CHAPTER 5 GIS DATA Acquisition 5.1 Existing GIS Data

Slides:

Advertisements

Similar presentations

CFR 250/590 Introduction to GIS, Autumn 1999 Data Search & Import © Phil Hurvitz, find_data 1  Overview Web search engines NSDI GeoSpatial Data.

Advertisements

Starting from Text Files. User Interface Graphic user interface –Mouse, buttons, windows, menus Commands-driven interface –Commands, parameters.

CS 128/ES Lecture 9a1 Vector* Data Sources * mostly.

GIS for Environmental Science

WFM 6202: Remote Sensing and GIS in Water Management © Dr. Akm Saiful IslamDr. Akm Saiful Islam WFM 6202: Remote Sensing and GIS in Water Management Akm.

Maps as Numbers Getting Started with GIS Chapter 3.

NR 322: Editing Spatial Data Jim Graham Fall 2008 Chapter 6.

West Hills College Farm of the Future. West Hills College Farm of the Future Where are you NOW?! Precision Agriculture – Lesson 3.

Geographic Information Systems and Science SECOND EDITION Paul A. Longley, Michael F. Goodchild, David J. Maguire, David W. Rhind © 2005 John Wiley and.

Getting the Map into the Computer Lecture 4 Introduction to GISs Geography 176A Department of Geography, UCSB Summer 06, Session B.

Lecture 04: Data Storage and Representation & Access to Spatial Data Geography 128 Analytical and Computer Cartography Spring 2007 Department of Geography.

GIS Overview. What is GIS? GIS is an information system that allows for capture, storage, retrieval, analysis and display of spatial data.

GIS 1001 Introduction to Geographic Information Systems.

GIS 200 Introduction to GIS Buildings. Poly Streams, Line Wells, Point Roads, Line Zoning,Poly MAP SHEETS.

Maps as Numbers Lecture 3 Introduction to GISs Geography 176A Department of Geography, UCSB Summer 06, Session B.

Geographic Information Systems Thomas Jay Forrest Information Services 8 March 2007.

Geog 458: Map Sources and Errors January 11, 2006 Data Collection.

CS 128/ES Lecture 9a1 Vector* Data Sources * mostly.

Lecture 16: Data input 1: Digitizing and Geocoding By Austin Troy University of Vermont Using GIS-- Introduction to GIS.

Maps as Numbers Getting Started with GIS Chapter 3.

Fundamentals of GIS Materials by Austin Troy © 2008 Lecture 18: Data Input: Geocoding and Digitizing By Austin Troy University of Vermont NR 143.

Getting the Map into the Computer Getting Started with Geographic Information Systems Chapter 4.

CS 128/ES Lecture 6b1 Digital Map Sources I.

Data Input How do I transfer the paper map data and attribute data to a format that is usable by the GIS software? Data input involves both locational.

GIS Tutorial 1 Lecture 6 Digitizing.

Digitizing There are three primary methods for digitizing spatial information: Manual Methods include: Tablet Digitizing Heads-up Digitizing An Automated.

Intro to ArcGIS Kate Dougherty, Geosciences & Maps Librarian Tutorial created for version 10.1 in February 2013.

9. GIS Data Collection.

Spatial Analysis University of Maryland, College Park 2013.

Introduction to GIS. Watershed Discretization (model elements) + Land Cover Soil Rain Results Intersect model elements with Digital Elevation Model (DEM)

Nicholas A. Procopio, Ph.D, GISP

Intro. To GIS Lecture 4 Data: data storage, creation & editing

Project 3: Finding, Retrieving, and Viewing National Data Map Rick Hartlieb Ben Miller Alexis Phillips Jessica Plummer.

Applied Cartography and Introduction to GIS GEOG 2017 EL Lecture-3 Chapters 5 and 6.

Geographic Information Systems

GSP 270 Digitizing with an Introduction to Uncertainty and Metadata

Ref: Geographic Information System and Science, By Hoeung Rathsokha, MSCIM GIS and Remote Sensing WHAT.

Applied Cartography and Introduction to GIS GEOG 2017 EL

Support the spread of “good practice” in generating, managing, analysing and communicating spatial information Georeferencing for Digitising By: Willy.

Jeremy D. Bartley Kansas Geological Survey An Introduction to an Index of Geospatial Web Services.

Fundamentals of GIS Materials by Austin Troy © 2008 Lecture 18: Data Input: Geocoding and Digitizing By Austin Troy University of Vermont.

Applied Cartography and Introduction to GIS GEOG 2017 EL Lecture-2 Chapters 3 and 4.

GIS data sources Data capture and compilation is very time consuming and costly Up to 80% cost of a GIS (Longley et al.) Primary Data – data captured specifically.

Major parts of ArcGIS ArcView -Basic mapping, editing and Analysis tools ArcEditor -all of ArcView plus Adds ability to deal with topological and network.

Geography 160 Project 3 Using Map Data and Integrating it into GIS By Jerrica, Daniel, and Aaron.

Data input 1: - Online data sources -Map scanning and digitizing GIS 4103 Spring 06 Adina Racoviteanu.

GIS 1 GIS Lecture 6 Digitizing. GIS 2 Outline Digitizing Overview Digitizing Sources GIS Features Creating and Editing Shapefiles in ArcView Spatial Adjustments.

CHAPTER 1 INTRODUCTION. 1.1 GIS? Components of a GIS A Brief History of GIS GIS Software Products Box 1.1 A List of GIS Software Producers.

CHAPTER 3 VECTOR DATA MODEL.

Chapter 8. ATTRIBUTE DATA INPUT AND MANAGEMENT

CHAPTER 4 RASTER DATA MODEL 4.1 Elements of the Raster Data Model

Introducing ArcGIS Chapter 1. Objectives  Understand the architecture of the ArcGIS program.  Become familiar with the types of data files used in ArcGIS.

UNIT 1: GIS DEFINITIONS AND APPLICATIONS

CHAPTER 11 VECTOR DATA ANALYSIS 11.1 Buffering

Geographic Data in GIS. Components of geographic data Three general components to geographic information Three general components to geographic information.

Stream Names Stream names were assigned from the NHD reach shapefile. Names were assigned based on the most prevalent name within a basin (based on stream.

UW-GIS list-serve

1 Overview Finding and importing data sets –Searching for data –Importing data_.

Introduction to Geographic Information Systems (GIS)

Chapter 10.  Data collection workflow  Primary geographic data capture  Secondary geographic data capture  Obtaining data from external sources 

Vector Data Input Chapter 4. Data Buy or make - sources Base map - layers Standards – accuracy Metadata As bad as the worst component.

ESRI Education User Conference – July 6-8, 2001 ESRI Education User Conference – July 6-8, 2001 Introducing ArcCatalog: Tools for Metadata and Data Management.

Distance measure Point A: UTM Eastings = 450,000m; Northings = 4,500,000m Point B: UTM Eastings = 550,000m; Northings = 4,500,000m.

Geog. 377: Introduction to GIS - Lecture 10 Overheads Methods of Data Input Topics Lecture 11: GIS Database Creation and Maintenance (I) Readings.

Environmental GIS Nicholas A. Procopio, Ph.D, GISP

Storage Media Traditionally, the paper map has performed a storage function for spatial information Computer cartography requires information to be digital.

GEOGRAPHICAL INFORMATION SYSTEM

WFM 6202: Remote Sensing and GIS in Water Management

ESRM 250/CFR 520 Autumn 2009 Phil Hurvitz

Presentation transcript:

CHAPTER 5 GIS DATA Acquisition 5.1 Existing GIS Data 5.1.1 Federal Geographic Data Committee 5.1.2 Geospatial One-Stop Box 5.1 Clearinghouse and Portal 5.1.3 U.S. Geological Survey 5.1.4 U.S. Census Bureau 5.1.5 Natural Resources Conservation Service 5.1.6 Statewide Public Data: An Example 5.1.7 Regional Public Data: An Example 5.1.8 Metropolitan Public Data: An Example 5.1.9 County-Level Public Data: An Example 5.1.10 GIS Data from Private Companies 5.2 Metadata Box 5.2 ISO Metadata Standards 5.3 Conversion of Existing Data 5.3.1 Direct Translation 5.3.2 Neutral Format Box 5.3 Importing DLG, SDTS, TIGER, and VPF files in ArcGIS Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

5.4 Creating New Data 5.4.1 Remotely Sensed Data 5.4.2 Field Data Box 5.4 An Example of GPS Data 5.4.3 Text Files with x-, y-Coordinates 5.4.4 Digitizing Using a Digitizing Table 5.4.5 Scanning Box 5.5 Vectorization Settings in ArcGIS 5.4.6 On-Screen Digitizing 5.4.7 Importance of Source Maps Key Concepts and Terms Review Questions Applications: Data Input Task 1: Download and Process DEM and DLG from the Internet Task 2: Digitize On-Screen in ArcMap Task 3: Add X Y Data in ArcMap Challenge Question References

Existing GIS Data Federal Geographic Data Committee http://www.fgdc.gov/ Geospatial One-stop http://www.geodata.gov/ U.S. Geological Survey: National Map http://geography.usgs.gov/ National Land Cover Data 1992 http://landcover.usgs.gov/ USGS DEMs download sites: GIS Data Depot http://data.geocomm.com/ USGS DEMs download sites: Map-Mart http://www.mapmart.com/ USGS DEMs download sites: LAND INFO International http://www.atdi-us.com/ National Elevation Data set (NED) http://ned.usgs.gov/ned/

AmericaView http://americaview.usgs.gov/ OhioView http://www.ohioview.org/ U.S. Census Bureau http://www.census.gov/ Natural Resources Conservation Service http://soils.usda.gov/ Montana GIS data clearinghouse http://www.nris.state.mt.us/ Greater Yellowstone Area Data Clearinghouse http://sun1.giac.montana.edu/gyadc/gyadchome.html San Diego Association of Governments http://www.sandag.cog.ca.us/ Clackamas County, Oregon http://www. clackamas. us/gis/

Metadata Metadata provide information about geospatial data. They are therefore an integral part of GIS data and are usually prepared and entered during the data production process. Metadata are important to anyone who plans to use public data for a GIS project.

Conversion of Existing Data Data conversion refers to the mechanism for converting GIS data from one format to another. Data conversion includes direct translation and use of neutral format.

Figure 5.1 The MIF to Shapefile tool in ArcGIS converts a MapInfo file to a shapefile.

Figure 5.2 To accommodate users of different GIS packages, a government agency can translate public data into a neutral format such as SDTS format. Using the translator in the GIS package, the user can convert the public data into the format used in the GIS.

Creating New Data A variety of data sources and methods can be used to create new data: Remotely sensed data Field data (survey data and GPS data) Text files with x-, y-coordinates Digitizing using a digitizing table Scanning On-screen digitizing

Figure 5.3 A digital orthophoto (DOQ) can be used as the background for digitizing or updating of existing maps.

Figure 5.4 A bearing and a distance determine a course between two stations.

Figure 5.5 Use four GPS satellites to determine the coordinates of a receiving station. xi, yi, and zi are coordinates relative to the center of mass of the Earth. Ri represents the distance (range) from a satellite to the receiving station.

Figure 5.6 A portable GPS receiver. (Courtesy of Trimble.)

Figure 5.7 Elevation readings from a GPS receiver are measured from the surface of the geoid rather than the spheroid.

Figure 5.8 A large digitizing table and a cursor with a 16-button keypad. (Courtesy of GTCO Calcomp, Inc.)

Manual Digitizing Many GIS packages have a built-in digitizing module for manual digitizing. The module is likely to have commands that can help move or snap a feature (i.e., a point or line) to a precise location in relation to another feature either in the same layer or a different layer.

Figure 5.9 The end of a new line can be automatically snapped to an existing arc if the gap is smaller than the specified snapping tolerance.

Figure 5.10 A point (node or vertex) can be automatically snapped to another point if the gap is smaller than the specified snapping tolerance.

Figure 5.11 Large format drum scanners. (Courtesy of GTCO Calcomp, Inc.)

Scanning Scanning is a digitizing method that converts an analog map into a scanned file, which is then converted back to vector format through tracing. Results of tracing depend on the robustness of the tracing algorithm that is built in the GIS package. Examples of problems that must be solved by the tracing algorithm include: how to trace an intersection, where the width of a raster line may double or triple; how to continue when a raster line is broken or when two raster lines are close together; and how to separate a line from a polygon.

Figure 5.12 A binary scanned file: the lines are soil lines, and the black areas are the background.

Figure 5.13 A raster line in a scanned file has a width of several pixels.

Figure 5.14 Semiautomatic tracing starts at a point (shown with an arrow) and traces all lines connected to the point.

Figure 5.15 The width of a raster line doubles or triples when lines meet or intersect.

Framework data http://www.fgdc.gov/framework/frameworkoverview/ Federal Geographic Data Committee http://www.fgdc.gov/ Geospatial One-stop http://www.geodata.gov/ U.S. Geological Survey: National Map http://geography.usgs.gov/ National Land Cover Data 1992 http://landcover.usgs.gov/ USGS DEMs download sites: GIS Data Depot http://data.geocomm.com/ USGS DEMs download sites: Map-Mart http://www.mapmart.com/ USGS DEMs download sites: LAND INFO International http://www.atdi-us.com/ National Elevation Data set (NED) http://ned.usgs.gov/

OhioView http://www.ohioview.org/ Soils data at the Natural Resources Conservation Service http://soils.usda.gov/ U.S. Census Bureau http://www.census.gov/ Montana GIS data clearinghouse http://www.nris.state.mt.us/ Greater Yellowstone Area Data Clearinghouse http://sun1.giac.montana.edu/gyadc/gyadchome.html San Diego Association of Governments http://www.sandag.cog.ca.us/ Clackamas County, Oregion http://www.clackamas.us/gis/ Geography Network http://www.geographynetwork.com/ Tele Atlas North America http://www.teleatlas.com/ NAVTEQ http://www.navteq.com/ LAND INFO International http://www.landinfo.com/

FGDC metadata http://www.fgdc.gov/metadata/geospatial-metadata-standards Spatial Data Transfer Standard http://mcmcweb.er.usgs.gov/sdts/ National Geospatial-Intelligence Agency http://www.nga.mil/ International Steering Committee for Global Mapping http://www.iscgm.org/cgi-bin/fswiki/wiki.cgi USGS Geographic Data Download website http://edc.usgs.gov/geodata/ NAVSTAR http://gps.losangeles.af.mil/jpo/ GLONASS http://www.glonass-center.ru/ Galileo http://europa.eu.int/comm/dgs/energy_transport/galileo/index_en.htm Northern California Earthquake Data Center http://quake.geo.berkeley.edu/ California GIS data clearinghouse http://casil-mirror1.ceres.ca.gov/casil/