Abstract: To display the information, as an image, regarding the moving portion of the object without the aid of the doctor, the image is reconstructed on the basis of the observed NMR signal and the image phase information is calculated from the image intensity information derived from the reconstructed image, and the phase information calculated is displayed as the image.

Abstract: To display the information, as an image, regarding the moving portion of the object without the aid of the doctor, the image is reconstructed on the basis of the observed NMR signal and the image phase information is calculated from the image intensity information derived from the reconstructed image, and the phase information calculated is displayed as the image.

Abstract: In an unsharp masking processing for sharpening images such as radiographic images, an emphasizing coefficient of an image and parameters for real-time change of picture quality are set interactively. The entire image is divided into a plurality of regional images and filtering optimized for each pixel image is effected using a standard deviation computed for each regional image and a density difference between pixel images.

Abstract: In order to make an accurate display possible even in case image data having been subjected to a Fourier transformation have negative values, the sampling timing deviations of measured signals having phase errors based on various factors are detected from the gradient of the linear components of the image data having been subjected to the Fourier transformation, and the density values of the image having the detected timing deviations corrected are displayed.

Abstract: A sample surface structure measuring method using a scanning type electron microscope featured by scanning the sample surface by an electron beam incident from above the sample surface; measuring the amount of the secondary electrons discharged according to the three-dimensional structure of the sample surface by the scanning; and determining the three-dimensional structure of the sample surface from the amount of the secondary electrons measured based on a relation existing between the predetermined three-dimensional structure and the amount of the secondary electrons discharged.

Abstract: A stereoscopic measuring method and system for measuring the sectional shape of a step formed object such as a semiconductor element carrying a resist and wiring on a wafer. The method and system comprises the steps of means for detecting the images of the step formed object from at least two directions so as to form pictures corresponding to the images detected from different directions, determining the distances D between the upper and lower edges of a step in respective pictures; determining the angles .theta. of inclination of the edge lines with respect to the axis of the pictures, determining the angles of inclination of the standard plane fixed to the step formed object with respect to the viewing directions, and determining, as significant factors of the shape to be determined, the height H and width W of the step formed object.

Abstract: In a nuclear magnetic resonance imaging method and apparatus, the center position of each of a plurality of gradient magnetic fields are controlled to shift the positions of sampling points in a plurality of reconstructed images of the same part so that they do not overlap with each other in a sampling interval. As the result, the number of sampling points is effectively increased, thereby increasing the spacial resolving power of reconstructed images by NMR signals.

Abstract: By using a low-frequency component of attitude data of an uncorrected image resulting from scanning the ground by means of a sensor mounted on a satellite, low-frequency distortion correction coefficients are calculated. By using a high-frequency component of attitude data, a change rate is calculated. From said low-frequency distortion correction coefficients and said change rate, distortion correction coefficients covering a high frequency are calculated. By applying bidirectional resampling to the uncorrected image by using said distortion correction coefficients covering a high frequency, a corrected image is obtained.

Abstract: Two images to be registered are divided into a plurality of image portions. A standard point for the registration is extracted for each of the image portions divided. Coordinate transformations between two images for the registration are conducted for each image portion by using the standard point extracted. The coordinate values transformed between the image portions are smoothed in the case that they discretely change so that they may be smoothly connected.

Abstract: An NMR imaging apparatus is disclosed, which comprises imaging means for measuring a cross section of an object to be inspected with a high speed and for reconstructing an image of said cross section, means for specifying a region of interest in the image of the object to be inspected thus reconstructed by said imaging means, and gradient magnetic field control means for controlling a gradient of a magnetic field so that the gradient of the magnetic field at the specified region of interest is substantially greater than that at the other regions, whereby an enlarged image with high image quality at the region of interest is obtained by reconstructing an image of said region of interest after having raised the gradient of the magnetic field at least at said region of interest by means of said gradient magnetic field control means.

Abstract: Azimuth compression processing is carried out by the steps of determining Doppler rate time change data a reconstructed scene from orbit data of a sattelite or aircraft, determining azimuth coordinates transformation data of an image after range compression, that is, resampling position designation data, from the Doppler rate time change data, resampling the image after range compression, in the azimuth direction using the azimuth coordinates transformation data, keeping unaltered the Doppler rate of a point image relating to the image after coordinates transformation irrespective to the position in the azimuth direction inside the scene, and thereafter using FFT.

Abstract: A step of changing the frequency of a rotational field for nuclear magnetic resonance measurement of a medical nuclear magnetic resonance imaging apparatus is set to be smaller in a region of interest in a cross-section of an object to be examined than that in regions of less interest. In the less interesting regions of less interest, the spatial sampling interval is made large and an interpolating calculation is performed for the obtained projection data to provide data at the same spatial interval. The image reconstruction can be performed using an ordinary image reconstruction algorithm.