Patent application number | Description | Published |
20120331061 | Collaborative Development of a Model on a Network - An application programming interface (API) is provided for use with a modeling software. The API allows users at several devices operating on a network to collaboratively develop a model of an object or a group of objects. The API receives an indication that a selected component has been modified by the modeling software in accordance user commands, generates component data indicative of the modifications of the selected component, and causes an update indication to be transmitted to a collaboration server via a communication network to synchronize the selected component between the first computing device and a second computing device. The update indication may include a component identifier, such that the component identifier uniquely identifies the selected component in the model. | 12-27-2012 |
20130036401 | Method for Improving the Performance of Browser-Based, Formula-Driven Parametric Objects - A computer-aided, design system and method generates procedural code from a plurality of spreadsheet formulas which define the behavior of a parametric object. These spreadsheet formulas drive function calls to an API of the design system when initially drawing the parametric object within a user interface, and these function calls may be cached as procedural code. In subsequent re-drawings of same object, the procedural code may be executed with updated or changed attributes received from an input dialog box. Rather than converting, translating, and parsing the spreadsheet formulas each time an entry is changed, the procedural code may be optimized for execution and also be concealed from the user so that any proprietary information in the formulas and functions is kept secret. | 02-07-2013 |
20130120368 | Browser-Based Collaborative Development of a 3D Model - A system for collaborative three-dimensional (3D) modeling in a browser application is stored as instructions on a computer-readable medium. The instructions include a browser interface module that executes on the one or more processors to receive user commands from the browser application for modifying a 3D model and cause a rendering of the 3D model to be displayed in a window controlled by the browser application. The instructions further include a modeling engine module that executes on the one or more processors to interpret model data corresponding to the 3D model to generate the rendering of the 3D model, and modify the model data in accordance with the received user commands. Still further, the instructions include a collaboration module that executes on the one or more processors to cause the modified 3D model to be synchronized in real time between the first computing and a second computing device at which the 3D model is being concurrently developed, where the first computing device and the second computing device operate independently of each other on a communication network. | 05-16-2013 |
20130125029 | EXTENSIBLE WEB-BASED 3D MODELING - A system for extending the functionality of a web-based, three-dimensional modeling in a browser application is stored as instructions on a computer-readable medium. The instructions include an interface module that may receive user commands from the browser application that define a script including functions to modify or create a 3D model. The script instructions may cause a rendering of the 3D model to be displayed in a window controlled by the browser application. A modeling engine as a compiled browser plug-in may extends the functionality of the browser application. Further, the modeling engine may include functions to interpret model data corresponding to a 3D model and render the 3D model in accordance with the script. Further instructions include a script interface layer that may expose the modeling engine functions to the interface module for use by the script functions. The script functions extend the modeling engine functions. | 05-16-2013 |
20130325328 | AUTOMATIC CORRECTION OF TRAJECTORY DATA - Initial trajectory data that provides an initial description of an approximate trajectory of a device during a time period, and correction data that indicates a location of the device outside the approximate trajectory of the device within the time period, are received. A modified trajectory data that provides a modified description of a corrected trajectory of the device is generated. In particular, terms to express (i) location constraints that limit deformation of the approximate trajectory of the device and (ii) a modification constraint that limits departure of the corrected trajectory of the device from the location indicated by the correction data are generated, and the initial description of the approximate trajectory of the device is modified using the generated terms. | 12-05-2013 |
20150015581 | Method for Improving Speed and Visual Fidelity of Multi-Pose 3D Renderings - A method and system provides increased visual fidelity in a multi-pose three-dimensional rendering of an object by overlaying edge lines. A server sends a multiplicity of two-dimensional renderings of the object to a client device over a network. Each of the 2D renderings depicts the object in a different pose. As the 2D renderings are displayed sequentially, the object appears to move, for example, by pivoting on an axis. The server also sends a multiplicity of overlay renderings to the client device. Each of the overlay renderings corresponds to a respective one of the 2D renderings and depicts edge lines that would appear on the 2D rendering. The edge lines are rendered on a transparent background such that, when a user interface combines one of the 2D renderings with the corresponding overlay rendering, the edge lines are highlighted on the 2D rendering and provide additional visual cues to the viewer. | 01-15-2015 |