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NOUS41 KWBC 111712
PNSWSH
Technical Implementation Notice 12-26
National Weather Service Headquarters Washington DC
112 PM EDT Fri May 11 2012
TO: Subscribers:
-Family of Services
-NOAA Weather Wire Service
-Emergency Managers Weather Information Network
Other NWS Partners and Employees
FROM: Kevin Schrab
Chief, Observing Services Division
Office of Climate, Water, and Weather Services
SUBJECT: 2012 Dates for Termination of Automated Radiotheodolite
Tracking (ART) and Radio Direction Finding Radiosondes (RDF)
with Installation of Radiosonde Replacement Systems (RRS)
Three Upper Air (UA) sites are scheduled to begin RRS service in
the next 3 months in 2012.
STATION NAME WMO # STN ID RRS START ON/ABOUT
CARIBOU 72712 KCAR 15 June 2012
GUAM 91212 PGUM 26 July 2012
BARROW 70026 PABR 30 Aug 2012
NWS UA observations will be gathering meteorological data from a
new type of Global Positioning System (GPS) radiosondes, the
Vaisala RS92-NGP.
NWS describes the RRS release point location with the National
Geodetic Survey (NGS) OPUS solution. This is a datum combination
that relies on North American Datum 1983 (NAD83) for latitude
and longitude whereas the release point elevation is based on
North American Vertical Datum 1988 (NAVD88) with the GEOID03
model. By contrast the GPS radiosonde flight information of
latitude and longitude and altitude will rely on the World
Geodetic System 1984 (WGS84) standard.
Parts of the UA coded messages will be significantly longer with
RRS conversion. NWS has coordinated with its partners on the
longer length of these messages.
The format of the messages will be the same WMO format for coded
UA messages used with the MicroArt legacy system. The number of
levels in the coded messages will be two to three times greater
for the TTBB and TTDD. As a result, two categories of AWIPS text
products will increase in size: SGL and ABV. The number of
levels in the TTAA, TTCC, PPBB and PPDD parts will be relatively
unchanged. These changes reflect updated coding practices and
higher resolution level selection criteria. The maximum size
limits of the parts of the coded messages are as follows:
TTAA: 15 Levels
TTCC: 10 Levels
TTBB: 135 Levels
TTDD: 40 Levels
PPBB: 40 Levels
PPDD: 40 Levels
In addition, each part of the thermodynamic message parts will
include the 31313 message indicator associated with various
parts of the message.
For additional information on the message requirements, please
see the WMO 306 Manual on Codes (International Codes): Volume
I.1 Part A - Alphanumeric Codes, and Volume II, Regional Codes
and National Coding Practices. Users can find information on the
levels selection criteria used in NWS coding software online at:
http://www.ua.nws.noaa.gov
If you have questions or feedback, please contact:
Ivan Navarro
Engineering and Acquisition Branch
National Weather Service
Silver Spring, Maryland 20910
301-713-1841 Ext. 123
Ivan.Navarro@xxxxxxxx
NWS National Technical Implementation notices are online:
http://www.weather.gov/os/notif.htm
$$