A technique system for the measurement, reconstruction and character extraction of rice plant architectureReport as inadecuate




A technique system for the measurement, reconstruction and character extraction of rice plant architecture - Download this document for free, or read online. Document in PDF available to download.

This study developed a technique system for the measurement, reconstruction, and trait extraction of rice canopy architectures, which have challenged functional–structural plant modeling for decades and have become the foundation of the design of ideo-plant architectures. The system uses the location-separation-measurement method LSMM for the collection of data on the canopy architecture and the analytic geometry method for the reconstruction and visualization of the three-dimensional 3D digital architecture of the rice plant. It also uses the virtual clipping method for extracting the key traits of the canopy architecture such as the leaf area, inclination, and azimuth distribution in spatial coordinates. To establish the technique system, we developed i simple tools to measure the spatial position of the stem axis and azimuth of the leaf midrib and to capture images of tillers and leaves; ii computer software programs for extracting data on stem diameter, leaf nodes, and leaf midrib curves from the tiller images and data on leaf length, width, and shape from the leaf images; iii a database of digital architectures that stores the measured data and facilitates the reconstruction of the 3D visual architecture and the extraction of architectural traits; and iv computation algorithms for virtual clipping to stratify the rice canopy, to extend the stratified surface from the horizontal plane to a general curved surface including a cylindrical surface, and to implement in silico. Each component of the technique system was quantitatively validated and visually compared to images, and the sensitivity of the virtual clipping algorithms was analyzed. This technique is inexpensive and accurate and provides high throughput for the measurement, reconstruction, and trait extraction of rice canopy architectures. The technique provides a more practical method of data collection to serve functional–structural plant models of rice and for the optimization of rice canopy types. Moreover, the technique can be easily adapted for other cereal crops such as wheat, which has numerous stems and leaves sheltering each other.



Author: Xumeng Li, Xiaohui Wang, Hailin Wei, Xinguang Zhu, Yulin Peng, Ming Li, Tao Li , Huang Huang

Source: http://plos.srce.hr/



DOWNLOAD PDF




Related documents