Geographic information systems in the Earth sciences

Course: Land evolution and real estate assessment

Structural unit: Educational and Scientific Institute "Institute of Geology"

Title
Geographic information systems in the Earth sciences
Code
OK 16
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2022/2023
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
4
Learning outcomes
Use cartographic models of natural resources in the field of Earth sciences. To use topographic-geodetic and photogrammetric equipment and technologies, methods of mathematical processing of topographic-geodetic and photogrammetric measurements. Use methods of mathematical processing in geological, hydrogeological and geodetic research, as well as methods and technologies of land management design, territorial and economic land management, land use planning and protection, cadastral surveys and maintenance of state land cadastre. Develop projects of land management, land management and cadastral documentation and land valuation documentation, compile maps and prepare cadastral data using computer technology, geographic information systems and digital photogrammetry. Apply models, methods and data of physics, chemistry, ecology, mathematics, geology, hydrogeology, etc. in the study of natural processes of formation and development of the Earth.
Form of study
Distance form
Prerequisites and co-requisites
In order to learn the educational material of the discipline, students must first acquire knowledge and skills in the field of informatics and computer technology, the basics of mathematical analysis, general geology and engineering geology.
Course content
The program of the discipline reveals the main aspects of the application of geoinformation technologies in the Earth sciences and geology. The discipline "Geoinformation systems in the Earth sciences" will allow students get knowledge and skills in collecting, accumulating, processing, generalizing, analyzing, optimizing and disseminating spatial information by means of geoinformation technologies.
Recommended or required reading and other learning resources/tools
1. Burachek V.H. Heoinformatsiinyi analiz prostorovykh danykh: monohrafiia / V.H. Burachek, O.O. Zhelezniak, V.I. Zatserkovnni. - Nizhyn: TOV Vydavnytstvo «Aspekt-Polihraf, 2011. 2. Burachek V.G. Basics of GIS / V.G. Burachek, V. I. Zatserkovnyi. - Nizhyn: LLC "Aspect-Polygraph" Publishing House, 2011. 3. Zatserkovnyi V.I. Heoinformatsiini systemy v naukakh pro Zemliu / V.I. Zatserkovnyi, I.V. Tishaiev, I.V. Virshylo, V.K. Demydov //Nizhyn: NDU im. M. Hoholia, 2016. 4. Ishchuk O.O., Prostorovyi analiz i modeliuvannia v HIS: Navchalnyi posibnyk / O.O. Ishchuk, M.M. Korzhnev, O.Ie. Koshliakov // Za red. akad. D.M. Hrodzynskoho. – K.: Vydavnycho-polihrafichnyi tsentr “Kyivskyi universytet”, 2003. 5. 6. Smith M.J., Goodchild M.F., Longley P.A. & Associates (2018). Geospatial Analysis. A Comprehensive Guide to Principles Techniques and Software Tools, 6th edition. 978-1-912556-05-2. www.spatialanalysisonline.com
Planned learning activities and teaching methods
Lectures and laboratory classes, self-study
Assessment methods and criteria
1. Semester evaluation: - control work on the basics of geographic information systems -15 points (milestone score 9 points). - control work on the basics of spatial analysis - 15 points (milestone score 9 points). - assessment for work in laboratory classes - 30 points (a milestone score of 18 points). 2. Final grade in the form of an exam: maximum grade 40 points (terminal grade 24 points). During the exam, the student performs the implementation of the project using knowledge and skills in the basics of geoinformation systems in geosciences. The results of students' learning activities are evaluated on a 100-point scale.
Language of instruction
ukrainian

Lecturers

This discipline is taught by the following teachers

Departments

The following departments are involved in teaching the above discipline