Abstract:

【Objective】 This study aimed to show the whole growth process of super-maize and quantitate the development parameter. 【Method】 By applying the system analysis principle and mathematical modeling technique to the development of super-maize, the fundamental relationships and quantitative algorithms between the growth and development and morphogenesis of super-maize was analyzed. The virtual model for super-maize was developed with OpenGL on the basis of morphogenesis parameter, with use of Microsoft Visual C++ 6.0 to develop the system. 【Result】 The quantitative output and visualization expression of the growth and development parameter for super-maize were realized by using GDD as driving parameter. The prediction function of the system can be integrated easily with visualization expression on the basis of the data exchange of the morphogenesis model and growth model. 【Conclusion】 The flexibility and suitability of the system can be applied to super-maize, and this system will provide a technology support for the study of super-maize.

Key words: super-maize')">super-maize, visualization, growth model, system