to the platen with a cover including a non-reflective surface adjacent to the transparent fibers. The method also includes spacing an image sensor apart from a light source on a carriage below the platen and transmitting light from the light source through the platen. The light refracts within the transparent fibers and reflects from the transparent fibers to the image sensor and is absorbed by the non-reflective surface of the cover. The method also includes capturing an image of the transparent fibers with the image sensor.

Abstract: Systems, methods, and apparatuses for gathering data are disclosed. For example, a plant matter sensor includes a pair of parallel spaced apart sensor arms and a control console, a first of the arms having a plurality of emitter spaced along its length, each emitter configured to emit a signal substantially perpendicularly to the arm to be received by a corresponding receiver on the second arm. The console contains controller means to control the rate, strength and regularity of the signal emitted by each of the emitters, collectors to collect data from each receiver as to the existence or absence of receipt of a signal, a processor to process data received from the controllers and the collectors and determine the height of any plant matter traversed by the plant matter sensor and predetermined intervals, and storage to store the plant matter height data generated by the processor for subsequent download or analysis.

Abstract: The present invention provides an orthogonality compensation method for length measurement device, including: providing a measuring platform and a plurality of alignment marks, wherein the measuring platform comprises a chassis, a rectangular measuring table mounted on the chassis, an inspection microscope arranged above the measuring table, and a laser device mounted on the chassis and coupled to the inspection microscope; mounting the alignment marks on the measuring table and recording the coordinates of the alignment marks with respect to the coordinate system of the measuring table to provide reference coordinates; using the inspection microscope to read actual coordinates of the alignment marks with respect to the coordinate system of the measuring table and comparing the actual coordinates with the reference coordinates; and carrying out correction of coordinates if differences exist between the actual coordinates and the reference coordinates, so as to make the actual coordinates equal to the referenc

Abstract: The present invention is to generate a pulsed laser beam having a width greater than the gap between a rotating tool and a workpiece opposed thereto, and then irradiate the gap with the generated laser beam while the optical axis thereof is tilted relative to a workpiece plane. The pulsed laser beam has one lased-pulse period per one revolution or an integer number of revolutions of the rotating tool and is directed in the same angle range relative to the rotating tool within the ON durations of the lased pulse. The light which has irradiated the gap and has not been interrupted but diffracted by the gap is detected on a light-receiving sensor to measure the length of the gap.

Abstract: The present invention relates to a method for measuring cracks remotely and the device thereof. First, multiple laser spots with known a shape are projected onto a remote wall and beside a crack. Then, by using geometric calculations, the relative coordinates of the laser spots on the wail and the real distance can be given and used as the reference length of the crack. Next, a camera is used for taking a picture of the remote crack along with the laser spots; the image identification technology is used for calculating the relevant parameters of the crack. Thereby, to acquire the parameters of the crack, a user needs not to be present at the site for measuring at a short distance or placing a reference object, and thus providing safety and convenience.

Abstract: A method of measuring the length of an electric cable, includes providing an electric cable having a cable length and including a cable neutral axis, and a fibre unit longitudinally extending along the cable and including an optical fibre arranged substantially along the neutral axis, wherein the optical fibre is mechanically coupled with the cable; injecting an optical signal into the optical fibre; detecting back-scattered light from the optical fibre responsive to the injected optical signal; analysing the detected back-scattered light as a function of time so as to determine the length of the optical fibre, and deriving the cable length from the length of the optical fibre.

Abstract: Systems and methods for system for gripping a specimen container are disclosed. The system comprises a plurality of gripper fingers, a processor, and a system for gathering data related to a specimen container. Data related to a specimen container, such as detection of the presence of a specimen container within the gripper, measurement of specimen container dimensions and weight, detection of specimen container contents, specimen tube identification, etc. are gathered. Embodiments provide an improved automated process by simultaneously performing multiple measurements and analytical processes on the specimen container, thereby providing for faster processing of the sample that resides in the specimen container.

Abstract: An inspecting apparatus inspects a tampon that includes a tampon main body that has a cord and an applicator that is cylindrical and that accommodates the tampon main body in such a manner that the cord is exposed from a rear end of the applicator. The inspecting apparatus includes a suction mechanism that extends the cord along a longitudinal direction of the tampon by sucking air, and a cord-length inspecting mechanism that inspects a length of the cord while the suction mechanism is sucking the air.

Abstract: The trunk area dimension measurement device includes a light reflection portion to be placed at a position of a navel of the measurement subject, a contact portion to be placed on a side surface of the measurement subject's trunk area, a support column having a contact detection unit that detects the contact with the contact portion and that extends in the vertical direction, a measurement bar that is supported pivotably about a first support point vertically with respect to the support column and that extends above the measurement subject's trunk area, an optical sensor that is held by the measurement bar positioned above the measurement subject's trunk area and that is held pivotably about a second support point so as to hang down in a gravity direction, and an angle sensor that is provided at either one of the first support point and the second support point.

Abstract: The invention relates to a method using an optical cable tracker to measure optical cable distances and an optical cable tracker, which comprises a light source, an optical coupler, a phase modulator, a delay optical fiber, and an optical signal demodulation module. In the invention, optical cables are knocked to create disturbance. Not only can the optical cable be identified based on the corresponding interference produced by the light ray in optical cables, but also the distances from knock points to the local telecommunication terminals can be estimated. This facilitates the inspection, repair and maintenance of optical cables.

Abstract: A column used for gas chromatography (GC) is fabricated from an open tubular light guiding capillary. The light guiding capillary is suitable for transmission of optical frequencies employed in commercially available hand held laser range finders.

Abstract: Fiber optic monitoring of dimensional changes within a subterranean formation includes deploying a fiber optic cable assembly in a wellbore and attaching the cable assembly to first and second attachment points on either side of the formation. A surface fiber optic measurement system measures changes in the optical path length between the attachment points of the fiber optic cable assembly. The changes in optical path length are directly indicative of dimensional changes within the formation.

Abstract: A lay meter includes a computer based device, a light source for creating a light plane operably connected with the computer based device, a shadow based sensor a light plane operably connected with the computer based device, and signal processing circuits and software for processing sensed signals such that a clean square wave voltage signal is generated in direct response to the lays passing through the light plane.

Abstract: The invention relates to a method for monitoring the filling of a capsule with a medicament, a corresponding filing method and the corresponding devices. According to the monitoring method, after at least part of the capsule is filled with a given filling mass of given closed shape of medicament, in a first step, at least the filling mass located in the part of the capsule after filling is recorded with a digital image, in a second step, the shape of the filling mass located in the part of the capsule is determined from the digital image and, in a third step, the shape analysed to give an analysis of the filling in comparison with given shapes.

Abstract: A system and method for non-contact specimen container characterization includes a processor, and a specimen container diameter sensor, and a specimen container length sensor. The non-contact specimen container can also include a cap color sensor. The sensors are located in a fixed position relative to a conveyor for transporting a plurality of specimen containers. Another embodiment is directed to a system and method for detecting centrifuge imbalance along multiple axes. First, second and third comparators compare an accelerometer output corresponding to x-, y- and z-axes with reference voltage levels. The outputs are used to determine whether to discontinue operation of the centrifuge. The outputs can also be used to generate alerts.

Abstract: The present invention is to generate a pulsed laser beam having a width greater than the gap between a rotating tool and a workpiece opposed thereto, and then irradiate the gap with the generated laser beam while the optical axis thereof is tilted relative to a workpiece plane. The pulsed laser beam has one lased-pulse period per one revolution or an integer number of revolutions of the rotating tool and is directed in the same angle range relative to the rotating tool within the ON durations of the lased pulse. The light which has irradiated the gap and has not been interrupted but diffracted by the gap is detected on a light-receiving sensor to measure the length of the gap.

Abstract: Depth information about a scene of interest is acquired by illuminating the scene, capturing reflected light energy from the scene with one or more photodetectors, and processing resulting signals, in at least one embodiment, a pseudo-randomly generated series of spatial light modulation patterns is used to modulate the light pulses either before or after reflection.

Abstract: A distance measuring apparatus comprises: an edge specifying part 101 for specifying the edge of a probe 6 in a secondary portrait appearing on the surface of a work 9 and an image of the probe 6; a straight line inserting part 102 for inserting a straight line along the outer edge of the secondary portrait onto an image, and an overlap determining part 103 for determining an overlap of the edge and the straight line, wherein one or more LED lamps 7, and calculating part for calculating the distance wherein the imaging device and the probe 6 are movably held integrally for the surface of the work 9.

Abstract: A non-contacting aligning method for planes in a three-dimensional environment is disclosed. The method includes: projecting a light beam in a predetermined incident angle onto a transparent first object and an opaque second object that are facing each other; and calculating a distance between the first and second objects basing on the tangent trigonometric function of the incident angle of the light beam.

Abstract: Methods and apparatus for standardizing quantitative measurements from a microscope system. The process includes a calibration procedure whereby an image of a calibration slide is obtained through the optics of the microscope system. The calibration slide produces a standard response, which can be used to determine a machine intrinsic factor for the particular system. The machine intrinsic factor can be stored for later reference. In use, images are acquired of a target sample and of the excitation light source. The excitation light source sample is obtained using a calibration instrument configured to sample intensity. The calibration instrument has an associated correction factor to compensate its performance to a universally standardized calibration instrument. The machine intrinsic factor, sampled intensity, and calibration instrument correction factor are usable to compensate a quantitative measurement of the target sample in order to normalize the results for comparison with other microscope systems.

Abstract: The invention relates to a method for imaging a sample using a microscope, in particular a scanning microscope, in which the sample is illuminated with excitation light via an illuminating beam path, and light emitted from the sample is recorded via a detection beam path, wherein at least one adjustable beam splitter having an adjustable threshold wavelength is arranged in the detection beam path or/and in the illuminating beam path, and wherein light emitted from the sample is detected in at least one detection channel. According to the inventive method, for at least one predetermined sample region, a signal intensity of light detected in the at least one detection channel is recorded for a plurality of threshold wavelengths set at the adjustable beam splitter to obtain a signal/threshold-dependency of the predetermined sample region.

Abstract: A method of measuring a length of sections of extrados or intrados curves of an elongated workpiece travelling in a bending machine along a forwarding direction, the elongated workpiece having cross-sections each of which is separated by a neutral axis in both an extended portion and a compressed portion when the elongated workpiece is subjected to bending, and at least a neutral cross-section, i.e. not subjected to bending, neutral cross-section beyond which the bending of the elongated workpiece begins along the forwarding direction thereof, provides a measuring instrument positioned so that it engages either an extrados or an intrados point of the elongated workpiece near the neutral cross-section, but displaced therefrom in the forwarding direction of the elongated workpiece. Further, a measuring instrument on a bending machine that embodies the method is described.

Abstract: Method for determining the optical measurement path length in a duct gas monitoring system in a duct gas monitoring system configured to measure the concentration of a gas component of the duct gas from its wavelength-specific absorption light, wherein light is sent from a light source through a first purging tube, a gas duct and a second purging tube to a measuring detector, the purging tubes open into the gas duct and are flushed with a purge gas which, after flushing, is discharged into the gas duct.

Abstract: An object detecting device for detecting the existence and general placement of an object residing upon a surface. A preferred embodiment of the invention uses at least one laser measuring scanner operated positioned by a servo motor to allow the laser measuring scanner to generate signals related to the placement of an object on a surface. Those placement signals are then processed by a computer to make a two or three dimensional determination of the object in coordinates that show the object's location in relation to another device such as a robotic depalletizer that can then be moved into position near the object to allow removal of the object by the robotic depalletizer.

Abstract: An optical system, such as a microlithographic projection exposure apparatus, includes a first optical component, a second optical component, and a measurement arrangement for determining the relative position of the first optical component and the second optical component in six degrees of freedom. The measurement arrangement is adapted to determine the relative position of the first optical component and the second optical component over six different length measurement sections. The length measurement sections extend directly between the first optical component and the second optical component.

Abstract: A system is provided that determines the length of an optical fiber unwound from or remaining on at least one storage reel. The fiber is used as a medium for transmitting information between a weapon and an underwater vehicle, from which the weapon was fired. The determination system measures the backscattered light power in the fiber, analyzes this power signal in order to detect a backscattered light power discontinuity that corresponds to the location of the fiber where the fiber leaves the reel, localizes this location along the fiber, and determines from this localization and from the length of fiber initially wound on the reel, the length of fiber unwound from or remaining on the reel.

Abstract: A circumferential length of a belt is measured within a short period of time. A plurality of marks is provided on a belt. Distances between the marks are set to be all different from each other. The distance between the marks is set to allow the mark to be identified by measuring a period of time between the detection of one mark and that of the next mark even if the length of the belt is changed to some degree by the expansion of the belt or the like. Then, a period of time between the identified mark and the next mark is accurately measured. The total circumferential length of the belt is measured based on the results of measurement.

Abstract: The device for detecting the level of a liquid in a container, comprises: an optical structure facing at least partly the region inside the container in a position corresponding to a predefined level of the liquid and having a main surface, a first side surface and a second side surface which are inclined at about 45° with respect to the main surface and about 90° relative to each other; and an emitter and a receiver facing the main surface of the optical structure and able to send a radiation beam towards the first side surface and, respectively, receive a radiation beam emitted by the emitter and reflected by the first and second side surfaces, when the level of the liquid inside the container is lower than the predefined level. The optical structure extends mainly outside the container and faces the region inside the container only opposite the first side surface.

Abstract: A method and apparatus (20) for testing the mounting of an integrated circuit (16) on a printed circuit board (12) using a ball grid array comprises measuring the change in height, or drop, of the integrated circuit (16) relative to the printed circuit board (12) following soldering of the ball grid array and comparing the measured drop with a predetermined range. The integrated circuit is deemed to have been successfully mounted to the printed circuit board if the change in height falls within the predetermined range.

Abstract: The invention relates to a method and arrangement for measuring a timber piece (4) in a wood handling machine (1). Such a wood handling machine comprises booms (2) arranged in a base machine and a wood handling device (3) operating therein. In such a wood handling machine (1), a wood handling device (3) grips the timber piece (4) to be handled, after which one end of the timber piece is guided into a measuring carriage (5) in the wood handling machine by the wood handling device. The timber piece arranged in the measuring carriage is subjected to one or more observation measures by observation means provided in the measuring carriage.