Essential for the primary learners of Geographical Information System (GIS)

1. Introduction to GIS

2. What is GIS
A Geographic Information System (GIS) integrates hardware, software, and
data for capturing, managing, analyzing, and displaying all forms of
geographically referenced information. It is a computerized data management
system used to capture, store, manage, retrieve, analyze, and display spatial
information. GIS is a technological field that incorporates geographical
features with tabular data in order to map, analyze, and assess real-world
problems. With a GIS it is possible to map, model, query and analyze large
quantities of data. A GIS helps you answer questions and solve problems by
looking at your data in a way that is quickly understood and easily shared.
There are three integrating part in a GIS:
Geographic : The spatial realities of the real world
Information : The meaning and use of data
Systems : The computer technology and support infrastructure

3. Definition of GIS
“A geographic information system is a special case of information systems
where the database consists of observations on spatially distributed features,
activities or events, which are definable in space as points, lines, or areas. A
geographic information system manipulates data about these points, lines,
and areas to retrieve data for ad hoc queries and analyses” (Kenneth
Dueker, Portland State University, 1979).
“A powerful set of tools for collection, storing, retrieving at will
transforming and displaying spatial data from the real world”
Burrough,1986
“A system for capturing , storing, checking, integrating, manipulating,
analyzing and displaying data which are spatially referenced on the earth ”
Chorley, 1987

4. Definition of GIS
“GIS is a configuration of computer hardware and software specifically
designed for the acquisition, maintenance and use of cartographic data”
Tomlin,1990
A geographic information system (GIS) is a computer-based tool for
mapping and analyzing things that exist and events that happen on earth. GIS
technology integrates common database operations such as query and
statistical analysis with the unique visualization and geographic analysis
benefits offered by maps.” ESRI
“GIS is an integrated system of computer hardware, software, and trained
personnel linking topographic, demographic, utility, facility, image and other
resource data that is geographically referenced.” NASA

5. History of GIS
One of the first applications of spatial analysis in epidemiology is the 1832
"Rapport sur la marche et les effets du choléra dans Paris et le département
de la Seine". The French geographer Charles Piquet represented the
48 districts of the city of Paris by halftone color gradient according to the
percentage of deaths by cholera per 1,000 inhabitants.
In 1854 John Snow depicted a cholera outbreak in London using points to
represent the locations of some individual cases, possibly the earliest use of a
geographic methodology in epidemiology. His study of the distribution of
cholera led to the source of the disease, a contaminated water pump (the Broad
Street Pump, whose handle he disconnected, thus terminating the outbreak).

6. History of GIS
The early 20th century saw the development of photozincography, which
allowed maps to be split into layers, for example one layer for vegetation and
another for water. This was particularly used for printing contours – drawing
these was a labor-intensive task but having them on a separate layer meant they
could be worked on without the other layers to confuse the draughtsman.
The year 1960 saw the development of the world's first true operational GIS in
Ottawa, Ontario, Canada by the federal Department of Forestry and Rural
Development. Developed by Dr. Roger Tomlinson, it was called the Canada
Geographic Information System (CGIS) and was used to store, analyze, and
manipulate data collected for the Canada Land Inventory – an effort to
determine the land capability for rural Canada by mapping information about
soils, agriculture, recreation, wildlife, waterfowl, forestry and land use at a
scale of 1:50,000.

7. History of GIS
In 1986, Mapping Display and Analysis System (MIDAS), the first desktop
GIS product emerged for the DOS operating system. This was renamed in
1990 to MapInfo for Windows when it was ported to the Microsoft Windows
platform. This began the process of moving GIS from the research
department into the business environment.
The first known use of the term "Geographic Information System" was by
Roger Tomlinson in the year 1968 in his paper "A Geographic Information
System for Regional Planning“. Tomlinson is also acknowledged as the
"father of GIS”

8. Why GIS Differs from other Graphics Systems
GIS differs from other graphics systems in several respects.
 In GIS data are geo-referenced to the coordinates of a particular projection
system. This allows precise placement of features on the earth’s surface
and maintains the spatial relationships between mapped features. As a
result, commonly referenced data can be overlaid to determine
relationships between data elements.
 GIS software use relational database management technologies to assign a
series of attributes to each spatial feature. Common feature identification
keys are used to link the spatial and attribute data between tables.
 GIS provide the capability to combine various data into a composite data
layer that may become a base layer in a database.

9. Why GIS Differs from other Graphics Systems
GIS allows multiple layers of information to be displayed on
a single map.

10. What A GIS Can Do
There are five basic questions which a complete GIS must answer. These are:
What exists at a particular location (What is at?): The first of these
question seeks to find out what exists at a particular location. For Example,
Place name, Post code / Zip code or geographic reference such as latitude,
longitude. For a location, the GIS must describe the features of that location.
Where can specific features be found(Where is it?): This is the converse
of the first question. It query for a condition. For example, where are the
districts with rainfall greater than 500 mm and less than less than 750 mm?
Trends (What has changed over time?):
This involves answering both questions above. It seeks to find the difference
within an area over time. For example, at what locations are the crop yields
showing declining trends?

11. What A GIS Can Do
Patterns (What spatial patterns exist?): This question is more
sophisticated. If occurrence of a pest is associated with a hypothesized set of
conditions of temperature, precipitation, humidity, where do those conditions
exist?
Modelling (What if … ?) Questions are posed to determine what happens.
This is a higher level application of GIS and answers questions like what
would be the nitrate distribution in groundwater over the area if fertilizer use
is doubled?

12. Components of GIS
An operational GIS also has a series of components that combine to make
the system work. These components are critical to a successful GIS.
Components of GIS

13. Components of GIS
Hardware:
Hardware is the computer system on which a GIS operates. The function of
these components is typically divided into three main categories: Input,
Storage and Output. The general hardware components of a GIS system is
the Central Processing Unit (CPU). It is linked to a disk drive storage unit,
which provide space for storing data and programs. A digitizer, scanner and
other device is use to input data from maps and documents into digital form.
A plotter or other display device is use to present the result of data
processing.

14. Components of GIS
Software:
Software are computer programs; instructions that cause the hardware to do
work. GIS software are application software. GIS software provides the
functions and tools needed to store, analyze, and display geographic
information. Some popular GIS software is: Arc Info, ArcView, ArcGIS,
QGIS, GRASS GIS,ER Mapper.

15. Components of GIS
Data:
Perhaps the most important component of a GIS is the data. Without data
GIS can do nothing. Geographic data and related tabular data can be
collected in-house, compiled to custom specifications and requirements, or
occasionally purchased from a commercial data provider. A GIS can integrate
spatial data with other existing data resources, often stored in a corporate
DBMS. The integration of spatial data and tabular data stored in a DBMS is
a key functionality afforded by GIS.

16. Components of GIS
Method:
A successful GIS operates according to a well-designed implementation plan
and business rules, which are the models and operating practices unique to
each organization. Methods include how the data will be input into the
system, storage, manage, analyzed and finally presented in a map as a final
output. The methods are the steps taken answer the question need to be
answer. Failure to implement your GIS without regard for a proper
organizational commitment will result in an unsuccessful system.

17. Components of GIS
People/ Livewire:
Livewire/people means who are expert and engaged to run GIS software.
GIS technology is of limited value without the people who manage the
system and develop plans for applying it to real world problems. GIS users
range from technical specialists who design and maintain the system to those
who use it to help them perform their everyday work. To run GIS software
and buildup meaningful and potential logics we need expert Livewire.

18. Geographic Referencing Concepts
A GIS is to be created from available maps of different thematic layers (soils,
land use, temperature, etc.). The maps are in two-dimensions whereas the
earth’s surface is a three dimensional. Every map has a projection and scale.
Geo-referencing involves two stages:
Geographic Coordinate System (GCS):
The traditional way of representing locations on
the surface of the earth is in the three
dimensional coordinate system is by its latitude
and longitude.

19. Geographic Referencing Concepts
Projected Coordinate System (PCS):
The development of GIS starts with an available map on paper (an analogue
map). This map therefore represents a projection of a Three-dimensions GCS
in Two-dimensional form. Projection is a mathematical transformation used
to project the real Three-dimensional spherical surface of the earth in Two-
dimensions on a plane sheet of paper.

20. Geographic Referencing Concepts
The projection causes distortions in one or more spatial properties (area,
shape, distance, or direction).

21. GIS Data Types
The basic data type in a GIS reflects traditional data found on a map.
Accordingly, GIS technology utilizes two basic types of data. These are:
Spatial Data
GIS Data
Attribute Data