Dense Representative Tooth Landmark/axis Detection Network on 3D Model

@article{Wei2021DenseRT,
  title={Dense Representative Tooth Landmark/axis Detection Network on 3D Model},
  author={Guangshun Wei and Zhiming Cui and Jie Zhu and Lei Yang and Yuanfeng Zhou and Pradeep Singh and Min Gu and Wenping Wang},
  journal={Comput. Aided Geom. Des.},
  year={2021},
  volume={94},
  pages={102077}
}
View PDF on arXiv
1 Citations

One Citation

Emergence angle: Comprehensive analysis and machine learning prediction for clinical application

Variations in the natural teeth EA and measurement methods, suggest a new classification for EA based on the interquartile range, which could aid in implementing EA measurement in prosthetic designs.

References

SHOWING 1-10 OF 63 REFERENCES

TSegNet: An efficient and accurate tooth segmentation network on 3D dental model

ToothNet: Automatic Tooth Instance Segmentation and Identification From Cone Beam CT Images

This method is the first to use neural networks to achieve automatic tooth segmentation and identification from CBCT images and encodes teeth spatial relationships as an additional feature input in the identification task, which helps to remarkably improve the identification accuracy.

Artificial Neural Networks as a powerful numerical tool to classify specific features of a tooth based on 3D scan data

Efficient 3D dental identification via signed feature histogram and learning keypoint detection

TANet: Towards Fully Automatic Tooth Arrangement

This work forms the tooth arrangement task as a novel structured 6-DOF pose prediction problem and solves it by proposing a new neural network architecture to learn from a large set of clinical data that encode successful orthodontic treatment cases.

Detecting 3D Points of Interest Using Multiple Features and Stacked Auto-encoder

This work proposes a three-phase algorithm for learning and predicting points of interest on 3D shapes by using multiple feature descriptors using a deep neural network and uses a manifold clustering technique to extract a set of points ofinterest as the output.

Automatic Feature Identification in Dental Meshes

AbstractThe goal of virtual orthodontic treatment planning is to re-position the teeth in a digital dental model so that the desired alignment of the teeth on each dental arch and occlusion (i.e.,

3D ShapeNets: A deep representation for volumetric shapes

This work proposes to represent a geometric 3D shape as a probability distribution of binary variables on a 3D voxel grid, using a Convolutional Deep Belief Network, and shows that this 3D deep representation enables significant performance improvement over the-state-of-the-arts in a variety of tasks.

Cephalometric Landmark Detection by AttentiveFeature Pyramid Fusion and Regression-Voting

An end-to-end deep learning framework that improves detection accuracy by 7%~11% for all the evaluation metrics over the state-of-the-art method and presents ablation studies to give more insights into different components of the method.

Combining Data-Driven and Model-Driven Methods for Robust Facial Landmark Detection

The proposed method is able to produce satisfying detection results on face images with exaggerated expressions, large head poses, and partial occlusions on challenging data sets, including 300W, AFLW, AFW, and COFW.
...