A 3D camera is an imaging device that enables the perception of depth in images to replicate three dimensions as experienced through human binocular vision. Some 3D cameras use two or more lenses to record multiple points of view, while others use a single lens that shifts its position. The combination of the two perspectives, as with the slightly different perspective of two human eyes, is what enables depth perception. A 3D camera can be used to create an immersive frozen-in-time moment for stills or video content that seems real enough to touch.
The principle behind the 3D visualizaton design has an effect in a 3D camera is called stereoscopy and the corresponding technology is known as stereoscopic imaging. The difference between objects seen through the left and right eyes (binocular disparity) is what enables perspective in human eyesight, along with our ability to integrate those two perspectives using focusing and visual center interpretation. Another technology known as autostereoscopic imaging is screen-based and does not require viewers to wear special glasses.
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3D cameras are being used by architecture firms who are constantly on the lookout for innovative technologies. Without requiring any leveling, alignment, or registration markers, the 3D camera captures precise measurements of existing homes to bring meticulousness to the design process. Simultaneously, the architect is provided with a highly accurate 3D Model and 3D Mesh that they can use in their drafting software.
In the past, it would take two architects two weeks to physically measure a 10,000 square foot home, using tape measures to get window sizes, door sizes, the height of stairs, wall thickness and more. Once the field measurements had been taken, they would come back to the office with sketches and notes and manually enter the data. This approach was time-consuming and architects regularly ran into issues as there was a huge scope for errors. With innovative technology now available, one architect can go to the same property and spend three hours capturing the same data via a 3D camera, tremendously increasing both productivity and accuracy – Now with 3D panoramic lasers and infrared beams, the accuracy rate is at 99.9 percent. After scanning the space intended for a project with the 3D camera, the architect uploads the data to the cloud and receives a point cloud, which is a set of data points in a 3D coordinate system, to create the surface model.
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This model is then imported into the architect’s CAD software to build a pre-measured tracing model. This is beneficial to architects because the software can capture minuscule details that may have otherwise been missed with the naked eye. Although the initial investment for the 3D camera may seem costly, it pays for itself very quickly, and the results of the finished projects are undeniable.
One of the leading 3D cameras in the market today is the Matterport 3D camera, which enables you to get everything you need to market and modify spaces with a single scan. With one click, the Matterport 3D camera allows you to capture millions of 3D data points that make for vivid pictures that are extremely useful for both print and digital use like 3D floor plan. The Matterport 3D camera has been designed to measure any dimension with 99% accuracy, making it a reliable form of capturing images.
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3D Visualization Software
3D visualization is the process of creating renderings and virtual models to explore, review and envision 3D designs. Architects can use 3D visualization software to create interactive experiences to show owners and potential buyers what the final design of space will look like once the intended project has been completed.
A 3D visualization software undertakes the process of generating an image from a model by means of computer software. Rendering is used in architecture like a multifunctional product, simulators, video games, movies and television visual effects and design visualization. A 3D visualization software gives the final appearance to the models and animation with visual effects such as shading, texture-mapping, shadows, reflections, and motion blurs.
3D visualization is seeing a rapid rise in popularity among and usage by professionals in the building and construction industry such as architects and interior designers. 3D visualization softwares are changing the way the building we live and work in are built. Using 3D visualization software, a designer can represent anything the client desires, including scale, textures, interior furnishings, etc. Many professionals even prefer to depict their 3D visualizations using architectural scenes where everyday actions are being carried out. A 3D visualization software, when used optimally, is not just a design tool, but also a marketing one as it helps the architect or interior designer showcase their vision for space more clearly to the client, thereby increasing their chances of sealing the deal and improving customer satisfaction levels greatly. While there are various 3D visualization softwares available, it is important to choose the right one to ensure that it serves your need in the most optimal manner.
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MagikTour by Foyr is one of the leading 3D visualization softwares available today. Using a virtual walkthrough feature, MagikTour provides the viewer with an interactive 3D experience where a client can feel like he is immersed in the imagined space, enabling them to get a realistic spatial understanding of the finished space even before the first brick has been laid. Designers add a virtual depth to a simple 2D rendered image or video, thereby providing an experience rather than just a visual.
Clients can view every angle of their home or office space and give feedback to the architect or interior designer on various aspects to get the desired changes made. MagikTour has simplified the architectural design process, by making it easy for all stakeholders, irrespective of their level of understanding of architectural concepts, to be on the same page when it comes to envisioning the design for the proposed space.
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