unlocking the scientific value of nexrad weather radar data ramon lawrence, witek krajewski, anton...
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Ramon Lawrence, Witek Krajewski, Anton Kruger, and Allen Bradley
IIHR, University of [email protected]
http://www.cs.uiowa.edu/~rlawrenc/http://www.iihr.uiowa.edu/~hml/projects/nexrad-itr
Page 2The University of Iowa. Copyright© 2005
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Our goal is to provide the science community with ready access to the vast archives and real-time information collected
by the national network of NEXRAD radars.[This requires hiding the numerous data management issues.]
Overview
This presentation will briefly describe: The data collected by the NEXRAD system and its scientific value. The current state of NEXRAD data archiving and its use in
scientific discovery. Some of the data management challenges in archiving the data. Our architecture for archiving and querying NEXRAD data and its
future directions.
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
NEXRAD System and Generated Data There are over 150 NEXt generation RADars (NEXRAD) that
collect real-time precipitation data across the United States. The system has been operational for about 10 years, and the
amount of collected data is continually expanding.
A radar emits a coherent train of microwave pulses and processed reflected pulses.
Each processed pulse corresponds to a bin. There are multiple bins in a ray (beam). Rotating the radar 360º is a sweep. After a sweep the radar elevation angle is increased, and another sweep performed. All sweeps together form a volume.
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Usefulness of NEXRAD Data Although the NEXRAD system was designed for severe
weather forecasting, data collected has been used in many areas including: flood prediction bird and insect migration rainfall estimation
The value of this data has been noted by a NRC report which labeled it a “critical resource.”
Enhancing Access to NEXRAD Data—A Critical National Resource. National Academy Press, Washington D.C. ISBN 0-309-06636-0, 1999
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Archiving NEXRAD Data Despite its value, the archival system for NEXRAD data is
unsatisfactory. The National Climatic Data Center (NCDC) maintains a tape archive of the RAW data, but provides few tools for finding relevant data and processing it for research.
Some real-time data is distributed by University Corporation for Atmospheric Research (UCAR) using their Unidata Internet Data Distribution (IDD) system. However, this still requires users be able to: extract and process a RAW data stream in real-time archive it appropriately generate metadata and indexes for retrieving it when required filter the data set to reduce the amount of space required develop custom tools for analysis and processing
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Metadata Archive
““Find all the 2002 storms over the Find all the 2002 storms over the Ralston Creek watershed Ralston Creek watershed with with mean arealmean areal precipitationprecipitation greater greater than than X mmX mm, and with a , and with a spatial spatial extent of more than Z kmextent of more than Z km22, with a , with a duration of less than N hoursduration of less than N hours. I . I want the data in want the data in GeoTIFFGeoTIFF””
User/Client
User/Client’s View
Get URIs
Program Library
Get data HTTP
Query Metadata Metadata Archive
“Find all the 2002 storms over the Ralston Creek watershed with mean areal precipitation greater than X mm, and with a spatial extent of more than Z km2, with a duration of less than N hours. I want the data in GeoTIFF.”
DistributedData Archive
(NCDC, Iowa, etc.)
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
NEXRAD Data Management Challenges Storing NEXRAD Level II data results in many interesting
database challenges: Data size - A historical archive of NEXRAD data consumes
many terabytes of space. Flexibility/Variability - Unlike commercial warehouses, the
types of data and metadata that should be stored in the warehouse is not well understood and evolves over time.
Real-Time response - The data should be loaded and queryable in real-time as it is received from the radars.
Scientific Workflow - It is desirable to capture and share sequences of calculations on the raw data (scientific workflows) and develop tools that seemlessly interact with the archive.
Page 8The University of Iowa. Copyright© 2005
Ramon Lawrence -
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Data Size Challenges Individual NEXRAD Level II scans are not large (300-1000 KB).
However, archiving 150 radars that produce 10 scans per hour results in an archive rate of 36,000 scans/day = 17 GB/day.
Although the cost of storage has decreased dramatically (1 TB for under $10,000), this still requires a hardware investment.
A major challenge is how do you find the data files of interest? Answer: Queryable metadata that allows you to ask for files
with certain properties without browsing the entire collection. One problem: The metadata can be huge as well making it
inefficient to search. Even worse, scientific metadata tends to change as research evolves. How does the system handle this?
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Flexibility Challenges Ideally, the system should allow arbitrary metadata to be
associated with NEXRAD files that can easily be added, updated, and queried.
Unfortunately, relational databases do not nicely handle variable information. Although there are some known schema designs that can handle variability, they are inefficient for large data sets. Good news: This is not unique to hydrology. Researchers in
other domains are building grids to share data/metadata and face the same challenges (e.g. GriPhyn - physics grid).
Bad news: Representing and querying variable data (especially within a relational database) is an active research problem.
Page 10The University of Iowa. Copyright© 2005
Ramon Lawrence -
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Flexibility Example One way to represent variable metadata on a datafile in a
relational database is to have a single table: metadata(dataFileId, attributeName, attributeValue) Example:
Data file 1 has three attributes: ArealCoverage, MaximumReflectivity, MinimumReflectivity. Data file 2 has two attributes, and file 3 has only 1.
Note that this schema allows any (variable) number of attributes per file.
A challenge: How would you return all files that have ArealCoverage > 5 and MaximumReflectivity > 20?
1 ArealCoverage 101 MaximumReflectivity 301 MinimumReflectivity -52 ArealCoverage 202 PercentGroundClutter 153 AverageReflectivity 15
Answer: Join two copies of table metadata together.
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Scientific Workflow A workflow is a sequence of steps that is performed on data.
Workflows have received considerable attention where documents must be routed between individuals.
Think of a funding proposal being internally routed through your university. A scientific workflow is a sequence of steps performed on scientific
data. Each step uses as input the output of the previous step. An example workflow in hydrology: retrieve the raw data files of interest remove ground clutter and Anomalous Propagation (AP) calculate estimated rain fall map calculations to a basin
Our goal is to support such workflows. How to represent and store intermediary products? How to make the tools/algorithms interoperable?
Page 12The University of Iowa. Copyright© 2005
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
NEXRAD Archive Architecture
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Current Status and Future Work We have implemented a prototype version of the architecture
that is currently archiving 30 radars in real-time. Some basic statistics are being generated and can be used to retrieve data files of interest. Accessible at: http://nexrad.cs.uiowa.edu
Immediate plans: Generate standardized metadata for use by hydrologists. Link NEXRAD data to basin information so that rainfall
estimation and flood prediction can be performed.
This research is supported by NSF ITR Grant ATM 0427422: “A Comprehensive Framework for Use of NEXRAD Data in Hydrometeorology and Hydrology”.
Page 14The University of Iowa. Copyright© 2005
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
Project Participants
The University of Iowa (Lead) W.F. Krajewski (PI) A.A. Bradley, A. Kruger, R.E. Lawrence
Princeton University J.A. Smith (PI) M. Steiner, M.L.Baeck
National Climatic Data Center S.A. Delgreco (PI) S. Ansari
UCAR/Unidata Program Center M. K. Ramamurthy (PI) W.J. Weber
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Thank You!
Ramon Lawrence, Witek Krajewski, Anton Kruger, and Allen Bradley
IIHR, University of [email protected]
http://www.cs.uiowa.edu/~rlawrenc/http://www.iihr.uiowa.edu/~hml/projects/nexrad-itr
Page 16The University of Iowa. Copyright© 2005
Ramon Lawrence -
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Extra Slides...
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
A Watershed or Basin
A watershed is an area of land that drains water, sediment and dissolved materials to a common receiving body or outlet.
Page 18The University of Iowa. Copyright© 2005
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Unlocking the Scientific Value of NEXRAD Weather Radar Data
NRC Quote on NEXRAD Data Archiving
“[t]he limited use of ground-based radar rainfall data outside of the operational environment is partially attributed to the lack of research-quality data products and partially to poor archiving practices.”NRC
Report, 2002
Page 19The University of Iowa. Copyright© 2005
Ramon Lawrence -
Unlocking the Scientific Value of NEXRAD Weather Radar Data
Metadata
“Find all the 2002 storms over the Ralston Creek watershed with mean areal precipitation greater than X mm, and with a spatial extent of more than Z km2, with a duration of less than N hours. I want the data in GeoTIFF”
Basic
“Find all the 2002 storms over the Ralston Creek watershed with mean areal precipitation greater than X mm, and with a spatial extent of more than Z km2, with a duration of less than N hours. I want the data in GeoTIFF”
Derived/Complex