Subjects

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Geographical Information Systems - N445070

Title:	Geografické informační systémy
Guaranteed by:	Department of Computing and Control Engineering (445)
Faculty:	Faculty of Chemical Engineering
Actual:	from 2011 to 2020
Semester:	summer
Points:	summer s.:3
E-Credits:	summer s.:3
Examination process:	summer s.:
Hours per week, examination:	summer s.:2/1, MC [HT]
Capacity:	12 / 12 (unknown)
Min. number of students:	unlimited
State of the course:	taught
Language:	Czech
Teaching methods:	full-time
Teaching methods:	full-time
Level:

Guarantor:	Hrnčiřík Pavel doc. Ing. Ph.D.

Examination dates Schedule

Annotation -

The course provides basic overview of geographical data processing and interdisciplinary use of the geographical information systems. In the practical part of the course the emphasis is mainly on the use of the ArcGIS (including ArcGIS 3D Analyst) and Global Mapper software.

Last update: Hrnčiřík Pavel (11.08.2013)

Aim of the course -

Students will be able to:

Know the basics of GIS.

Process and analyze different types of geographical data.

Work with software GIS tools of the ArcGIS system (including 3D Analyst and Spatial Analyst) and Global Mapper.

Last update: Hrnčiřík Pavel (11.08.2013)

Literature -

R: de By R.A.,Principles of Geographic Information Systems, ITC, Enschede, 2001,9789061642695

A: ESRI, Getting Started with ArcGIS, ESRI, Redlands, 2004,1589480910

Last update: Hrnčiřík Pavel (11.08.2013)

Requirements to the exam - Czech

Předmět je zakončen klasifikovaným zápočtem, k získání zápočtu je nutné ze samostatného projektu (bude zadán v průběhu semestru na cvičení) získat alespoň 50 % z max. možného bodového ohodnocení.

Last update: Hrnčiřík Pavel (15.02.2010)

Syllabus

1. Introduction to GIS, ArcGIS system

2. Topology of geographical data, projections

3. Computer handling of geographical data, raster data, vector data, map layers

4. Acquisition of geographical data, digitisation, scanning, vectorisation, aerial and satellite photography, Internet

5. Editing of geographical data, spatial transformations

6. Map creation, linking database tables to map features

7. Advanced mapping techniques

8. 3D geographical data (ArcGIS 3D Analyst) - creating a 3D terrain model, surface analysis

9. 3D geographical data (ArcGIS 3D Analyst) - 3D objects, 3D visualisation

10. Integrated GIS data management using Global Mapper

11. Global Mapper - GIS data processing, transformation and analysis

12. Interdisciplinary application of GIS, visualisation and analysis of specific data types, modelling

13. Database systems and GIS

14. GIS and Internet (Google Earth)

Last update: TAJ445 (30.09.2013)

Learning resources -

Other study aids:

ArcGIS Desktop Help 9.3 http://webhelp.esri.com/arcgisdesktop/9.3/index.cfm?TopicName=welcome

Global Mapper User's Manual http://www.globalmapper.com/helpv14/Help_Main.html

Last update: Hrnčiřík Pavel (11.08.2013)

Registration requirements -

none

Last update: Hrnčiřík Pavel (11.08.2013)

Teaching methods
	Activity	Credits	Hours
	Účast na přednáškách	1	28
	Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi	0.5	14
	Práce na individuálním projektu	1	28
	Účast na seminářích	0.5	14
		3 / 3	84 / 84

Coursework assessment
Form	Significance
Regular attendance	40
Defense of an individual project	10
Report from individual projects	50