Geographic Information System(ระบบส

Geographic Information System
(ระบบสารสนเทศภูมิศาสตร์)
Aj.Sanwit IabchoonWho is Aj.Sanwit?
• M.Sc., Technology and
Environmental Management, PSU
• B.Sc., Geo-informatics Technology,
BUU
• Email: sanwit.i@phuket.psu.ac.th
• Office room 1210, Building 1 (TE)
23Why does GIS matter?
“Almost everything happen, happens somewhere.
Knowing where something happens can be critical important.”
4Geographic information
• is information about places—spatial dimension
• 80% of all information include spatial component -
how should one embed location in data
• knowledge about both where something is and
what it is - with query capability in both directions
5Characteristics of spatial data
Characteristics of spatial data
Spatial reference (geographic
location, coordinate)
Where?
Attributes (non-spatial data) What?
Spatial relationships (topology,
metric, order)
In what relationship?
Temporal component (different
concept of time)
When?
6Geographic problems
• Resources inventory (What is available at where?)
• Network Analysis (How to get to a place in the shortest
amount of time?)
• Location Analysis (Where is the best place to locate a
shopping mall?)
• Terrain Analysis (What is the danger zone for a natural
disaster? Visibility analysis)
• Spatio-Temporal Analysis (Land use: what has
changed over the last twenty years, and why?)
7Environmental monitoring and
assessment
8
The distribution of the major drivers of deforestation in
the recent past (approximately 2000–2010) was mapped
based on local knowledge. Developing energy resources
9Managing land information
10Business analysis & management
11Location-Based Marketing –
Foursquare Analysis
12Understanding human health
13Public safety & security
Emergency Network
Analysis of The Southern
Ridges 14Preparing for and responding to
disaster
15Some technical reasons why
geographic information is special
Some technical reasons why geographic information
is special
It is multidimensional, because two
coordinates must be specified to define a
location, whether they be x and y or latitude
and longitude.
It must often be projected onto a flat surface,
for reasons identified.
It is voluminous, since a geographic
database can easily reach a terabyte in size.
It requires many special methods for its
analysis.
It may be represented at different levels of
spatial resolution, e.g., using a
representation equivalent to a 1:1 million
scale map and a 1:24 000 scale one.
It can be time-consuming to analyze.
It may be represented in different ways
inside a computer and how this is done can
strongly influence the ease of analysis and
the end results.
Although much geographic information is
static, the process of updating is complex
and expensive.
16We handle geographic information
through the tools and science of:
• Cartography/Map design
• Remote Sensing (RS)
• Global Positioning Systems (GPS)
• Geographic Information Systems (GIS)
17Cartography
In cartography, we teach students to consider
three key questions when designing maps:
• What is the purpose of the map?
• Who is the audience that will be using the map?
• What is the output format for the map?
18Visual variables for cartographic
symbolization.
Visual variable Point symbol Line symbol Area symbol
Size
Shape
Greystone Value
Texture
Hue
19Use contrasting symbols to
portray geographic differences
• For qualitative differences
• Use shape, texture and hue (e.g. landuse type).
• For quantitative differences
• Use size to show variation in amount or count (e.g.,
population, No. of crime).
• Use graytone or hue to show differences in ratio or
intensity (e.g., propotion of household in poverty,
population density)
20Elements of map
21
Title
Map body
North arrow
Neatline/Border
Acknowledgement
Legend Scale
Overview mapTypes of Quantitative Maps
• Dot map:
22Types of Quantitative Maps
• Choropleth map
23Types of Quantitative Maps
• Dasymetric map
24Types of Quantitative Maps
• Graduated symbol map
25Types of Quantitative Maps
• Chart map
26Types of Quantitative Maps
• Isarithmic map
27Remote sensing
28Cheju Island, South Korea 29Aquaculture and
Salt Production near
Bo Hai, China
3031
Roiling Flows on Holuhraun
Lava FieldGlobal Positioning System: GPS
32Geographic Information System
• Definition
GIS is a computer-based information
system that enables capture, modeling,
manipulation, retrieval, analysis and
presentation of geographically referenced data.
(Worboys, 1997)
33Other definition of GIS
• A container of maps in digital form.
• A computerized tool for solving geographic
problems.
• A spatial decision support system.
• A tool for revealing what is otherwise invisible
in geographic information
• A tool for automatically performing operations
on geographic data.
34Components of GIS
35Visualizing the world as layers
36GEOSPATIAL DATA
37
• Vector Data Model
• Raster Data Model
• Coordinate SystemsVector Representation
38Raster Representation
39COORDINATE SYSTEMS
40
• Geospatial data are geographically referenced.
• Spatial features on Earth’s surface are referenced to
a geographic coordinate system.
• The geographic coordinate system is the location
reference system for spatial features on the Earth’s
surface.COORDINATE SYSTEMS
(Continued)
41
• The geographic coordinate system is defined by longitude
and latitude.
• The angular measures of longitude and latitude may be
expressed in degree-minutes-seconds (DMS), decimal
degrees(DD).
Example
45° 52’ 30’’ = 45.875°
(45+ 52/60+30/3600)42COORDINATE SYSTEMS
(Continued)
43
• Map Projections: A Map projections transform the
Earth’s surface, typically based on a spheroid in
GIS, to a plane (Robinson et al. 1995; Dent 1999;
Sloman et el. 2005).
• The outcome of this transformation process is a
map projection: a systematic arrangement of
parallels and meridians on a plane surface
representing the geographic coordinate system.
• But the transformation from Earth’s surface to a
flat surface always involves distortion, and no map
projection is perfect.COORDINATE SYSTEMS
(Continued)
• Cartographers often use geometric object and
globe (i.e., a sphere)
44The Universal Transvers
Mercator (UTM)
• The UTM grid system divides the Earth’s surface
between 84° N and 80° S into 60 zones.
• Each zones covers 6° of longitude and is numbered
sequentially with zone beginning at 180° W.
• Each zone is further divided into northern and
southern hemispheres.
• Thailand are in UTM Zone 47 and 48 North
45The Universal Transvers
Mercator (UTM)
46Spatial analysis
47
Spatial analysis can reveal things that might
otherwise be invisible – it can make what is
implicit explicit.Spatial modeling
• Models in this chapter are expressions of how the
world is believed to work.
• They may include dynamic simulation models of
natural processes such as erosion, tectonic uplift,
the migration of elephants, or the movement of
ocean currents.
48Why model?
• A model might be built to support a design process,
in which the user wishes to find a solution to a
spatial problem that optimizes some objective.
• A model might be built to allow the user to
experiment on a replica of the world, rather than
on the real thing.
• The ability to examine such options quickly and
effectively is one of the major reasons for
modeling.
49Home work:
One day of life with GIS?
50