Start Date: 07/05/2020
Course Type: Common Course
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There have many three-dimensional shape of the object in your brain that are wanted to share, but do not know how to express? How to "sketch" the three-dimensional image in your mind? 3D modeling technology can help us construct the most intuitive and understandable three-dimensional model. The use of floor plan interpret the three-dimensional object process－the most direct and effective expression of our ideas. We have designed many paradigms so that people can quickly understand the logic of using 3D CAD software Sketchup and drawing skills, from introduction to advanced, and introduce SketchUp 3D modeling technologies. After completing "3D CAD Fundamental", it is no longer difficult to draw ideas that are beyond imagination with 3D modeling technology! The goal of this course is to construct a three-dimensional model, with the computer as the main teaching material, to enrich the fun paradigm and the complete drawing process. Step-by-step teach you how to use Sketchup's 3D modeling software technology. With the completion of "3D CAD Fundamental", you will be able to realize the 3D objects that exist in the imagination through 3D modeling!
Here comes the first example, magic cube. The purpose of this module is to help learners be familiar with basic tools in Sketchup, including [Line], [Divide], [Push/Pull], [Tape Measure] and [Guides]. In this module, we will start drawing a cube, then reformed it into steps by using [Divide], create another cube by using [Push/Pull], and finally make a hole on the cube by combining [Push/Pull], [Tape Measure] and [Guides].
3D CAD Fundamental This is the third course in the 3D modeling and simulation specialization that teaches you how to use 3D CAD to design and develop a 3D model. The first course teaches you how to use 3D software to create models in an instant. The second course focuses on learning the basic concepts and terminology that you will need for the language of 3D modeling. The third course will use Unity to create an open-source 3D CAD/VR "game" that you can continue to use after graduation. After taking this course, you will be able to: - Write and save 3D CAD/VR design documentation - Create 3D CAD/VR games - Manipulate CAD/VR files - Add and manipulate lighting - Add particle effects - Add user-interface code - Navigate the user interface Please note that this is an advanced course and we assume basic computer skills, knowledge of 2D CAD and 3D modeling. You should expect to work with more advanced CAD tools and software after taking this course, and to practice and improve basic CAD and 3D CAD skills that you have learned in this specialization.Point and Line Plane Lighting and Particle System User Interface Reference Design and Drawing 3D Interactions and Navigation This is the third course in the 3D modeling and navigation specialization that teaches you how to use 3D CAD software to create realistic
|CAD/CAM dentistry||Like other CAD/CAM fields, CAD/CAM dentistry uses subtractive processes (such as CNC milling) and additive processes (such as 3D printing) to produce physical instances from 3D models.|
|WorkXPlore 3D||PartXplore is a collaborative viewer for 2D and 3D CAD files.|
|3D computer graphics software||Although 3D modeling and CAD software may perform 3D rendering as well (e.g. Autodesk 3ds Max or Blender), exclusive 3D rendering software also exists.|
The limit of the fundamental series is the same as the 3D level.
|T-FLEX CAD||T-FLEX CAD (T-FLEX) is a Parasolid-based parametric CAD software application for 3D solid modeling and 2D design and drafting, developed and sold by Russia-based software company Top Systems.|
|3D scanner||Most applications, however, use instead polygonal 3D models, NURBS surface models, or editable feature-based CAD models (aka Solid models).|
|3D scanner||Many Chairside dental CAD/CAM systems and Dental Laboratory CAD/CAM systems use 3D Scanner technologies to capture the 3D surface of a dental preparation (either "in vivo" or "in vitro"), in order to produce a restoration digitally using CAD software and ultimately produce the final restoration using a CAM technology (such as a CNC milling machine, or 3D printer). The chairside systems are designed to facilitate the 3D scanning of a preparation "in vivo" and produce the restoration (such as a Crown, Onlay, Inlay or Veneer).|
|Gable CAD||Gable CAD was an advanced 2D and 3D design package with different modules, and was operated via a windows style interface and mouse running on UNIX. It was possible to create detailed 3D models and then generate 2D drawings or rendered visualisations from the data.|
|3D scanner||3D scanners are used to capture the 3D shape of a patient in orthotics and dentistry. It gradually supplants tedious plaster cast. CAD/CAM software are then used to design and manufacture the orthosis, prosthesis or dental implants.|
|3D printing||3D printable models may be created with a computer-aided design (CAD) package, via a 3D scanner, or by a plain digital camera and photogrammetry software. 3D printed models created with CAD result in reduced errors and can be corrected before printing, allowing verification in the design of the object before it is printed. The manual modeling process of preparing geometric data for 3D computer graphics is similar to plastic arts such as sculpting. 3D scanning is a process of collecting digital data on the shape and appearance of a real object, creating a digital model based on it.|
|WorkXPlore 3D||PartXplore is a proprietary computer aided design (CAD) file viewer developed by Sescoi for reading, analyzing and sharing 3D and 2D CAD files without needing the original CAD application. It was launched in 2008 and is supported from local Vero offices. A viewer and an evaluation version are offered as freeware.|
|3D pose estimation||This approach is appropriate for applications where a 3D CAD model of a known object (or object category) is available.|
|3D scanner||Vendors offer different approaches to getting to the parametric CAD model. Some export the NURBS surfaces and leave it to the CAD designer to complete the model in CAD (e.g., Geomagic, Imageware, Rhino 3D). Others use the scan data to create an editable and verifiable feature based model that is imported into CAD with full feature tree intact, yielding a complete, native CAD model, capturing both shape and design intent (e.g. Geomagic, Rapidform). Still other CAD applications are robust enough to manipulate limited points or polygon models within the CAD environment (e.g., CATIA, AutoCAD, Revit).|
|3D modeling||3D models are widely used anywhere in 3D graphics and CAD. Actually, their use predates the widespread use of 3D graphics on personal computers. Many computer games used pre-rendered images of 3D models as sprites before computers could render them in real-time.|
|CAD/CAM in the footwear industry||3D CAD/CAM is the core technology for shoe sole mould in the footwear industry and develops towards specialization.|
|CAD Overlay||The first version of CAD Overlay was demonstrated at A/E/C trade show in Chicago in May 1988. Subsequent versions include CAD Overlay ESP, CAD Overlay GSX, and CAD Overlay LFX.|
|3D ultrasound||Conversion of the 3D image files into standard CAD/CAM file formats allows the reconstruction of fetal and other images in a variety of materials including a 3d laser etched images in a crystal glass block or a solid cameo effect using a 3D printer.|
|T-FLEX CAD||T-FLEX CAD is interoperable with other 3D-modeling and 2D-drawing systems via the following file formats: Parasolid, IGES, STEP, Rhino, DWG, DXF, SolidWorks, Solid Edge, Autodesk Inventor, etc.|
|CAD/CAM dentistry||As in other fields, additive manufacturing (3D printing) first entered CAD/CAM dentistry in the form of laboratory experiments, but its use has since expanded; and chairside use, although not yet widespread, is advancing.|
|3D pose estimation||Another approach is to register a 3D CAD model over the photograph of a known object by optimizing a suitable distance measure with respect to the pose parameters.|