Coordinated Enhanced Observing Period (CEOP) an Element of WCRPinitiated by GEWEX EOP1: Jul.-Sep EOP3: Oct Sep EOP4: Oct Dec LONG-TERM GUIDING GOAL To understand and model the influence of continental hydroclimate processes on the predictability of global atmospheric circulation and changes in water resources, with a particular focus on the heat source and sink regions that drive and modify the climate system and anomalies..

Coordinated Enhanced Observing Period Convergence of Observations A Prototype of the Global Water Cycle Observation System of Systems Three Unique Capabilities

Coordinated Enhanced Observing Period Interoperability Arrangement A well organized collecting, processing, storing, and disseminating shared data, metadata and products Data Integrating/Archiving Center at University of Tokyo and JAXA of Japan Model Output Data Archiving Center at the World Data Center for Climate, Max-Planck Institute for Meteorology of Germany In-Situ Data Archiving Center at NCAR (National Center for Atmospheric Research) of USA Three Unique Capabilities

Coordinated Enhanced Observing Period Interoperability Arrangement A well organized collecting, processing, storing, and disseminating shared data, metadata and products Data Integrating/Archiving Center at University of Tokyo and JAXA of Japan Model Output Data Archiving Center at the World Data Center for Climate, Max-Planck Institute for Meteorology of Germany In-Situ Data Archiving Center at NCAR (National Center for Atmospheric Research) of USA Three Unique Capabilities

Coordinated Enhanced Observing Period Data Management Distributed- and Centralized- Data Integration Functions In-situ satellite model NCAR MPI UT/JAXA In-situ Computing Power Computing Power Distributed Integration Services GrADS/ DODS for Subsets GrADS/ DODS for Subsets GrADS/ DDDS for Subsets Centralized Integration Services Three Unique Capabilities

 Metadata conceptual modelMetadata conceptual model ISO metadata  Application Requirements  Metadata implementation modelMetadata implementation model Metadata standard development framework  Web service applicationWeb service application ISO19139 Metadata- implementation OGC WFS,WCS,CTS

Users Other Data Archives Locate Data Visualize Data Light Processing UCAR Archive (In-situ) MPI Archive (Model Output, MOLTS) DODSDODS CSDIC Archive (Satellite, Model Output) DODSDODS DODSDODS DODSDODS Live Access Server (LAS) WTF-CEOP Ferret GrADS IDLCDAT Matlab User client – Library of scripts Web Browser User client – data download and analysis WTF-CEOP Distributed Data Integration System

Centralized Data Integration Functions Request and Data Flow Data Integration, Visualization, Mining HTTP Server Visualization Engine Storage Management System Data Integration Engine Hierarchical Storage Management User Web Browser / Client Application DBMS Data Mining Engine

Data Search

Data Visualization

Data Mining

Diurnal Intra-seasonal Seasonal SCIENTIFIC ACTIVITIES OF CEOP PHASE1 WATER & ENERGY SIMULATION & PREDICTION (WESP) Water and Energy Budget Studies Global Land Data Assimilation Systems Inter-CSE Transferability Study CEOP INTER-MONSOON STUDY (CIMS) Coordinated Model Integration Process Monsoon System Inter Comparison MODEL OUTPUTREFERENCE SITESSATELLITES DATA INTEGRATION & DISSEMINATION Global Regional Local

An Element of WCRP initiated by GEWEX CEOP Tokyo WORKSHOP’05 43 Extended Abstracts 29 Oral Presentations & 14 Poster Presentations  CEOP Special Issue of Journal of Meteorology Society of Japan (JMSJ) Paper Submission Due : 20 Feb. ’06 Publication: Feb. ’07 Water and Energy Simulation and Prediction (WESP): 14 Water and Energy Budget, Data Assimilation, Model Development/Transferability Satellite Remote Sensing: 4 Radiative Transfer Model, Algorithm Development/Validation/Application Data System: 7 Quality Checking System, Archive/Integration/Dissemination Systems, Meta Data Totally 41 PAPER SUBMISSION NWP and Data Assimilation Centers: 8 BMRC, CPTEC, JMA, NCMRWF, EPCP, GLDAS, GMAO, Intercomparison CEOP Inter-Monsoon Study (CIMS): 8 Data Analysis, Data Integration, Model Simulation, Satellite Remote Sensing

CEOP Phase 2 Implementation Plan Implementation Planning Task Team (IPTT) - Mar. 4, 2005: Basic Consensus and Establishment of IPTT - March 21, 2005: 1 st Conference Call - March 29, 2005: 2 nd Conference Call - May 6-7, 2005: 1 st IPTT Working Session in Boulder - May 23, 2005: 3 rd Conference Call - June 1-3, 2005: Briefing at the WOAP Meeting - June 19-22, 2005: 2 nd IPTT Working Session in Irvine - August 2, 2005: Submission to GEWEX SSG - January 13, 2006: Conditional Endorsement by GEWEX SSG An Element of WCRP initiated by GEWEX

Diurnal Intra-seasonal Seasonal Watershed Hydrology Study Down Scaling SCIENTIFIC ACTIVITIES OF CEOP PHASE2 WATER & ENERGY SIMULATION & PREDICTION (WESP) Water and Energy Budget Studies Global Land Data Assimilation Systems Inter-CSE Transferability Study Semi-arid Region Study Cold Region Study CEOP INTER-MONSOON STUDY (CIMS) Coordinated Model Integration Process Monsoon System Inter Comparison Aerosol - Monsoon Water Cycle Interaction CEOP Analyses Intercomparison Project Extreme Events Impact Analysis Project Water Resources Study MODEL OUTPUTREFERENCE SITES REFERENCE BASINS SATELLITES DATA INTEGRATION & DISSEMINATION SCIENTIFIC ACTIVITIES OF CEOP PHASE1 Global Regional Local : Completion of Phase1 Preparation for New Activities : Implementation of New Activities

GRP-CEOP Cooperative Science Activities Convergence of Observation/Interoperability/Data Management Targets: Water – Radiative Energy – Aerosol Surface – Atmosphere Coupled System Strategy: Sophisticated In-situ Observation Microwave vs. Visible-Infrared Remote Sensing Action: Linkage between GRP data system and the CEOP Distributed Data Integration System GRP products archive at the CEOP Centralized Data Integration System for extended data integration Anthropogenic Impacts on Monsoon Systems Targets: Aerosol – Monsoon Water Cycle Strategy: Intensive Case Study by Data Integration and Telescoping Intercompariosn Study GAME Follow-on “MAHASRI” ABC-CEOP JTT

CliC-CEOP Cooperative Science Activities Convergence of Observation and Data Integration Targets: -Reference site/basin network in cryosphere -Integrated satellite products in cold region Strategy: -Sophistically integrated in-situ observation including isotope -Common metadata and data policy -Data quality check and archiving system -Integrated satellite products validated by in-situ data -Long term, comprehensive, quality observation at different scales Action: -Joint IPY Proposal on Convergence of Observation and Data Integration Long-term Variation of Snow Distribution in the Northern High Latitude Region and Its Impacts on Atmospheric Circulation Water and Energy Budgets (WEBs) High Mountain Hydrology Including Glacier

CEOP Phase2 WOAPGEWEX report advise Continental Hydroclimate Process Science -Continental Scale Experiments (CSEs) -CEOP Monsoon Studies (CMS) -Water & Energy Simulation & Prediction (WESP) -CEOP Cross-cutting Studies (CCS) Data Infrastructure for Hydroclimate Processes -Reference Sites/Basins -Satellite -Model Output -Data Integration & Dissemination report advise report advise report advise CEOS Space Agencies NWPCs affiliated with the WMO WCRP Science Advisory Group (SAG) IGOS Integrated Global Water Cycle Observations (IGWCO) GEOSS

Science Cooperation Framework Cooperative Architecture Data Management: Distributed- and centralized- data integration functions Interoperability Arrangement : A well organized collecting, processing, storing, and disseminating shared data, metadata and products Convergence of Observations: A prototype of the global water cycle observation system of systems Intensive Case Study by Data Integration and Telescoping Intercomparison Study Validation & Improvement Application Basis CEOP UNIQUE ROLES IN WCRP