Abstract: A combined imaging plate scanning and erasing system, comprising: (a) a housing; (b) an imaging plate cassette infeed assembly positioned within the housing, the maging plate cassette infeed assembly comprising: (i) a mechanism to pull an imaging plate cassette into the housing; (ii) a mechanism to open the imaging plate cassette; and (iii) a mechanism to remove an imaging plate from the cassette; (c) a scanner positioned within the housing; (d) a curved path erasing assembly positioned between the imaging plate infeed assembly and the scanner; and (e) an imaging plate transportation assembly to move the imaging plate back and forth in a path extending from the imaging plate cassette, past the erasing assembly and through a scan area adjacent to the scanner.

Abstract: A method of compensating for differences in detective gain between a plurality of different scanning heads in a multiple scanning head imaging plate scanner, comprising: (a) scanning each of the scanning heads across an imaging plate thereby determining the detected signal at successive locations across the imaging plate for each of the scanning heads; (b) calculating an inverse relationship to the detected signal at successive locations across the imaging plate for each of the scanning heads; (c) scanning each of the scanning heads across an imaging plate containing an image thereon, thereby determining an image value at the successive locations across the imaging plate for each of the scanning heads; and (d) applying the inverse relationship to the determined image values at the successive locations across the imaging plate for each of the scanning heads.

Abstract: A cassette is provided for use with a radiographic imaging system using a photo-stimulable media. The cassette comprises an optical transmitter adapted to send an optical output and a controller, wherein the optical transmitter automatically changes the optical output when so instructed by the controller. The cassette has a housing having said optical transmitter and controller, wherein the optical transmitter is positioned to be externally observable and the housing is suitable for containing the photo-stimulable media suitable for use with radiographic imaging.

Abstract: A method of compensating for differences in detective gain between a plurality of different scanning heads in a multiple scanning head imaging plate scanner, comprising: (a) scanning each of the scanning heads across an imaging plate thereby determining the detected signal at successive locations across the imaging plate for each of the scanning heads; (b) calculating an inverse relationship to the detected signal at successive locations across the imaging plate for each of the scanning heads; (c) scanning each of the scanning heads across an imaging plate containing an image thereon, thereby determining an image value at the successive locations across the imaging plate for each of the scanning heads; and (d) applying the inverse relationship to the determined image values at the successive locations across the imaging plate for each of the scanning heads.

Abstract: A combined imaging plate scanning and erasing system, comprising: (a) a housing; (b) an imaging plate cassette infeed assembly positioned within the housing, the maging plate cassette infeed assembly comprising: (i) a mechanism to pull an imaging plate cassette into the housing; (ii) a mechanism to open the imaging plate cassette; and (iii) a mechanism to remove an imaging plate from the cassette; (c) a scanner positioned within the housing; (d) a curved path erasing assembly positioned between the imaging plate infeed assembly and the scanner; and (e) an imaging plate transportation assembly to move the imaging plate back and forth in a path extending from the imaging plate cassette, past the erasing assembly and through a scan area adjacent to the scanner.

Abstract: A cassette is provided for use with a radiographic imaging system. The cassette comprises an optical transmitter adapted to send an optical output. The cassette further comprises of a housing having said optical transmitter, wherein the optical transmitter is positioned to be externally observable and the housing is configured to be received by a radiographic imaging system. The optical transmitter changes said optical output after the cassette has been exposed to X-rays in the radiographic imaging system.

Abstract: Method for creating a three dimensional model of a scene based on a two dimensional image of the scene. The method includes identifying a plurality of surfaces in the image, identifying a plurality of constraints between the surfaces in the image, identifying a pattern on a first surface in the image, identifying a first constraint between the pattern and another feature of the image, and generating a three dimensional model of the scene based on the surfaces, the plurality of constraints, and the first constraint. The pattern may include a grout line in a tile surface or an identifying a mark on a wall paper.

Abstract: Apparatus is disclosed for rapidly computing the Gaussian of Laplacian convolution of the point values in an image. Speed and hardward efficiency are achieved through the use of the separability of higher dimensional Gaussians, the binomial approximation to the one-dimensional Gaussian, the zero mean of Laplacian filtered signals, the reduced sampling requirements for low pass filtered signals, and a binary correlator that does many correlations in parallel, allows correction for geometric distortion and variable sampling density.

Abstract: A method for determining alignment and critical dimensions of regions formed on a semiconductor structure during one or more process steps includes the steps of defining a pattern A at a first location on the semiconductor device during a process step, defining a second independent pattern B at the first location on the semiconductor structure during another process step, acquiring an image of the combination A and B of both the first and second patterns, filtering that image to attenuate higher spatial frequencies while preserving lower spatial frequencies, and comparing the sign result of the filtered image with the sign result of a stored image of the individual patterns to determine alignment errors. In the preferred embodiment the step of filtering includes taking the Laplacian of Gaussian convolution of the image and saving the sign of the result. The comparison between the filtered image and the stored image uses the correlation function for the filtered images.

Abstract: An improved lead for surface-mounted electronic components is described. The improved lead includes an opening through the portion of the lead to be placed in contact with the printed circuit board for soldering. The opening, having a diameter approximately equal to the thickness of the lead, enables the detection of correctly-soldered joints using automated inspection equipment. When the lead is correctly soldered, solder is drawn by capillary action into the opening where it forms a meniscus. By automatically detecting the curvature of the meniscus, the quality of the solder joint may be determined.

Abstract: A method and apparatus for measuring feature dimensions uses selective dark-field illumination to illuminate a target from a single direction at a low angle to the plane of the target. Opposing edges of the target elements are distinguished and captured in separate images. The images are filtered using a Gaussian convolution operator and a Laplacian operator. The signs of the filtered images are correlated at various offsets. The relative displacement of the images which produces the maxium correlation value is used to calculate the average dimension of the target elements.

Abstract: A method for directly measuring the area of a topological surface with an arbitrary boundary shape lying in a fixed elevation different from a fixed surrounding surface elevation relies upon binocular stereo vision. Three stereo correlation measurements are made, one over a window entirely within the surface of interest, a second over a window outside the surface of interest and within the surrounding area, and a third over a window fully containing the surface of interest as well as some of the surrounding area. The correlation measured in the third case is the linear sum of the correlation value over each of the first two cases weighted by the proportion of the window that the two surfaces occupy.

Abstract: A system for shape recognition includes a spatial convolution filter which has an approximately band pass response. The filter is applied to a camera image and the sign of the filter's output is used to produce a second binary image. At sufficiently coarse (low center spatial frequency) scales, this image tends to change isolated shapes into single blob-shaped regions. The same convolution operator is then reapplied to this binary signal blob image and peaks in the output of the second convolution are used as the primitive elements for building a shape description. By processing the image with operators of two different scales the peaks shift position. The location of peaks from the coarse scale operator together with vectors to the fine scale peaks provide a description of the shape for a look-up table or other system.