The apparatus of the present invention preferably comprises an image sensor, an orientation sensor, a memory and a processing unit. The image sensor is used for generating captured image data. The orientation sensor is coupled to the image sensor, and is used for generating signals relating to the position of the image sensor. The memory, has an auto-rotate unit comprising program instructions for transforming the captured image data into rotated image data in response to the orientation sensor signals. The processing unit, executes program instructions stored in the memory, and is coupled to the image sensor, the orientation sensor and the memory. The method of the present invention preferably comprises the steps of: generating image data representative of an object with an image sensor; identifying an orientation of the image sensor relative to the object during the generating step; and selectively transferring the image data to an image processing unit in response to the identifying step.

 A method for generating matched contour profiles includes the steps of trimming or extending an input wire to create a modified input wire and slicing a solid part in the plane of the modified input wire to create an intersection wire. The method also includes the steps of imprinting the modified input wire and the intersection wire on a disk to create one or more faces of interest, determining which faces of interest constitute matched contour faces, and extracting edges of an identified matched contour face to create a closed wire. Matched contour profiles enable solid modeling programs to generate solid models that are less prone to failure because the matched contour profile automatically adapts to changes in the shape of the solid model.

 The present invention is directed to a bi-directional optical monitor interconnect. The bi-directional monitor interconnect of the present invention includes an optical conductor with a first and second end. Disposed on the first end of the optical conductor is a first optical communication device and a first optical receiving device. Disposed on the second end of the optical conductor is a second optical communication device and a second optical receiving device. The first and second optical communication devices are capable of transmitting data over an optical connection. The first optical communication device is suitable for communicating via a first wavelength and the second optical communication device is capable of communicating over a second wavelength. The first receiving device is capable converting the second wavelength into electrical signals and the second receiving device is capable of converting the first wavelength into electrical signals.

 A method determines alignment of images in high dimensional feature space. The method comprises registering a source image of a reference modality to a target image of a second modality with an algorithm based upon a measure of information affinity present in both of the source and target image to create a registered image. Next, a plurality of feature vector are extracted from the registered image for each of the source and target images and attributes of the joint distribution of feature vector are captured using an entropic graph spanning the features. Edge lengths are between proximal feature vectors are extracted from the entropic graph and a similarity measure of one of an a-divergence estimate or an a-affinity estimate is constructed based upon these edge lengths to quantify whether the source and target image are sufficiently registered.

 A video game device calculates an angle of an object 71, etc., with respect to a reference direction in a three-dimensional space. Then, the video game device defines a virtual cylindrical model for each of a plurality of objects so that a bottom surface of each cylindrical model is perpendicular to the reference direction. The video game device defines a plurality of cylindrical models for a predetermined object if the inclination of the predetermined object with respect to the reference direction is greater than a predetermined angle. Then, the video game device determines whether or not the defined cylindrical models have an overlap therebetween. Then, if two cylindrical models are determined to be overlapping with each other, the video game device gives a predetermined change to the two objects in response to the collision.

 A method of coding a view in a CAD drawing comprises: identifying a feature of the view; extracting properties of the feature from the CAD drawing, the properties including vector properties associated with a graphic entity or group of entities which make up the feature; generating code bits representative of the extracted properties; adding the code bits to a view code for the view; and storing the view code. A CAD drawing is selected for retrieval from a database of drawings by producing a CAD source drawing having a source view, coding the source view to produce a source code as described above, comparing the source code with stored view codes, calculating a similarity index for each stored view code and selecting the drawing for retrieval from the database on the basis of the similarity index.

 An image processing method is provided capable of improving a response to a user in a case where a series of images using volume data are displayed by volume rendering. When the images are displayed by animation in an oscillating manner with amplitude, the amplitude is gradually increased so as to spare time for image generation. That is, when the user specifies a parameter value, for example, a projection angle (initial value: ?=0°), for an object to be diagnosed, animation display of images C, D, and E of the object is performed with a small amplitude (?=±5°) with the initial value as a center. During the animation display, an image B (?=-10°) and an image F (?=10°) are calculated in the background. After the calculation is completed, the amplitude is increased (?=±10°) and animation display of the images B, C, D, E, and F is performed.

 A method of tracking an expected location of a head in a computerized headtracking environment having a delayed processing requirement for locating a current head position, the method comprising the step of: utilizing previously tracked positions to estimate a likely future tracked position; outputting the likely future tracked position as the expected location of the head. Kalman filtering of the previously tracked positions can be utilized in estimating the likely future tracked position.

 A multi-monitor display system is described having an arm adapted for supporting a plurality of monitors containing display screens. The system also includes a column for supporting the arm, a monitor controller assembly for electronically controlling images displayed on the screens, and a graphics assembly for sending signals to the monitor controller assembly to produce the images. The system is used in conjunction with a central processor located in a computer housing. The monitor controller assembly is disposed outside of the monitors and/or the graphics assembly is disposed outside the computer housing.