摘要:
A system and a computer implemented method of 3-D visualization of a building module is disclosed. The method includes receiving attributes of the building module from a building information model and receiving data inputs from a plurality of sensors located in the building module. Locations of at least a subset of the plurality of sensors in the building module and types and locations of physical objects in the building module are determined. Then, a 3-D visualization of the building module on a computer screen is generated based on the attributes of the building module, the locations of the physical objects, the locations of at least the subset of the plurality of sensors and the data inputs from the plurality of sensors.
摘要:
A system and method for augmenting panoramic images with performance related data for a building are disclosed. The system includes a memory coupled to a processor configured to receive panoramic image data, generate a digital image based on the panoramic image data, and modify the digital image to include a graphical representation of the performance related data. The processor maps performance related data to the coordinate system of the panoramic images such that the graphical representation may be generated without converting the panoramic image data into a high-quality, three-dimensional model in a CAD program. In this way, computer-generated graphical representations of building performance data, such as temperature fields or virtual structures, may be overlaid directly onto a two-dimensional projection of the panoramic image data. In one embodiment, the panoramic image data is a spherical, 360 degree panoramic image captured by a laser scanning device.
摘要:
One embodiment of the present invention sets forth a technique for providing an end user with a digital pen embedded with a spatially-aware miniature projector for use in a design environment. Paper documents are augmented to allow a user to access additional information and computational tools through projected interfaces. Virtual ink may be managed in single and multi-user environments to enhance collaboration and data management. The spatially-aware projector pen provides end-users with dynamic visual feedback and improved interaction capabilities.
摘要:
One embodiment of the present invention sets forth a technique for providing an end user with a digital pen embedded with a spatially-aware miniature projector for use in a design environment. Paper documents are augmented to allow a user to access additional information and computational tools through projected interfaces. Virtual ink may be managed in single and multi-user environments to enhance collaboration and data management. The spatially-aware projector pen provides end-users with dynamic visual feedback and improved interaction capabilities.
摘要:
One embodiment of the present invention sets forth a technique for providing an end user with a multiscale three-dimensional (3D) navigation experience in design software application programs. An adaptive multiscale 3D navigation system allows an end user to transition between a planetary scale down to an individual building scale. The end user may navigate within the building, inspecting object details within the building. The size of the environment is sensed automatically, and the viewing and travel parameters are adjusted accordingly to provide the end user with a seamless navigation experience. A consistent navigation experience is supported at various scales, and real-time collision detection is provided. Scale computation for 3D scenes and collision detection may be based on a generated depth cubemap of the environment.
摘要:
One embodiment of the present invention sets forth a technique for providing an end user with a multiscale three-dimensional (3D) navigation experience in design software application programs. An adaptive multiscale 3D navigation system allows an end user to transition between a planetary scale down to an individual building scale. The end user may navigate within the building, inspecting object details within the building. The size of the environment is sensed automatically, and the viewing and travel parameters are adjusted accordingly to provide the end user with a seamless navigation experience. A consistent navigation experience is supported at various scales, and real-time collision detection is provided. Scale computation for 3D scenes and collision detection may be based on a generated depth cubemap of the environment.
摘要:
A multiscale data engine is configured to generate a three-dimensional (3D) environment based on a multiscale 3D dataset. The multiscale data engine is also configured to generate a spatial hierarchy within the 3D environment by selectively grouping 3D objects within the 3D environment. The multiscale data engine is further configured to identify specific 3D objects within the 3D environment in response to input received from an end-user and based on spatial properties associated with the 3D objects. The multiscale data engine is also configured to generate various navigation graphical user interfaces (GUIs) that allow the end-user to navigate the 3D environment.