Search result: Catalogue data in Autumn Semester 2017
Geomatic Engineering Master  | ||||||
 Major Courses | ||||||
| Major in GIS and Cartography | ||||||
| Number | Title | Type | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|---|
| 103-0227-00L | Cartography III | O | 5 credits | 4G | L. Hurni | |
| Abstract | Basic methods, technologies, scripting, and systems for interactive web mapping projects and in the internet cartography. | |||||
| Objective | Gain knowledge about basic methods, technologies, scripting, and systems for interactive web mapping projects. Assessment of existing products regarding production methods. Definition of useful methods for Web-based map projects. | |||||
| Content | - Web mapping - Web Map Services (WMS) - User Interface design - Symbolisation - Programming - JavaScript - Debugging - Map production using GIS data - 3D applications in cartography | |||||
| Lecture notes | Own script and instructions will be distributed. | |||||
| Literature | - Grünreich, Dietmar, Hake, Günter and Liqiu Meng (2002): Kartographie, 8. Auflage, Verlag W. de Gruyter, Berlin - Robinson, Arthur et al. (1995): Elements of Cartography, 6th edition, John Wiley & Sons, New York, ISBN 0-471-55579-7 - Jones, Christopher (1997): Geographical Information Systems (GIS) and Computer Cartography, Longman, Harlow, ISBN 0-582-04439-1 - Stoll, Heinz (2001): Computergestützte Kartografie, SGK-Publikation Nr. 15 (siehe www.kartographie.ch) | |||||
| Prerequisites / Notice | Prerequisites: Kartografie I; Kartografie II; Thematische Kartografie Further information at http://www.karto.ethz.ch/studium/lehrangebot.html | |||||
| 103-0237-00L | GIS III | O | 5 credits | 3G | M. Raubal | |
| Abstract | The course deals with advanced topics in GIS: GIS project lifecycle, Managing GIS, Legal issues, GIS assets & constraints; Geospatial Web Services; Geostatistics; Geosimulation; Human-Computer Interaction; Cognitive Issues in GIS. | |||||
| Objective | Students will get a detailed overview of advanced GIS topics. They will go through all steps of setting up a Web-GIS application in the labs and perform other practical tasks relating to Geosimulation, Human-Computer Interaction, Geostatistics, and Web Processing Services. | |||||
| Lecture notes | Lecture slides will be made available in digital form. | |||||
| Literature | Fu, P. and Sun, J., Web GIS - Principles and Applications (2011), ESRI Press, Redlands, California. O'Sullivan, D., & Unwin, D. (2010). Geographic Information Analysis (second ed.). Hoboken, New Jersey: Wiley. | |||||
| 103-0747-00L | Cartography Lab | W | 6 credits | 13A | L. Hurni | |
| Abstract | Independent practical work in cartography | |||||
| Objective | Independent practical work in cartography | |||||
| Content | Choice of theme upon individual agreement | |||||
| Prerequisites / Notice | German or English Further information at http://www.karto.ethz.ch/studium/lehrangebot.html | |||||
| 103-0687-00L | Cadastral Systems | W | 2 credits | 2G | D. M. Steudler | |
| Abstract | Nature, role and importance of cadastral systems and related concepts such as land administration, land registration and spatial data infrastructures (SDIs). | |||||
| Objective | The students will get an understanding of the nature, role and importance of cadastral systems and related concepts such as land administration, land registration and spatial data infrastructures (SDIs). The Swiss cadastral system as well as a range of international approaches both in developed and developing countries will be reviewed. | |||||
| Content | Origins and purposes of cadastral systems Importance of documentation Basic concepts of cadastral systems (real estate, legal basis, conceptual principles, property-ownership, property types) Swiss cadastral system: - legal basis - organization - technical elements - methods of data acquisition and maintenance - profession - quality assurance Digital revolution, access to data Benchmarking and evaluation of cadastral systems International trends, developments and initiatives | |||||
| Lecture notes | see: http://www.geo21.ch/ethz/ | |||||
| Literature | Larsson, G. (1991). Land Registration and Cadastral Systems: Tools for Land Information and Management. Harlow, Essex, England: Longman Scientific and Technical, New York: Wiley, ISBN 0-582-08952-2, 175 p. see also: http://www.geo21.ch/ethz/ | |||||
| 851-0724-00L | Property Law for Geometers: Land Registry and Geoinformation Law Particularly suitable for students of D-ARCH, D-BAUG, D-USYS | W | 2 credits | 2V | M. Huser | |
| Abstract | Fundamental concepts of Land Register Law and Land Surveying Law (substantive and procedural rules of Land Register Law, the parts and the relevance of the Land Register, process of registration with the Land Register, legal problems of land surveying, reform of the official land surveying). | |||||
| Objective | Overview of the legal norms of land registry and surveying law. | |||||
| Content | Basic principles of material and formal land registry law, components of the land register, consequences of the land register, the registration process, legal problems of surveying, the reform of official surveying, liability of the geom-eter. The lecture unit is carried out within a frame of 8 sessions (2 hours): the first hour of each is given in the form of a lecture, the second in the form of a case-study. | |||||
| Lecture notes | Abgegebene Unterlagen: Skript in digitaler Form Pflichtlektüre: Meinrad Huser, Schweizerisches Vermessungsrecht, unter besonderer Berücksichtigung des Geoinformationsrechts und des Grundbuchrechts, Beiträge aus dem Institut für schweizerisches und internationales Baurecht der Universität Freiburg/Schweiz, Zürich 2014 | |||||
| Literature | - Meinrad Huser, Schweizerisches Vermessungsrecht, unter besonderer Berücksichtigung des Geoinformationsrecht und des Grundbuchrechts, Zürich 2014 - Meinrad Huser, Geo-Informationsrecht, Rechtlicher Rahmen für Geographische Informationssyteme, Zürich 2005 - Meinrad Huser, Darstellung von Grenzen zur Sicherung dinglicher Rechte, in ZBGR 2013, 238 ff. - Meinrad Huser, Baubeschränkungen und Grundbuch, in BR/DC 4/2016, 197 ff. - Meinrad Huser, Publikation von Eigentumsbeschränkungen - neue Regeln, in Baurecht 4/2010, S. 169 - Meinrad Huser, Datenschutz bei Geodaten | |||||
| Prerequisites / Notice | Requirements: Property Law (12-722) | |||||
| 103-0258-00L | Interoperability of GIS | W | 4 credits | 3G | M. Krummenacher | |
| Abstract | Content: Transform back and forth (geo-)data with same content but different structure. Themes: System-neutral model-driven approach with reality selection, conceptual modelling, flexible standard formats, 1:1 processors and semantic transformation. Tools: Conceptual schema languages UML and INTERLIS, formats ITF, XML, tools ILI-Checker and awk, and for the semantic transformation UMLT and FME. | |||||
| Objective | - Explain and apply the model-driven approach based on standards - Know and use interoperability types - Know transfer formats and reformat with 1:1 processors - Explain object-oriented modelling (with graphic and text) - Know and use communication technologies and OGC Web services - UML, EBNF, INTERLIS, ITF, XML, awk, FME - Know and apply appropriate software tools | |||||
| Content | Semantic interoperability of GIS is in the main part of this lecture and means to transform back and forth (geo-) data with same content but different structure. The reduction of the necessary programming amount to a modest minimum is provided by the system-independent model-driven approach. Its elements reality selection, conceptual modelling, flexible standard formats, 1:1 processors and semantic transformation are presented and used. As generally useful tools are introduced and applied the conceptual schema languages UML and INTERLIS, the flexible transfer formats ITF, XML the ILI-Checker, the efficient reformatting tool awk and for the semantic transformation UMLT and FME. | |||||
| Prerequisites / Notice | Condition for participation: Successful bachelor lecture GIS II | |||||
| 103-0778-00L | GIS and Geoinformatics Lab | W | 4 credits | 4P | M. Raubal | |
| Abstract | Independent study project with (mobile) geoinformation technologies. | |||||
| Objective | Learn how to work with (mobile) geoinformation technologies (including application design and programming). | |||||
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