Moduł oferowany także w ramach programów studiów:
Informacje ogólne:
Nazwa:
GIS and Remote Sensing
Tok studiów:
2013/2014
Kod:
BGG-2-106-EG-s
Wydział:
Geologii, Geofizyki i Ochrony Środowiska
Poziom studiów:
Studia II stopnia
Specjalność:
Economic geology
Kierunek:
Górnictwo i Geologia
Semestr:
1
Profil kształcenia:
Ogólnoakademicki (A)
Język wykładowy:
Angielski
Forma i tryb studiów:
Stacjonarne
Strona www:
 
Osoba odpowiedzialna:
dr inż. Magiera Janusz (magiera@geol.agh.edu.pl)
Osoby prowadzące:
dr inż. Magiera Janusz (magiera@geol.agh.edu.pl)
Krótka charakterystyka modułu

Opis efektów kształcenia dla modułu zajęć
Kod EKM Student, który zaliczył moduł zajęć wie/umie/potrafi Powiązania z EKK Sposób weryfikacji efektów kształcenia (forma zaliczeń)
Wiedza
M_W001 Student who completes the course: - knows and understands principles of GIS: spatial and attribute data and scope of their processing and analysis; - knows GIS software and its suppliers; - knows formats of the data; - knows cartographic projections and coordinate reference systems; - knows and understands rpinciples of satellite navigation systems GG2A_W02 Egzamin,
Kolokwium
M_W002 Student have a knowledge of using advanced computer software used in earth sciences. GG2A_W10, GG2A_W03 Egzamin,
Kolokwium
M_W003 Having completed the course student knows and understands function of tools of editing, processing and analysis of the spatial data (both, discrete and continuous). GG2A_W03
Umiejętności
M_U001 Student who completes the course is able to: - recognize, define and convert basic formats of the spatial data; - find and use resources in the public domain (WMS, WFS etc.); - find and purchase commercial resources of the spatial data; - create his own data by digitizing and DB building; - recognize, define and convert coordinate reference systems GG2A_U10 Egzamin,
Kolokwium
M_U002 Having completed the course student is able to: - select and apply tools of editing, processing and analysis appropriate to the needs and goals of the project; - acquire GPS data and apply them to the GIS projects; - present results of spatial processing and analysis as maps, report, presentation etc. GG2A_U01 Egzamin,
Kolokwium
M_U003 Having completed the course student is able to: - select and apply tools of editing, processing and analysis appropriate to the needs and goals of the project; - acquire GPS data and apply them to the GIS projects; - present results of spatial processing and analysis as maps, report, presentation etc GG2A_U09 Projekt
Kompetencje społeczne
M_K001 As the GIS is relatively new IT in the geoscience field, the student attending the course understands the need for continuous further education and upgrading his Earth science and IT knowledge and skills. GIS projects are commonly carried out in teams, therefore, he/she develops his/her abilities for a team-work and for proper planning of multi-stage works. GG2A_K03 Zaangażowanie w pracę zespołu
Matryca efektów kształcenia w odniesieniu do form zajęć
Kod EKM Student, który zaliczył moduł zajęć wie/umie/potrafi Forma zajęć
Wykład
Ćwicz. aud
Ćwicz. lab
Ćw. proj.
Konw.
Zaj. sem.
Zaj. prakt
Inne
Zaj. terenowe
Zaj. warsztatowe
E-learning
Wiedza
M_W001 Student who completes the course: - knows and understands principles of GIS: spatial and attribute data and scope of their processing and analysis; - knows GIS software and its suppliers; - knows formats of the data; - knows cartographic projections and coordinate reference systems; - knows and understands rpinciples of satellite navigation systems + + - - - - - - - - -
M_W002 Student have a knowledge of using advanced computer software used in earth sciences. + + - - - - - - - - -
M_W003 Having completed the course student knows and understands function of tools of editing, processing and analysis of the spatial data (both, discrete and continuous). - - - - - - - - - - -
Umiejętności
M_U001 Student who completes the course is able to: - recognize, define and convert basic formats of the spatial data; - find and use resources in the public domain (WMS, WFS etc.); - find and purchase commercial resources of the spatial data; - create his own data by digitizing and DB building; - recognize, define and convert coordinate reference systems + + - - - - - - - - -
M_U002 Having completed the course student is able to: - select and apply tools of editing, processing and analysis appropriate to the needs and goals of the project; - acquire GPS data and apply them to the GIS projects; - present results of spatial processing and analysis as maps, report, presentation etc. + + - - - - - - - - -
M_U003 Having completed the course student is able to: - select and apply tools of editing, processing and analysis appropriate to the needs and goals of the project; - acquire GPS data and apply them to the GIS projects; - present results of spatial processing and analysis as maps, report, presentation etc - - - - - - - - - - -
Kompetencje społeczne
M_K001 As the GIS is relatively new IT in the geoscience field, the student attending the course understands the need for continuous further education and upgrading his Earth science and IT knowledge and skills. GIS projects are commonly carried out in teams, therefore, he/she develops his/her abilities for a team-work and for proper planning of multi-stage works. - - - - - - - - - - -
Treść modułu zajęć (program wykładów i pozostałych zajęć)
Wykład:

1. Spatial analysis (GIS)

GIS – introduction, basic terms, origin, history, recent developments;

Types of the data: spatial and attribute; attribute data and role of the Data Base; formats of the spatial data;

GIS software – review;

Coordinate systems:
- real shape and models of the Earth (“potato”, geoid, spheroid, ellipsoid);
- concept of the datum;
- geographic coordinate system (graticule of parallels and meridians, “lat-long”);
- projected coordinate system (grid);
- national and universal (UTM) coordinate systems; national systems;
- transformation of the coordinate systems;

GPS and GNSS (Global Positioning System and Global Navigation Satellite Systens):
– principles and practical use;
– format of the data and use in GIS;

Continuous data (e.g.: Digital Elevation Model – DEM, DTM:
- acquisition, sources of the elevation data, processing;
- TIN and grid;
- gridding, interpolators;
- practical applications.

Basics of the spatial analysis:
- DB Querry (reclass, assign, extract, histo, area);
- overlay, map algerbra, Boolean logic;
- distance operators (Euclidean and non- Euclidean, buffering etc.);
- context operators (filters, pattern, texture, group etc.);

Modelling and decision support in GIS;

Pracical application of GIS: environmental protection and engineering, landuse planning, economic geology,
hydrography, urban development.

2. Remote Sensing

Introduction to Remote Sensing: principles and “philosophy”;

Sources of data: active and past satellite and airborne platforms and scanners, formats of the data;

Processing and analytical procedures: contrast adjustment, filtering, colour composites, map algebra, band ratios, classification (unsupervised and supervised).

Ćwiczenia audytoryjne:

1. Spatial analysis (GIS)

GIS software: Q-GIS, Grass, Idrisi, Arc GIS and other – review;

Data exploration: raster and vector; import – export and conversion tools; data formats;

Data acquisition: WMS, WFS, digitising and processing of the output data;

Projections and coordinate systems: defining, processing and transformation;

Basic analytical operations – exploring;

Spatial analysis – individual project;

Continuous data: points, TIN, grid, interpolation, analysis, presentation.

2. Remote Sensing

RS software: ERMapper, Erdas Imagine, Grass – review and exploration;

Acquisition of the data: public and commercial domain – downloads from the network resources;

Formats of the data; conversion; import – export;

Basic processing and analytical procedures: contrast adjustment, filtering, colour composites, band ratios, classification: unsupervised and supervised;

Integration of RS and GIS data

Final map output;

Interpretation and correction of the data obtained.

Nakład pracy studenta (bilans punktów ECTS)
Forma aktywności studenta Obciążenie studenta
Sumaryczne obciążenie pracą studenta 55 godz
Punkty ECTS za moduł 2 ECTS
Udział w wykładach 15 godz
Udział w ćwiczeniach audytoryjnych 30 godz
Samodzielne studiowanie tematyki zajęć 10 godz
Pozostałe informacje
Sposób obliczania oceny końcowej:

The final grade: = 0,6* exam + 0,4 * classes test result

Wymagania wstępne i dodatkowe:

Nie podano wymagań wstępnych lub dodatkowych.

Zalecana literatura i pomoce naukowe:

Basic:

Longley, Paul A. [et al.], 2005 – Geographical information systems and science. 2nd ed. John Wiley & Sons, Chichester.

Longley, Paul A. [et al.], 1999 – Geographical information systems. Vol. 1, Principles and technical issues. 2nd ed. John Wiley & Sons, Chichester.

Longley, Paul A. [et al.], 1999 – Geographical information systems. Vol. 2, Management issues and applications. 2nd ed. John Wiley & Sons, Chichester.

Neteler M., Mitasova H., 2008 – Open Source GIS. A GRASS GIS Approach. Springer.

Gupta, R. P., 2003 – Remote sensing geology. Springer.

Drury, S. A., 1993 – Image interpretation in geology. Allen and Unwin, London.

Supplementary:

Bonham-Carter, G. F., 1996 – Geographic information systems for geoscientists. Pergamon.

Brimicombe Allan, 2003 – GIS, environmental modelling and engineering. Taylor & Francis, London, New York.

Stillwell, John, Clarke, Graham (eds.), 2004 – Applied GIS and spatial analysis, John Wiley & Sons,Chichester.

Shashi Shekar, Hui Xiong (eds.), 2008 – Encyclopedia of GIS. Springer Science+Business Media, New York.

Abdul-Rahman, Alias, 2008 – Spatial data modelling for 3D GIS. Springer, Berlin.

Burrough, P.A., 1986 – Principles of Geographical Information Systems for land resources sssessment. Clarendon.

Publikacje naukowe osób prowadzących zajęcia związane z tematyką modułu:

Nie podano dodatkowych publikacji

Informacje dodatkowe:

Brak