Service: Poly 3D Modeling | AR Unity Mobile App Development | WebGL
Location: USA
Time: September 2022 - December 2022

Project Overview

Description:

To facilitate the presentation of a mechanical assembly from a tank on the web and in augmented reality (AR), we optimized the provided 3D data for VR, AR, and WebGL. This project involved remodeling parts of the assembly into polygon geometry and developing a mobile application in Unity 3D for AR presentation. We successfully reduced the data size by 100 times, ensuring efficient performance and accessibility.

Scope of Work:

1.Poly 3D Modeling:

Remodeled parts of the mechanical assembly into optimized polygon geometry.
Ensured the models were suitable for VR, AR, and WebGL applications.
Achieved a significant reduction in data size, lowering it by 100 times for improved performance.

2.AR Unity Mobile App Development:

Developed a mobile application in Unity 3D for presenting the mechanical assembly in AR.
Enabled users to visualize the assembly in a real-world environment to check spatial fitting and compatibility.
Ensured the app was user-friendly and efficient, providing a seamless AR experience.

3.WebGL Optimization:

Optimized the 3D data for web presentation using WebGL.
Ensured smooth performance and accessibility for users viewing the mechanical assembly online.

Key Outcomes:

Optimized Poly 3D Models:

Provided highly optimized polygon models suitable for multiple platforms, including VR, AR, and WebGL.
Significantly reduced data size, enhancing performance and ease of use.

AR Mobile App:

Delivered a functional and efficient AR mobile application for real-world visualization of the mechanical assembly.
Enabled accurate spatial fitting checks, aiding in planning and decision-making processes.

WebGL Presentation:

Ensured the mechanical assembly could be effectively presented on the web, providing broader access and usability.

By optimizing 3D data and developing a versatile AR mobile application, we provided a robust solution for presenting and assessing the mechanical assembly in various environments. This approach enhanced the efficiency and effectiveness of visualization, ensuring better planning and spatial assessment capabilities for the client.