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相关概念视频

Methods of Obtaining Topography01:25

Methods of Obtaining Topography

262
Topography involves measuring and mapping land elevations, natural features, and artificial structures to create accurate representations of the terrain. Topographic surveying relies on traditional and modern methods, each with distinct advantages and limitations.Traditional Surveying Methods:Transit stadia surveys and plane table surveys were widely used traditional surveying methods. These techniques relied on instruments like theodolites and stadia rods for measuring distances and angles,...
262
Selected Data About Geographic Locations01:25

Selected Data About Geographic Locations

246
Geographic Information Systems (GIS) rely on two core types of data: spatial data and attribute data.Spatial DataSpatial data defines the physical location of features within a coordinate system, typically expressed in terms of latitude and longitude. It provides precise positioning for elements like roads, rivers, or buildings.Attribute DataAttribute data complements spatial data by adding descriptive information about these features. For example, a road's spatial data includes its start and...
246
Thematic Layering in GIS01:30

Thematic Layering in GIS

304
In the past, planning projects such as schools or public facilities required extensive manual effort to gather and compile data. Information such as property boundaries, soil characteristics, road networks, zoning regulations, and flood zones had to be sourced individually from courthouses, utility providers, and registry offices. Assembling these datasets into a coherent format often took several months, delaying project timelines.The introduction of Geographic Information Systems (GIS)...
304
Topographic Surveying and Contours01:29

Topographic Surveying and Contours

791
Topographic surveying is critical for documenting the Earth's surface, focusing on capturing elevations, slopes, and natural and man-made features. It is essential in construction planning, water resource management, and land-use analysis. The primary outcome of such surveys is a topographic map, which uses contour lines to visually represent the shape and slope of the terrain, providing valuable insights into the landscape's characteristics.Contour lines are fundamental to understanding the...
791
Plotting of Topographic Maps01:29

Plotting of Topographic Maps

424
Topographic maps represent the Earth's surface features using contour lines, which connect points of equal elevation to create a two-dimensional representation of three-dimensional terrain. Creating a topographic map requires a systematic approach.Begin by plotting a scaled grid and marking intersections corresponding to the survey's elevation data points. Assign elevation values at these intersections to build the base map. Next, determine contour levels using a consistent contour interval,...
424
Manipulation and Analysis01:21

Manipulation and Analysis

276
GIS manipulation and analysis functions are vital for decision-making and planning. These activities range from data retrieval tasks, such as selecting information based on specific criteria, to advanced analytical techniques that address complex spatial problems.One critical GIS analysis method is overlaying, which combines multiple data layers to examine impacts. For example, overlaying a river-dammed lake boundary with road networks can identify affected infrastructure. Another common...
276

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相关实验视频

Updated: Jan 9, 2026

Photorealistic Learned Landscapes for Augmented Reality
06:54

Photorealistic Learned Landscapes for Augmented Reality

Published on: June 27, 2025

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从数据中重建瓦丁顿的景观.

Dillon J Cislo1, M Joaquina Delás2,3, James Briscoe2

  • 1Center for Studies in Physics and Biology, Rockefeller University, New York, NY 10065.

Proceedings of the National Academy of Sciences of the United States of America
|December 3, 2025
PubMed
概括
此摘要是机器生成的。

这项研究引入了一个计算框架,将细胞发育模型作为一个景观,直接使用高维单细胞数据. 这种方法将基因表达映射到发育动态,有助于理解和控制细胞命运过渡.

关键词:
莫尔斯Smale男人的时间瓦丁顿景观的景观减小尺寸的缩小方式转录的概况分析

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科学领域:

  • 发展生物学 发展生物学
  • 计算生物学 计算生物学
  • 系统生物学 系统生物学

背景情况:

  • 紫体对生物体的发育需要来自单个原始细胞的多种细胞类型.
  • 现有的发展信号网络模型是复杂的,难以适应数据.
  • 景观模型通过可视化细胞命运决策作为抽象地形流动提供了一个替代方案.

研究的目的:

  • 开发一个计算几何框架,直接将动态景观与高维单细胞数据相匹配.
  • 将基因表达映射到发育动态和描述景观特征.
  • 为理解和控制发展动态提供一个一般的框架.

主要方法:

  • 开发了一个计算几何框架,以将动态景观与高维单细胞数据相匹配.
  • 建模了基因表达空间中概率分布的时间演变.
  • 将框架应用于多色流细胞计和RNA-seq数据,包括用于神经管模式的干细胞系统.

主要成果:

  • 直接从高维单细胞数据与最小的自由参数成功构建景观.
  • 具有特征的动态特征,如固定点,不稳定的分散体和吸引力盆地.
  • 恢复了神经前代类型的形态原体依赖的景观,在短暂的形态原体暴露后显示信号依赖和不可逆转的行为.

结论:

  • 开发的框架将景观模型的可解释性与直接数据连接相结合.
  • 它为理解和控制复杂的发育动态提供了一个强大的工具.
  • 该方法提供了适用于各种单细胞数据集和生物系统的通用方法.