Material Classification Using Frequency- and Depth-Dependent Time-of-Flight Distortion
Abstract
This paper presents a material classification method using an off-the-shelf Time-of-Flight (ToF) camera. We use a key observation that the depth measurement by a ToF camera is distorted in objects with certain materials, especially with translucent materials. We show that this distortion is caused by the variations of time domain impulse responses across materials and also by the measurement mechanism of the existing ToF cameras. Specifically, we reveal that the amount of distortion varies according to the modulation frequency of the ToF camera, the material of the object, and the distance between the camera and object. Our method uses the depth distortion of ToF measurements as features and achieves material classification of a scene. Effectiveness of the proposed method is demonstrated by numerical evaluation and real-world experiments, showing its capability of even classifying visually similar objects.
Cite
Text
Tanaka et al. "Material Classification Using Frequency- and Depth-Dependent Time-of-Flight Distortion." Conference on Computer Vision and Pattern Recognition, 2017.Markdown
[Tanaka et al. "Material Classification Using Frequency- and Depth-Dependent Time-of-Flight Distortion." Conference on Computer Vision and Pattern Recognition, 2017.](https://mlanthology.org/cvpr/2017/tanaka2017cvpr-material/)BibTeX
@inproceedings{tanaka2017cvpr-material,
title = {{Material Classification Using Frequency- and Depth-Dependent Time-of-Flight Distortion}},
author = {Tanaka, Kenichiro and Mukaigawa, Yasuhiro and Funatomi, Takuya and Kubo, Hiroyuki and Matsushita, Yasuyuki and Yagi, Yasushi},
booktitle = {Conference on Computer Vision and Pattern Recognition},
year = {2017},
url = {https://mlanthology.org/cvpr/2017/tanaka2017cvpr-material/}
}