What Is 3DGS?
3D Gaussian Splatting is a 3D visualization method that turns real-world scan data into realistic, interactive scenes. It is ideal for visual presentation, virtual tours, digital documentation, and immersive 3D content.
Real-World Photo
Raw Point Cloud
Colorized Point Cloud
3DGS Visualization
How it works
Follow a simple step-by-step workflow to turn V4e LiDAR scan data into a 3DGS visualization. With our guided tutorial, you can capture real-world scenes, process point cloud data in Trion Model, and generate 3D Gaussian Splatting results for immersive 3D visualization, digital documentation, and online content display.
1. Scan with V4e LiDAR
Capture real-world environments quickly and efficiently with portable LiDAR scanning.
2. Create a New Project in Trion Model
Open Trion Model and create a new project to start the data processing workflow.
3. Import Point Cloud Data and Start Mapping
Upload the scanned point cloud data into Trion Model and use the Mapping function to process the data.
4.Generate 3DGS with Gaussian Modeling
Use the processed mapping file for Gaussian Modeling to generate a 3DGS visualization.
5.Refine and Export the 3DGS Result
Use tools such as clipping to isolate the scanned target, and set keyframes to create and export a point cloud walkthrough video.
6. Showcase the Final Result
Real-World 3DGS Scan Results
Explore how V4e LiDAR scan data can be transformed into immersive 3DGS visualizations through Trion Model. From indoor exhibitions to cultural heritage sites, each result demonstrates how LiDAR scanning, point cloud processing, and 3D Gaussian Splatting can help create realistic, interactive 3D scenes for digital documentation, virtual tours, and online presentation.
Indoor Exhibition 3DGS Visualization
Capture indoor exhibition spaces and turn real-world scan data into an interactive 3DGS visualization. This workflow is ideal for museum displays, gallery documentation, virtual exhibitions, and immersive online viewing.
Ding-Style Ritual Vessel 3DGS Result
Scan a ding-style ritual vessel and generate a 3DGS visualization that captures its shape, surface texture, decorative patterns, and spatial details. This workflow is suitable for cultural heritage documentation, artifact preservation, digital archiving, and online 3D content display.
Temple Architecture 3DGS Result
Capture temple architecture with LiDAR scanning and generate a 3DGS visualization that presents the building structure, surface details, decorative elements, and spatial layout. This workflow is suitable for cultural heritage preservation, architectural documentation, virtual tours, and digital exhibition.
