Research Article
High-throughput visible image transmission design based on the X-CT root 3D reconstruction system
@INPROCEEDINGS{10.4108/eai.6-6-2021.2306765, author={Xin Guan and Jinpeng Wang and Yang Zhou and Teng Zhang and Kemo Jin and Nianyu Zou}, title={High-throughput visible image transmission design based on the X-CT root 3D reconstruction system}, proceedings={Proceedings of the 8th EAI International Conference on Green Energy and Networking, GreeNets 2021, June 6-7, 2021, Dalian, People’s Republic of China}, publisher={EAI}, proceedings_a={GREENETS}, year={2021}, month={8}, keywords={x-ct visible light communication image transmission}, doi={10.4108/eai.6-6-2021.2306765} }
- Xin Guan
Jinpeng Wang
Yang Zhou
Teng Zhang
Kemo Jin
Nianyu Zou
Year: 2021
High-throughput visible image transmission design based on the X-CT root 3D reconstruction system
GREENETS
EAI
DOI: 10.4108/eai.6-6-2021.2306765
Abstract
X-ray computed tomography (X-CT) technology can help us observe plants’ root structure in a three-dimensional, non-destructive manner under underground soil conditions. Between the CT imaging terminal and the post-image 3D reconstruction processing terminal, there is a massive amount of image data for transmission, and the process requires a lot of transmission time, which is challenging to meet the characteristics of large-scale and high-throughput research. Today’s medical transmission bus Technology does not meet the low cost and high convenience of future plant phenotype research. For large-scale population genetic analysis after the three-dimensional phenotype of plant roots, such as quantitative trait locus mapping (QTL) research, it is necessary to have high the technology of flux image data transmission is added based on the three-dimensional analysis of root system. In this paper, under the conditions of underground soil, a high-throughput visual light image transmission system for X-CT plant root CT scanning imager is proposed. It uses the characteristics of fast data transmission speed and large throughput of visible light, and image transmission can be useful. Reduce the time of image data transmission between the upper imaging terminal and the lower image processing terminal and reduce the later 3D reconstruction research time cost.