Patent application number | Description | Published |
20120224755 | Single-Action Three-Dimensional Model Printing Methods - Methods and techniques of using 3D printers to create physical models from image data are discussed. Geometric representations of different physical models are described and complex data conversion processes that convert input image data into geometric representations compatible with third party 3D printers are disclosed. Printing templates are used to encapsulate complex geometric representations and complicated data conversion processes from users for fast and simple 3D physical model printing applications. | 09-06-2012 |
20130339487 | Method and Apparatus for URL Handling - Methods and apparatus for processing and handling URL are disclosed. A URL-action table is relied on for storing registered applications with corresponding domain names. The registered applications may differ from common web browsers. When a URL or the hypertext referring to a URL is clicked, the domain name included in the URL is extracted and used to search the URL-action table for the registered application. If the registered application is valid, the application is invoked. Otherwise, a default web browser is invoked. | 12-19-2013 |
20140330418 | SINGLE ACTION THREE-DIMENSIONAL MODEL PRINTING METHODS - Methods and techniques of using 3D printers to create physical models from image data are discussed. Geometric representations of different physical models are described and complex data conversion processes that convert input image data into geometric representations compatible with third party 3D printers are disclosed. Printing templates are used to encapsulate complex geometric representations and complicated data conversion processes from users for fast and simple 3D physical model printing applications. | 11-06-2014 |
20140330421 | SINGLE ACTION THREE-DIMENSIONAL MODEL PRINTING METHODS - Methods and techniques of using 3D printers to create physical models from image data are discussed. Geometric representations of different physical models are described and complex data conversion processes that convert input image data into geometric representations compatible with third party 3D printers are disclosed. Printing templates are used to encapsulate complex geometric representations and complicated data conversion processes from users for fast and simple 3D physical model printing applications. | 11-06-2014 |
20150084956 | Single Action Three-Dimensional Model Printing Methods - Methods and techniques of using 3D printers to create physical models from image data are discussed. Geometric representations of different physical models are described and complex data conversion processes that convert input image data into geometric representations compatible with third party 3D printers are disclosed. Printing templates are used to encapsulate complex geometric representations and complicated data conversion processes from users for fast and simple 3D physical model printing applications. | 03-26-2015 |
20150088291 | Single Action Three-Dimensional Model Printing Methods - Methods and techniques of using 3D printers to create physical models from image data are discussed. Geometric representations of different physical models are described and complex data conversion processes that convert input image data into geometric representations compatible with third party 3D printers are disclosed. Printing templates are used to encapsulate complex geometric representations and complicated data conversion processes from users for fast and simple 3D physical model printing applications. | 03-26-2015 |
20160097851 | Ground Survey and Obstacle Detection System - The present disclosure is directed to a ground survey and obstacle detection system using one or multiple detection devices, such as aerial detection devices. Aerial detection devices are sent ahead of the primary vehicle to survey a territory and map out any obstacles. The aerial detection device is equipped with sensors to scan the ground below it and detect obstacles. The aerial detection device is not affected by or prone to triggering dangerous obstacles. The aerial detection device flies above the ground and may be configured to send a signal back alerting the primary vehicle to the existence of obstacles. | 04-07-2016 |
20160122017 | Structure and Manufacturing Process for Unmanned Aerial Vehicle - The application discloses an unmanned aerial vehicle (UAV) device and the manufacturing process to make the UAV. The UAV device comprises a monocoque shell with a single-piece molded construction that includes a central body and arms that extend outward from the central body. Each of the arms includes a terminal end that is spaced away from the central body. The monocoque shell has a cupped shape with a closed first side and an open second side that includes sidewalls that extend around an interior space. The UAV device comprises a plurality of motors and rotors attached to the first side of the monocoque shell with one of said plurality of motors and rotors positioned at the terminal end of each of the arms. | 05-05-2016 |