Abstract: An arrangement is disclosed for increasing dynamics in color-coded triangulation by using an adapted narrow band color filter. Spectral passage ranges of the color filter overlap with sensitive spectral ranges of a camera sensor. However, the spectral passage ranges are, in contrast to the sensitive spectral ranges of the camera sensor, spectrally disjunct, and the transmitted colors can therefore be clearly identified.

Abstract: An arrangement for attenuated total reflectance (ATR) infrared spectroscopy uses a reflection matrix for location-resolved spectroscopy of aqueous and/or powdery samples with a high signal-to-noise ratio and without previous complex preparation of the samples. The method of using the reflection matrix produces imaging of the sample with a high signal strength.

Abstract: Three-dimensional depiction of image information is provided during minimally invasive surgery carried out by an endoscope by detecting an operation region of the using a sensor device in three dimensions. Stereoscopic image data is generated from the 3D-data acquired from the sensor and is visualized on a suitable display device.

Abstract: Three-dimensional detection of an interior space of a body is performed by an endoscope in which a projection device projects a color pattern onto a region of the interior space and a detecting device detects an image of the color pattern projected onto the region. The projection and detection devices are positioned at least in part in a distal end region of an elongate endoscope extent. The distal end region can be angled up to 180° in relation to the original elongate endoscope extent. Active triangulation can be used in evaluating 3D images of the region to simply and effectively enlarge the 3D images. Such endoscopes can be used particularly advantageously in minimally invasive surgery or in industrial endoscopy.

Abstract: An endoscope measures the topography of a surface. The endoscope contains a projection unit and an imaging unit. The endoscope is characterized in that an objective unit is provided as a component both of the projection unit and the imaging unit. By the integration of the projection unit and the imaging unit, which both use a common objective unit, the structural volume required by both units is reduced resulting in a smaller endoscope.

Abstract: Internal components of gas or steam turbines are inspected with a 3D scanning camera inspection system that is inserted and positioned within the turbine, for example through a gas turbine combustor nozzle port. Three dimensional internal component measurements are performed using projected light patterns generated by a stripe projector and a 3D white light matrix camera. Real time dimensional information is gathered without physical contact, which is helpful for extracting off-line engineering information about the scanned structures. Exemplary 3D scans, preferably with additional visual images, are performed of the gas path side of a gas turbine combustor support housing, combustor basket and transition with or without human intervention.

Abstract: A device and a method for determining three-dimensional surface coordinates of an object by means of optical color triangulation are proposed, wherein all lines of a color fringe pattern in each case have a width (BR) set in such a way that, in a recorded image of the line, all contrast maxima (CMax), of all spectral components of a line are equal to a minimum contrast value (CMin) is provided. Proceeding from an invariable smallest width of a pattern line with a spectral component of highest contrast, further can be correspondingly widened. The invention is particularly advantageously suitable for a 3D measurement for biological tissue.

Abstract: Electrically conductive structures produced on or in a substrate, or produced such that the structures are floating in a substrate undergo simple and reliable capacitive contactless and non-destructive inspection using a capacitive sensor having at least two sensor electrode surfaces which are arranged at different constant distances from one another parallel to a surface of the substrate and are arranged beside one another relative to the surface of the substrate.

Abstract: A broadband light source is provided for a confocal spectrometer having a first aperture device with a first slit grid of a main slit direction arranged in front of the light source to produce a slit-shaped pattern of the light source. A first imaging optical unit focuses the slit-shaped pattern of the light source on an object to be imaged. A detector system has a detector apparatus that captures the light reflected by the object for generating a spectrally resolved image of the object. A second imaging optical unit focuses the reflected light onto the detector apparatus. A dispersion element, arranged in front of the second imaging optical unit, spectrally disperses the light reflected by the object along a dispersion axis perpendicular to the optical axis of the second imaging optical unit.

Abstract: An endoscope for quantitatively determining dimensions of an object in a cavity is provided. The endoscope has a projector connected to a light guide that can be introduced through the instrument channel. In the introduced position the projector projects a pattern at a defined illumination angle onto the object to be examined. The endoscope has a camera that captures the projected pattern at a fixed viewing angle in a distorted from corresponding to the object. The distorted form is used for quantitatively determining dimensions of the object by a triangulation method.

Abstract: A system for imaging characters on a surface of an object through a coating on the object includes one or more infrared (IR) radiation sources disposed to irradiate IR radiation upon a object, an IR camera disposed to received IR radiation reflected from the surface of the object, the IR camera adapted to create a digital image of the surface of the object from the received IR radiation, and a computing device in signal communication with the IR camera adapted to receive the digital image of the surface of the object from the IR camera, in which the computing device has installed therein optical character recognition (OCR) software adapted to detecting and recognizing characters imprinted upon the surface of the object.

Abstract: For pipeline inspection, a small, untethered capsule (a “piglet”) images from within a pipeline. The capsule is small enough that rotation about any of three orthogonal axes while within the pipeline is possible. Movement both along the pipeline and perpendicular to the longitudinal axis is possible. To assure images of the pipeline without viewing gaps, the field of view for imaging surrounds the capsule without a gap. Given the possible rotation and translation, the captured images may be motion compensated to provide oriented images of a length of the pipeline.

Abstract: Internal components of gas or steam turbines are inspected with a 3D scanning camera inspection system that is inserted and positioned within the turbine, for example through a gas turbine combustor nozzle port. Three dimensional internal component measurements are performed using projected light patterns generated by a stripe projector and a 3D white light matrix camera. Real time dimensional information is gathered without physical contact, which is helpful for extracting off-line engineering information about the scanned structures. Exemplary 3D scans, preferably with additional visual images, are performed of the gas path side of a gas turbine combustor support housing, combustor basket and transition with or without human intervention.

Abstract: A device for detecting a difference in illumination may include at least two adjacent photoelectric sensor element groups on which light falls during an adjustable illumination time, said light being converted to a quantity of electric charge, which corresponds to the quantity of light falling on each sensor element group during the illumination time, and having a detector, which detects a minimum charge of the charge quantities generated by both photoelectric sensor element groups and subtracts said minimum charge from both photoelectric sensor element groups. The device can be used in a variety of applications, e.g., for digital cameras and medical devices. Wavelet coefficients can be generated directly using metrological and sensory means and may be available for further signal processing.

Abstract: Projection beams are emitted from a projection unit. An image generating unit associated with the projection unit generates phase-structured image sequences in close-up by a light-emitting display or at a distance by a projection module and downstream image guides, and transmits the sequences to the projection unit. In this manner, both alternatives allow sequences of phase-structured images, phase-shifted relative to each other, to be projected onto the surface to be measured and imaged by the projection unit, even under very spatially limited conditions. The latter alternative allows a battery-powered, capsule-shaped 3D measurement head to be inserted into cavities to be measured without any feeds (other than the guide wire). In this case, the battery powers both the micro display and the image sensor, wherein the image sensor data representing the reflection of the projected image can be either transmitted wirelessly or stored.

Abstract: An endoscope measures the topography of a surface. The endoscope contains a projection unit and an imaging unit. The projection unit and the imaging unit are arranged successively in relation to an axis of the endoscope. The configuration of the projection unit and the imaging unit arranged axially behind one another on the axis permits a significantly smaller endoscope configuration.

Abstract: An endoscope measures the topography of a surface. The endoscope contains a projection unit and an imaging unit. The endoscope is characterized in that an objective unit is provided as a component both of the projection unit and the imaging unit. By the integration of the projection unit and the imaging unit, which both use a common objective unit, the structural volume required by both units is reduced resulting in a smaller endoscope.

Abstract: The invention describes an optical deflection element for the refractive production of a spatially structured bundle of light beams fanned concentrically to an optical axis of the deflection element. The optical deflection element has a base body made of optically transparent material, and has a light input and output side. The light input side is configured such that a primary bundle of light beams can be coupled in the base body. The light output side has a cylindrically symmetrical contour, which defines a recess in the base body. The fanning of the primary bundle of light beams is achieved by refraction on rotationally symmetric interfaces, which are variably inclined relative to the optical axis. The invention further relates to an optical measuring device for the three-dimensional measurement of a cavity in an object and a method for producing a concentrically fanned, spatially structured bundle of light beams.

Abstract: An apparatus for recording a shape of a section of the human ear is provided. The apparatus has a recording device for recording a spatial shape of a first and a second subsection of the section and for recording a position or a variable representing the position of the first and the second subsection relative to a predetermined optical feature of the section. The apparatus has an evaluation device for obtaining shape information about the section by combination of the shapes of the subsections based on the recorded positions or the variables representing the respective position. This enables a number of individual images to be joined together into a three-dimensional map based on natural features in the auditory canal, such as skin flecks or veins for example.

Abstract: An apparatus for recording a shape of a section of the human ear is provided. The apparatus has a recording device for recording a spatial shape of a first and a second subsection of the section and for recording a position or a variable representing the position of the first and the second subsection relative to a predetermined optical feature of the section. The apparatus has an evaluation device for obtaining shape infoimation about the section by combination of the shapes of the subsections based on the recorded positions or the variables representing the respective position. This enables a number of individual images to be joined together into a three-dimensional map based on natural features in the auditory canal, such as skin flecks or veins for example.