User-controlled 3D simulation for providing realistic and enhanced digital object viewing and interaction experience

Abstract

Method, technology and system of user-controlled realistic 3D simulation and interaction are disclosed for providing realistic and enhanced digital object viewing and interaction experience with improved three dimensional (3D) visualization effects. A solution is provided to make available 3D-model / s carrying similar properties of real object, where performing user-controlled realistic interactions selected from extrusive interaction, intrusive interactions, time-bound changes based interaction and real environment mapping based interactions are made possible as per user choice.

Description

technical field [0001] The present invention relates to the field of virtual reality, and more particularly to user-controlled realistic three-dimensional simulation and interaction technology, which utilizes improved three-dimensional viewing effects to provide enhanced realistic digital object viewing and interactive experience. User-controlled realistic 3D simulation and interaction technology can be applied to online shopping, collaboration and object presentation, online learning, media, entertainment and content production, computer, machinery and communication industries by providing enhanced digital object viewing and interaction experience. Background technique [0002] The application of 3D visualization in many fields is increasing day by day, such as entertainment, mechanical engineering design visualization, online shopping websites and offline product advertisement columns. There are many web-based shopping marketplaces, websites or storefronts that display ima...

AI Technical Summary

Problems solved by technology

For example, in a conventional virtual reality setting, the user cannot turn on the compressor of the refrigerator from the simulated 3D model of the refrigerator, or open or operate the components of the simulated 3D model (such as the battery and other internal parts in the 3D model of the mobile phone) Interactive and realistic views, no spinning wheels, steering wheel to judge movement and power lines, no real-time internal parts or appearance of 3D model of mobile phone simulation

Some conventional systems offer only limited options that, when clicked, reveal the internal components of the object in photographic or panoramic views, but do not allow further analysis of the internal components beyond the options provided

Other examples, such as a 3D view of a bottle containing oil or any liquid, only show a 3D simulated view in conventional systems, but the user cannot interactively uncork the bottle, or pour it from the bottle, as desired in reality. liquid out

In other words, user-controlled interactions based on user selection are not feasible

[0007] 2. This model does not allow realistic salient interaction, such as 360-degree rotation of the 3D model of the object in different planes, and can be practiced from any projection angle to achieve interaction

Current technology mostly only allows 360 degree rotation in one plane

In addition, the current 3D simulation technology cannot achieve a realistic 3D simulation effect or 3D visualization effect, and its virtual view cannot accurately display the lighting effect of the light-emitting parts of the 3D model of the object, and the interaction of the 3D model with electronic display parts (to understand the electronic display function) and sound effects that describe real objects

[0008] 3. There is also a lack of originality and closeness to real objects, namely pressure, taste judgments and tactile sensations

The current virtual 3D simulation model and technology cannot judge the handle and smoothness or softness and the pressure or force required to open the refrigerator door,

[0009] 4. It is also not possible to monitor or view time limit changes as when using or manipulating objects

Current technology cannot realize real-time interaction including mirror effect

[0012] 7. The current technology cannot realize the dynamic customization of the 3D model in the form of text when loading the 3D model

[0013] Current technology related to virtual simulation cannot achieve this kind of real-time improved interaction

The above-mentioned shortcomings of currently available technologies make it difficult for human users to interact with virtual objects as they do in reality. Therefore, a technology is needed to provide improved digital object views and interactive experiences that truly fill the gap between the real and virtual worlds. blank

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