Difference between revisions of "Spatial Hydrology"
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* knows about cases how geospatial data has been used in hydrological engineering projects | * knows about cases how geospatial data has been used in hydrological engineering projects | ||
− | == Lectures == | + | == Lectures (Sessions) == |
The course is designed to consist of 12 sessions, each 2 to 3 hours. | The course is designed to consist of 12 sessions, each 2 to 3 hours. | ||
+ | |||
+ | # Introductions, introductory lecture (motivation); assignment: ? | ||
+ | # Data lecture (what, where); workshop: browse, examine, download, see & look | ||
+ | # Primary terrain parameters | ||
+ | # Spatial scale | ||
+ | # Watershed delineation and stream network 1 | ||
+ | # Watershed delineation and stream network 2 | ||
+ | # Lecture: spatial descriptions in hydrological modeling | ||
+ | # Hydrological description of watershed using terrain data & stream network | ||
+ | |||
+ | == Exercises == | ||
+ | |||
+ | These will/should use [[Edu Data Package North Carolina]] | ||
+ | |||
+ | * [[Exercise: A spatial model of a catchment]] |
Latest revision as of 11:17, 11 April 2007
This page will contain an outline for a 5 ECTS credit course on spatial hydrology. The course will be offered spring 2007 at [TKK]. The students are assumed to have basic understanding of both hydrology and geoinformatics.
Learning objectives
After the course student
- understands that hydrological processes are dependent on land cover
- understands the effect of terrain on hydrological processes
- knows about various types of geospatial data and their usability in hydrological analysis
- understands the effect of spatial scale on hydrological processes
- is able to delineate watersheds from terrain data and understands uncertainties involved in such a procedure
- is able to compute hydrological indicators (flow path length etc...) from terrain data
- is aware of different spatial descriptions in hydrological modeling
- knows about cases how geospatial data has been used in hydrological engineering projects
Lectures (Sessions)
The course is designed to consist of 12 sessions, each 2 to 3 hours.
- Introductions, introductory lecture (motivation); assignment: ?
- Data lecture (what, where); workshop: browse, examine, download, see & look
- Primary terrain parameters
- Spatial scale
- Watershed delineation and stream network 1
- Watershed delineation and stream network 2
- Lecture: spatial descriptions in hydrological modeling
- Hydrological description of watershed using terrain data & stream network
Exercises
These will/should use Edu Data Package North Carolina