This work is funded by National Science Foundation Grant EAR 0622374 Accessing and Sharing Data Using the CUAHSI Hydrologic Information System CUAHSI HIS.

Slides:

Advertisements

Similar presentations

USU NIDIS Drought Server Update Jeff Horsburgh, Kim Schreuders David Tarboton, Stephanie Reeder Avirup Sen Gupta.

Advertisements

Some notes on CyberGIS in hydrology Ilya Zaslavsky Spatial Information Systems Lab San Diego Supercomputer Center UCSD TeraGrid CyberGIS Workshop, February.

HydroServer A Platform for Publishing Space- Time Hydrologic Datasets Support EAR CUAHSI HIS Sharing hydrologic data Jeffery.

How to share and publish your data using HIS David G Tarboton Jeff Horsburgh Ilya Zaslavsky Tom Whitenack David Valentine Support EAR

The CUAHSI Hydrologic Information System Support EAR CUAHSI HIS Sharing hydrologic data

Sharing Hydrologic Data with the CUAHSI Hydrologic Information System Support EAR CUAHSI HIS Sharing hydrologic data David.

This work is funded by the Inland Northwest Research Alliance INRA Constellation of Experimental Watersheds: Cyberinfrastructure to Support Publication.

ICEWATER: INRA Constellation of Experimental Watersheds Cyberinfrastructure to Support Publication of Water Resources Data Jeffery S. Horsburgh, Utah State.

SAN DIEGO SUPERCOMPUTER CENTER HYDROLOGIC METADATA CATALOG AND SEMANTIC SEARCH SERVICES IN CUAHSI HIS CUAHSI HIS Sharing hydrologic.

A Community Data Model for Hydrologic Observations Observations Data Model Schema ODM Data Source and Network SitesVariables ValuesMetadata Depth of snow.

Hydrologic Data and Modeling: Towards Hydrologic Information Science David R. Maidment Center for Research in Water Resources University of Texas at Austin.

Development of a Community Hydrologic Information System Support EAR CUAHSI HIS Sharing hydrologic data David Maidment (PI),

Development of a Community Hydrologic Information System David G Tarboton Jeffery S Horsburgh, David R. Maidment (PI), Tim Whiteaker, Ilya Zaslavsky, Michael.

Linking HIS and GIS How to support the objective, transparent and robust calculation and publication of SWSI? Jeffery S. Horsburgh CUAHSI HIS Sharing hydrologic.

CUAHSI HIS Data Services Project David R. Maidment Director, Center for Research in Water Resources University of Texas at Austin (HIS Project Leader)

Components of an Integrated Environmental Observatory Information System Cyberinfrastructure to Support Publication of Water Resources Data Jeffery S.

This work was funded by the U.S. National Science Foundation under grant EAR Any opinions, findings and conclusions or recommendations expressed.

The HydroServer Platform for Sharing Hydrologic Data Support EAR CUAHSI HIS Sharing hydrologic data David G Tarboton, Jeffery.

Introduction to CUAHSI Water Web Services and Texas HIS David R. Maidment The University of Texas at Austin.

HydroServer A Platform for Publishing Space- Time Hydrologic Datasets Support EAR CUAHSI HIS Sharing hydrologic data Jeffery.

Time Series Analyst An Internet Based Application for Viewing and Analyzing Environmental Time Series Jeffery S. Horsburgh Utah State University David.

Development of a Community Hydrologic Information System Jeffery S. Horsburgh Utah State University David G. Tarboton Utah State University.

Two NSF Data Services Projects Rick Hooper, President Consortium of Universities for the Advancement of Hydrologic Science, Inc.

Using GIS in Creating an End-to- End System for Publishing Environmental Observations Data Jeffery S. Horsburgh David G. Tarboton, David R. Maidment, Ilya.

Integrating Historical and Realtime Monitoring Data into an Internet Based Watershed Information System for the Bear River Basin Jeff Horsburgh David Stevens,

Introducing the CUAHSI Hydrologic Information System Desktop Application (HydroDesktop) and Open Development Community Jiří Kadlec, Daniel Ames, Teva Velupillai.

Deployment and Evaluation of an Observations Data Model Jeffery S Horsburgh David G Tarboton Ilya Zaslavsky David R. Maidment David Valentine

HIS Team and Collaborators University of Texas at Austin – David Maidment, Tim Whiteaker, Ernest To, Bryan Enslein, Kate Marney San Diego Supercomputer.

SAN DIEGO SUPERCOMPUTER CENTER Developing a CUAHSI HIS Data Node, as part of Cyberinfrastructure for the Hydrologic Sciences David Valentine Ilya Zaslavsky.

An End-to-End System for Publishing Environmental Observations Data Jeffery S. Horsburgh David K. Stevens, David G. Tarboton, Nancy O. Mesner, Amber Spackman.

A Services Oriented Architecture for Water Resources Data David R. Maidment Center for Research in Water Resources University of Texas at Austin EPA Storet.

Tools for Publishing Environmental Observations on the Internet Justin Berger, Undergraduate Researcher Jeff Horsburgh, Faculty Mentor David Tarboton,

Using HydroServer Organize, Manage, and Publish Your Data Support EAR CUAHSI HIS Sharing hydrologic data Jeffery S. Horsburgh.

Setting up a HydroServer Support EAR CUAHSI HIS Sharing hydrologic data Jeffery S. Horsburgh David G. Tarboton, Kimberly.

About CUAHSI The Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI) is an organization representing 120+ universities.

Ocean Sciences What is CUAHSI? CUAHSI – Consortium of Universities for the Advancement of Hydrologic Science, Inc Formed in 2001 as a legal entity Program.

Abstract Archiving and Near Real Time Visualization of USGS Instantaneous Data Ilya Zaslavsky, David Ryan, Thomas Whitenack, David Valentine, Matthew Rodriguez.

About CUAHSI The Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI) is an organization representing 120+ universities.

Exercises: Organizing, Loading, and Managing Point Observations Using HydroServer Support EAR CUAHSI HIS Sharing hydrologic data

Data Interoperability in the Hydrologic Sciences The CUAHSI Hydrologic Information System David Tarboton, David Maidment, Ilya Zaslavsky, Dan Ames, Jon.

CUAHSI Hydrologic Information System an introduction Ilya Zaslavsky Director, Spatial Information Systems Lab San Diego Supercomputer Center University.

Advancing an Information Model for Environmental Observations Jeffery S. Horsburgh Anthony Aufdenkampe, Richard P. Hooper, Kerstin Lehnert, Kim Schreuders,

Publishing Observations Data: from ODM to HIS Central.

CUAHSI, WATERS and HIS by Richard P. Hooper, David G. Tarboton and David R. Maidment.

Overview of CUAHSI HIS Version 1.1 David R. Maidment Director, Center for Research in Water Resources University of Texas at Austin CUAHSI Biennial Science.

Water Data in the Unified Modeling Language Xitian Cai Center for Research in Water Resources The University of Texas at Austin.

CBEO:N Chesapeake Bay Environmental Observatory as a Network Node About CBEO The mission of the CBEO project is development of a Chesapeake Bay Environmental.

CUAHSI Hydrologic Information Systems David R. Maidment Center for Research in Water Resources University of Texas at Austin and Ilya Zaslavsky, David.

The CUAHSI Hydrologic Information System Presented by Dr. Tim Whiteaker The University of Texas at Austin 22 February, 2011.

The CUAHSI Community Hydrologic Information System Jeffery S. Horsburgh Utah Water Research Laboratory Utah State University CUAHSI HIS Sharing hydrologic.

Bringing Water Data Together David R. Maidment Center for Research in Water Resources University of Texas at Austin Texas Water Summit San Antonio Tx,

Hydrologic Information System GIS – the water environment Water Resources – the water itself CUAHSI HIS: NSF-supported collaborative project: UT Austin.

Sharing SRP Water Sample Data Using CUAHSI HIS Infrastructure Ilya Zaslavsky, Thomas Whitenack, Keith Pezzoli, Hiram Sarabia University of California at.

The CUAHSI Observations Data Model Jeff Horsburgh David Maidment, David Tarboton, Ilya Zaslavsky, Michael Piasecki, Jon Goodall, David Valentine,

Storing and Publishing Water Observations Data Services Tim Whiteaker The University of Texas at Austin.

Lecture 5 Data Model Design Jeffery S. Horsburgh Hydroinformatics Fall 2012 This work was funded by National Science Foundation Grant EPS

1 CUAHSI Web Services and Hydrologic Information Systems By David R. Maidment, University of Texas at Austin Collaborators: Ilya Zaslavsky and Reza Wahadj,

Hydroinformatics Lecture 15: HydroServer and HydroServer Lite The CUAHSI HIS is Supported by NSF Grant# EAR CUAHSI HIS Sharing hydrologic data.

Developing a community hydrologic information system David G Tarboton David R. Maidment (PI) Ilya Zaslavsky Michael Piasecki Jon Goodall

The CUAHSI Hydrologic Information System Spatial Data Publication Platform David Tarboton, Jeff Horsburgh, David Maidment, Dan Ames, Jon Goodall, Richard.

Using GIS in Creating an End-to-End System for Publishing Environmental Observations Data Jeffery S. Horsburgh David G. Tarboton, David R. Maidment, Ilya.

The CUAHSI Community Hydrologic Information System

Developing a Community Hydrologic Information System

Sharing Hydrologic Data with the CUAHSI* Hydrologic Information System

The CUAHSI Hydrologic Information System and NHD Plus A Services Oriented Architecture for Water Resources Data David G Tarboton David R. Maidment (PI)

The CUAHSI Hydrologic Information System Service Oriented Architecture for Water Resources CUAHSI HIS Sharing hydrologic data Support.

Lecture 8 Database Implementation

CUAHSI HIS Sharing hydrologic data

Data Acquisition, Management and Manipulation

HydroDesktop: A Key Component of the CUAHSI/CZO HIS for Hydrologic Data Discovery, Visualization, and Analysis Daniel P. Ames, Ph.D. P.E. Idaho State University.

Presentation transcript:

This work is funded by National Science Foundation Grant EAR Accessing and Sharing Data Using the CUAHSI Hydrologic Information System CUAHSI HIS Ilya Zaslavsky, San Diego Supercomputer Center, University of California, San Diego, San Diego, CA 92093, David G. Tarboton, Utah State University, 4110 Old Main Hill, Logan, UT , (435) , Jeffery S. Horsburgh, Utah State University, 8200 Old Main Hill, Logan, UT , (435) , Contact Information Timothy L. Whiteaker, The University of Texas at Austin, Center for Research in Water Resources, Austin, TX 78712, David R. Maidment, The University of Texas at Austin, Center for Research in Water Resources, Austin, TX 78712, C21A-0504 Abstract 1 The Consortium of Universities for the Advancement of Hydrologic Science, Inc (CUAHSI) has a Hydrologic Information System (HIS) project that is developing infrastructure to support the sharing of hydrologic data through web services and tools for data discovery, access and publication. Centralized data services support access to national datasets such as the USGS National Water Information System (NWIS) and STORET, in a standard way. Distributed data services allow users to establish their own server and publish their data through CUAHSI HIS web services. Once such a data service is registered within HIS Central, it becomes searchable and accessible through the centralized discovery and data access tools. The HIS is founded upon an information model for observations at stationary points that supports its data services. This is implemented as both XML and a relational database schema for transmission and storage of data respectively. WaterML is the XML based data transmission language that underlies the machine to machine communications, while the Observations Data Model (ODM) is a relational database model for persistent data storage. Web services support access to hydrologic data stored in ODM and transmitted using WaterML directly from applications software such as Excel, MATLAB and ArcGIS that have Simple Object Access Protocol (SOAP) capability. A significant value of web services derives from the capability to use them from within a user’s preferred analysis environment, rather than requiring a user to learn new software. This allows a user to work with data from national and academic sources, almost as though it was on their local disk. ODM logical data model. The primary key field for each table is designated with a {PK} label. Foreign keys are designated with a {FK} label. The lines between tables show relationships with cardinality indicated by numbers and labeled with the name and directionality of the relationship. Base Station Computer(s) Telemetry Network Sensors Load data into ODM using the ODM Data Loader Query, Visualize, and Edit data using ODM Tools Stream sensor data into ODM using the Streaming Data Loader Excel Text ODM Database Publishing Data Using HIS 2 WaterOneFlow and WaterML 5 Distributed data services allow users to establish their own server and publish their data through CUAHSI HIS web services. Once a data service is registered within HIS Central, it becomes searchable and accessible through the centralized discovery and data access tools. Accessing Data Using HIS 6 Observations Data Model (ODM) 3 ODM Utilities and Software 4 ODM provides a standard format within which data from multiple investigators and domains can be stored and manipulated A suite of software tools are available for working with ODM The WaterOneFlow web services provide a platform, operating system, and programming language independent way of communicating data over the Internet ODM Database Data Consumer Query Response GetSites GetSiteInfo GetVariableInfo GetValues WaterML SQL Queries WaterOneFlow Web Service Call Web Service Response Load data into ODM using SQL Server Integration Services (SSIS) % create NWIS Class and an instance of the class createClassFromWsdl(' /NWIS/DailyValues.asmx?WSDL'); WS = NWISDailyValues; % GetValues to get the data siteid='NWIS: '; bdate=' T00:00:00'; edate=' T00:00:00'; variable='NWIS:00060'; valuesxml=GetValues(WS,siteid,variable,bdate,edate,''); HydroExcel: Get Data Directly into Microsoft Excel HydroGet: Get Data Directly into ArcGIS MATLAB: Get Data Directly in Your Analysis Environment of Choice Hydroseek: Get Data Using Browser Based Keyword Searches Supports search by location and type of data across multiple observation networks including NWIS and STORET Daily Average Discharge Example Daily Average Discharge Derived from 15 Minute Discharge Data Water Chemistry From a Lake Profile