A system for a tracker for cursor navigation is described herein. The system includes a display, camera, memory, and processor. The memory that is to store instructions and is communicatively coupled to the camera and the display. The processor is communicatively coupled to the camera, the display, and the memory. When the processor is to execute the instructions, the processor is to extract an object mask of an object and execute an optical flow on good feature points from the object mask. The processor is also to estimate a movement of the object and render a cursor on the display based on the movement of the object.

An electronic circuitry of a spectrometer, configured to electrically connect with an optical sensor of the spectrometer, includes a memory unit configured to store a measurement setting, a trigger line configured to transmit at least one trigger signal, and a control unit electrically connected to the trigger line and the memory unit. The control unit is configured to receive the trigger signal from the trigger line so as to instruct the spectrometer to perform a plurality of exposure measurements continuously under the measurement setting, and to save a plurality of spectral data acquired from the exposure measurements into the memory unit. A spectrometer using the electronic circuitry for performing the exposure measurements and a measuring method of the spectrometer are also provided.

A method is provided for generating a three dimensional frame. The method comprises the steps of: retrieving information that relates to a plurality of images of a target captured by two image capturing devices; determining data that will be applied for analyzing objects of interests included in the captured images; calculating disparity between groups of corresponding frames, wherein each of said groups comprises frames taken essentially simultaneously by the two image capturing devices; determining an initial estimation of a disparity range for the frames included in the groups of the corresponding frames; evaluating a disparity range value for each proceeding group based on information retrieved on a dynamic basis from frames included therein, and changing the value of said disparity range when required; and applying a current value of the disparity range in a stereo matching algorithm, and generating a three-dimensional frame for each proceeding group of corresponding frames.

The present invention provided a method for animating 3D models of people.

A non-parametric method of, and system for, dimensioning an object of arbitrary shape, captures a three-dimensional (3D) point cloud of data points over a field of view containing the object and a base surface on which the object is positioned, detects a base plane indicative of the base surface from the point cloud, extracts the data points of the object from the point cloud, processes the extracted data points of the object to obtain a convex hull, and fits a bounding box of minimum volume to enclose the convex hull. The bounding box has a pair of mutually orthogonal planar faces, and the fitting is performed by orienting one of the faces to be generally perpendicular to the base plane, and by simultaneously orienting the other of the faces to be generally parallel to the base plane.

A method for testing a blood sample includes capturing, by an image analyzer, a slide sample using an imaging device to obtain a sample image; obtaining, by an image analysis unit of the image analyzer, image analysis data by analyzing the sample image; calling, by a CBC data call unit of the image analyzer, complete blood count (CBC) result data of a complete blood sample that corresponds to the slide sample from a laboratory information system (LIS) server; comparing, by a comparison operation unit of the image analyzer, the CBC result data and the image analysis data based on data correlation; and outputting, by an information output unit of the image analyzer, the CBC result data, the image analysis data, and comparison result.

A correction and capture method for a biological particle capture device includes: providing an image observation unit facing a side of a carrier platform on an observation platform and orientating a view region of the image observation unit towards a carrier region of the carrier platform for taking images; performing a fixed point displacement on the observation platform by the image observation unit based on several observation basic coordinates on an observation platform coordinate system and defining a correction point in an image of the view region when the image observation unit is positioned at one observation basic coordinate and take the image; controlling a capture portion of a particle capture tool to enter the image of the view region; when the image observation unit discovers a particle in the carrier region of a carrier, a terminal device uses a specific conditional formula to obtain a relative capture coordinate for correspondingly moving the particle capture tool to a position of the particle.

A line-of-sight direction tracking method includes: providing corneal reflection for an eye of a user by using a plurality of light sources, and capturing images including a face of the user by using a plurality of cameras; determining coordinates of a light source reflection point and coordinates of a pupil center in a world coordinate system by means of a human eye feature set acquired from the images including the face, based on hardware calibration parameters; determining a line-of-sight optical axis according to the coordinates of the light source reflection point and the coordinates of the pupil center, and reconstructing, based on the line-of-sight optical axis, a line-of-sight visual axis by means of a compensation angle; and determining a point of sight on a target object according to the line-of-sight visual axis and a position of the target object in the world coordinate system.

The edge detection method according to an embodiment of the present disclosure may include: convolving pixels to be processed, based on templates in respective predetermined directions for edge detection operators and a logarithm of grayscale values for respective pixels adjacent to the pixels to be processed, so as to obtain brightness differential approximations in the respective predetermined directions for the pixels to be processed; calculating gradient magnitudes of the pixels to be processed, based on the brightness differential approximations in the respective predetermined directions for the pixels to be processed; comparing the gradient magnitudes of the pixels to be processed with a gradient magnitude threshold, and selecting the pixels to be processed whose gradient magnitudes are larger than or equal to the gradient magnitude threshold as edge pixels; and extracting a contour of a target within an image, based on the resultant edge pixels.

A PPG imaging system and method processes images to derive remote PPG signals. Images of a region of interest are received, and landmarks are identified in each of a set of the images. For pairs of images of the set, the landmarks between first and second images of the pair are paired, and the second image is deformed to match the landmarks in that second image with the landmarks in the first image thereby providing motion compensation. A remote PPG signal is obtained from a set of the motion-compensated images.