Abstract: The invention aims at providing low-cost iris image pickup apparatus for picking up iris images at a high accuracy.

Abstract: A distance measuring apparatus is disclosed, which measures the entire image of a target object by employing a light-section method within a short time, without assigning any specific feature to light beams having a beam form obtained by passing through slits. The apparatus comprises a device for simultaneously emitting such light beams; first and second image taking devices for taking an image obtained by light reflected by the target object, where the distance between the first image taking device and the beam emitting device is relatively short while the distance between the first image taking device and the beam emitting device is relatively long; a section for estimating the distance to the target object based on the image taken by the first image taking device; and a section for determining the distance based on the estimated result and on the image taken by the second image taking device.

Abstract: A three-dimensional image is derived from two-dimensional images. At least one of the two-dimensional images has a predetermined number of pixels. Depth measurements are derived from the two-dimensional images. The number of derived depth measurements is substantially equal to the predetermined number of pixels. The three-dimensional image is derived from the two-dimensional digital images and the depth measurements.

Abstract: An image display method for a rearview camera for displaying an image shot by a rearview camera mounted on a vehicle on a screen that can be viewed from a driver's seat, the method includes the step of displaying an auxiliary line image indicating the straight rear direction of the vehicle superimposed on the image shot by the vehicle on the screen. When the vehicle has approached the trailer within a predetermined range, an image from the rearview camera is converted to an image from a virtual overhead viewpoint then displayed on the screen. The driver easily back the vehicle to bring the hitch in the blind spot at the rear of the vehicle to coincide with a coupling member on the trailer while watching the screen display.

Abstract: There are provided a displaying means arranged at a position that can be looked at from a driver's seat of a vehicle, an image picking-up means for picking up an image of a rear portion of the vehicle containing at least a part of a hitch that is provided to the rear portion of the vehicle, and an image processing means for causing the displaying means to display a synthesized image that is obtained by image-processing an image picked up by the image picking-up means, wherein a hitch image 35a of own vehicle in addition to an image 41a of a trailed vehicle and an image 42a of the coupler are displayed on a screen of the displaying means. As a result, the relative positional relationship between the hitch and the destination coupler can be checked on the screen and thus the hitch coupling operation can be facilitated.

Abstract: An image signal output device for use in a passive range finder. The device can correct the sensitivities of sensor arrays according to the amount of incident light. The output device has line sensor portions that produce pixel outputs. An A/D converter portion A/D converts these pixel outputs. At this time, the A/D conversion range of the A/D converter portion is modified according to the difference in sensitivity between the line sensor portions.

Abstract: On the preferred embodiment, this system comprises two video cameras 18 and 20, a document tray 12 performing document detection, an LCD (Liquid Crystal Display) screen 10, a push button 14 for local activations, and an LED indicator 16. The main function and object of this system is to act as a front-end for a video security system able to record documents transactions. This camera system provides compatibility with any existing image storage device capable of storing and managing composite video images. If the main storage system can handle and store composite video images, this camera system is compatible with it and can get any advanced feature shown in the main video system.

Abstract: For the video recording of a field illuminated by a lamp, especially a surgical lamp, where at least one light beam for illuminating the field emerges from a light exit area of a lamp housing in the direction of a predetermined housing axis, the optical axis of a video camera mounted with freedom to swivel a certain distance away from the exit point of the light beam is shifted automatically by a positioning element until the axis at least approximately intersects the light beam in the area of the illuminated field. The positioning element is driven by signals from a control unit. The video camera is preferably shifted in a stepwise manner. The distance to the illuminated field is determined by the fine focusing of the camera by the autofocus function, and then signals are transmitted from the control unit to the positioning element of the camera to compensate for the parallax between the optical axis of the camera and the light beam or beams emerging from the lamp.

Abstract: A precision motion platform carrying an imaging device under a large-field-coverage lens enables capture of high resolution imagery over the full field in an instantaneous telephoto mode and wide-angle coverage through temporal integration. The device permits automated tracking and scanning without movement of a camera body or lens. Coupled use of two or more devices enables automated range computation without the need for subsequent epipolar rectification. The imager motion enables sample integration for resolution enhancement. The control methods for imager positioning enable decreasing the blur caused by both the motion of the moving imager or the motion of an object's image that the imager is intended to capture.

Abstract: A military range scoring system with a plurality of imagers capable of viewing reference points and impact points for ordinance aimed at the reference points, imager position controllers, and data processors and video monitors for processing and viewing data received from said imagers; and communication links between the components. The imagers are preferably infrared or near-infrared, and the system manually and/or automatically scores impacts by digital signal processing of imager data.

Abstract: A main image pickup section for picking up a main image and two or more subsidiary image pickup sections for picking up subsidiary images are used to shoot a subject. A 3-D object on which a predetermined pattern is drawn is also shot by the same image pickup sections, and parameters representing relative positions and attitudes of the image pickup sections are obtained using the images of the 3-D object. Feature points are extracted from each of the main image and the subsidiary images, and 3-D coordinates corresponding to each feature point in the main image are determined using the parameters and the feature points in the subsidiary images. Subsequently, judgment is executed and each of the feature points in the main image is accepted if the 3-D coordinates is within a designated 3-D space domain. Subsequently, subject outline points are extracted from the accepted feature points. Then, part of the main image which is surrounded by the subject outline points is extracted as the subject image.

Abstract: In an image processing method and an image processing apparatus in which information on the distance to a subject is successively allocated to each pixel of a processing target picture to generate a distance image, a key signal is generated from the processing target picture, and a distance image is subjected to keying processing on the basis of the key signal, whereby the outline can be displayed clearly when pictures are superimposed to generate a composite image on the bass of the distance image.

Abstract: A three-dimensional object X is recognized by a method which includes the steps of: a) storing in a memory, a set of two-dimensional enrollment images X.sub.1 -X.sub.n of the object X as viewed from n different directions; b) acquiring a two-dimensional access image of an unidentified object as viewed from a new direction which lies between the n different directions; c) generating, from the stored set of images, a rotated two-dimensional image of the object X as viewed from a direction which is closer to the new direction than any of the n different directions; and, d) identifying the unidentified object as the object X only if a correlation between the image of the unidentified object and the rotated image exceeds a predetermined threshold. By generating the rotated image, misalignments with the access image of the unidentified object are reduced; and thus the predetermined threshold can be raised to reduce recognition errors.

Abstract: A military range scoring system with a plurality of imagers capable of viewing reference points and impact points for ordinance aimed at the reference points, imager position controllers, and data processors and video monitors for processing and viewing data received from said imagers, and communication links between the components. The imagers are preferably infrared or near-infrared, and the system manually and/or automatically scores impacts by digital signal processing of imager data.

Abstract: A system for high accuracy calibration of a scanning system, which provides an object for calibration of a known geometry, such as a plane or a sphere. Upon that object is marked a pattern of points or geometric shapes, such as a set of equilateral triangles or their vertices. A set of computer programmed elements process photographic images of the object (containing a depiction of the pattern of geometric objects) and scanned images of the object to calibrate to high precision parameters, including a focal point relationship value for scanning systems which use a camera as an image collector (which describes the relationships between the focal point of the lens and the light/image collection device of the camera), a set of values to correct for distortion of the lens, the relative distance between the image collector and the scanner light source and also an initial angle to determine light position scanning.

Abstract: A method and apparatus for performing a lens calibration procedure which is executed for each camera and lens pair. The calibration procedure is performed to determine the camera and lens nodal point offset and field of view, plus image offset in both the horizontal and vertical directions as a function of lens zoom and focus settings. The method includes the step of providing apparatus which enables the semi-automatic and rapid entry of data points representing lens zoom and focus setting information, thereby eliminating a source of human error. The general method includes the steps of creating a real environment and an identical virtual environment which is a copy of the real environment. The image from the virtual environment is superimposed on a monitor displaying the real environment. The camera's zoom and focus rings are incremented through a plurality of values by discrete steps. For each value, the virtual environment's settings are manipulated until the real and virtual images are identical.

Abstract: A data storage device located at a first location stores data representing plural images of a dynamic video image stream. A host processor located at a second location stores a program file representing a search algorithm for searching for a desired image among the images represented by the data stored at the first location. The program file representing the search algorithm is downloaded from the host processor to the data storage device. The downloaded program file is used to search for the desired image in the video data stored in the data storage device at the first location.

Abstract: A camera tracking system determines the three dimensional (3D) location and orientation of the film plane of a camera providing live recording of a subject, thereby defining a 3D coordinate system of the live action scene into which animated objects or characters may be automatically mapped with proper scale and 3D visual object by a computer animation system.

Abstract: A vision-based controller provides translational and rotational control signals to a computer or other input driven device. The controller includes a tracked object, positioned in space and having at least a first reference point and a second reference point. The tracked object is capable of three dimensional rotational and translational movement. At least one imaging device, positioned at a distance from the tracked object, generates an image of the tracked object, at plural succeeding times. A processor unit receives the image, comprised of pixel values, from the imaging device; identifies pixels corresponding to a current center of the tracked object, the first reference point and the second reference point; determines a current dimension (i.e., size or radius) of the tracked object; calculates a translational and rotational displacement of the tracked object based on the above information; and generates control signals in accordance with the transitional and rotational displacement.

Abstract: A supervisory system in which a plurality of supervisory points (1) to (N) are monitored one after another by a monitor camera. The supervisory points are switched at random based on random numbers. A period of monitoring each supervisory point is set at random based on the random numbers. When random monitoring is carried out, it is controlled in order not to select the same supervisory point in succession.

Abstract: A method is disclosed for generating a categorical depth map of a scene using passive defocus sensing. In a preferred embodiment three synchronized CCD cameras focused at different distances detect three images of the same scene. An image processor partitions the images into an array of regions and calculates a sharpness value for each region. The sharpness value for a region is calculated by summing over all pixels (x,y) in the region the absolute difference in the intensity value of a pixel (x,y)( with pixel (x-k,y-l), where k and l are constants. The image processor then constructs a depth map of the scene by determining for each region the image with the greatest sharpness in that region. An application of the invention to a mobile robot control system is described in detail. Among other applications, the method may be used for collision avoidance, object detection, and speed measurement.

Abstract: N lines of line-shaped light are projected onto the object by means of a measuring light projecting lens. The light carrying the image of the object is passed through the eyepiece lens 17 in an endoscope 6 and the auxiliary lens 30 in a measuring head 11 and split into two beamlets by a beam splitter 31, with one beamlet being focused at a position coinciding with the entrance end faces of measuring light's position detecting fibers 33(l) to 33(m). The line-shaped light images of the object thus formed in positions coinciding with the entrance end faces of measuring light's position detecting fibers 33(l) to 33(m) are scanned linearly by those linearly aligned fibers as they are oscillated and driven by a fiber scanner 36. The scanned line-shaped light images are then subjected to the necessary signal processing in a signal processor circuit 35 such as to measure the three-dimensional configuration of the object.

Abstract: Detailed images of problem areas occurring in the surface of a structure, such as a multiple story building, are obtained by infrared and visual spectrum cameras positioned proximate to the problem area. A remote camera records a reference field of view that includes the local cameras and their operator, such that the area of interest may be positioned on the surface of the building. A helmet camera worn by the operator records the detailed images and transmits them to a base location.

Abstract: A laser-directed ranging system for use in telerobotics applications and other applications involving physically handicapped individuals. The ranging system includes a left and right video camera mounted on a camera platform, and a remotely positioned operator. The position of the camera platform is controlled by three servo motors to orient the roll axis, pitch axis and yaw axis of the video cameras, based upon an operator input such as head motion. A laser is provided between the left and right video camera and is directed by the user to point to a target device. The images produced by the left and right video cameras are processed to eliminate all background images except for the spot created by the laser. This processing is performed by creating a digital image of the target prior to illumination by the laser, and then eliminating common pixels from the subsequent digital image which includes the laser spot.

Abstract: A laser-directed ranging system has utility for use in various fields, such as telerobotics applications and other applications involving physically handicapped individuals. The ranging system includes a single video camera and a directional light source such as a laser mounted on a camera platform, and a remotely positioned operator. In one embodiment, the position of the camera platform is controlled by three servo motors to orient the roll axis, pitch axis and yaw axis of the video cameras, based upon an operator input such as head motion. The laser is offset vertically and horizontally from the camera, and the laser/camera platform is directed by the user to point the laser and the camera toward a target device. The image produced by the video camera is processed to eliminate all background images except for the spot created by the laser.

Abstract: This invention relates to a multi-lens imaging apparatus and, more particularly, to a multi-lens imaging apparatus for obtaining a single high-fine image by synthesizing a plurality of images obtained by picking up an image of a common object using a plurality of imaging systems and to an apparatus which can provide an image having an aspect ratio different from that of an image obtained by a single imaging apparatus, especially, a panoramic image, by synthesizing a plurality of images using a plurality of imaging systems. This invention has as its object to obtain a high-fine image by synthesizing images from a plurality of imaging systems and, more specifically, to correct mis-registration such as keystone distortions generated in the images.

Abstract: Any shape lead formed on various types of drum may be measured without employing an exclusively-used profiling plane by a lead shape measuring apparatus. The lead shape measuring apparatus includes a shape measuring unit for measuring the shape of a lead formed on a drum used in a VTR while a theoretical value suitable for this lead shape is selected based on the type of drum.

Abstract: An obstacle detecting system for a motor vehicle which is capable of detecting not only the distance to an obstacle(s) existing in front of the motor vehicle and the width thereof, but also its height to thereby allow a motor vehicle control to be effected more appropriately with high reliability. The distance to the object and its width are detected by a laser radar type distance detecting unit, while the distance to the object lying within a window preset by a window setting device is also detected by a distance detecting circuit of a stereoscopic video camera unit. An object size determining unit is provided for selecting a window corresponding to a distance value detected by the stereoscopic video camera unit and which coincides with a distance value calculated by the laser radar type distance detecting unit, to thereby determine the size of the object on the basis of the preset position of the selected window.

Abstract: A number of items present in a substantially linear queue are counted by examining two images of a scene including the queue that are taken from vantage points offset relative to each other. Depth information for portions of the scene is obtained by correlating equal sized patches in the images at a predetermined number of offsets, since closer objects will require more of an offset to align one image relative to the other than objects further away from video cameras creating the two images. A match score is determined at each offset. The best offset and the number of offsets to achieve it are stored for each patch. A plot is then created for offsets versus the number of patches at each offset having the best match. Peaks in the plot indicate the number of objects in the queue.

Abstract: A contact-free tridimensional process for measuring the form of an object, such as a foot, using digitization. This process consists of setting the object on a flexible cradle, for the two-phase measurement of the object. The first phase covers the upper part of the object. Once the object has been removed from its support, the second phase consists of measuring its imprint. Both parameters measured are processed in order to reconstitute the complete outer shape of the object. The device used to perform this process requires sensors which take pictures, and a computer. This process and device are specially relevant to the production of made-to-measure footwear of both the orthopaedic and non-orthopedic variety.

Abstract: Arranged within a measuring-light generating unit of an endoscope apparatus for three dimensional measurement, according to the invention, are measuring means, a lamp for outgoing a normal illuminating light, and a laser for outgoing a measuring light. Connected to the measuring means is a signal line which is connected to a CCD. Further, an illuminating light outgone from the lamp is condensed by a condenser lens, and is incident upon an incident end surface of a light guide. Furthermore, the measuring light outgone from the laser is condensed by the condensing lens, and is incident upon the incident end surface of the image guide. Moreover, the incident end of the image guide is connected to scanning means formed by a piezo-electric element, a speaker (voice coil) or the like through a connecting element. The scanning means is operated whereby the incident end of the image guide is reciprocally moved in a direction perpendicular to an optical axis of the measuring light.

Abstract: A vehicle-surroundings monitoring apparatus is free from mistakenly identifying a lane marker on a road surface or a guard rail as a vehicle traveling in the blind spot of a nearby lane. A distance detecting section detects the distance up to a vehicle which is traveling in the blind-spot of a nearby lane and which is captured by a plurality of windows as set on a display screen. A detecting range restricting section restricts a distance detecting range for each window to a predetermined range to thereby select as a nearby vehicle an object to which the distance is within the predetermined range.

Abstract: A system for three dimensional mapping of a submarine surface includes (a) a light source for projecting a beam of collimated light that is reflective from the submarine surface including a laser of confined cross-sectional area, (b) a scanning unit to intercept the beam and project it in a first direction onto a selected area of the surface as a raster of pixels each at controlled X and Y coordinates of said surface and produce a reflection of the raster in a second direction, (c) a scanner processor to control the X and Y coordinates, (d) a compound lens capable of intercepting the raster reflection and focusing it as a scan image on a reception plane offset spatially from the scanning unit, (e) a position sensitive detector having a planosurface positioned substantially on the reception plane to sense the scan image and convert each pixel of the reflected raster into a pair of differential currents corresponding to the X and Y coordinates of the each pixel at said reception plane, (f) a signal processor to

Abstract: An obstacle detecting device for a vehicle comprises a pair of image sensors for taking an image of an object surrounding a vehicle, a display image plane for displaying an image data taken by said pair of image sensors as an image, and a plurality of windows designating regions of said image on said display image plane. The device further comprises an optical obstacle detecting device for detecting distances from said vehicle to said object in said regions of the image designated by said plurality of windows for the respective windows to thereby detect an obstacle, a laser radar device mounted on the vehicle for radiating a radar beam to the object surrounding the vehicle to thereby detect said obstacle, and an obstacle selecting device for selecting either the obstacle detected by said optical obstacle detecting device or the obstacle detected by said laser radar device mounted on the vehicle.

Abstract: A multi-image single passive sensor depth recovery system is disclosed to determine the depth of an object in a scene, and includes a passive imaging sensor which images radiation from an object at a sensor plane. A lens having a multiplicity of facets located on its surface nearest the object is placed in optical communication with the sensor so that each facet directs radiation from the object to sensor plane to form a corresponding image of the object thereon. The size and shape of each of the facets are selected to position each image on the sensor plane at a predetermined position thereon.

Abstract: A lead shape measurement apparatus includes a first perspective imaging device for photographing external leads to be measured, from an oblique direction; a second perspective imaging device for photograping external leads to be measured, from an oblique direction different from that of the first perspective imaging device and so as to include a same photographic field of vision as the first perspective device; a first measurement point determination element for determining a center point of two intersecting virtual straight lines which intersect two ridges of the external leads to be measured in an image plane by photography of the first perspective imaging device; a second measurement point determination element for setting epipolar line in the image plane by the second perspective imaging device on the basis of sight lines when a measurement sampling point of the first perspective imaging device is photographed, and for determining a center point of two intersecting virtual straight lines which intersect t

Abstract: An inter-vehicle distance detecting device comprising: a pair of image sensors on which an image of an object in front of a driving car is formed by a pair of optical systems; an image display means for displaying a first image information taken by one of the pair of image sensors; a window setting means for setting a plurality of windows partitioning a region of the image on the first image information; a distance detecting means for calculating respective distances from the driving car to the object surrounded by the respective windows by comparing a second image information in the respective windows set by the window setting means with a third image information taken by the other of the pair of image sensors corresponding to the second image information and by detecting a shift between the second image information and the third image information; a determining means for determining the object for measurement based on the distances to the respective windows provided by the distance detecting means; a gate s

Abstract: A plurality of video cameras (7a-d) are mounted on a table which is adapted support a workpiece or other object to be measured, and the mounting of each camera to the table provides for controlled universal orientation of each camera via an articulating head having provision for selective rotation about each of two orthogonally related axes. The table is provided with vibration damping, whereby both the measured object, and the cameras which provide triangulation data for each measurement, can operate from the same rigid base, isolated from external sources of mechanical shock. The video signals of the cameras are fed, along with instantaneous optical-axis orientation data for each camera, to the computer of a coordinate-measuring machine.