1. Share and Publish Your Data and Models with HydroShare David Tarboton, Ray Idaszak, Jeffery Horsburgh, Dan Ames, Jon Goodall, Larry Band, Venkatesh Merwade, Alva Couch, Rick Hooper, David Maidment, Pabitra Dash, Michael Stealey, Hong Yi, Tian Gan, Tony Castronova, Brian Miles, Zhiyu Li, Mohamed Morsy, Shaowen Wang, Yan Liu http://www.hydroshare.org OCI-1148453 OCI-1148090 2012-2017 USU, RENCI, BYU, UNC, UVA, CUAHSI, Tufts, Texas, Purdue, Caktus, NCSA

2. Motivation – requires integration of information from multiple sources – is data and computationally intensive – requires collaboration and working as a team/community Data Analysis Models Advancing Hydrologic Understanding Grand challenge (NRC 2001): Better hydrologic forecasting that quantifies effects and consequences of land surface change on hydrologic processes and conditions Floods and Droughts

3. www.hydroshare.org Enable more rapid advances in hydrologic understanding through collaborative data sharing, analysis and modeling Web Based Collaboration Environment

4. Data and models used by hydrologists are diverse… Time series Geographic rasters Geographic features Multidimensional space/time Model programs Model instances … http://www.unidata.ucar.edu http://www.usgs.gov http://www.esri.com From Jeff Horsburgh

5. At its heart, HydroShare is a system for sharing Resources and Collaborating Files and sets of files structured to represent a hydrologic process, model, or element in the hydrologic environment Standard data models enhance interoperability and support functionality “hydro value added” Tools (Web apps) that act on resources to visualize, modify and create new resources – Encode standard/best practices Access control and sharing model

6. Architecture Resource exploration Actions on Resources Distributed file storage Parallels the paradigm for how PC’s are used Organize and annotate your content Manage access Web software to operate on content you have access to (Apps) Extensibility HydroShare AppsDjango website iRODS “Network File System” API OAuth Anyone can set up a server/app platform (software service) to operate on HydroShare resources through iRODS and API SWATShare (Hubzero) CyberGIS Unidata - THREDDS, Hyrax Landlab ? HydroShare Data Store HydroShare Data Store CyberGIS Data Store CyberGIS Data Store

7. HydroShare Functionality Sharing and publication of data (DOI) Social discovery and added value Model sharing Model input data preparation Model execution Visualization and analysis (best of practice tools) Server/Cloud Computation Platform independence Big data Reproducibility Reduce needs for software installation and configuration Collaboration, Reproducibility, Credit, Transparency Clearing your desk!

8. Clearing your desk. The trend towards network (cloud) computing. Data Sources Functions and Tools Server Software as a Service Users Based on slide from Norm Jones Can we deliver Hydrologic Research and Analysis functionality as a service over the web?

9. http://apps.hydroshare.orghttp://apps.hydroshare.org supports web based visualization and analysis working with HydroShare Resources

10. Hydrologic Terrain Analysis (TauDEM) Raw DEM Pit Removal Flow Field Flow Related Terrain Information Watersheds are the most basic hydrologic landscape elements http://hydrology.usu.edu/taudem

11. TauDEM generalized terrain flow surfaces Dinfinity contributing area Distance to stream (vertical)Decaying accumulation hs hr vr vs Point of interest Ridge pr ps ss sr hs hr vr vs Stream pr ps ss sr Distance Down and Distance Up

12. Using TauDEM today requires Expertise in Hydrologic DEM analysis The software – ArcGIS licenses (for ArcGIS plugin) – The ability to install software – TauDEM command functions with MPI installation – Compilation for other platforms Sufficient Hardware (RAM and Disk) The data (uncompressed GeoTIFF, projected, consistent grid size and spatial reference)

13. TauDEM in CyberGIS http://gateway.cigi.illinois.edu/ Analysis submitted Analysis running Results data created Results Ready

14. An Example: TauDEM and Height above the Nearest Drainage (HAND) for flood inundation mapping WRF + NOAH-MP + RAPID/SPRNT produce flows at reach scale Need a way to obtain reach level hydraulic properties for inputs to these models Need a way to map from reach scale stage to flood inundation depth Exploit high resolution topography represented by a digital elevation model (DEM) Additional details are in: https://www.hydroshare.org/resource/f1d1d9b5b70f4174b650c899168f632a/https://www.hydroshare.org/resource/f1d1d9b5b70f4174b650c899168f632a/

15. Height above the nearest drainage (HAND) flood mapping Each stream reach has a water depth h w (e.g. from SPRNT) Each stream reach has an ID Each grid cell has the ID of the reach it connects to and the height above the nearest stream h s Evaluate approximating inundation using h w -h s If(h w (id) > h s (id)) Inundation depth = h w (id) - h s (id) Else Inundation depth = 0

16. h w =8 ft h w =9 ft h w =11 ft h w =12 ft h w =14 ft h w =10 ft h w =15 ft Reach based height above nearest drainage flood map example

17. Terrain based derivation of “reach scale” hydraulic properties For each Catchment For each height h Identify cells where h s < h T Cross Section Area Wetted Perimeter Top Width Wetted Bed Area L AsAs AbAb V Surface Area Volume Hydraulic Radius Approximates each cell as sloping plane ComidHARPTVAbAs 57811753 4 A table with reach hydraulic parameters as keyed to hydrography Derived from DEM or LIDAR T P A h Depth

18. Reach Hydraulic Properties Example 1 m inundation3 m inundation Height (m)A s (m 2 )Vol (m 3 )AbAb L (m)A=V/L (m 2 )P=A b /L (m)T=A s /L (m)R=A/P (m) 112987879466129948297526.743.7 0.612 33198775303783204142975178.3107.7107.51.655

19. Terrain Approximated Reach Average Hydraulic Properties Need to evaluate in Hydraulic Model (e.g. SPRNT) Hydraulic RadiusWetted Perimeter Cross-sectional Area Top Width

20. HAND Conclusions The height above nearest drainage approach suggested as way to rapidly approximate real time flood inundation Includes an approach to approximate reach scale hydraulic properties Need to evaluate versus more detailed (e.g. HEC-RAS) hydraulic model Need to evaluate with HRT (LIDAR) vs general (NED) DEM as input

21. Summary 1.A new, web-based system for advancing model and data sharing 2.Access multiple types of hydrologic data using standards compliant data formats and interfaces 3.Flexible discovery functionality 4.Model sharing and execution 5.Facilitate and ease access to use of high performance computing 6.Social media and collaboration functionality 7.Links to other data and modeling systems

22. – USU – RENCI/UNC – CUAHSI – BYU – Tufts – UVA – Texas – Purdue – SDSC – Caktus Thanks to the HydroShare team! http://www.hydroshare.org OCI-1148453 OCI-1148090 2012-2017