NOAA’s NWS Telecommunication Gateway RTH Washington Fred Branski, Team Leader for Data Management Office of the Chief Information Officer NOAA’s National Weather Service ICT-MTN / ET-OI.

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Transcript NOAA’s NWS Telecommunication Gateway RTH Washington Fred Branski, Team Leader for Data Management Office of the Chief Information Officer NOAA’s National Weather Service ICT-MTN / ET-OI. 

NOAA’s
NWS Telecommunication Gateway
RTH Washington
Fred Branski, Team Leader for Data Management
Office of the Chief Information Officer
NOAA’s National Weather Service
ICT-MTN / ET-OI Meeting
May 16-19, 2006
NWSTG Functional Overview
 The NWSTG is
 the central communication facility of the NWS;
 the primary acquisition and distribution center for NWS
data and products;
 the primary acquisition and distribution center for
international data and products to meet WMO, ICAO and
bi-laterally agreed US requirements;
 A major data exchange hub for NOAA and other agency
data and products.
“Taking the pulse of the planet”
NWSTG Functional Overview
The NWSTG includes
 WMO Regional Telecommunication Hub (RTH)
Washington
 ICAO OPMET Databank (KWBCYMYX)
 the ASOS Operations and Monitoring Center (AOMC)
•
Operational oversight of U.S. federal automated surface observing
systems
 the AWIPS Network Control Facility (NCF)
•
AWIPS is the main NWS’ system which supports the NWS forecast and
warning mission requirement
•
The NCF is the central communications hub and technical support center
for AWIPS
“Taking the pulse of the planet”
Data Input to the NWSTG
Data Input Methods
 IP / Sockets
 X.25
 Asynchronous
 FTP – http://weather.gov/tg/ftpingest.html
 Email – http://weather.gov/tg/emailingest.html
 Web - http://weather.gov/tg/bullguid.html
“Taking the pulse of the planet”
Dissemination Systems
International
National
 GTS
 NWWS
 ISCS
 NWR
 EMWIN
 LDAD
 Internet
 Family Of Services (FOS)
 GMDSS
 Interagency Connections
 NWS Telecom.
Gateway*
 SBN/NOAAPORT
 AWIPS*
* Although not dissemination systems these are systems
that are critical to the process
“Taking the pulse of the planet”
NWS Telecommunications
Gateway (NWSTG)
GTS
Other Agencies
NESDIS
NWSTG
NCF
NCEP
•Public Product Service
•Domestic Data Service3
•International Data Service
•High Resolution Data Service
•Server Access Service
•Radar Products Service
ISCS
EMWIN
NOAAPORT
Watches, Warnings, Advisories, & Statements
GOES
“Taking the pulse of the planet”
Dissemination and
Distribution
NESDIS
Specialized
Customers
•Commercial Weather Services
•Research Institutions
•FAA, etc.
WMO
GOES
Imagery
Commercial
Satellite
Satellite Legend:
EMWIN
NOAAPORT
NWWS
EMWIN
FOS
(> 1 min)
SBN/NOAAPORT
• GOES
•NCEP Product Suite
• Observations
ISCS
ICAO
Designated
Local
Customers
Telecommunications Operations Center
NCEP
NWSTG
NCF
NWWS
Media &
Other
Customers
(10 sec)
LDAD
WAN
Other
Agencies
Data
Servers
Private line
Dissemination
GTS
Internet-Based
Dissemination
Field
Offices
WSR-88D
EMWIN
NWR
Public
“Taking the pulse of the planet”
“Taking the pulse of the planet”
Replacement / Backup
TG Description
NWS users
• Nat’l Centers
for Environ.
Prediction
• NWS Regional
Offices
• Domestic/int’l
observation &
forecast offices
• AWIPS
120GB/46
1500 GB
90GB/46
900 GB
NWS Telecom Gateway
• Located in Silver Spring
85GB/38
• New message switching syst.
250 GB
allows future upgrades
• x 2 upgradeability
• Much improved response time
950GB/38
• Redundancy ensures
3500 GB
uninterrupted service
• Full configuration management
Geographically separated
backup system in northern
Virginia
Worldwide users
• WMO/ICAO
• Family of
services
• Govt. agencies
• Internet users
• Foreign
countries
• Emergency mgrs
Daily Throughput/# of circuits
Legacy over Replacement
“Taking the pulse of the planet”
Replacement NWSTG
 Full functional replacement of existing capabilities
 Expanded capacity and capability
 Transition to new technology
– Message queuing (MQ) for internal transport
– Network centric systems interconnectivity
– Relational database central processing engine
– NAS/SAN storage solutions
 Highly scaleable architecture
 Hardware refresh
“Taking the pulse of the planet”
Backup NWSTG
“Taking the pulse of the planet”
Government Networking
Requirements
• IP-based networking solution
− Any-to-any connectivity
− High degree of bandwidth scalability
− Optimum redundancy and survivability
− IP convergence (i.e., voice, video and data over IP)
− High-end performance
• Network security remains paramount, particularly
in light of today’s socio-political threats
• Segmentation from the public Internet
• Minimizes risk of security or privacy breaches
“Taking the pulse of the planet”
MPLS Network
NOAANet
IP connections
Range of speeds:
NOAANet
Likely to be
OC-12 by IOC
•
•
•
•
•
•
Fractional T1, T1
Multi-Megabit T1
Fractional DS3, Full DS3
10Mb Ethernet
100Mb Fast Ethernet
OC3 and OC12
PIP
Gateway
GTS
Other Intnl
Non IP
Internet
“Taking the pulse of the planet”
Sprint Peerless IP Network Map
Tacoma
Stockton
Chicago
Cheyenne
New York
Pennsauken, NJ
San Jose
Relay, MD
DC
Kansas City
Anaheim
Atlanta
Fort
Worth
OC48
Internet Transport Node
“Taking the pulse of the planet”
Status for RTG/BTG NOAANet
Transition
 PIP router in place
- currently supports NWS regions & other NWS uses
 June 20 separate OC-3 for RTG development
 Internal network design complete, implementation
underway
 Replacement SAN implementation underway
 Upgrade to dedicated farms (PTGFTP & TGFTP)
 RTG interoperability testing in progress
“Taking the pulse of the planet”
Status for RTG/BTG NOAANet
Transition
 RTG IOC expected ~ June 1, 2006
 RTG FOC – 3Q 2006
 NOAANet OC-3 connection to BTG – June 2006
 BTG IOC / OC-12 – 4Q 2006
 Begin date – 4 Q 2005
 BTG IOC (4Q 2006)
“Taking the pulse of the planet”
Issues
 Data Explosion
– Increased resolution of observations and models
– Increased frequency of observations and models
– Increased number of sensors
– Improved sensing technology
– New spatial and temporal requirements
– Graphics, imagery, and video
– Thousands of small products
 Bandwidth
– Technology selection
– Estimation of capacity growth
– Transmission of ‘information’ versus ‘raw data’
“Taking the pulse of the planet”
Challenges and
Opportunities
 Demand for Data and Prediction Services Has Dramatically Increased
– Climate Services: Drought / El Niño/La Niña
– Seismic data for Tsunami Warning Systems
– Non traditional data sets
– Mesonet Data
– Extra-disciplinary (other sciences) data sets
 International Data Policy: Open and Unrestricted Use of Weather, Climate
and Ocean Data
 Inter/Intra Regional Cooperation
 Global Earth Observing System of Systems (GEOSS)
 WMO Information System (WIS)
 WMO Code Migration
 Technology Infusion: Keeping Up With Advances in Science and
Technology
“Taking the pulse of the planet”
New Technologies
 Geographic Information Systems (GIS)
 Digital Video Broadcast
 Optical Networks
 Multi Protocol Label Switching (MPLS)
 Wireless
 Public-Key Infrastructure (PKI)
 New Data Formats
– Table driven – Binary & XML
 Data discovery based exchange
“Taking the pulse of the planet”
Your Data and Product Advocates
Data Management Staff
Fred Branski - Team Leader, Data Management
[email protected]
(301) 713-0864 ext 146
Julie Hayes - Family of Services Manager
[email protected]
(301) 713-0864 ext 120
Walter Smith - Senior Data Manager
[email protected]
(301) 713-0864 ext 139
Richard Robinson - Data Manager
[email protected]
(301) 713-0864 ext 179
Cynthia Cromwell – Data Manager
[email protected]
(301) 713-0864 ext 143
KWBC Communication Control Center (CCC) - Tech Control
Point of contact 24 hours every day
[email protected]
Phone:
(301) 713-0902
Fax:
(301) 587-1773
“Taking the pulse of the planet”