本节将介绍各种布局模式。
现在我正在测试其它的斐波那契枝叶布局模式。
聚落布局模式是传统聚落建筑文化研究的中观层次。
The settlements layout mode is the mid-scopic field in the research of architectural culture of traditional settlements.
为什么不同的树种中有不同的斐波那契布局模式存在?
然后我用PVC管材按照这个布局模式制作了一个模型。
编辑完成后,点击“返回布局模式”回到正常的编辑模式。
When finished, return to normal editing by clicking "Return to Layout Mode."
我意识到树木表现出来的这种布局模式避免了被其它物体遮挡的问题。
I saw patterns that showed that the tree design avoided the problem of shade from other objects.
我需要一种方法来测量这种布局模式收集到的太阳光量并设法进行比较。
I needed a way to measure and compare the amount of sunlight collected by the pattern.
我制作了一个测试工具来测量不同种类的树木的螺旋布局模式。
I built a test tool to measure the spiral pattern of different species of trees.
模仿橡树的斐波那契布局模式,我设计并制作了自己的测试模型。
I designed and built my own test model, copying the Fibonacci pattern of an oak tree.
另外我还观察到斐波那契布局模式可以帮助避免同一棵树的枝叶间的相互遮挡。
Plus I observed that the Fibonacci pattern helped the branches and leaves on a tree to avoid shading each other.
现在我找到了第一块拼图。可是它并没有回答树木为什么有这样的布局模式?
I now had my first piece of the puzzle but it did not answer the question, Why do trees have this pattern?
即使在被遮挡的情况下,斐波那契布局模式让部分太阳能电池仍然能够收集到阳光。
The Fibonacci pattern allowed some solar panels to collect sunlight even if others were in shade.
增长级布局模式、点轴布局模式、圈层布局模式是区域旅游业空间布局的基本模式。
The growth-level model, point-axis model, circle-layer model are the fundamental models for the spatial layout of regional tourism layout.
Bonnet认识到树枝和树叶具有一种螺旋布局模式,在数学上可以用分数来表达。
Bonnet saw that tree branches and leaves had a mathematical spiral pattern that could be shown as a fraction.
用户可以在可视化布局模式下选择和操作主屏widgets、应用程序快捷方式和壁纸。
Users can select and manipulate Home screen widgets, app shortcuts, and wallpapers using a dedicated visual layout mode.
其次是规划设计阶段对场地分区规划方法、场地布局模式、材料的选择与临时性技术措施。
Secondly, in the stage of planning and designing, the method to plan the area, the layout mode of the site, the selection of materials and the temporary technical measures, are researched.
我设计了试验来解答这个问题。但是首先我不得不做些实地测试来理解这个枝叶螺旋布局模式。
I designed experiments that attacked this question, but first I had to do field tests to understand the spiral pattern.
在此分析的基础上本论文的研究内容主要有以下四点:1。自行车换乘设施的布局模式研究。
Based on this analysis, the contents of this paper have the following four points: 1. Bicycle Ride facility layout mode.
城市生活圈体育设施功能形态布局模式:日常生活圈模式以社区为范围,以健身为主要功能。
Leisure physical activity is the main activity in daily life circle. 3 the layout model of sport facility function in city life circle.
下一代工厂布局模式应具有高柔性、模块化和易于可重构性,柔性设备布局适应市场的动态需求。
The next generation layouts should be flexible, modular and reconfigurable. Flexible facilities layout can satisfy dynamic market demand.
农村中学的总平面布局模式和功能的构成也发生着相应的变化,对于新型农村中学的探索势在必行。
The total layout mode and functions constitute of middle school of north-west rural areas lead a corresponding changes, the Study on the new rural areas middle school is inevitably.
分析了枢纽设施整体空间布局的三种模式,详细探讨了枢纽内各交通方式间衔接换乘布局模式及其优缺点。
This paper analyzes three modes of overall spatial layout of hub facilities, and discusses the link and transfer layout modes and their advantages and disadvantages between various traffic modes.
我知道树枝和树叶收集太阳光用以光合作用。于是我的下一个试验便是调查是否斐波那契布局模式有助于此。
I knew that branches and leaves collected sunlight for photosynthesis, so my next experiments investigated if the Fibonacci pattern helped.
其核心思想是城市的空间结构采取紧凑、集中的布局模式,减少人们对私人汽车的依赖,提倡公共交通和步行。
The core idea is to compact the city's spatial structure, focus on the layout of the model, reducing people's dependence on private cars and promote public transport and walking.
我想出了这样的一种方法。那就是使用太阳能电池板复制树木枝叶布局模式,然后对不同的布局模式进行比较。
I came up with the idea that I could copy the pattern of branches and leaves with solar panels and compare it with another pattern.
在这里,两个看似对立的概念通过螺旋体布局模式得以共存。这个模式涵盖了旋转路线和径向路线两种运动模式。
Here, the two apparent contradictions inherent in libraries are allowed to coexist by the form of spiral possessing two antinomic movements of radial path and rotational movement.
为了提高图像的表示效率,提出了一种改进的矩形非对称逆布局模式表示模型(NAM)图像编码算法irnam。
In order to improve image representation efficiency, an improved rectangle Non-symmetry Anti-packing representation Model (nam) named IRNAM was proposed for image coding.
同样,你应该熟悉Component、Container和布局模式来正确的扩展组件同时避免例如overnesting的常见错误。
Likewise, you should be familiar with the Component, Container and layout models to extend widgets properly and prevent common mistakes like overnesting.
同样,你应该熟悉Component、Container和布局模式来正确的扩展组件同时避免例如overnesting的常见错误。
Likewise, you should be familiar with the Component, Container and layout models to extend widgets properly and prevent common mistakes like overnesting.
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