Patent application number | Description | Published |
20090213234 | METHOD OF FULL FRAME VIDEO STABILIZATION - A method of full-frame video stabilization with a polyline-fitted camcorder path is disclosed. The regions was first considered of interest in the video to estimate which regions or objects the user wants to capture, and then use a polyline to estimate a new stable camcorder motion path while avoiding the user's interested regions or objects being cut out. Then, the dynamic and static missing areas caused by frame alignment from other frames were filled to keep the same resolution and quality as the original video. Furthermore, the discontinuous regions were smoothed by using a three-dimensional Poisson-based method. After the above automatic operations, a full-frame stabilized video could be achieved and the important regions and objects could also be preserved. | 08-27-2009 |
20130285940 | Touch Type Control Equipment and Method Thereof - A distance-tracking touch detection controller operable to enable functions of an electronic device based on a user's gestures and location of touch on his own body. The distance-tracking touch detection controller comprises a distance meter and a control interface coupled with the distance meter. When user touches his own body, the distance meter detects the touched location or the trajectory of touched locations and generates a detecting signal. The control interface is coupled with the distance meter, and the control interface reads the detecting signal to generate a control signal. The control signal is operable to enable one or more functions of an electronic device. Moreover, a method of operating the distance-tracking touch detection controller is presented. | 10-31-2013 |
20140207407 | NEAR-SURFACE OBJECT SENSING DEVICE AND SENSING METHOD - Disclosed is a near-surface object sensing device, including a printed circuit board, a plurality of magnetic sensors arrayed on the printed circuit board to sense the magnetic field of an external magnetic object and generate a magnetic sensing signal, a multiplexer connected to the magnetic sensors for selecting and outputting the magnetic sensing signal, and a microprocessor connected to the multiplexer for receiving the magnetic sensing signal, wherein the microprocessor includes a sampling algorithm module for converting the magnetic sensing signal into a magnetic field distribution image, and a six-dimensional coordinate-calculating module for calculating six-dimensional coordinates of the external magnetic object. The sensing device of the invention is compact, low energy consuming and can accurately provide users with a convenient and intuitive user interface with three dimensional locations and position information in a near-surface space. | 07-24-2014 |
20150084879 | NAIL-MOUNTED DISPLAY SYSTEM - A nail-mounted display system includes an electronic device and a display device in communication with the electronic device. The electronic device includes a touch interface with a touch location; a positioning module for generating positioning information corresponding to the touch location; an information module for obtaining the operating information corresponding to the touch location on the touch interface based on the positioning information; and a transmission module for outputting the operating information obtained by the information module. The display device is worn on a finger of a user for receiving the operating information from the electronic device so as to display an image corresponding to the operating information when the finger is in contact with the touch interface. | 03-26-2015 |
20150279096 | GEOMETRIC STRUCTURE ANALYZING METHOD, GEOMETRIC STRUCTURE ANALYZING SYSTEM, AND COMPUTER PROGRAM PRODUCT - A geometric structure analyzing method, a geometric structure analyzing system, and a computer program product are provided, to analyze a two-dimensional geometric structure of a model composed of at least one magnetic building block. A magnetic field intensity image of the model is obtained, and a shape of the magnetic field intensity image is used as a contour of the model. The contour of the model is skeletonized to obtain the two-dimensional geometric structure of the model, and the two-dimensional geometric structure is displayed on a display panel. Therefore, a user is allowed to control the two-dimensional geometric structure on the display panel by manipulating the model, to achieve interactive effects including visual and tactile feedbacks. | 10-01-2015 |
Patent application number | Description | Published |
20080228305 | SYSTEM AND METHOD FOR CONTROLLING PRODUCT QUALITY - A computer-based method for controlling product quality is disclosed. The method includes the steps of: detecting whether a quality of raw materials bought from at least one supplier are acceptable; detecting whether a quality of using materials used at a processing procedure are acceptable; detecting whether a quality of products being manufactured at the processing procedure are acceptable; receiving and storing a post-procedure report obtained by sampling the products after the processing procedure; repeating steps of detecting materials used at a processing procedure, detecting products being manufactured at the processing procedure, detecting the sampling products after the processing procedure, and completing the manufacturing if all the products are finished. A related system is also disclosed. | 09-18-2008 |
20080234851 | SYSTEM AND METHOD FOR MANAGING A PRODUCT MANUFACTURING PROCESS - A method for managing a product manufacturing process is disclosed. The method includes the steps of downloading a bill of materials of the product from a first database according to a serial number and an edition of the product; downloading a production order from a second database according to the production order number; downloading received materials delivery receipts from the second database according to corresponding numbers of the received materials delivery receipts; obtaining product information and manufacturing information of downloaded production order; obtaining serial numbers and editions of corresponding materials; obtaining received materials information from the downloaded received materials delivery receipts; creating a manufacturing check list according to obtained information; and saving the manufacturing check list in the application server, and creating a serial number of the manufacturing check list; assigning one or more preconfigured product tracking numbers to the manufacturing check list. | 09-25-2008 |
20080255896 | SYSTEM AND METHOD FOR AIDING A BUYER TO CREATE A SUPPLIER SCORECARD - A method for aiding a buyer to create a scorecard of a supplier is disclosed. The method comprising the steps of allowing the buyer to select a scoring category for the supplier; allowing the buyer to select a criterion of the scoring category for the supplier; instructing the buyer to input the supplier's performed data related to the selected criterion; calculating a point of the supplier under the selected criterion; obtaining a rating of the supplier under the selected criterion; storing in the database the calculated point and the obtained rating; determining whether the supplier has been rated for all scoring categories if the supplier has been rated for all the criteria of the scoring category; and creating the scorecard of the supplier based on points and ratings of all the criteria of all the scoring categories. A related system is also disclosed. | 10-16-2008 |
20130275080 | COMPUTING DEVICE AND METHOD FOR MEASURING SPEED OF VEHICLE - In a method for measuring a speed of a vehicle, the method starts a first motion sensor to sense a first position of the vehicle controls a first camera to capture a first image of the vehicle, and records a first time. A license plate number of the vehicle is identified from the first image, and a length of the vehicle is obtained from a database according to the license plate number. The method starts a second motion sensor to sense a second position of the vehicle controls a second camera to capture a second image of the vehicle, and records a second time. The method calculates a moving distance of the vehicle according to the first and the second position and the length of the vehicle, and calculates a speed of the vehicle according to the moving distance, the first time and the second time. | 10-17-2013 |