Patent application number | Description | Published |
20110299086 | SENSING DEVICE AND IMAGE SENSING SYSTEM THEREOF - A sensing device includes a housing and an image sensing system disposed in the housing and used for detecting a reflected light from an object. The image sensing system includes a substrate, a light sensing element, and a reflection and redirection element. The light sensing element is disposed on the substrate. The reflection and redirection element is disposed between the light sensing element and the object, and used for reflecting and redirecting the reflected light from the object to a receiving direction of the light sensing element, such that the light sensing element receives the reflected light and generates a corresponding sensing signal. | 12-08-2011 |
20120001054 | SENSING DEVICE AND IMAGE SENSOR MODULE THEREOF - An image sensor module is installed in a sensing device, and is used to detect a reflected light of an object. The image sensor module includes a carrier, a light sensing element, and a package body. The light sensing element is disposed on a substrate. The carrier is disposed on the substrate in the sensing device. The light sensing element is installed in the carrier, and is electrically connected with the substrate via multiple solder balls. The package body is installed on the carrier, and has a reflecting and diverting element, which is located between the light sensing element and the object and is used for reflecting reflected light of the object and diverting the reflected light towards a receiving direction of the light sensing element. The light sensing element receives the reflected light and generates a corresponding sensing signal. | 01-05-2012 |
20120019715 | DISPLAY PANEL AND ASSEMBLING METHOD OF THE SAME - A display panel and an assembling method of the same are described. An image capture module is electrically disposed on a substrate of a display module, such that the image capture module and the display module are combined into an integrated structure, so as to reduce the overall size of a display assembled by using the display panel. | 01-26-2012 |
20120032946 | NEW CALIBRATION PROCEDURES FOR THREE-DIMENSIONAL DIGITAL IMAGE CORRELATION - The present invention discloses new calibration procedures for three-dimensional digital image correlation (3D-DIC) method comprising steps: providing a 3D-DIC system: arranging an object at a focus of a first image capture device and a second image capture device, and using a light source device to uniformly project light on the object, and linking the system to a processor capable of data processing and analyzing; providing a calibration plate: arranging the calibration plate at a position where the object is located; performing a system calibration procedures: treating the first and second image capture devices as an identical unit and rotating them simultaneously to acquire a plurality of calibration images of the calibration plate, wherein each calibration image contains a plurality of circles formed at an identical spacing which is preset to work out a plurality of system parameters through the spacings for measurement and calculation of the object. | 02-09-2012 |
20130250277 | APPARATUS FOR QUANTIFYING UNKNOWN STRESS AND RESIDUAL STRESS OF A MATERIAL AND METHOD THEREOF - An apparatus for quantifying unknown stress and residual stress of a material to be tested, the material being a birefringent or temporary birefringent material, which includes a light source, a polarizer in front of the light source for converting a light beam from the light source into a beam with linear polarization, a first quarter-wave plate in front of the polarizer for generating circular polarization, a standard material, a second quarter-wave plate, an analyzer, a loading unit, a spectrometer for obtaining transmissivity spectrum of the standard material under the wavelength of the light source and a detecting module connected to the spectrometer to have the transmissivity spectrum of the material to be tested and consequently a stress quantifying formula for the standard material. | 09-26-2013 |
20140111649 | MULTI-IMAGE CAPTURE DEVICE CAPTURING IMAGES BY MEANS OF CIRCULAR MOTION - A multi-image capture device capturing images by means of circular motion controls the shift movement, along a semi-circular measuring rod, of a moving mechanism by a location control device. Furthermore, a rotary control device is used to control the positioning and image-capturing angle of a second image capture device fixed on the rotary mechanism. Thereby, a first image capture device and the second image capture device are of a co-circle configuration where the optical axis of the first image capture device and the second image capture device overlap to form a center of the co-circle. Such a configuration can broaden the visual range of the image capture device, and allows quick calibration of the image capture device according to positioning of shift movement and image-capturing angles. | 04-24-2014 |
20140111810 | SYSTEM OF COMPUTING SURFACE RECONSTRUCTION, IN-PLANE AND OUT-OF-PLANE DISPLACEMENTS AND STRAIN DISTRIBUTION - A system of computing surface reconstruction, in-plane and out-of-plane displacements and strain distribution utilizes the optical switching element to switch the reference beam to analyze the images of the test object before and after deformation, to measure the topography, in-plane and out-of-plane displacements and surface two-dimensional strain distribution on the test surface of the test object, and thus to increase the measurement range on the test surface of the test object with the use of image registration. Thereby, the complexity and error of scanning the test object can be reduced. Such a system need not to move the image capturing device or test object to generate relative displacement for reaching the measurement effect of the test surface of the test object in three-dimensional coordinates. | 04-24-2014 |
20150093043 | Method of Evaluating Image Correlation with Speckle Patter - An image correlation for images having speckle pattern is evaluated. Modulation transfer function (MTF) curves of speckle-pattern images captured at different times are figured out. Whether a correlation value between the MTF curves meets a threshold is checked. If the correlation value is smaller than the threshold, speckle-pattern images are re-selected for re-figuring out the MTF curves and the correlation value. Thus, error of strain and displacement for digital image correlation owing to blurring images of the on-moving target object is figured out; calculation time of the digital image correlation is reduced; and accuracy on measuring physical parameters of the target object before and after movement is improved for digital image correlation. | 04-02-2015 |