植物枝条弯曲形状的模拟是植物模拟的重要内容。
To solve the question of bending branches simulation, biomechanical model for bending branches was analyzed in this paper.
讨论了基于迭代函数系统(IFS)的植物模拟CAD方法,分析了该方法的关键技术问题,并提出了设计一个植物模拟系统的设想。
The paper discusses the CAD method of plant simulation based on iterated function system (IFS), and analyzes its key technology problems, then presents an idea of designing a plant simulation system.
这个分子开关同样是朝向发明可以模拟植物捕捉阳光,转换光能的技术的一步。
The molecular switch could also be a step toward developing a technology that mimics plants' ability to harvest light and convert it to energy.
gratzel首次开发模仿光合作用的电池是在1988年,那时他在Lausanne寻找一种方法来模拟植物光合作用。
Gratzel first developed his cells at Lausanne in 1988, while looking for ways to mimic the way that plants convert sunlight into the energy that powers their metabolisms.
因为这些壮丽的植物它们不在一个模拟的生态系统中而绽放,只是在很好的框架里。
The magnificent plants thrive because they're not in a simulated ecosystem, just a well framed one.
“植物通过叶片将太阳能转化为糖,我的研究目标就是试图模拟植物的这一能量产出过程,”Nelson教授解释说。
"My research aims to come close to achieving the energy production that plants can obtain when converting sun to sugars in their green leaves," explains Prof. Nelson.
沃姆·林克把西红柿、豌豆、水芹和其它植物种在盛有模拟土的盆子里……然后期盼好运。
Wamelink stuck tomatoes, peas, cress and other plants in POTS containing the simulated soil... and crossed his fingers.
该模型用于模拟发生严重荒漠化的鄂尔多斯高原植物群落的季节及年生长、叶片投影盖度、蒸发系数。
The model was developed to simulate seasonal and annual growth, foliage projective cover (FPC), and evaporative coefficient in the Ordos plateau, where serious desertification happened recently.
文章提出了一种模拟植物花朵的模型。
叶片形态模拟是植物建模和可视化的重要组成部分,而叶缘是叶片的一个重要形态特征。
Simulation of leaf shape is the most important part in plant modeling and visualization, and leaf margin is an important feature of leaf shape.
针对整数规划全局优化问题所首次提出的模拟植物生长算法,是一种源于大自然的仿生类随机算法。
Plant growth simulation algorithm aiming at the global optimization of integer programming is a kind of bionics random algorithm which occurs in nature.
植物根系的模拟是目前国内外研究的前沿问题。
Simulation of plant root systems is a internal and overseas research foreland.
使用计时器技术,还实现了植物形态的动态模拟控制。
Furthermore, the dynamic simulate control of plants growth by using timer mode is realized.
本文分别对乔木、灌木、花卉、松柏等植物进行了L-系统基因建模,并在此基础上实现了它们的计算机模拟。
This paper makes L- system gene modeling of some arbor, shrub, flower, coniferae etc. And realizes computer simulation of these plants.
时间序列分析可以通过差分、周期的方法,对植物种群的增长进行模拟与预测。
Time series model can simulate and predict the increase of Quercus variabilis population by the difference, periodic method.
分形理论主要描述自然界和非线性系统中不光滑和不规则的几何形体,它为植物形态的模拟提供了描述语言和理论基础。
Fractal theory mainly describes the nature and nonlinear system objects which are not smooth and irregular, it also provides description language and theoretical basis for plant simulation.
通过实例可视化验证,表明该模型能有效地模拟植物的生长发育过程。
The simulation results of a plant growth process by this model demonstrates the feasibility and validity of the model.
随着计算机图形学的飞速发展,人们一直研究在计算上模拟各种植物形态的可能性。
Along with computer graphics rapid development, the people study continuously in the computation simulates each kind of plant shape the possibility.
本文在土壤—植物系统中水流过程物理分析的基础上,建立了该系统中水流电模拟最通用的非线性模式。
Based on the physical analysis of water flow processes in soil-plant system, a universal model of cicruit analog for water flow in the system was developed in this paper.
植物的模拟是运用计算机图形学的理论与方法对植物形态结构和生长过程进行仿真的技术,是当前虚拟现实研究的热门课题。
The plant simulation is the technology using of computer graphics theories and methods to simulate the plant structure and growth process, it is a hot topic of virtual reality.
用颗粒状琼脂代替植物细胞从实验上系统研究了模拟植物细胞悬浮培养体系的流变特性。
Rheological properties of simulated plant cell suspension culture systems are studied systematically through the experiment with granulated agar that replaces plant cells.
其结果直接用于城市绿地系统规划和人工模拟地带性植物造景。
The result is directly used to systematically plan city greenbelt and to build plants landscape by artificial imitation.
以果灰藓和丛本藓为材料,采用室内模拟培养、生理生化测定等实验手段,研究了铜胁迫对这两种苔藓植物生理生化特性的影响。
Experiment was carried out on influence of copper stress on physiological and biochemical characteristics of Hypnum fertile and Anoectangium aestivum by indoor simulated culture.
其中,L系统以其定义的简洁性和高度的结构化特点,成为植物形态模拟中最常用的方法之一。
For its simple definition and highly structurization, L-system has been one of the most common methods in plant simulation.
将根据植物的向光性动力机制构造的模拟植物生长算法应用于输电网规划。
A new power transmission network planning approach employing a plant growth simulation algorithm as the means of optimization is described.
根据植物根系生长的几何特征,探讨了L系统理论在植物根系生长模拟中的具体应用。
According to the geometric character of the plant root systems, application of the L-systems theories in simulating the plant root systems growth was studied.
综述了植物蛋白,特别是大豆蛋白制作模拟干酪的研究进展。
Research advance in cheese analogs processing from plant proteins, especially soybean protein, was reviewed in this paper.
植物物候直接反映了气候变化的影响,是植被动态模拟的关键。
Plant phenology can directly reflect the effects of climate change, and is the key for vegetation dynamics modeling.
植物物候直接反映了气候变化的影响,是植被动态模拟的关键。
Plant phenology can directly reflect the effects of climate change, and is the key for vegetation dynamics modeling.
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