1. GIS TRAINING USE OF GIS AND REMOTE SENSING IN PLANNING PROSPER GASS KEKETSYOR-ILGS

2. Objective 1 Basic concepts Functionalities of GIS
Available software (Open source and closed)
Various Tools and Applications
Overview of Spatial Information
Data Manipulation practice

3. Overview 1 Definition- GIS for lanning Parts of GIS in Planning
Functions of GIS in Planning
Elements of GIS
Spatial Information Systems-Types
Applications of GIS in Planning
Users of GIS in Planning
Questions GIS can answer

4. What is GIS?
Peter Burrough “GIS is a powerful set of tools for storing and retrieving at will, transforming and displaying spatial data from the real world for a particular set of purposes

5. What is GIS?
Clarke “GIS are automated systems for the capture, storage, retrieval, analysis and display of spatial data”

6. What is GIS?
Jack Estes and Jeffery Star 1990-“GIS is an information system designed to work with data referenced by spatial or geographic coordinates. In other words, a GIS is both a database system with specific capabilities for spatially-referenced data, as well as a set of operations for working with the data”

7. What is GIS?
Duecker 1979-“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, areas. A geographic information system manipulates data about these points, lines and areas to retrieve data for ad hoc queries and analyses”

8. What is GIS?
ESRI (Environmental Systems Research Institute) “GIS is a computer system capable of holding and using data describing places on the earth’s surface”

9. GIS basically has three components namely:
The Database
The spatial or map information
Someway to link the two

10. 5 MAIN FUNCTIONS OF A GIS 1. Data Acquisition
Data acquisition is the process of identifying and gathering data required for your application.
- Topographic maps
- Aerial photography
- Satellite images
- Field observation
- Statistical information
- Survey information

11. 5 MAIN FUNCTIONS OF A GIS 2. Data input (processing)
Data input involves manipulating the data in several ways so that it may be entered into the GIS.
- Use of GPS-data (input through x, y coordinates)
- Digitizing (Vector)
- Scanning (raster)
- Vectorizing
- Aerial photographs (raster)
- Satellite data (raster)
The process of extracting information from these data sets and recording the information in a computer database also is a very time consuming effort.

12. 5 MAIN FUNCTIONS OF A GIS 3. Data management
- Management of geographic data sets (vector data, raster data and images e.g. TIFF Files or graphics)
- Storage of data (database), update, deletion and retrieval of data (very important are issues of security-e.g only specific users have access to the system and its databases)
- Project management (overall objectives of project, quality control, database structure, organisation of thematic layers)

13. 5 MAIN FUNCTIONS OF A GIS 4. Data analysis
- Tabular analysis using logical operators
- Measurement of area or perimeter and length
- Polygon overlay
- Interpolation e.g generation of DEM’s (calculation of slope, aspect etc)
Generalization of objects

14. 5 MAIN FUNCTIONS OF A GIS 5. Data output
Data display is the phase where final outputs from the GIS are created. These output products might include:
- statistical reports (e.g average population densities for specific areas)
- maps of various kinds (hardcopies)
Data conversion (DXF, ASCII, DEM, EOO, Illustrator, EPS)
- Screen demostrations (ARC/VIEW)
- Graphs and charts displaying data analysis

15. Spatial Information Systems
Types
Three types of spatial information systems can be distinguished.
1. Computer Aided Design (CAD)
Graphic systems used by industrial designers, architects and landscape architects to support and display their work.
Land Use Information Systems (LIS)
Functions as an administrative system for the management of geographic data on land use. The central focus is the development of a very detailed database. LIS provides powerful tools for local planning authorities and public infrastructure agencies operating at a very detailed micro scale.
3. Geographic Information System (GIS)
GIS tend to support analysis, planning and evaluation at a more macro scale. They are used to assist the research required to formulate and evaluate central and local government policy with respect to different aspects of physical and environmental planning on the one hand, and economic or strategic planning on the other. The distinguishing feature of GIS in comparison with LIS and CAD is the availability of spatial analytical tools.

16. Spatial Information Systems
Other Information Systems 1. Space Information Systems A space information system is an instrument for decision making for planning and development in regional areas. The database contains data of the population, economy and settlement development as well a infrastructure, land use and resource management. 2. Meta Information Systems (LIS) A meta-information system is an information system about informations. It describes aspects of information processing and availability (which information one can get and where). 3. Environmental Information System (GIS) An expanded geographic information system for recording, storing, processing and presenting spatial, temporal and subject-related data in order to describe the state of the environment with regard to burdens and hazards and which forms the basis for environmental protection measures.

17. APPLICATION AND USERS OF GIS
- civil engineering
- construction
- architecture
landscape architecture
- public utilities (water, gas, electricity, telephone)
- real estate (land and property)
- management of infrastructure (roads, railways, water supply)
housing, listed buildings, industry

18. APPLICATION AND USERS OF GIS
- traffic and transport planning
- agriculture planning
- environmental and natural - - resource management
- recreation planning
- location decisions
- spatial planning (land use)
- service planning (education, social services etc..)
- marketing
- regional and town planning
- thematic cartography

19. Questions GIS can answer
A GIS can be distinguished by listing the types of questions it can (or should be able to) answer. A sophisticated GIS should be able to answer five questions:
Location (what is at?)
What exists at a particular location? For example:
place name
post code
geographic references such as longitude and latitude
Condition (Where is it?)
This question requires spatial analysis. Instead of just finding a specific location, you want to find a location where certain conditions are satisfied.
For example:
an unforested section of land at least 2000 square meters in size within 100 meters of a road

20. Questions GIS can answer
Trends (What has changed since?)
This question seeks to find differences within an area over time. Using different information sources (topographic maps, aerial photographs and satellite images from different time periods) you could find out:
- Changes in Land use during the past 10 years
Flooded areas during the past 10 years
Spread of land degradation

21. Questions GIS can answer
Patterns (What spatial patterns exist?)
- Relationship between ground water levels and vitality of vegetation
Is cancer a major cause of death among residents near a nuclear power station
. Modeling (What if?)
These kind of question require both geographic and other information
What happens if a new road is added to a network (traffic congestion, air pollution)
What happens if a toxic substance seeps into the local groundwater supply

22. REMOTE SENSING What is Remote Sensing ?
“Remote Sensing is defined as the science and technology by which characteristics of objects of interest can be identified without direct contact”

23. Earth observation from space and air (Satellite Observation Systems)
Remote Sensing is a technology to observe objects' size, shape and character without direct contact with them.
The reflected or radiated
electromagnetic (EM) waves are received by sensors aboard
platform.

24. Advantages of Satellite Observation
Enables to observe a broad area at a time
Enables to observe the area for a long period
– Repeat pass observation (Time series data, Change
detection)
Enables to know the condition without visiting the area
Enables to know invisible information
– Sensors for various electromagnetic spectrum
(Infrared, microwave)

25. INSTRUMENTS
The instruments used for this special technology are known as remote sensors and include photographic cameras, mechanical scanners, and imaging radar systems. Regardless of type, they are designed to both collect and record specific types of energy that impinges upon them. Remote sensing devices can be differentiated in terms of whether they are active or passive.

26. To complete the remote sensing process, the data captured and recorded by remote sensing systems must be analyzed by interpretive and measurement techniques in order to provide useful information about the subjects of investigation. These techniques are diverse, ranging from traditional methods of visual interpretation to methods using sophisticated computer processing. It cannot be emphasized too strongly that data is not information. Accordingly, the two major components of remote sensing are data capture and data analysis.

27. PRODUCTS
Accra, Airport City