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相关概念视频

Manipulation and Analysis01:21

Manipulation and Analysis

17
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...
17
Design Example: Measuring Distance Between Two Points with Obstructions01:10

Design Example: Measuring Distance Between Two Points with Obstructions

22
When measuring distances in areas with physical obstructions, such as a lake in a field, surveyors must employ techniques to calculate accurate lengths without direct line measurements. One effective method is the offset technique, which allows for precise distance estimation over inaccessible stretches.In this scenario, a surveyor must measure a side of an area that crosses a lake. Since the measuring tape cannot span the lake, the surveyor begins by establishing a baseline that aligns with...
22
Design Example: Alignment of a Road Line Using GIS01:17

Design Example: Alignment of a Road Line Using GIS

25
The alignment of a road line using Geographic Information Systems (GIS) is a critical process in civil engineering, combining advanced technology with practical decision-making. This methodology begins with the collection of geospatial data, including information on land cover, geomorphology, drainage patterns, slope, and contour details. Such data is typically acquired through satellite imagery and GIS tools, offering a comprehensive understanding of the terrain.Once the data is gathered, it...
25
Multiple Pipe Systems01:21

Multiple Pipe Systems

326
Multipipe systems consist of complex configurations of interconnected pipes designed to transport fluids efficiently across intricate networks. They are essential in engineering applications requiring precise control over flow distribution, pressure, and head loss. They are categorized into series, parallel, loop, and network configurations, each distinguished by unique flow characteristics and applications.
Series Configuration
In a series configuration, fluid flows sequentially from one pipe...
326
GIS Software, Hardware, and Sources of GIS Data01:23

GIS Software, Hardware, and Sources of GIS Data

38
A Geographic Information System (GIS) combines specialized software and hardware to effectively manage, analyze, and present spatial and related data. GIS software includes critical functionalities such as a user interface for easy navigation, database management tools for handling spatial and attribute data, and data retrieval features for efficient access. Analytical tools transform raw data into insights, while display functions produce maps and reports in various formats for effective...
38
Selected Data About Geographic Locations01:25

Selected Data About Geographic Locations

20
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...
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相关实验视频

Updated: May 21, 2025

Spatial Multiobjective Optimization of Agricultural Conservation Practices using a SWAT Model and an Evolutionary Algorithm
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启发式空间缩小方法用于水源定位在供水网络.

Gerardo Riano-Briceno1, Ahmed Abokifa2, Ahmad Taha3

  • 1Fariborz Maseeh Department of Civil, Architectural and Environmental Engineering, The University of Texas at Austin, Austin, Texas 78712, United States.

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PubMed
概括

准确地定位水污染源对于公共卫生至关重要. 这项研究引入了一种新方法,将传感器数据与有针对性的采样相结合,以精确确定水分系统中的污染来源.

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科学领域:

  • 环境工程 环境工程
  • 水资源管理 水资源管理
  • 公共卫生 公共卫生

背景情况:

  • 在水分配系统 (WDS) 中准确地定位污染源对于水安全和公共卫生保护至关重要.
  • 在WDS中监测覆盖范围很少,这阻碍了准确识别污染来源.
  • 现有的方法在稀疏的传感数据的局限性中扎.

研究的目的:

  • 开发和验证一种新的方法来准确和及时地在WDS中定位污染源.
  • 提高稀疏水质监测网络的有效性.
  • 减少识别污染源的不确定性,指导采样策略.

主要方法:

  • 集成稀疏连续传感与有针对性的手动抓取样本.
  • 使用传感器定时和信号启发学方法,对可能的污染源进行代缩小.
  • 在潜在的来源位置上生成概率分布,以指导自适应采样.

主要成果:

  • 拟议的方法大大提高了精度,准确性和定位速度.
  • 将固定传感器与自适应采样相结合,在稀疏的传感器网络中尤其有效.
  • 概率分布有效地减少了不确定性,并指导了随后的抽样工作.

结论:

  • 新的来源本地化方法提高了WDS的安全性和公共卫生保护.
  • 将稀疏连续传感与自适应采样相结合,为污染源的识别提供了一个强大的解决方案.
  • 需要进一步的研究来优化方法论,以便在现实世界WDS中获得最大的有效性.