TSDF fusion β†’ mesh

Fuses multi-view depth into a truncated SDF volume and extracts a mesh with marching cubes.

Trained from scratch in Ropedia Academy β€” an interactive, bilingual course on embodied & spatial AI. Educational model: small and quick to train; the value is the method and a reproducible pipeline, not a leaderboard score. Try it live in the Ropedia demos Space.

At a glance

Base model Trained from scratch (random initialization) β€” no pretrained base model.
Task dense 3D reconstruction
Training objective TSDF integration of multi-view depth (no gradient training); mesh via marching cubes.
Track D Β· Scene & world models
Notebook Open In Colab

Dataset

  • Name: Synthetic depth views
  • Type: synthetic β€” procedural
  • Size / stats: 1 scene (two spheres); 6 orthographic depth maps fused into a 64Β³ TSDF grid
  • Split: single scene
  • Source: procedural

Training config

No training β€” TSDF integration of 6 depth views into a 64Β³ grid; marching cubes for the mesh.

Evaluation results

metric value meaning
verts 27362
faces 56058

figure

Inference example

import torch
state = torch.load("mesh.pt", map_location="cpu")   # this repo's checkpoint
# Rebuild the exact module from the lab notebook (see "Reproduce"), then:
# model.load_state_dict(state); model.eval()

Limitations

Educational scale. Trained quickly on CPU on small or synthetic data, so absolute numbers are not competitive with production systems β€” the value is the method and a reproducible pipeline. No large-scale data, no hyperparameter sweep, and no multi-seed variance is reported. Not for production use.

Failure cases

Sparse views leave holes; a bad truncation distance breaks or over-smooths the surface (marching-cubes arrays need .copy()).

Reproduce / train your own

One click: open the notebook in Colab β†’ Runtime β†’ GPU β†’ Run all, then run its Publish to the Hugging Face Hub cell.

Open In Colab

From a shell:

git clone https://github.com/ChaoYue0307/ropedia-academy.git && cd ropedia-academy
pip install torch numpy matplotlib scikit-learn scikit-image gymnasium
jupyter nbconvert --to notebook --execute notebooks/training/D_tsdf_fusion.ipynb --output run.ipynb
# optional: override training length, e.g.  STEPS=2000  (or EPISODES=600)  before running

Files

  • figure.png
  • mesh.pt
  • metrics.json

License

Code & weights: MIT (this repository) β€” educational use encouraged.
Data: generated procedurally in the notebook β€” no external dataset.

Citation

If you use this model or the course materials, please cite:

@misc{ropedia_academy,
  title  = {Ropedia Academy: an interactive course on embodied & spatial AI},
  author = {Ropedia Academy},
  year   = {2026},
  howpublished = {\url{https://chaoyue0307.github.io/ropedia-academy/}}
}

Method / original work: Curless & Levoy, A Volumetric Method (TSDF), SIGGRAPH 1996; Lorensen & Cline, Marching Cubes, 1987.

Related assets


Part of the Ropedia Academy trained-model collection. Contributions & issues welcome on GitHub.

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