Geog 405: Advanced Spatial Analysis © J.M. Piwowar1Spatial Data Models Characteristics of Raster Data Longley et al., 2001. Geographic Information Systems.

Slides:



Advertisements
Similar presentations
Geographic Information Systems GIS Data Models. 1. Components of Geographic Data Spatial locations Attributes Topology Time.
Advertisements

Geographic Information Systems
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.
Introduction to Cartography GEOG 2016 E
CS 128/ES Lecture 4b1 Spatial Data Formats.
Geog 458: Map Sources and Errors January Representing Geography.
Cartographic and GIS Data Structures
©2005 Austin Troy. All rights reserved Lecture 3: Introduction to GIS Understanding Spatial Data Structures by Austin Troy, University of Vermont.
Maps as Numbers Lecture 3 Introduction to GISs Geography 176A Department of Geography, UCSB Summer 06, Session B.
So What is GIS??? “A collection of computer hardware, software and procedures that are used to organize, manage, analyze and display.
NPS Introduction to GIS: Lecture 1
©2005 Austin Troy. All rights reserved Lecture 3: Introduction to GIS Part 1. Understanding Spatial Data Structures by Austin Troy, University of Vermont.
Introduction to Mapping Science: Lecture #4 (Maps as numbers…) Overview Map as Numbers… an Abstraction of Space Database Management System for Attributes.
It’s the Geography, Cupid!. GTECH 201 Lecture 04 Introduction to Spatial Data.
GI Systems and Science January 23, Points to Cover  What is spatial data modeling?  Entity definition  Topology  Spatial data models Raster.
Prepared by Abzamiyeva Laura Candidate of the department of KKGU named after Al-Farabi Kizilorda, Kazakstan 2012.
Spatial data Visualization spatial data Ruslan Bobov
Spatial Data Model: Basic Data Types 2 basic spatial data models exist vector: based on geometry of points lines Polygons raster: based on geometry of.
©2005 Austin Troy. All rights reserved Lecture 3: Introduction to GIS Understanding Spatial Data Structures by Austin Troy, Leslie Morrissey, & Ernie Buford,
Spatial data models (types)
M ETHODS OF REPRESENTING GEOGRAPHIC SPACE Raster Model Vector Model.
SPATIAL DATA STRUCTURES
GIS1: Overview of GIS and Visualization with Maps
GROUP 4 FATIN NUR HAFIZAH MULLAI J.DHANNIYA FARAH AN-NUR MOHAMAD AZUWAN LAU WAN YEE.
GIS is composed of layers Layers –land/water –roads –urban areas –pollution levels Data can be represented by VECTORS, or Data can be represented by RASTERS.
Geo-referenced Information Processing System. ISPRS Geoprocessing Technologies to collect and treat spatial information for a specific goal. Geoprocessing.
Map Scale, Resolution and Data Models. Components of a GIS Map Maps can be displayed at various scales –Scale - the relationship between the size of features.
Chapter 3 Sections 3.5 – 3.7. Vector Data Representation object-based “discrete objects”
Raster Data Chapter 7. Introduction  Vector – discrete  Raster – continuous  Continuous –precipitation –elevation –soil erosion  Regular grid cell.
Coordinate Systems Global Coordinate System – Latitude, Longitude and elevation UTM – eastings and northings, reference points are the equator and the.
GUS: 0262 Fundamentals of GIS Lecture Presentation 6: Raster Data Model Jeremy Mennis Department of Geography and Urban Studies Temple University.
Faculty of Applied Engineering and Urban Planning Civil Engineering Department Geographic Information Systems Vector and Raster Data Models Lecture 3 Week.
Presented by Rehana Jamal (GIS Expert & Geographer) Dated: Advance Applications of RS/GIS in Geo-Environmental Conservation Subject Lecture# 9&10.
Applied Cartography and Introduction to GIS GEOG 2017 EL Lecture-2 Chapters 3 and 4.
Introduction to ArcView NPS Introduction to GIS: Lecture 2 Based on NINC, ESRI and Other Sources.
Chapter 3 Digital Representation of Geographic Data.
Raster Data Model.
Cartographic and GIS Data Structures Dr. Ahmad BinTouq URL:
Geographic Information Systems Data Analysis. What is GIS Data ?
1 EAA 502 GIS Data Model Dr. Mohd Sanusi S. Ahamad.
 Data Models in Commercial GIS Systems E. Hoel, page CSCI 5715 – Fall /14/2014 Sameera Shah Shyam Sundar Somasundaram.
Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar1Map Algebra Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.
Introduction to Cartographic Modeling
GEOG 2007A An Introduction to Geographic Information SystemsFall, 2004 C. Earl A model is a ‘synthesis of data’ + information about how the data interact.
Raster data models Rasters can be different types of tesselations SquaresTrianglesHexagons Regular tesselations.
GIS Data Types. GIS technology utilizes two basic types of data 1. Spatial Data Describes the absolute and relative location of geographic features.
Geographic Information Systems
INTRODUCTION TO GIS  Used to describe computer facilities which are used to handle data referenced to the spatial domain.  Has the ability to inter-
Spatial data models Raster –exhaustive regular or irregular partitioning of space –associated with the field view –location-based Vector –points, lines,
Digital Image Editing Presented by John Hohn. File Formats JPEG – Joint Photographic Experts Group PNP – Portable Network Graphics GIF – Graphic Interchange.
GIS Data Models III GEOG 370 Instructor: Christine Erlien.
What is GIS? “A powerful set of tools for collecting, storing, retrieving, transforming and displaying spatial data”
Raster Data Models: Data Compression Why? –Save disk space by reducing information content –Methods Run-length codes Raster chain codes Block codes Quadtrees.
Spatial Data Models Geography is concerned with many aspects of our environment. From a GIS perspective, we can identify two aspects which are of particular.
UNIT 3 – MODULE 3: Raster & Vector
Czech Technical University in Prague Faculty of Transportation Sciences Department of Transport Telematics Doc. Ing. Pavel Hrubeš, Ph.D. Geographical Information.
Geog 495 Final Exam Review 11/23/05 Final exam on 11/28/05 Mon.
INTRODUCTION TO GEOGRAPHICAL INFORMATION SYSTEM
Geographic Information System
Chapter 3 Raster & Vector Data.
Spatial Data Models Raster uses individual cells in a matrix, or grid, format to represent real world entities Vector uses coordinates to store the shape.
Geospatial Information System
Statistical surfaces: DEM’s
GTECH 709 GIS Data Formats GIS data formats
Cartographic and GIS Data Structures
Geographic Information Systems
Lecture 07: Data Representation (V)
Basic Spatial Analysis Tools
Prepared by S Krishna Kumar
Presentation transcript:

Geog 405: Advanced Spatial Analysis © J.M. Piwowar1Spatial Data Models Characteristics of Raster Data Longley et al., Geographic Information Systems and Science. Wiley.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar2Spatial Data Models  How do we represent spatial information in a computer?  The rules to convert real geographical variation into discrete objects.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar3Spatial Data Models

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar4Spatial Data Models Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar5Spatial Data Models Aronoff, Geographic Information Systems: A Management Perspective. Ottawa : WDL Publications.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar6Spatial Data Models The Vector Data Model  Feature Representation  points  vertices  nodes  label points  lines  lines  arcs  areas  polygons Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar7Spatial Data Models The Raster Data Model  Feature Representation  all geographic features - points, lines, areas - are represented by grid cells  grid resolution - the minimum linear dimension of the smallest unit of geographic space sampled Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar8Spatial Data Models Raster Data Layers Lo & Yeung, Concepts & Techniques of Geographic Information Systems. Prentice-Hall.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar9Spatial Data Models The Raster Data Model  Field representation  Object representation

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar10Spatial Data Models Raster Resolution 30 m resolution 3 m resolution 0.6 m resolution

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar11Spatial Data Models Raster Resolution Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar12Spatial Data Models Raster Resolution 30 m resolution 625 cells 3 m resolution 62,500 cells

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar13Spatial Data Models Raster Advantages Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar14Spatial Data Models Raster Disadvantages Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar15Spatial Data Models Vector Advantages Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar16Spatial Data Models Vector Disadvantages Davis, B.E., GIS: A Visual Approach (2nd ed.). Albany, NY: OnWord Press.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar17Spatial Data Models Vector vs. Raster  Vector  the location of each vertex needs to be stored explicitly  sparse partitioning of geographic space  Raster  the geographic location of each cell is implied by its position in the cell matrix  complete partitioning of geographic space

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar18Spatial Data Models Vector vs. Raster  Vector  provides for precise positioning of features in geographic space  intuitive representation of geographic space  Raster  the cell size determines the resolution at which the data are represented  linear features are hard to represent

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar19Spatial Data Models Vector vs. Raster  Vector  more difficult to understand  some types of analysis can be difficult  Raster  conceptually simple data structure  raster algorithms are often simpler and faster

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar20Spatial Data Models Vector vs. Raster  Vector  compact file sizes  very large vector databases have been built for a variety of purposes  Raster  large file sizes  much new data come from remote sensing image analysis

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar21Spatial Data Models Spatial vs. Temporal Resolution Visual Learning Systems, 2003.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar22Spatial Data Models Spatial vs. Temporal Resolution Visual Learning Systems, m resolution; m resolution; 2000

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar23Spatial Data Models Raster Attributes Lo & Yeung, Concepts & Techniques of Geographic Information Systems. Prentice-Hall.

Geog 409: Advanced Spatial Analysis & Modelling © J.M. Piwowar24Spatial Data Models Common Raster Data Formats  TIFF (Tagged Image File Format)  JPEG (Joint Photographic Editors Group)  GIF (CompuServe Graphics Interchange Format)  MrSID (Multi-resolution Seamless Image Database)  BIL (ERDAS Band-Interleaved-by-Line Format)  IMG (could be any type of image)

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.