Abstract: An optical particle counter determines the velocity of particles passing through a particle detection zone, and thereby the velocity of gas flow, from both the measured time of flight of discrete particles and also the size of intensity peaks of scattered light. This is used to determine particle concentration and may be used to control an optional fan.

Abstract: An apparatus comprising at least: a first waveguide; a second waveguide; and a diffractive element. The first waveguide guides a first band of onto the diffractive element such that the first band is diffracted at an mth non-zero order over a first range of angles. The second waveguide guides a second band onto the diffractive element such that the second band is diffracted at the mth non-zero over the first range of angles. The second waveguide guides a third band onto the diffractive element such that the third band is diffracted at the nth non-zero order over the first range of angles. Wavelengths of the first band, the second band, and the third band do not overlap with each other. The mth order and the nth order are different from each other.

Abstract: A method for imaging 1-D nanomaterials is provided. The method includes: providing a 1-D nanomaterials sample; immersing the 1-D nanomaterials sample in a liquid; illuminating the 1-D nanomaterials sample by a first incident light and a second incident light to cause resonance Rayleigh scattering, wherein the first incident light and the second incident light are not parallel to each other; and acquiring a resonance Rayleigh scattering image of the 1-D nanomaterials sample with a microscope.

Abstract: A biological signal analyzing device configured to generate a first detection image or a second detection image is provided. The biological signal analyzing device includes a light-incident surface, a light-emitting surface and a plurality of optical-resonance structures. The sample is placed near the light incident surface, and receives a first light through the sample. The light resonance structures are configured to process the first light and generate a second and third light. The second light emits from the light emitting surface, and adapted to form the first detection image corresponding to the sample, and the third light emits from the light incident surface, and adapted to form the second detection image corresponding to the sample. The optical resonance structures vary their thickness along the first direction or vary the width along the second direction. A biological sensing apparatus, a sensing method and a fabrication method are also provided.

Abstract: Systems for inserting and orienting a soft robotic probe into an apparatus and capturing images and methods of using the same are generally disclosed. For example, the system includes a cable, an actuation assembly, and a camera at the tip of the probe. The cable includes an adjustable sheath at an exterior of the cable defined around a probe centerline extending the length of the probe. The adjustable sheath extends and contracts the cable between a first length and a second length different from the first length and is defined within the adjustable sheath. The actuation assembly extends or contracts the cable between the first length and the second length and further adjusts an orientation of the cable, an orientation of the tip of the probe, or both along at least one axis. The camera captures images at least partially around a circumferential direction relative to a camera centerline.

Abstract: Methods, systems, and apparatus for detection of a condition in a hole defined by a transparent material that is at least partially enclosed by one or more substantially opaque materials. The method may include positioning a light source in a first hole in the transparent material, directing light from the positioned light source through the transparent material and toward a second hole that is adjacent to the first hole. A prism may be positioned so that the light transmitted from the light source through the machined inner surface of the second hole is visible through a viewing face of the prism. By observing the transmitted light, a surface condition of the machined inner surface of the second hole may be determined.

Abstract: The high selectivity corrosion sensor system includes: a sensor group including at least one selected from SPR sensors whose sensor surfaces have metallic thin films made of different materials, SPR sensors whose sensor surfaces have functional films made of different materials, and LSPR sensors including different metallic fine particles; a light projector projecting light toward the sensors; a detector detecting, as signal intensities, light beams being from the sensors and corresponding to the light beam intensities; a database in which information on corrosion of a subject metal is accumulated; and an analyzer analyzing a degree of corrosion of the subject metal by pattern recognition based on the signal intensities from the detector and the information in the database.

Abstract: A gas analysis device includes a laser light source configured to output a laser beam, an irradiation unit configured to irradiate a measurement region including measurement target gas with the laser beams in plural directions, plural photoreceivers each configured to receive a laser beam having passed through the measurement region and output an electric signal according to intensity of the received laser beam, and an analyzer configured to analyze the physical state of the measurement target gas based on the electric signal output from each photoreceiver. The analyzer sets a function (e.g. two-dimensional polynomial f(X,Y)) representing the physical state (e.g. concentration, temperature) of the target gas at least in the measurement region, and measures the physical state of the target gas by determining a coefficient of each of terms included in the function based on a measured value obtained from the electric signal output from the photoreceiver.

Abstract: Devices, systems and techniques for measuring optical polarization-related parameters in optical materials and devices such as polarization maintaining (PM) fiber links based on polarization crosstalks that spatially distribute over a length of a material such as a PM fiber link.

Abstract: Provided are a moving object, a cleaning robot, a floor condition determining device, a method of controlling the moving object, and a method of controlling the cleaning robot. The moving object includes a light source configured to irradiate a first light to a floor surface, a plurality of sensors for receiving light reflected from the floor surface at different positions from each other, and a controller configured to determine a condition of the floor surface on the basis of a result sensed by the plurality of sensors.

Abstract: System for machining workpieces including a setting-up module and a machining module for the production of components. The setting-up module includes at least one first tool holder fixing device for fixing at least one tool holder removably, and at least one first workpiece support fixing device for fixing a workpiece support removably. The machining module includes at least one second tool holder fixing device for fixing at least one tool holder removably and at least one second workpiece support fixing device for fixing a workpiece support removably, such that the tool holder and the workpiece support can both be transferred from the setting-up module to the machining module after setting up.

Abstract: A three-dimensional object inspecting device for inspecting a three-dimensional object includes a light source, a detector, an orientation information acquisition component, a three-dimensional shading corrector, and an inspection component. The light source emits light energy toward an inspection region set for the three-dimensional object. The detector detects radiant energy radiated from the inspection region. The orientation information acquisition component acquires orientation information about the light source and the detector with respect to the inspection region. The three-dimensional shading corrector performs three-dimensional shading correction on information corresponding to the radiant energy detected by the detector, based on shape information about the three-dimensional object in the inspection region, the orientation information, and shading correction information for a planar image detected by the detector for each of a plurality of working distances.

Abstract: This color calibration device is a color calibration device, calibrating colors in a captured image of a first imaging device between different imaging devices using a hologram emitting diffracted light at different frequencies corresponding to an observation angle, the color calibration device includes: a diffracted light spectral distribution calculation unit that obtains respective diffracted light spectral distribution of the diffracted light from the hologram; a camera sensitivity function estimation unit that estimates spectral sensitivity of the imaging device from the respective diffracted light spectral distribution of the diffracted light and each captured image of the diffracted light; and a color calibration unit that calibrates difference in color of the first imaging device relative to a second imaging device different from the first imaging device using the estimated spectral sensitivity.

Abstract: With the method of the invention a wavelength-dependent refractive index of a specimen medium, which is examined with a light microscope, is determined. With the light microscope, a specimen measurement at the specimen medium which has an unknown refractive index is performed, wherein illumination light is radiated to the specimen medium and detection light coming from the specimen medium is measured. With the specimen measurement, a specimen measurement focus position of the illumination and/or detection light is measured. Using a mathematical model, in which a focus position of illumination and/or detection light is defined in dependence of a refractive index of a medium, the refractive index of the specimen medium is derived from the specimen measurement focus position. Furthermore, a light microscope for carrying out the method is described.

Abstract: A particle detector, e.g. a smoke detector is described. In one form the detector includes a detection chamber and radiation source emitting a single beam of radiation. The detector also includes a radiation receiving system and an imaging system arranged to receive radiation from a common region of interest. Methods and systems for analysing the output of a particle detector are also disclosed.

Abstract: Techniques are disclosed for particulate matter (PM) measurement in a medium (such as air) using flat-top intensity laser sheet beam generation. The techniques for generating the laser sheet beam may include nonspecialized optical elements (e.g., aspherical, spherical, biconvex, and/or cylindrical lenses) that are cost-effective, reduce the overall footprint of the system, and also provide for relatively increased power efficiencies compared to conventional techniques. The PM measurement system may use the laser sheet beam generated in combination with a medium flow channel to pass the medium through the laser sheet beam, thereby causing particulates within the medium to scatter light, which can be detected using a light sensor (e.g., a photodetector). The scattered light signals can then be analyzed to match them with corresponding particulate sizes and the amount of signals per particulate size can also be determined to measure the size and count of particulates within the medium.

Abstract: A droplet control and detection device and an operating method thereof are provided. The droplet control and detection device includes: a light source; a first electrode; a second electrode; a droplet arranged on a light-exiting side of the light source, where the droplet is movable under the effect of an electric field formed between the first electrode and the second electrode; a photoelectric detection structure configured to detect light emitted by the light source and reflected by the droplet; and a processing circuit configured to obtain droplet information according to a detection result of the photoelectric detection structure and control an electrical signal applied on the first electrode and the second electrode according to the droplet information.

Abstract: Systems, apparatus, and related methods for evaluating biological sample integrity are disclosed herein. An example method includes scanning a sample container having a sample disposed therein to generate signal data including a first signal portion and a second signal portion. The example method includes detecting if the sample container includes a label attached to a surface of the sample container based on the second signal portion. If the sample container includes a label, the example method includes applying an adjustment factor to the second signal portion to create adjusted signal data. The example method includes determining a property of the sample based on one or more of the first signal portion or the adjusted signal data.

Abstract: A test artifact for a coordinate measuring machine includes a calibrated standard and a convex background illumination surface. The calibrated standard, the convex background illumination surface and a vision sensor are positionable relative to one another so as to create a silhouette of the calibrated sphere in the vision sensor's field of view. The test artifact may thus be used to calibrate the coordinate measuring machine, and/or to assess the associativity between the vision sensor and another measuring sensor.

Abstract: An area sensor includes: a sensor unit that emits measurement light with which a monitoring area is scanned, and detects reflected light of the measurement light; and a system controller that controls the sensor unit to output sensor information to an external device, the sensor information including object information in the monitoring area obtained based on an output signal from the sensor unit, the system controller including: a memory interface to which a portable external storage device is connectable, a sensor controller that controls the sensor unit, and a memory controller that accesses the external storage device; and a start processing unit which operates the memory controller in priority to the system controller, when the external storage device is connected to the memory interface.