Transcript Presented

WORLD METEOROLOGICAL ORGANIZATION
Weather – Climate - Water
WMO Integrated Global
Observing System
(WIGOS)
Implementation - Coordination Meeting on the
GTS and ISS in RA V
HAWAII, 2-5 DECEMBER 2009
Presented by
David Thomas (Project Manager-WIS)
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Background
• WMO established in 1950
– Previously International Meteorological Org (Est 1873)
• Observed and monitored the Earth’s weather, water
and climate systems
• Established and documented observation practices
– eg. CIMO Guide and Manual on GOS
• Anticipated impact of space observations in setting
up the World Weather Watch
– WWW consists of the GTS, GOS and GDPFS
• Services based on our understanding the earth’s
environmental system
– extend across timescales from severe weather warnings to weekly
forecasts to seasonal climate prediction with broad applications
across social and economic sectors world wide
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So why change?
• Greater vulnerability of society to extreme weather
events and climate change
– Society is much more complex but more capable of using technology
and science.
– Increasingly sophisticated expectations
– Demands more for less.
• Increased awareness of our planet as an integrated
system
– To model our world, need information from many sources.
– In order to meet its Members’ needs, WMO increasingly dependant on
partnerships and collaboration across different fields
• e.g. WMO and IOC partnership through JCOMM
• Policy & decision makers need quality advice
– Don’t like funding duplication across silos or uncoordinated activity
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WIGOS VISION
• WIGOS will establish an integrated,
comprehensive and coordinated observing
system to satisfy in a cost-effective and
sustained manner the evolving observing
requirements of WMO Members and will
enhance coordination of WMO observing
systems with those of partner organizations
for the benefit of society
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SCOPE
• To achieve its objectives WIGOS will
– Build upon the existing observing components of WWW GOS, GAW, and
WHYCOS, and will capitalize on existing, new and emerging
technologies.
– Improve access to and utilization of surface-based observations and
products from co-sponsored systems such as GTOS, GOOS and GCOS
through enhanced coordination with partner organizations.
– Improve its space-based component by enhanced collaboration through
partnerships such as the Coordination Group for Meteorological Satellites
(CGMS) and the Committee on Earth Observation Satellites (CEOS).
– Enhance integration between its surface- and space-based components.
– Provide a mechanism to meet new observational requirements of its
Members.
– Make a major and unique contribution to United Nations agencies that are
focused on environmental stewardship
WWW- World Weather Watch
GOS – Global Observing System
GCOS – Global Climate Observing System
GAW – Global Atmosphere Watch WHYCOS – World Hydrological Cycle Observing System
GOOS – Global Ocean Obs Syst
GTOS- Global Terrestrial Obs Syst.
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• WIGOS will
Benefits
– Enable the evolution and integration of WMO observing systems &
enhance collaboration with its partner organizations:
• this will allow access to an expanded set of data & products resulting
in increased knowledge and enhanced services in a cost effective
manner.
– Better enable WMO Members to meet expanding national mandates and
achieve higher national visibility with other environment related agencies.
• Members will be able to better respond to natural hazards, improve
environmental monitoring, and adapt to climate change and man-made
environmental impacts.
• WIGOS together with WIS will greatly enhance operational
components of WMO Programs, especially in Developing and Least
Developed Countries.
– Provide a mechanism for enhanced integration between its surface and
space based components.
– Integration will lead to efficiencies and cost savings that can be reinvested
to overcome known deficiencies and gaps in the observing system.
• In this way WIGOS will provide capabilities to better utilize existing
and emerging observational capabilities
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Standardisation
A key requirement for integration within WIGOS
will be standardization in three key areas:
• Standardization of instruments and methods of
observation;
– Standards relating to homogeneity, usability and, compatibility and
traceability of observations and related products
• Information management and movement;
– Standards relating to WIS information management and movement
including, interoperability, exchange, search and access
• End-product quality assurance.
– Standards relating to quality management practices, including how
to describe QM frameworks
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Standards for observations, quality mgt
and information mgt/exchange
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Exemplar of WIGOS principles
• The coordination of satellite data providers in planning missions to meet
observation requirements reflects coordination creates synergy.
• http://www.wmo.int/pages/prog/sat/GOSplanning.html
– Observation requirements and related observing capabilities are kept under
review as part of the Rolling Review of Requirements (RRR) process and a
Gap Analysis of the space-based GOS is regularly performed. (available for
download from above link).
– WMO has developed its "Vision for the GOS in 2025" to provide a longterm goal to foster the development of the GOS and meet the challenges of
future weather and climate observation. The vision addresses both surfaceand space-based observations.
– The above link describes the current global planning for operational
geostationary satellites and Low-Earth Orbit satellites, as developed in
consultation among WMO and satellite operators within the Coordination
Group for Meteorological Satellites (CGMS). It includes a nominal
configuration and a global contingency plan.
• The impact of observations on NWP can be seen in a report by Niels Bormann to
QA4EO 30 Sep 2009
– http://www.qa4eo.org/docs/workshop_09/Bormann_30Sep09.pdf
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Pilot and demonstration Projects
• WIGOS is divided into 2 parts
– Part 1 – developing and testing of WIGOS concept
– Part 2 – implementation (post Cg 2011)
• PP – TC projects to explore concepts of
WIGOS
– AMDAR, JCOMM ODP, GAW WDC, WHYCOS,
CIMO, GSIC, GRUAN
• DP – Regional or Member activities
exploring WIGOS Concepts
– Kenya, Morocco, RA IV, Russia, Australia, Brazil, Korea
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WIGOS and RA V
• BoM’s Composite Observing System (BCOS) is
a WIGOS demonstration project
– The aim of the BCOS is to take an integrated view of user
requirements and to best apply resources to addressing them
through the integrated use of observations from various
systems and from various sources.
• The ECMWF case study demonstrates RA V has
potential benefits from coordination efforts
• WIGOS is set to be a major focus of 2012-15,
and has a high dependency on WIS
• WIGOS, like WIS, is a strategy to use our
limited resources better
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