Efficient 3D Object Reconstruction using Visual Transformers
This work addresses 3D reconstruction for computer vision applications, but it is incremental as it adapts transformers to established techniques.
The paper tackled 3D object reconstruction from 2D images by replacing convolutions with visual transformers in existing efficient methods, achieving accuracy similar or superior to baseline approaches.
Reconstructing a 3D object from a 2D image is a well-researched vision problem, with many kinds of deep learning techniques having been tried. Most commonly, 3D convolutional approaches are used, though previous work has shown state-of-the-art methods using 2D convolutions that are also significantly more efficient to train. With the recent rise of transformers for vision tasks, often outperforming convolutional methods, along with some earlier attempts to use transformers for 3D object reconstruction, we set out to use visual transformers in place of convolutions in existing efficient, high-performing techniques for 3D object reconstruction in order to achieve superior results on the task. Using a transformer-based encoder and decoder to predict 3D structure from 2D images, we achieve accuracy similar or superior to the baseline approach. This study serves as evidence for the potential of visual transformers in the task of 3D object reconstruction.