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GIS in Water Resources: Lecture 1

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Presentation on theme: "GIS in Water Resources: Lecture 1"— Presentation transcript:

1 GIS in Water Resources: Lecture 1
In-class and distance learning Geospatial database of hydrologic features Arc Hydro data model Curved earth and a flat map

2 Flooding from Hurricane Katrina
Flooding in New Orleans Water mapping where is the water what is in the water? Water movement where is it going? Issues for this course

3 GIS in Water Resources: Lecture 1
In-class and distance learning Geospatial database of hydrologic features Arc Hydro data model Curved earth and a flat map

4 Six Basic Course Elements
Lectures Powerpoint slides Video streaming Readings “Arc Hydro: GIS in Water Resources” Homework Computer exercises Hand exercises Term Project Oral presentation HTML report Class Interaction Discussion Examinations Midterm, final

5 Learning Styles Instructor-Centered Presentation
Community-Centered Presentation Instructor Student

6 University Without Walls
Traditional Classroom Community Inside and Outside The Classroom

7 Distance Learning Dr David Tarboton –students at Utah State University
Other People Other People Dr David Maidment –students at UT Austin Dr Tarboton will present lectures on on spatial and terrain analysis with grids

8 GIS in Water Resources: Lecture 1
In-class and distance learning Geospatial database of hydrologic features Arc Hydro data model Curved earth and a flat map

9 Geographic Data Model Conceptual Model – a set of concepts that describe a subject and allow reasoning about it Mathematical Model – a conceptual model expressed in symbols and equations Data Model – a conceptual model expressed in a data structure (e.g. ascii files, Excel tables, …..) Geographic Data Model – a conceptual model for describing and reasoning about the world expressed in a GIS database

10 Data Model based on Inventory of data layers

11 Spatial Data: Vector format
Vector data are defined spatially: (x1,y1) Point - a pair of x and y coordinates vertex Line - a sequence of points Node DRM Polygon - a closed set of lines

12 Themes or Data Layers Vector data: point, line or polygon features

13 Kissimmee watershed, Florida
Themes

14 Attributes of a Selected Feature

15 Raster and Vector Data Vector Raster Point Line Polygon
Raster data are described by a cell grid, one value per cell Vector Raster Point Line DRM Zone of cells Polygon

16 Santa Barbara, California

17 How do we combine these data?
Digital Elevation Models Watersheds Streams Waterbodies

18 An integrated raster-vector database

19 Flooding from Hurricane Katrina
Flooding in New Orleans Water mapping where is the water what is in the water? Water movement where is it going?

20 GIS in Water Resources: Lecture 1
In-class and distance learning Geospatial database of hydrologic features Arc Hydro data model Curved earth and a flat map

21 GIS in Water Resources Consortium
CRWR GIS in Water Resources Consortium GIS Water Resources Bringing together these two communities by using a common geospatial data model

22 Data Model Based on Behavior
“Follow a drop of water from where it falls on the land, to the stream, and all the way to the ocean.” R.M. Hirsch, USGS

23 Integrating Data Inventory using a Behavioral Model
Relationships between objects linked by tracing path of water movement

24 Arc Hydro: GIS for Water Resources
Published by ESRI Press The Arc Hydro data model and application tools are in the public domain Notes: Industrial partners: ESRI, Danish Hydraulic Institute, Camp,Dresser and McKee, Dodson and Associates Government partners: Federal: EPA, USGS, Corps of Engineers (Hydrologic Engineering Center) State: Texas Natural Resource Conservation Commission, Texas Water Development Board Local: Lower Colorado River Authority, City of Austin, Dept of Watershed Protection Academic Partners: University of Texas, Brigham Young University, Utah State University

25 Arc Hydro — Hydrography

26 Arc Hydro — Hydrology

27 Arc Hydro Components Drainage System Hydro Network Time Series
Flow Time Time Series Channel System Hydrography

28 Hydrologic Information System
Analysis, Modeling, Decision Making Arc Hydro Geodatabase

29 Nexrad Radar Rainfall Map

30 Nexrad Map to Flood Map in Model Builder
FLOODPLAIN MAP Flood map as output Model for flood flow HMS Model for flood depth Nexrad map as input

31 GIS in Water Resources: Lecture 1
In-class and distance learning Geospatial database of hydrologic features Arc Hydro data model Curved earth and a flat map

32 Origin of Geographic Coordinates
Equator (0,0) Prime Meridian

33 Latitude and Longitude
Longitude line (Meridian) N W E S Range: 180ºW - 0º - 180ºE Latitude line (Parallel) N W E S (0ºN, 0ºE) Equator, Prime Meridian Range: 90ºS - 0º - 90ºN

34 Latitude and Longitude in North America
Austin: (30°N, 98°W) Logan: (42°N, 112°W) 60 N 30 N 120 W 60 W 90 W 0 N

35 Map Projection Flat Map Curved Earth Cartesian coordinates: x,y
(Easting & Northing) Curved Earth Geographic coordinates: f, l (Latitude & Longitude) DRM

36 Earth to Globe to Map Map Projection: Map Scale: Scale Factor
Representative Fraction Globe distance Earth distance = Scale Factor Map distance Globe distance = (e.g. 1:24,000) (e.g )

37 Coordinate Systems A planar coordinate system is defined by a pair
of orthogonal (x,y) axes drawn through an origin Y X Origin (xo,yo) (fo,lo)

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