CCMP Reports: Difference between revisions
From CSDMS
No edit summary |
No edit summary |
||
Line 24: | Line 24: | ||
Raleigh: | Raleigh: | ||
Find funding for dedicated person | <ul> | ||
Joint CSDMS/CCMP person - industrial consortium - find corporate moneys - work with Kevin | <li> Find funding for dedicated person | ||
<li> Joint CSDMS/CCMP person - industrial consortium - find corporate moneys - work with Kevin | |||
</ul> | |||
Carl: | Carl: | ||
Using ROMS for sediment transport - version of ROMS that is usable - a module in CSDMS | <ul> | ||
Connect ROMS with other models - get a generic ROMS with clearly identified connections to use in various applications | <li> Using ROMS for sediment transport - version of ROMS that is usable - a module in CSDMS | ||
1-D applications GOTM - open source, in Germany - can become a module - Tom Hsu | <li> Connect ROMS with other models - get a generic ROMS with clearly identified connections to use in various applications | ||
Data assimilation | <li> 1-D applications GOTM - open source, in Germany - can become a module - Tom Hsu | ||
<li> Data assimilation | |||
</ul> | |||
Andrew | Andrew | ||
Urban watersheds - assimilating data from dense networks - using different existing models | <ul> | ||
CUASHI HIS | <li> Urban watersheds - assimilating data from dense networks - using different existing models | ||
Coupling urban growth and hydrologic models - how to integrate | <li> CUASHI HIS interaction | ||
<li> Coupling urban growth and hydrologic models - how to integrate | |||
Urban modules | Urban modules | ||
</ul> | |||
Larry: | Larry: | ||
Matlab to Python | <ul> | ||
Sediment transport models | <li> Matlab to Python | ||
<li> Sediment transport models | |||
</ul> | |||
Peter: | Peter: | ||
Sediment transport models and mechanisms | <ul> | ||
Computational tools for people who don’t have much skills - small simple codes in Visual Basic - | <li> Sediment transport models and mechanisms | ||
Interoperability | <li> Computational tools for people who don’t have much skills - small simple codes in Visual Basic - | ||
1 D routing model Corps HEC RAS - get it into open source | <li> Interoperability | ||
Using high resolution topography - GIS | <li> 1 D routing model Corps HEC RAS - get it into open source | ||
Portal to CSDMS has to be more enticing - needs coordinating documents - needs other formats | <li> Using high resolution topography - GIS | ||
<li> Portal to CSDMS has to be more enticing - needs coordinating documents - needs other formats | |||
</ul> | |||
Gary: | Gary: | ||
Model applications | <ul> | ||
Putting fully functional models on the web site - posting applications together with data - SIMS database | <li> Model applications | ||
Model wrappers | <li> Putting fully functional models on the web site - posting applications together with data - SIMS database | ||
Use BOINC - set up a distributed computational project - see http://boinc.berkeley.edu/ | <li> Model wrappers | ||
<li> Use BOINC - set up a distributed computational project - see http://boinc.berkeley.edu/ | |||
</ul> |
Revision as of 10:39, 9 April 2009
Chesapeake Focus Research Group
Reports
Wen:
- CCA application in the Bay area. Do a simple application. Couple some models.
- we need new people, students and technical staff - teaching and training - getting more funding
- ChesROMS has some add-ons - work with ROMS and bring it in as a component
- Consider getting new hires to work with Bay projects at CSDMS and to work with the CCA and CSDMS standards here
Chris:
- Data-model integration - how do they talk? - what are the tools? - synchronizing data and models
- HIS people are working on observational models to go to different sources of data and pull it in in a standard format - WaterML
- Visualization tools -
- PIHM - sediment model - 3D equations - solute transport - all this will go to the CSDMS site - already on SourceForge - working on NetCDF - non-structured grid
- Get a person who can spend time at the Boulder shop - write a proposal for an NSF fellowship - get money to fund this person at CRC
- Short statement for this hire
Raleigh:
- Find funding for dedicated person
- Joint CSDMS/CCMP person - industrial consortium - find corporate moneys - work with Kevin
Carl:
- Using ROMS for sediment transport - version of ROMS that is usable - a module in CSDMS
- Connect ROMS with other models - get a generic ROMS with clearly identified connections to use in various applications
- 1-D applications GOTM - open source, in Germany - can become a module - Tom Hsu
- Data assimilation
Andrew
- Urban watersheds - assimilating data from dense networks - using different existing models
- CUASHI HIS interaction
- Coupling urban growth and hydrologic models - how to integrate Urban modules
Larry:
- Matlab to Python
- Sediment transport models
Peter:
- Sediment transport models and mechanisms
- Computational tools for people who don’t have much skills - small simple codes in Visual Basic -
- Interoperability
- 1 D routing model Corps HEC RAS - get it into open source
- Using high resolution topography - GIS
- Portal to CSDMS has to be more enticing - needs coordinating documents - needs other formats
Gary:
- Model applications
- Putting fully functional models on the web site - posting applications together with data - SIMS database
- Model wrappers
- Use BOINC - set up a distributed computational project - see http://boinc.berkeley.edu/