Welcome to ACE Webservice Inc -3D Design and Visualization
3D visualization is the process of creating and displaying digital content using 3D software, resulting in time and cost savings, improved collaboration, and greater productivity across industries like architecture, engineering, marketing, and manufacturing.
Seeing is believing when it comes to 3D
With 3D visualization, a user can pick up an object virtually, look underneath it, move it around and enjoy an entirely unique experience, all in a virtual environment.
3D visualization for digital twins, explained
3D visualization is a technical and artistic, multistep process of creating 3D designs of objects that exist (or will soon exist) in real-life. Used throughout a range of industries including manufacturing, architecture, and multimedia, 3D visualization creates the ability for graphics to be expressed with shape and depth — bringing projects to life for an engineer or artist.
A study commissioned by Unity found that these are among the most common forms of visualization:
Real-time 3D visualization
Although the newest of the methods, real-time 3D visualization is quickly on the rise. With real-time 3D software, fully interactive 3D models, environments, digital twins, and entire virtual worlds can be digitally rendered in a blink of an eye – a significant advantage over traditional content creation tools
Physical modeling
Including 3D printed models, clay models for cars, drawings, and foam board replicas, physical models are the most common type of visualization method. While preferred by traditionalists, physical models do not offer high fidelity or any interactivity, and it is expensive and time-consuming to iterate on multiple concepts or versions.
2D visualization
Faster and cheaper than physical modeling, 2D visualization works by displaying static two-dimensional images such as, digital drawings, computer-generated images (CGI), and photographs. While the second most common visualization method, 2D visualization is poor at conveying scale and proportion – designers often need to prepare multiple renderings to simulate the perspective and depth of field (DoF) necessary for creating a credible real-world feel.
Industrial data formats such as computer-aided design (CAD) data or building information modeling (BIM) data are typically used by engineers, designers, and architects to create detailed 2D and 3D models of manufactured products, buildings, and more.
CAD and BIM data are used across industries for their abilities to improve collaboration and accelerate concept-to-manufacture time. However, the density, complexity, and file size of these data make interactive visualization challenging.
As visualization is an essential tool used at all stages of the product lifecycle, industries are now turning to real-time 3D engines to enable true-to-life, interactive 3D visualization for better multiuser collaboration and decision-making. But, they still have one hurdle to overcome – converting industrial data formats into a real-time 3D engine-compatible format.
So, how do companies overcome this hurdle? They use a data optimization solution that bridges the gap.