GIS Fundamentals/ Geographic Database Design

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GIS Fundamentals/
Geographic Database Design
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
GIS Concepts
•
•
•
•
•
Information cycle:
• Data/Information/System/Information System
Geographic Information System
• Main Components/Characteristics
Geographic Database
• Data Modeling
• Data Representation
Spatial Analysis
Implementing a GIS
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Information Cycle
Territory
Data
GIS
Information
DSS
Decision
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Data / Information
•
Information is the result of
interpretation of relations existing
between a certain number of single
elements (called data).
•
Example:
The Museum located at 5th Avenue, NY,
was built in 1898.
•
•
Data: Museum, address, year of
construction.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
System
•
A system is a set organized
globally and comprising
elements which coordinate for
working towards doing a result.
•
•
Example: Water supply system
Elements: pipes, valves, hydrants, water
meters, pumps, reservoirs, etc.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Information System (IS)
•
An Information System is a set organized globally
and comprising elements (data, equipment,
procedures, users) that coordinate for working
towards doing a result (information).
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
GIS:
“G” & “IS”
Definition:
•
A GIS is a collection of computer hardware and
software, geographic data, methods, and personnel
assembled to capture, store, analyze and display
geographically referenced information in order to resolve
complex problems of management and planning.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Geographic Data
Geographic Information
Input
Output
GIS
•Maps
•Census
•Field Data
•RS Data
•Others
Data
Capture
Manipulation
Analysis
Display
Storage
• Reports
• Maps
• Photo.
Products
• Statistics
• Input Data
for models
GIS Components
Other GIS
User
Interface
Models
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
GIS: Main Characteristics
•
Integration of Multiple data:
•
•
•
- Sources
- Scales
- Formats
•
Geographic Database
•
Spatial Analysis
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Data from multiple sources-at multiple scales-in
multiple formats
Census/
Tabular
data
Maps
Picture &
Multimedia
GPS/ air photos/
satellite images
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Referencing map features: Coordinate systems &
map projections
•
To integrate geographic data from many different
sources, we need to use a consistent spatial referencing
system for all data sets
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
The Latitude/Longitude reference system
•
latitude φ : angle from
the equator to the
parallel
•
longitude λ : angle
from Greenwich
meridian
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Map Projections
•
Curved surface of the earth needs to be “flattened” to be
presented on a map
•
Projection is the method by which the curved surface is
converted into a flat representation
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Map Projections (Cont.)
•
We can think of a projection as a
light source located inside the globe
which projects the features on the
earth’s surface onto a flat map
•
Point p on the globe becomes point p
on the map
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Distortion in Map Projections
•
Some distortion is inevitable
•
Less distortion if maps show only small areas, but large if
the entire earth is shown
•
Projections are classified according to which properties
they preserve: area, shape, angles, distance
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Compromise projections
•
Do not preserve any property, but represent a good
compromise between the different objectives
•
e.g., Robinson’s projection for the World
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Compromise projections
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UTM: Universal Transverse Mercator
•
Minimal distortions of area, angles, distance and shape at
large and medium scales
•
Very popular for large and medium scale mapping (e.g.,
topographic maps)
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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UTM
•
Cylindrical projection with a
central meridian that is specific
to a standard UTM zone
•
60 zones around the world
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Space as an indexing system
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The concept of scale
•
scale is the ratio between distances on a map and the
corresponding distances on the earth’s surface
•
e.g., a scale of 1:100,000 means that 1cm on the map
corresponds to 100,000 cm or 1 km in the real world
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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The concept of scale
•
scale is essentially a ratio or representative fraction
•
small scale: small fraction such as 1:10,000,000
shows only large features
•
large scale: large fraction such as 1:25,000 shows
great detail for a small area
•
“small scale” versus “large scale” often confused
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Multi-scales
•
The same feature represented in different
scales.
• Example: lake
Large scale
Small scale
(1:25.000)
1:500.000
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Noumea, New Caledonia, 04–08 February 2008
Multi-formats
•
•
•
•
•
•
•
Raster
Vector
Raster-VectorRaster
DXF-DGN-etc.
Shapefile
KML
Etc.
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Noumea, New Caledonia, 04–08 February 2008
Geographic Database
•
Geographic Data
•
Characteristics
•
Examples
•
Geographic Dataset
•
Geographic Database Concepts
•
Spatial entity
•
Data Modeling
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Descriptive Data vs Geographic Data
•
General Data:
• Descriptive attributes
•
Geographic Data:
• Descriptive attributes
• Spatial attributes
• Location
• Form
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Noumea, New Caledonia, 04–08 February 2008
Geographic Data Characteristics :
Position:
explicit geographic reference

Cartesian coordinates :X,Y,Z

Geographic coordinates (lat, log)
implicit geographic reference

Address

Place-name

Etc.
Geometric Form:

ex: a polygon representing a parcel of land
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Example1: Parcel of land
•
Attribute (descriptive) Data
• Landowner
• Area
• Etc.
•
Spatial data
• Position
• Located at 100 Nelson Mandela Ave
• X= a; Y=b within system (X,Y)
• Form
• dimensions (sides and arcs, constituting a polygon)
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Example 2: District
•
Attribute (Descriptive) data:
• District-Code
• District-Name
• Population 1990
• Population 2000
• Population 2010
•
Spatial data:
• Geographical Position
• Polygon
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Geographic Database
•
•
Definition
Components:
• Spatial Entity/Attribute/Dataset
• Data Modeling/Data Dictionary
• Spatial Representation
• Vector/Raster
• Topology
• Standard Spatial Operations
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Spatial entity
•
We use the term entity to refer to a phenomenon that can not
be subdivided into like units.
Example: a house is not divisible into houses, but
can be split into rooms.
Others: a lake, a statistical unit, a school, etc.
•
In database management systems, the collection of objects
that share the same attributes.
•
An entity is referenced by a single identifier, perhaps a placename, or just a code number
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Attribute
•
Each spatial entity has one or more attributes that
identify what the entity is, and describe it.
Example: you can categorize roads by whether
they are local roads, highways, etc; by their
length; their width; their pavement; etc.
•
The type of analysis you plan to do depends on the type
of attributes you are working with.
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Dataset
“A dataset is a single collection of values or objects without
any particular requirement as to form of organization.”
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Geographic Database
•
“A geographic database is a collection of spatial data and
related descriptive data organized for efficient storage,
manipulation and analysis by many users.”
•
It supports all the different types of data that can be used
by a GIS such as:
• Attribute tables
• Geographic features
• Satellite and aerial imagery
• Surface modeling data
• Survey measurements
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Data Modeling
•
Data Approach
•
Modeling Process
•
Entity/Relationship Approach
•
Example
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Modeling Process
Abstracting the Real World
Reality
Modeling
(data & treat.)
Geographic
Database
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ANSI/SPARC: Study
Group on Data Base
Management
Systems (1975)
External Model 1
“Real
World”
Different users have different
views of the world
External Model 2
External Model 3
Conceptual Model
Logical Model
Physical Model
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Conceptual Model
•
A synthesis of all external models (user’s views).
•
Schematic representations of phenomena and how they
are related.
•
Information content of the database (not the physical
storage) so that the same conceptual model may be
appropriate for diverse physical implementations.
•
Therefore, the conceptual model is independent from
technology.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Conceptual Model (cont.)
•
Easy to read
•
Conceived for the analyst or designer
•
Objective representation of the reality, therefore
independently from the selected GDB System
•
One conceptual model for the Database
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Data Logical Model & Physical Model
•
We transform the conceptual model into a new modeling
level which is more computing oriented: the logical
model (Example: the Relational Database approach)
•
We transform the logical model into an internal model
(physical model) which is concerned with the byte-level
data structure of the database.
•
Whereas the logical model is concerned with tables and
data records, the physical model deals with storage
devices, file structure, access methods, and locations of
data.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Several types of data organization
•Hierarchical model
- Hierarchical relationships between data
(parent- child)
•Network Model
- Focus on connections
•Relational model
- Based on relations (tables)
•Object-Oriented model
- Focus on Objects
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Entity-relationship Formalism
Entity
Entity name
Attributes
ENTITY_NAME
ENTITY_NAME
-attribute 1
-attribute 2
…
-attribute 1
-attribute 2
…
0-N
Identifier
(key-attribute)
0-1
Maximum cardinality
Association
(relationship)
Minimum cardinality
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
An example of land parcels
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The E/R diagram for land parcels
STREET
A
-name
2-N
B
SEGMENT
0-1
A: Streets have edges
(segments)
B: parcels have boundaries
(segments)
C: line have two endpoints
D: parcels have owners, and
people own land.
PARCEL
-number
-number
1-2
3-N
2-2
1-N
C
D
2-N
POINT
-number
-x,y
1-N
LANDOWNER
-name
-date-of-birth
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Data Tables
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Data Dictionary
•
Definition:
A data catalog that describes the contents of a
database. Information is listed about each field in
the attribute table and about the format, definitions
and structures of the attribute tables. A data
dictionary is an essential component of metadata
information.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Example: Census GIS database
•
- Basic elements
• Entity: administrative or census units
• enumeration areas
•
Entity type / Relations
•
Components of a digital spatial census
database:
• Boundary database
• Geographic attribute tables
• Census data tables
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Relations
EA entity can be linked to the entity crew leader area. The table for this entity
could have attributes such as the name of the crew leader, the regional office
responsible, contact information, and the crew leader code (CL code) as primary
code, which is also present in the EA entity.
R
EA
EA-code
Area
Pop.
1-1
Crew leader area
1-N
CL-code
Name
RO responsible
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Entity: Enumeration areas
Type (attributes)
EA-code
Area
Pop.
50101
50102
50103
50104
50201
50202
50203
50204
…
28.5
20.2
18.1
22.4
19.3
17.6
25.7
26.8
…
988
708
590
812
677
907
879
591
…
CL-code
78
78
78
78
79
79
79
79
Identifier
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Components of a digital spatial census database
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Data Representation
Raster
Vector
Real World
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Two Fundamental Types of Data
•
•
•
GIS work with two fundamentally different types of
geographic information
• Vector
• Raster (or Grid)
Both types have unique advantages and disadvantages
A GIS should be able to handle both types
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
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Vector vs Raster or Discrete vs Continuous
Raster
Vector
River
x1,y1
xn,yn
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Raster Data
•
•
•
A raster image is a collection of grid cells - like a
scanned map or picture
Raster data is extremely useful for continuous data
representation
• elevation
• slope
• modeling surfaces
Satellite imagery and aerial photos are commonly used
raster data sets
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Vector Data
•
•
Vector data are stored as a series of x,y
coordinates
Good for discrete data representation
• points: wells, town centroids
• lines: roads, rivers, contours
• polygons: enumeration areas,
districts, town boundaries, building
footprints
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Raster-Vector conversion (“vectorization”)
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Vector to Raster Conversion: Polygons
b
a
c
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Vector to Raster Conversion: Lines
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Raster to Vector Conversion: Polygons
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Raster to Vector Conversion: Polygons
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Vector data
+
image (raster)
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Vector: Points, lines, polygons
Set of geometric primitives:
•
points
lines
polygons
y
node
vertex
x
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Vector Structure
•
•
•
Spaghetti
Topology
I
II
Network
(graph)
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Spaghetti File
No Topology = raw file or ‘spagehetti file’
Lines not connected; have no ‘intelligence’
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Example of “Spaghetti” data structure
6
Poly
coordinates
A
(1,4), (1,6), (6,6), (6,4), (4,4), (1,4)
B
(1,4), (4,4), (4,1), (1,1), (1,4)
C
(4,4), (6,4), (6,1), (4,1), (4,4)
A
5
4
3
2
1
B
1
2
C
3 4 5
6
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Topology
•
Data structure in which each point, line and piece or whole
of a polygon :
• “knows” where it is
• “knows” what is around it
• “understands” its environment
• “knows” how to get around
Helps answer the question what is where?
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Topology: Spatial Relationships
Left Polygon = A
Right Polygon = B
Adjacency
Node 1 = Chains
A,B,C
Chain A is
connected to
chains B & C
Connectivity
Polygon B
Contained within
polygon A
Containment
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Example of Topological data structure
1
6
5
4
3
A
I
II
4
2
1
III
5
B
6
IV
2
3
1
2
Node
I
II
III
IV
C
4 5
3
6
O = “outside” polygon
X
1
4
6
4
Y Lines
4 1,2,4
4 4,5,6
4 1,3,5
1 2,3,6
From
Line
Node
1
I
2
I
3
III
4
I
5
II
6
II
Poly
A
B
C
To
Left
Node Poly
III
O
IV
B
IV
O
II
A
III
A
IV
C
Lines
1,4,5
2,4,6
3,5,6
Right
Poly
A
O
C
B
C
B
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Encoding Topology (not): CAD
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Encoding Topology: GIS
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Comparison
Advantages:
Spaghetti
-Set of independent
objects
- Representation of
heterogonous objects
within the same model
-Appropriate to CAD
Topology
-Pre-calculation of
topological relations
-Maintenance of
topological constraints
- correspondence with
exchange formats
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Comparison (cont.)
Disavantages
Spaghetti
-Spatial Relationships
calculated
- Risk of incoherence
(duplication of common
boundaries)
Topology
-High cost of up-to-date
-Many levels of
indirections for complex
objects
-Maintenance
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Some well known Topological models
TIGER: Topologically Integrated Geographic Encoding and Referencing
(Census Bureau of the USA)
Line is the principal element to which are related points and area features
ARC/INFO model: ESRI
Point, Line, Polygon
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TIGER Data: Polygon
Cities
Census
MCD’s
Zip
Codes
Counties
Block
Voting
Tracts
Groups
Districts
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TIGER Data: Line
Railroads
Streets
Streams
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TIGER Data: Point
Zip+4
Key
Place
Landmarks
Locations
Names
Centroids
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Recapitulation on spatial models
•
Transformations between models:
• “vectorization” of raster images (costly)
• topology toward spaghetti (easy)
• spaghetti toward topology (possible but costly)
•
The vector model most used, essentially topology;
it’s useful to integrate raster and vector
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Spatial Analysis: Query
•
select features by their attributes:
• “find all districts with literacy rates < 60%”
•
select features by geographic relationships
• “find all family planning clinics within this district”
•
combined attributes/geographic queries
• “find all villages within 10km of a health facility that have
high child mortality”
Query operations are based on the SQL (Structured
Query Language) concept
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Examples:
What is
at…?
Features that
meet a set of
criteria
Id
0012376027
Name
Population
Popdens
Num_H
H
Clinics
Limop
31838
37.5
8719
8
Population density
greater than 100
persons/sqkm?
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Spatial Analysis (cont.)
•
Buffer: find all settlements that are more than 10km from
a health clinic
•
Point-in-polygon operations: identify for all villages
into which vegetation zone they fall
•
Polygon overlay: combine administrative records with
health district data
•
Network operations: find the shortest route from village
to hospital
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Modeling/Geoprocessing
•
modeling: identify or predict a process that has created or
will create a certain spatial pattern
• diffusion: how is the epidemic spreading in the
province?
• interaction: where do people migrate to?
• what-if scenarios: if the dam is built, how many people
will be displaced?
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Spatial relationships
•
•
Logical connections between spatial objects
represented by points, lines and polygons
e.g.,
- point-in-polygon
- line-line
- polygon-polygon
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Spatial Operations
•
“adjacent to”
•
“connected to”
•
“near to”
•
“intersects with”
•
“within”
•
“overlaps”
•
etc.
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“is nearest to”
• Point/point
• Which family planning clinic is
closest to the village?
• Point/line
•Which road is nearest to the
village
• Same with other combinations of
spatial features
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“is nearest to”: Thiessen Polygons
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Noumea, New Caledonia, 04–08 February 2008
“is near to”: Buffer Operations
•
Point buffer
•
Affected area around a polluting facility
•
Catchment area of a water source
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Buffer Operations
•
Line buffer
•
How many people live near the polluted river?
•
What is the area impacted by highway noise
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Buffet Operations
•
Polygon buffer
•
Area around a reservoir where development
should not be permitted
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Noumea, New Caledonia, 04–08 February 2008
“ is within”: point in polygon
•
Which of the cholera cases are within the
containment area
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Noumea, New Caledonia, 04–08 February 2008
Problem:
We may have a set of point coordinates representing
clusters from a demographic survey and we would like to
combine the survey information with data from the
census that is available by enumeration areas.
Solution:
“Point-in-Polygon” operation will identify for each point
the EA area into which it falls and will attach the census data
to the attribute record of that survey point.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
“overlaps”: Polygon overlay
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Noumea, New Caledonia, 04–08 February 2008
Polygon Overlay
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Data Layers
A
d m
in is t r a t iv e
u n i t s
E
le v a t i o n
B
u i ld in g s
H
y d r o lo g y
R
o a d s
V e g e t a t io n
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Noumea, New Caledonia, 04–08 February 2008
Spatial aggregation
•
Example of Spatial aggregation:
• fusion of many provinces constituting an
economic region
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Noumea, New Caledonia, 04–08 February 2008
Spatial data transformation: interpolation
Example 1: Based on a set of station precipitation surface
estimates, we can create a raster surface that shows
rainfall in the entire region
13.5
12.7
20.1
26.0
27.2
15.9
24.5
26.1
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Noumea, New Caledonia, 04–08 February 2008
GIS capabilities:
Visualization
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Noumea, New Caledonia, 04–08 February 2008
Implementing a GIS
•
•
•
•
•
•
•
•
•
•
Consider the strategic purpose
Plan for the planning
Determine technology requirements
Determine the end products
Define the system scope
Create a data design
Choose a data model
Determine system requirements
Analyze benefits and costs
Make an implementation plan
Source: Thinking About GIS, Third Edition
Geographic Information System Planning for Managers
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Noumea, New Caledonia, 04–08 February 2008
GIS:
Enables us to handle very large amounts of data
•
•
Example: census data
– thousands of EAs
– hundreds of variables
– many complementary data layers
(roads, rivers, public facilities)
Example: remote sensing
– satellites send huge amounts of data
that need to be processed, interpreted
and stored
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
GIS:
Helps to make data re-usable and useful to
many more users
•
Census geography
– EA maps do not have to be redrawn
every time, only updated
– census information can be used for
many more applications
– data sharing among agencies
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Noumea, New Caledonia, 04–08 February 2008
In Conclusion
•
GIS for inventory/visualization
• GIS creates maps from data pulled from databases
anytime to any scale for anyone
•
GIS for database management
•
GIS for spatial analysis/modeling
• GIS a tool to query, analyze, and map data in support
of the decision making process.
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
What is Not GIS
•
GPS – Global Positioning System
•
…not just software!
•
…not just for making maps!
• Maps are an input data to and a “product” of a GIS
• A way to visualize the analysis
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Literature related to Census Mapping & GIS
•
•
•
•
US National Research Council:
• Tools and Methods for Estimating
Populations At Risk
David Martin (1996)
• Geographic Information Systems:
Socioeconomic Applications
Longley and al, Wiley (2005)
• Geographic Information Systems and
Science, second edition
ESRI Press:
• Unlocking the Census with GIS
• Mapping the Census 2000
Workshop on International Standards, Contemporary Technologies and Regional Cooperation,
Noumea, New Caledonia, 04–08 February 2008
Contact Information:
Demographic Statistics Section
UN Statistics Division
New York
globalcensus2010@un.org
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Noumea, New Caledonia, 04–08 February 2008
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