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Suchergebnis: Katalogdaten im Herbstsemester 2015

Geomatik Master Information
Vertiefung in GIS und Kartographie
103-0237-00LGIS IIIO5 KP3GP. Kiefer, S. Scheider
KurzbeschreibungThe course deals with advanced topics in GIS: GIS project lifecycle, Managing GIS, Legal issues, GIS assets & constraints; Geospatial Web Services: technical basics, architecture, functions, interoperability, standards, mashups, portals, applications; Geostatistics; Sensor Web Enablement; Human-Computer Interaction; Cognitive Issues in GIS.
LernzielStudents 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 Sensor Web Enablement, Human-Computer Interaction, Geostatistics, and Web Processing Services.
Skriptno script
LiteraturFu, P. and Sun, J., Web GIS - Principles and Applications (2011), ESRI Press, Redlands, California.
103-0258-00LInteroperability of GISW4 KP3GM. Krummenacher
KurzbeschreibungContent: 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.
Lernziel- 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
- Know and apply appropriate software tools
InhaltSemantic 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.
Voraussetzungen / BesonderesCondition for participation: Successful bachelor lecture GIS II
103-0778-00LGIS and Geoinformatics LabW4 KP4PP. Weiser
KurzbeschreibungIndependent study project with (mobile) geoinformation technologies. Design and programm and mobile app and contribute it to the "Zurich Open data" portal.

See: https://www.stadt-zuerich.ch/portal/de/index/ogd/daten.html
LernzielLearn how to work with (mobile) geoinformation technologies (including application design and programming) and make a contribution to the Zurich Open Data community. A possible topic is given below but students may choose their own topic(s). The only requirement is that the application makes use of the Zurich open dataset
InhaltA possible topic is the design and programming of a bicycle information system that provides the following data sets as a service:

- Routing-Service
- Real-time data "Rent-a-bike"
- Bicycle Pump Station
- Bicycle parking spots

All data is freely available and part of the Zurich Open Data.
Voraussetzungen / Besonderes- Good Java (Android) Programming Skills
- Project Planning Skills
- Team work
Das untenstehende Lehrangebot gilt nur für MSc Studierende mit Zulassungsauflagen.
103-0233-AALGIS I
Die Lerneinheit kann nur von MSc Studierenden mit Zulassungsauflagen belegt werden.
E-3 KP2RA. Donaubauer
KurzbeschreibungFundamentals in geoinformation technologies: database principles, including modeling of spatial information, geometric and semantic models, topology and metrics; practical training with GIS software.
LernzielKnow the fundamentals in geoinformation technologies for the realization, application and operation of geographic information systems in engineering projects.
InhaltModelling of spatial information
Geometric and semantic models
Topology & metrics
Raster and vector models
Labs with GIS software
LiteraturWorboys, M., & Duckham, M. (2004). GIS - A Computing Perspective (2nd ed.). Boca Raton, FL: CRC Press.
103-0234-AALGIS II
Die Lerneinheit kann nur von MSc Studierenden mit Zulassungsauflagen belegt werden.
E-5 KP4RM. Raubal
KurzbeschreibungGeoinformationstechnologie für Fortgeschrittene: konzeptionelle und logische Modellierung von Netzwerken, 3D- und 4D-Daten und Prozessen in GIS; Rasterstrukturen und Operationen; Mobile GIS; Internet und GIS; Interoperabilität und Datentransfer; Rechtliche und technische Grundlagen von Geodateninfrastrukturen (GDI)
LernzielDie Studierenden sollen in der Lage sein, folgende Phasen eines GIS-Projekts zu bearbeiten: Datenmodellierung, mobile Datenerfassung und Analyse, Web-Publikation der Daten und Integration von interoperablen Geo Web Diensten in eine Geodateninfrastruktur (GDI).

Die Studierenden sollen ihr Wissen über die konzeptionelle und logische Modellierung anhand der speziellen Anforderungen von Netzwerken sowie 3D- und 4D-Daten vertiefen.
LiteraturWorboys, M., & Duckham, M. (2004). GIS - A Computing Perspective (2nd Edition). Boca Raton, FL: CRC Press.
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