MINERVAS: Massive INterior EnviRonments VirtuAl Synthesis
Abstract
With the rapid development of data-driven techniques, data has played an essential role in various computer vision tasks. Many realistic and synthetic datasets have been proposed to address different problems. However, there are lots of unresolved challenges: (1) the creation of dataset is usually a tedious process with manual annotations, (2) most datasets are only designed for a single specific task, (3) the modification or randomization of the 3D scene is difficult, and (4) the release of commercial 3D data may encounter copyright issue. This paper presents MINERVAS, a Massive INterior EnviRonments VirtuAl Synthesis system, to facilitate the 3D scene modification and the 2D image synthesis for various vision tasks. In particular, we design a programmable pipeline with Domain-Specific Language, allowing users to (1) select scenes from the commercial indoor scene database, (2) synthesize scenes for different tasks with customized rules, and (3) render various imagery data, such as visual color, geometric structures, semantic label. Our system eases the difficulty of customizing massive numbers of scenes for different tasks and relieves users from manipulating fine-grained scene configurations by providing user-controllable randomness using multi-level samplers. Most importantly, it empowers users to access commercial scene databases with millions of indoor scenes and protects the copyright of core data assets, e.g., 3D CAD models. We demonstrate the validity and flexibility of our system by using our synthesized data to improve the performance on different kinds of computer vision tasks.
Cite
@article{arxiv.2107.06149,
title = {MINERVAS: Massive INterior EnviRonments VirtuAl Synthesis},
author = {Haocheng Ren and Hao Zhang and Jia Zheng and Jiaxiang Zheng and Rui Tang and Yuchi Huo and Hujun Bao and Rui Wang},
journal= {arXiv preprint arXiv:2107.06149},
year = {2022}
}
Comments
Accepted by Computer Graphics Forum, Pacific Graphics 2022. The two first authors contribute equally. Project pape: https://coohom.github.io/MINERVAS