This page intentionally left blank Copyright © 2008, New Age International (P) Ltd., Publishers Published by New Age International (P) Ltd., Publishers All rights reserved. No part of this ebook may be reproduced in any form, by photostat, microfilm, xerography, or any other means, or incorporated into any information retrieval system, electronic or mechanical, without the written permission of the publisher. All inquiries should be emailed to [email protected] ISBN (13) : 978-81-224-2639-7 PUBLISHING FOR ONE WORLD NEW AGE INTERNATIONAL (P) LIMITED, PUBLISHERS 4835/24, Ansari Road, Daryaganj, New Delhi - 110002 Visit us at www.newagepublishers.com P REFACE In today’s world – the fl ow of information especially digital information has become the critical ingredient for success in any activity. That is why, the period we live in is often referred to as an information age. It is a simple fact that everything human beings do, do takes place at a certain location on the earth – it has a geographic component, although we tend not to think about it much. The digital information revolution of the late twentieth century has allowed this geographic information to be more easily accessed, analyzed and used than ever before. This led to the development of GIS as a discipline and emergence of GIS as a core of digital technology. The technology of GIS is spread over the domain of several disciplines such as Mathematics, Statistics, Computer Sciences, Remote Sensing, Environmental Sciences and of course Geography. Similarly, diverse is the list of its applications – Commerce, Governance, Planning and Academic Research. These application areas are also growing and expanding every day due to its power and vast possibilities. Traditionally, the discipline of Geography dealt with spatial description and analysis. Now in the era of multidisciplinary approach, students, researchers, professionals from different disciplines fi nd their way into the emerging discipline of GIS making it popular. The rapid expansion and popularization of GIS means that now GIS is not just for the specialists, but for everyone, but these GIS users have different requirements. There are numerous amounts of GIS learning material available in the form of textbooks as well as posted on various websites. These literatures in general tend to be rather advanced and designed for specialists while requirements of GIS beginners are some what ignored. The present book is an attempt to provide basic fundamentals of GIS for beginners. The book is evolved following the basic education approach, spreading onto three stages of learning. The fi rst stage is about basic fundamentals, here development in technology instigating the learning processes are discussed. This is spread over fi rst three chapters, which introduces the beginners to the GIS as a discipline, its history, development and VviI CoPnretefanctse evolvement process. The second stage is about the scope of the fi eld, here the emphasis is on issues of technological advancements and revolution in spatial learning and their basic concepts. In this section, four chapters (fourth to eighth) cover the breadth and also depth of GIS, here geographic data, nature, structure, source and real world models are elaborated. Lastly, the third stage of learning, where the approach works towards the development of critical thinking, using the knowledge base acquired from the earlier chapters. The last four chapters discuss geographic query, analysis, selection and future of GIS, project design and management. Shahab Fazal Contents VII C ONTENTS Chapter 1: Geographical Information Systems – Representing 1 – 25 Geography: Information technologies in geography, The course of technological innovation, Geographic information systems: a generic definitions, The GIS view of the world, Why is GIS important?, Contributing disciplines, Major areas of application, The appeal and potential of GIS, Components of GIS, Benefits of computerizing information. Chapter 2: History and Development of GIS: Maps and their 27 – 37 historical development, Advantages of GIS over manual methods, First automatic processing of geographical information, Important milestones in the development of GIS, Recent developments. Chapter 3: GISs Roots in Cartography: Human congnition of the 39 – 81 spatial world, Sensing and perceiving the world, Cognitive maps, Spatial learning and development, Using and learning maps, GIS and spatial cognition, Defining a map, Types, Other representation of the world, GIS and computer cartography, Mapping concepts, features and properties, Types of information in a digital map, The shape of the earth, Datum types, General coordinate systems, Earth coordinate geometry, Map projections, World geographic reference system (GEOREF), Affine and curvilinear transformations. Chapter 4: Spatial Data Structure and Models: Information organization 83 – 105 and data structure, Geographic data and geographic information, Information organization, The relationship perspective of information organization, The operating system perspective, The application architecture perspective, Data– Fundamental concepts, Spatial – non spatial data, Database management system, Data models, Data modelling. VviIiIiI Contents Chapter 5: The Nature and Source of Geographic Data : Spatial data 107 – 141 formats – raster and vector, Choice between raster and vector, Data capture, Data collection workflow, Primary geographic data capture, Secondary geographic data capture, Obtaining data from external sources, Geographic data formats, Capturing attribute data, Managing a data capture project, Data editing, Data conversion, Geographic data – linkages and matching. Chapter 6: GIS and the Real World Model: Real world model, 143 – 154 Entity types, Entity relations, Geographical representation of objects, Object attributes, Object relations, From database to GIS to map, Shortcomings of the traditional GIS data model – Entities and fields, Uncertainty, Conceptual generalization, Role of maps in data modelling, Extension of the reality concept. Chapter 7: Basic Data Models in GIS: Vector data model, Coding 155 – 203 digital data for map production, Coding digital data for GIS, Storing points and lines, Storing area boundaries, Spaghetti model, Storing Area Boundaroes: The Topological approach, How it works?: The DIME example, Data compression, Storing vector data. Raster data models-Realizing the raster model, Storing raster data structures, Raster data Structure: The array, Compression of raster data, Saving space: The run length encoding and Quad-trees, Automatic conversion between vector and raster models, Vector versus raster models. Attribute data and computer registers, Coding and entering attribute data Storing attribute data, Linking digital map and register information. Chapter 8: Advanced Data Models: Surface representation, Grid 205 – 223 model, TIN model, Other models, Practical observations – Accuracy, Three– dimensional objects, Representation of time, Models for moveable objects - Network model, Model for movement over surfaces, Combination of models, The representation of networks, Node-node adjacency matrix, Forward and reverse star representation, Representation of network attributes, Computation of shortest paths on a network. Chapter 9: Geographic Query and Analysis: Types of spatial 225 – 255 analysis - Queries and reasoning, Measurements, Transformations, Descriptive summaries, Optimization techniques, Hypothesis testing, Spatial interpolation- Inverse distance weighting, Kriging, Density estimation and potential, Advanced spatial analysis, Descriptive summaries–Centers, Dispersion, Histograms and pie charts, Scatterplots, Spatial dependence, Fragmentation and Fractional dimension, Optimization, Hypothesis testing. Chapter 10: Selection of a GIS: The evolution of GIS software, The early 257 – 271 GIS software programs, Operating systems and GIS, GIS functional capabilities - Data capture, Data storage, Data management, Data retrieval, Data analysis, Data display. Data structures and GIS software, The leading GIS softwares. Chapter 11: The Future of GIS: Future data: Easy access to digital data, Contents IixX Remote sensing and GIS, GPS as data source for GIS. Image maps and GIS, 273 – 290 Data exchange and GIS, Location - based services and GIS, Future hardware – The workstation revolution, The network revolution, The microcomputer revolution, The mobility revolution, The impact of the revolutions, Future prospects of hardware, Future software – Software trends, The user interface and WIMPs, The raster versus vector debate, object - oriented GIS, Distributed databases, GIS user needs, GIS software research. GIS interoperability, Future issues and problems – Privacy, Data ownership, Scientific visualization, New focus. ltem identification – The rich picture, The root definition, Designing a data model, Conceptual and physical data model, Cartographic modelling. Project 291 – 311 management – Systems life cycle approach, The prototyping approach, Implementation problems, Project evaluation, Project Design – An Example (Urban Sprawl GIS) – Objective, Database design, Database automation, Database management, Data analysis, Presentation of results. (cid:1) Glossary 313 – 326 (cid:1) References 327 – 339