planimetric
简明释义
英[ˌplænɪˈmɛtrɪk]美[ˌplænɪˈmɛtrɪk]
adj. 平面的
英英释义
Relating to or denoting a two-dimensional representation of an object or area, typically on a flat surface. | 与物体或区域的二维表示相关,通常在平面上。 |
单词用法
同义词
反义词
三维的 | The architect created a three-dimensional model of the building. | 建筑师为这座建筑制作了一个三维模型。 | |
体积的 | Volumetric analysis is essential for understanding the space occupied by an object. | 体积分析对于理解一个物体所占据的空间至关重要。 |
例句
1.It is the objective basis of the map express for the qualitative and quantitative specific property of planimetric feature and its relation of time and space.
地物的质量和数量特征及其时空关系是地图表示的客观基础。
2.If the planimetric configuration of the square is apparently homogeneous and continuous, its volumetric articulation expresses complexity and fragmentation.
如果广场的平面配置明显的同类和连续,其建筑体量的整合表达了复杂性和片段化。
3.The planimetric position of the piles which endure the extremum axial force is different.
受开挖区域的影响,承受轴力最大值、最小值桩体的平面位置是变化的。
4.This paper puts forward the transferring method by planimetric controlling when it can only be connected with one-shaft in blind-level of the mine and makes an accuracy analysis to the survey result.
提出就矿山盲中段在只有一井联系时的平面控制传递方法,并就实测成果做精度分析。
5.However, the method of directly calculating the planimetric coordinates of the centre line on the road and the calculating program of road design can completely solve the problems above.
本文介绍的直接计算出道路中线平面坐标的方法和道路设计计算程序,完全解决了上述问题。
6.This study proposed an algorithm for building model reconstruction from airborne laser scanning data, based on feature line detection and separation of planimetric and height computations.
该方法以投影为基础,以平高分解为手段,通过在多个投影平面内逐步确定平面、高程信息实现特征线提取及模型重建。
7.This paper puts forward the transferring method by planimetric controlling when it can only be connected with one-shaft in blind-level of the mine and makes an accuracy analysis to the survey result.
提出就矿山盲中段在只有一井联系时的平面控制传递方法,并就实测成果做精度分析。
8.For urban planning, planimetric 平面测量的 maps are essential to visualize land use.
在城市规划中,平面测量的地图对于可视化土地使用至关重要。
9.Surveyors often rely on planimetric 平面测量的 techniques for land assessments.
测量师通常依赖于平面测量的技术进行土地评估。
10.The planimetric 平面测量的 representation helps in accurately measuring distances on a flat surface.
这种平面测量的表示法有助于准确测量平面上的距离。
11.In geography, a planimetric 平面测量的 map shows features without elevation details.
在地理学中,平面测量的地图展示了没有高程细节的特征。
12.The architect used a planimetric 平面测量的 drawing to present the layout of the new building.
建筑师使用了一幅平面测量的图纸来展示新建筑的布局。
作文
In the realm of geography and cartography, the term planimetric refers to a type of map that represents only the horizontal positions of features on the Earth's surface. Unlike topographic maps, which depict both the horizontal and vertical dimensions, planimetric maps focus solely on the two-dimensional layout. This distinction is crucial for various applications, including urban planning, land use management, and environmental studies.One of the primary advantages of planimetric maps is their simplicity. By eliminating elevation data, these maps provide a clear and straightforward representation of spatial relationships. For instance, city planners often rely on planimetric maps to visualize the arrangement of streets, buildings, and parks without the distraction of contour lines or elevation changes. This clarity allows for more effective decision-making when it comes to zoning, infrastructure development, and resource allocation.Moreover, planimetric maps are essential in various fields such as geology, forestry, and agriculture. In geology, understanding the distribution of rock types and mineral resources can be facilitated by using planimetric representations. Similarly, foresters utilize these maps to plan logging operations while minimizing environmental impact. Farmers may also employ planimetric maps to assess land suitability for different crops, ensuring optimal yield and sustainability.Despite their benefits, planimetric maps do have limitations. The absence of elevation information means that users must often supplement these maps with additional data to gain a comprehensive understanding of the terrain. For example, when navigating mountainous areas, a planimetric map alone would not provide sufficient information about steep slopes or potential hazards. Therefore, combining planimetric maps with topographic data is often necessary for thorough analysis and planning.Technological advancements have greatly enhanced the creation and usage of planimetric maps. Geographic Information Systems (GIS) allow for the integration of various data layers, enabling users to generate customized planimetric maps that meet specific needs. This capability has revolutionized fields such as disaster management, where rapid assessments of affected areas are critical. By utilizing GIS tools, emergency responders can create planimetric maps that highlight infrastructure, population density, and access routes, facilitating efficient response strategies.In conclusion, the term planimetric encapsulates a vital concept within the disciplines of geography and cartography. These maps serve as indispensable tools for professionals across various fields, offering clarity and focus on the horizontal arrangement of features. While they may lack elevation data, the advantages of planimetric maps in urban planning, environmental management, and resource allocation cannot be overstated. As technology continues to evolve, the applications and effectiveness of planimetric maps will undoubtedly expand, further solidifying their importance in our understanding and management of the Earth's surface.
在地理和制图领域,术语平面图指的是一种只表示地球表面特征水平位置的地图。与描绘水平和垂直维度的地形图不同,平面图地图仅关注二维布局。这种区别对于城市规划、土地使用管理和环境研究等各种应用至关重要。平面图地图的主要优点之一是其简单性。通过消除高程数据,这些地图提供了空间关系的清晰和直接的表示。例如,城市规划者通常依赖于平面图地图来可视化街道、建筑物和公园的排列,而不受等高线或高程变化的干扰。这种清晰性使得在区域划分、基础设施开发和资源分配方面做出更有效的决策成为可能。此外,平面图地图在地质学、林业和农业等多个领域都是必不可少的。在地质学中,了解岩石类型和矿产资源的分布可以通过使用平面图表示来促进。同样,林业工作者利用这些地图来规划伐木作业,同时最小化对环境的影响。农民也可能利用平面图地图来评估不同作物的土地适宜性,以确保最佳产量和可持续性。尽管有其好处,平面图地图也存在局限性。缺乏高程信息意味着用户通常必须用额外的数据来补充这些地图,以获得对地形的全面理解。例如,在山区导航时,单靠平面图地图不足以提供有关陡坡或潜在危险的充分信息。因此,通常需要将平面图地图与地形数据结合使用,以便进行全面分析和规划。技术进步极大地增强了平面图地图的创建和使用。地理信息系统(GIS)允许集成各种数据层,使用户能够生成满足特定需求的定制平面图地图。这种能力彻底改变了灾害管理等领域,在这些领域,快速评估受影响区域至关重要。通过利用GIS工具,紧急响应人员可以创建突出基础设施、人口密度和通行路线的平面图地图,从而促进高效的响应策略。总之,术语平面图概括了地理和制图学科中的一个重要概念。这些地图作为各个领域专业人士不可或缺的工具,提供了对特征水平排列的清晰和集中关注。虽然它们可能缺乏高程数据,但在城市规划、环境管理和资源分配方面,平面图地图的优势不可低估。随着技术的不断发展,平面图地图的应用和有效性无疑将扩展,进一步巩固它们在我们理解和管理地球表面中的重要性。