The autonomous physiological processes of IVOs have been established to achieve physiological functions.
建立了智能虚拟器官的自主化生理过程,实现生理功能。
Discrete pressure-flow model and graph automata have been used to simulate the material transport and distribution and information exchange between IVOs.
采用离散压力流模型和图自动机计算模型实现了智能虚拟器官之间的物质传输与分配。
The branching network composed of IVOs has been established, to store the virtual plant topology, geometry and physical information, and can directly be resolved 3d visualization image.
建立由智能虚拟器官构成的分枝网络,来存储虚拟植物拓扑结构、几何形态和生理信息,并可直接解析出三维可视化图像。
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