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Basics of GIS: Outline

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Title: Basics of GIS: Outline


1
Basics of GIS Outline
  • Whats a GIS
  • Teaching GIS
  • Applications
  • Myths
  • Some interesting problems

2
Simple Definition
  • GIS Maps in Computers

3
Smart Maps
Site Number Bacteria 104
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4
What Is GIS - a Brief Introduction
a system of hardware, software, data, people,
organizations and institutional arrangements for
collecting, storing, analyzing, and disseminating
information about areas of the earth (Dueker and
Kjerne, 1989)
  • Different mapping systems
  • Electronic atlases
  • Thematic mapping systems
  • Street-based mapping systems
  • GIS all these things much more
  • analysis, import/export, combination of different
    data, dynamic map update, etc

5
How GIS Works
  • Link map features to tables of attributes
  • Access the attributes for any map feature
  • Locate any feature from its attributes
  • Manage sets of features attributes as themes or
    objects
  • Integrate sources
  • - Primary sources
  • - Secondary sources

6
Integrate Sources
7
Geographic Database
Framework Data
Thematic Data
8
Exploring Relationships
  • Based on geographic location and proximity, GIS
    makes connections between activities
  • Looking at data geographically can often suggest
    new insights, explanations
  • These connections are often unrecognized
    without GIS, but can be vital to understanding
    and managing activities and resources
  • E.g., we can link pollution sources with disease
    patterns

9
Combining data sets
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Pollution Sources
Leukemia Cases
10
Information about where allows us to combine
heterogeneous data sets
11
Space as an indexing system
Rivers


Settlements



Admin. Units
Reference Grid
Latitude
Longitude
12
Projections
  • Example The Mercator projection has straight
    meridians parallels that intersect at right
    angles, as opposed to the Robinson projection.
  • Mercator preserves area only at the equator and
    at two standard parallels equidistant from the
    equator.
  • The Mercator projection is often used for marine
    navigation as all straight lines on the map are
    lines of constant azimuth.
  • Any one projection cannot simultaneously preserve
    all these qualities of the world shape, area,
    direction, and distance.

13
This is what happens when projections mix!
  • Notice the boundary lines do not line up
  • Points that are placed on the wrong projection
    will be misaligned as well

14
What does it mean doing GIS?
  • Using the tools of GIS to solve a problem
  • Helping to build the tools
  • Adding to existing geographic information
    technologies
  • Helping to invent or develop new ones
  • Studying the theory and concepts that lie behind
    GIS and the other geographic information
    technologies
  • Studying the societal context of geographic
    information
  • The legal context
  • Issues of privacy, confidentiality
  • Economics of geographic information

15
Components and Contexts of GIS
  • social and cultural context
  • institutional context
  • transformations
  • operations
  • representation
  • measurement
  • another approach
  • acquisition-input-storage-retrieval-analysis-ou
    tput-presentation-use

16
GIS in Higher Education
  • ESRI list of GIS programs
  • http//gis.esri.com/university/onlinedb.cfm
  • GIS Programs in Higher Education
  • http//www.directionsmag.com/education/
  • Geography departments worldwide
  • http//geowww.uibk.ac.at/geolinks/
  • Directory of graduate schools, GIS programs
  • http//www.gradschools.com/listings/menus/geoinfos
    ys_menu.html

17
GIS Curriculum - 1
  • UCSB (http//www.geog.ucsb.edu/programs/ugrad_cour
    ses.htm )
  • Geog 12 - Maps and Charts, 4.0, Clarke
  • Geog 13 - Introduction to Computing in Geography,
    2.0, Staff
  • Geog 115A - Geographic Photo Interpretation, (T),
    4.0, Estes
  • Geog 115AL - Laboratory in Geographic Photo
    Interpretation, (T), 1.0, Estes
  • Geog 115B - Geographic Remote Sensing Techniques,
    (T), 4.0, Mertes
  • Geog 115BL - Lab in Geographic Remote Sensing
    Techniques, (T), 1.0, Mertes
  • Geog 115C - Intermediate Geographic Remote
    Sensing Techniques, (T), 4.0, Mertes
  • Geog 115CL - Laboratory in Intermediate
    Geographic Remote Sensing Techniques, (T), 1.0,
    Mertes
  • Geog 118 - Production Cartography, (T), 4.0,
    Clarke
  • Geog 128 - Analytical and Computer Cartography,
    (T), 4.0, Staff
  • Geog 136 - Remote Sensing of the Oceans, (GT,
    UT), 4.0, Washburn
  • Geog 138 - Remote Sensing of the Atmosphere An
    Introduction, (T), 4.0, Gautier
  • Geog 151 - Computational Methods for Watershed
    Analysis, (T), 5.0, Mertes
  • Geog 172 - Introduction to Geographical Data
    Analysis, (T), 3.0, Montello
  • Geog 172L - Laboratory in Introductory
    Geographical Data Analysis, (T), 2.0, Montello
  • Geog 176A - Introduction to Geographic
    Information Systems, (T), 4.0, Goodchild, Clarke
  • Geog 176B - Technical Issues in Geographic
    Information Systems, (T), 4.0, Goodchild, Clarke
  • Geog. 176BL - Lab in Geographic Information
    Systems I, (T), 1.0, Goodchild, Clarke

18
GIS Curriculum - 2
  • SDSU http//typhoon.sdsu.edu/
  • GEOG 380 Map Investigation
  • GEOG 381 Map and Graphic Methods
  • GEOG 385 Spatial Data Analysis
  • GEOG 484 Geographic Information Systems
  • GEOG 488 Remote Sensing of Environment
  • GEOG 581 Cartographic Design
  • GEOG 582 Automated Cartography
  • GEOG 584 Geographic Information System
    Applications II
  • GEOG 585 Quantitative Methods in Geographic
    Research
  • GEOG 588 Intermediate Remote Sensing of
    Environment
  • GEOG 682 Advanced Automated Cartography
  • GEOG 683 Advanced Geographic Information Systems
  • GEOG 685 Advanced Quantitative Methods in
    Geography
  • GEOG 688 Advanced Remote Sensing
  • GEOG 780 Seminar in Techniques of Spatial
    Analysis
  • University of Washington
  • 258 Maps and GIS
  • 360 Principles of Cartography
  • 458 Map Sources and Errors
  • 460 Geographical Information System Analysis
  • 461 Urban Geographic Information Systems
  • 463 Geographic Information Systems Workshop
  • 465 Analytic Cartography
  • Western Michigan University
  • 375 Intro to GIS
  • 582 Remote Sensing of the Environment
  • 566 Field Geography
  • 567 Computerized Geodata Handling and Mapping
  • 569 Geographic Information System

The NCGIA Core Curriculum in GIScience
19
Applications
20
Redistricting
21
Emergency services, disaster recovery
22
Floodplain mapping
500 year flood
100 year flood
Hurricane Floyd
Flooding in Greenville
23
Regulation implementation enforcement
100 year flood
Hurricane Floyd
Hog lagoons in and out of the floodplain
24
Smart growth
25
Police and fire deployment
26
Intelligent demographics
27
www.realtor.com
28
Studying mouse models of human disease
BIRN uses ESRIs ArcMAPto align and analyze
biologicalimages and vectorsegmentations of
the brain, which can be retrieved from
multiple spatial data servers (including
ArcIMS servers) maintained by partner
universities.
High-resolution brain image generated at NCMIR,
UCSD, is registered to stareotaxic coordinates
and overlaid with anatomical features and markup
from Paxinos and Watson mouse brain atlas
29
Spatial integration of distributedmultiscale data
BIRN developed S.M.A.R.T. Brain Atlas
usingESRIs MapObjects-Java. It is a Web
applicationfor ontology-awarediscovery
andintegration of distributed multiscale
braindata registeredto the commonstereotaxic
coordinate system.
30
Use of Ontologies to Link Features
S.M.A.R.T. Atlas usesUnified Medical Language
System (UMLS) to query across multiple data
sources and explore spatial relationships across
brainslices indifferent coordinate systems
(eg,across species)
Structures on slices color coded by relationships
contained in the UMLS
31
Overlaying images and vector markup
fromdifferent sources (UCLA LONI, Paxinos Atlas)
SMARTAtlas
32
Myths
33
Some Myths About GIS
  • GIS provides an objective approach to
    information
  • Data may be different methods may be different
  • Similar GIS for the same area will lead to
    similar conclusions and policy recommendations
  • Attitudes may be different
  • Digital geographic data are accurate
  • Well and there are so many ways to measure data
    quality
  • Better information will make better decisions
  • Another top 5 and another . 6 myths!
  • Technical issues are fundamental in GIS

34
Summary of annual hazardous waste crossing the
U.S./Mexico border during 1995-1997 (tons/yr)
HAZTRAKS (EPA) Border Maquilas (INE) Transport from U.S. Industries to Mexico (INE)
1995 8,510 33,187
1996 6,983 72,113 230,417
1997 11,057 76,808 284,921
EPAEnvironmental Protection Agency
INEInstituto Nacional de Ecología About 2 of
the hazardous wastes generated in the border
states
  • procedural differences in accounting
  • incomplete coverage
  • regional differences
  • differences between industries

Source Robert G. Varady, Robert G. Arnold, Dean
E. Carter, Roberto Guzmán, Carlos Peña, William
A. Suk, 2000 Hazardous Waste and the
U.S.-Mexico Border Region
35
Some Interesting ProblemsSemanticTechnicalStati
stical
36
sometimes, the distinction between discrete and
continuous is not very clear
GIS representation
reality
37
Objects versus Fields
  • Object viewempty space littered with objects
    (points, lines or areas)
  • Field viewvalue is defined for every location

38
Objects
39
Fields
Raster grid
Regular point grid
Irregular points
Contour lines
40
AUTOCORRELATION Land Use Maps Example
  • Categorical maps inherently autocorrelated
  • Degree of autocorrelation depends on resolution

In vector database
  • if areas of polygons Area Lim(NS), where
    N - number of cells, S - size of a cell, S
    --gt0 autocorrelation extremely
    positive
  • if counts of polygons no adjacent polygons
    with the same value
    autocorrelation extremely negative

41
MAUP - Modifiable Areal Unit Problem
  • Group of problems
  • Scale (The larger the unit of aggregation, the
    larger, on average, is the correlation between
    two variables)
  • Aggregation (Taylor and Johnston (1979) in The
    geography of elections obtained a 0.44
    correlation between rural non-farm voting for
    Nixon in 1960 using Census nine-region division
    and a -0.22 correlation using the four-region
    division)
  • Openshaw, Taylor 1979 A million or so
    correlation coefficients three experiments with
    the modifiable areal unit problem
  • How to solve MAUP (Openshaw, 1983)
  • ...it is not likely that solution exists that
    would allow the use of traditional techniques
  • ...the simplest is to pretend that it doesn't
    exist
  • ...the most convenient solution - to accept that
    zoning systems are independent of the phenomena
    they are used to report

42
Ontologies in GIS
  • Operational uses of ontology, in
  • Edge-matching
  • Planar enforcement
  • Generalization

43
Next
  • Now (Reza)
  • History
  • Software review
  • COFFEE BREAK!!
  • 245 meeting in the lab, Rm. 116 (Reza)
  • ArcMap, VirtualCampus
  • 345 moving back to the auditorium (Ilya)
  • spatial data/representation/data
    structures/mapping
  • 415 (Reza)
  • Projections/georeferencing/ArcReader
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