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GIS Models Over Time
• Simple Representation– CAD model
• Data Analysis– Raster model
• Data Collection– Vector model
• Relational and Rules– Object model
Objects
• GIS Features as Objects is a recent method of representing aspects of the real-world in GIS
• Example of the shift from specialty data to DBMS that are spatially-aware
• Non-planar, temporally shifting, topologically linked, rule-based actions
Vector Geometry as Objects
• Parcels– Planar geometries with attribute information
• Parcels as objects in a Cadastral “carpet”– Objects with topology rules (“don’t overlap, unless”)– Members of “regional” features (zoning, municipality)– Composed of surveyed parts (COGO, benchmarks)– Keys that link to attribute tables (owner(s), assessments,
plans, etc)
Attributes as Objects• Not only can multiple sets of geospatial features interact
with rules, the attributes can be linked with one another, with their own set of rules and actions
• Ownership record linked to GIS parcel– Search on multiple owners, records– Removal of parcel warns about “orphan” owner
• Functions that can be performed by GIS analyst can be embedded in the actual database
Select by Attributes
• Create WHERE clauses that match a subset of the features in a vector dataset.
• WHERE clauses are a part of Structured Query Language (SQL)
• Analogous to "Find" in some other software.• Match all records where…– "COUNTY" = 'Gloucester'– NOT "TYPE" = 'Wetlands'– "POP2000" > 100000
Select by Location
• Proximity or overlay based on features in one layer and features in another layer or the same layer.
• Several methods to compare proximity & overlay– Distance from– Touching (on edge)– Contains or Within– Partial Overlaps– Exact Matches
Layers to Append
Input Layer 1 Input Layer 2
Appended Layers
Overlapping Polygons/Polylines are preserved!
Intersection
• Where are the Road segments that are in flood prone areas.
• Select flood prone from Input Layer 1
• Intersect roads and flood prone [Layer 2].
Stream
No Flood
FloodProne
Intersect Features
Input Layer 1
Input Layer 2
Roads
Question: where are the road segments that pass through flood prone areas?
Panel 1
Stream
No Flood
FloodProne
Intersect Features
Roads
Input Layer 1
Input Layer 2
Select flood prone areas and then intersect Input Layer 1 with Layer 2 Roads.
Panel 2
Study Area
FloodProne
Intersect Features
Output Layer
Roads that pass through flood prone areas. Attributes of both layers maintained in table.Length of roads in flood areas becomes attribute
Roads
Panel 3
Intersection
• Where are the places that are residential and flood prone.
• Select flood prone from Input Layer 1
• Select residential from Input Layer 2
• Intersect
Stream
No Flood
FloodProne
Intersect Features
Input Layer 1
Input Layer 2
Residential
Commercial
Industry
Open space Panel 3
Agricultural Land Use
Corn
Green Beans
Tomatoes
Wheat
Soil Quality
Poor
Fair
Good
Excellent
Corn &Poor Green Beans & Poor
Green Beans & Fair
Tomatoes & Fair
Tomatoes & Good
Wheat & Good
Wheat & Excellent
Corn & Excellent
Panel 3
Intersection Procedure
• Where are the areas that are residential in land use and flood prone?– Select flood prone areas from flood prone
layer– Select residential areas from land use layer– Do intersection
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2
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Intersection Dialog
Remember, if you did a selection, then get input features from drop down or drag into dialog from TOC
This map depicts land use patterns for a portion of Washington Township prior to performing the union operation in which land use and flood prone layers were overlain.
This map depicts land use patterns for a portion of Washington Township after performing the union operation in which land use and flood prone layers were overlain. Notice that some of the land use polygons have been cut creating new polygons. This occurs in areas in which a polygon from the flood prone layer intersects a land use polygon. The attributes of the new layer enable the analyst to map the coincidence of each land use category with each flood proneness category.
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