Air Quality Management: Workflow, Value-Adding Activities, Participants and Earth Observation Needs R. Poirot, W. White, S. Falke, M. Schulz., K Hoijarvi,

Slides:



Advertisements
Similar presentations
Air Quality and Health Scenario Stefan Falke, Rudy Husar, Frank Lindsay, David McCabe.
Advertisements

1 GEOSS Architecture Implementation Pilot (AIP) Phase 2 Air Quality and Health Working Group Stefan Falke, Rudy Husar, Frank Lindsay, David McCabe, Erin.
GEO SB-01 Oceans and Society: Blue Planet An Integrating Oceans Task of GEO GEO-IX Plenary November 2012 Foz do Iguaçu, Brazil on behalf of the Blue.
Enhancing Data Discovery, Understanding and Usage through an Air Quality Metadata System ISRSE, 6 May 2009 The Palazzo dei Congressi di Stresa Stresa,
GEOSS Architecture Describes how components fit together for providing data and information that will be better …than the individual components or systems.
ESIP Air Quality Workgroup and the GEO Air Quality Community of Practice collaboratively building an air quality community network for finding, accessing,
Emissions Information Infrastructures NEISGEI and GEOSS Stefan Falke Northrop Grumman and Washington University in St. Louis
Global Earth Observation System of Systems (GEOSS) Architecture Implementation Pilot (AIP) Air Quality and Health Working Group Stefan Falke, Rudy Husar,
1 GEO Task US-09-01a Health SBA SBA: Health – Air Quality Analyst: Rudolf Husar, Washington University/Lantern Co-Analyst: Stefan Falke, Wash. U./Northrop.
GEO Interoperability (Virtual) Workshop III: A Look Into the Future of GEOSS October 18-19, 2011, Webex Interoperability and Data Networking Facilitated.
2009 Progress Report to UIC: GEOSS Air Quality Community of Practice (AQ CoP link to cop site ) Rudolf Husar (Point of Contact, Washington.
” Particulates „ Characterisation of Exhaust Particulate Emissions from Road Vehicles Key Action KA2:Sustainable Mobility and Intermodality Task 2.2:Infrastructures.
The SERB Air Quality Course and the GEO Air Quality Community of Practice Rudolf B. Husar Washington University, St. Louis, MO Indian Institute of Technology,
Instrument Builders Information Specialists (ESIP) Scientists Curriculum Developers Teachers Decision Analysts Decision Makers Reports From Kim Kastens.
AQ Management: Sensory-Motor System Air Quality Assessment Compare to Goals Plan Reductions Track Progress Controls (Actions) Monitoring (Sensing) Set.
GEO Interoperability (Virtual) Workshop III: A Look Into the Future of GEOSS October 18-19, 2011, Webex Interoperability and Data Networking Facilitated.
EPA’s Strength in Both GEOSS & ESIP; Environmental Health Decisionmaking January 10, 2008 George Gray, Ph.D. Assistant Administrator EPA Office of Research.
GEOSS Architecture Implementation Pilot Air Quality and Health Scenario Stefan Falke, Rudy Husar, Francis Lindsay, David McCabe Boulder Kickoff Meeting.
Air Quality Focus Group Discussion Summary ESIP Winter Meeting January 2005 Air Quality is one of 12 Applications of National Priority as defined by NASA.
Plenary Discussion of Framework for Engagement GEO XI Plenary Geneva, November, 2014.
Phase I. Determine Earth Observation Requirements for Air Quality SB Sub-Area (AQ CoP) K. Hoijarvi, S. Falke, J. Husar, R. Poirot, M. Schulz., K. Torsett,
SUSTAINABLE DEVELOPMENT, GLOBAL CHANGE AND ECOSYSTEMS A Edwards – ADC, Seattle, 2006 Slide 1 European Community RTD Framework Programmes ADC.
GEOSS AIP-2 Overview AIP-2 Societal Benefit Area Working Groups: Air Quality & Health Disaster Response Biodiversity and Climate Renewable Energy Air Quality.
Nicola Pirrone GMOS Project Coordinator & Director CNR - Institute of Atmospheric Pollution Research Rome, Italy Global Mercury Observation System - GMOS.
1 GEO Task US-09-01a Health SBA SBA: Health – Air Quality Analyst: Rudolf Husar, Washington University/Lantern Co-Analyst: Stefan Falke, Wash. U./Northrop.
Adoption of RDA-DFT Terminology and Data Model to the Description and Structuring of Atmospheric Data Aaron Addison, Rudolf Husar, Cynthia Hudson-Vitale.
A)How is satellite imagery currently used in air quality research and management? a) who are the data users b) what data is used c) how is the data used.
GEOSS Air Quality Community Infrastructure ESIP, 23 July 2010 Knoxville, TN E.M. Robinson, R.B. Husar, S.R. Falke, E.T. Habermann, A. Warnock, M. Hogeweg,
Interoperable Information System of Systems for HTAP Rudolf B. Husar and Rich Scheffe With Erin Robinson Presented at HTAP Workshop, WMO, Geneva, January.
1 Using the GEOSS Common Infrastructure in the Air Quality & Health SBA: Wildfire & Smoke Assessment Prepared by the GEOSS AIP-2 Air Quality & Health Working.
Smoke Event Public EPA NAAQS Exc. Events States: AQ Warning NOAA Travel Advisories AQ Forecasting FAA Flight Advisories NASA Earth Obs: Public.
R.Husar From Dedicated to Federated Data Systems Data ProvidersDecisionsDSS CIRA VIEWS Reg. Haze EPA AQS NAAQS EPA AirNow.
Phase I. Determine Earth Observation Requirements for Air Quality SB Sub-Area (AQ CoP) K. Hoijarvi, S. Falke, J. Husar, R. Poirot, M. Schulz., K. Torsett,
International Collaboration, Interoperable Data Flows, Architecture of GEOSS R.B. Husar, E. M. Robinson, J. D. Husar and M. Kieffer, Wash. Univ. G. Percivall,
Joint TFEIP/TFMM workshop October 22, Dublin Understanding discrepancies between atmospheric model results and measurements given uncertainties in emission.
Towards an European Network of Earth Observation Networks (ENEON): Addressing Challenges and Facilitating Collaboration for non-space based Earth Observations.
2010 Progress Report to UIC: GEOSS Air Quality Community of Practice (AQ CoP) Rudolf Husar (Point of Contact, Washington University in.
The GEOSS Architecture Users and Scientific Communities Served By GEOSS Common Approaches Systems within their Mandates UIC Goal Organize this side of.
NASA REASoN Project SHAirED: S ervices for H elping the Air -quality Community use E SE D ata Stefan Falke, Kari Höijärvi and Rudolf Husar, Washington.
2009 Progress Report to UIC: GEOSS Air Quality Community of Practice (AQ CoP link to cop site ) Rudolf Husar (Point of Contact, Washington.
Air Quality Data User Agencies Draft ESIP Federation Air Quality Cluster February, 2005.
Why PM Data Analysis by States? These are fragments that may be used somewhere in the Introduction section of the Workbook. PM Data Analysis Workbook:
GEOSS A single dataset will serve many communities Any single problem requires many datasets Register Discover.
Application of NASA ESE Data and Tools to Air Quality Management Stefan Falke and Rudolf Husar (Co-PIs) Washington University in St. Louis Project Period:
1 Using the GEOSS Common Infrastructure in the Air Quality & Health SBA: Wildfire & Smoke Assessment Prepared by the GEOSS AIP-2 Air Quality & Health Working.
A Workflow-Accounting Methodology to Determine Earth Observation Requirements for Air Quality A Contribution from the GEO Air Quality Community of Practice.
: Data Sharing/Processing Infrastructure Data Catalog and Access Dozens of datasets on aerosols, emissions, fire, meteorology,
The Federated Data System DataFed: Experiences in Data Homogenization and Networking R.B. Husar, K. Hoijarvi, S. R. Falke, E. M. Robinson, Washington University,
1 SEEDS IT Vision Scenario: Smoke Impact REASoN Project: Application of NASA ESE Data and Tools to Particulate Air Quality Management (PPT/PDF)Application.
Concepts on Aerosol Characterization R.B. Husar Washington University in St. Louis Presented at EPA – OAQPS Seminar Research Triangle Park, NC, April 4,
Application of NASA ESE Data and Tools to Particulate Air Quality Management A proposal to NASA Earth Science REASoN Solicitation CAN-02-OES-01 REASoN:
The Federated Data System DataFed R. Husar, K. Hoijarvi, S. Falke, DaFed Community EPA Data Summit, Feb. 12, 2008, RTP Non-intrusive data integration infrastructure.
User Requirements for Air Quality and Encoding for the GEO URR R. Poirot, S. Falke, M. Schulz., K Hoijarvi, K. Torsett, E. Robinson, J Husar, A, Surijavong,
Topic Suggestions Scheffe GEOSS Support to Regional Air Quality (see next slide) –Data. Services –Sharing/Harvesting Infrastructure –Intellectual Resources.
Concepts on Aerosol Characterization R.B. Husar Washington University in St. Louis Presented at EPA – OAQPS Seminar Research Triangle Park, NC, April 4,
HTAP Data Network GEO Task DA-09-02d: Atm. Model Evaluation Network Project Officer: Terry Keating, EPA ESIP Meeting, Air Quality Workgroup January 5,
There is increasing evidence that intercontinental transport of air pollutants is substantial Currently, chemical transport models are the main tools for.
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION ESDS Reuse Working Group Earth Science Data Systems Reuse Working Group Case Study: SHAirED Services for.
Integrating Frameworks for Energy and Climate Policy Analysis. Professor Rudolf B. Husar, Director, Center for Air Pollution Impact and Trend Analysis,
Agencies Active in Air Quality and Management and Science Draft ESIP Federation Air Quality Cluster February, 2005.
Global Earth Observation System of Systems (GEOSS) Architecture Implementation Pilot (AIP) Air Quality and Health Working Group Stefan Falke, Rudy Husar,
The GEO Air Quality Community of Practice AQ CoP
Air Quality Management Components
GEOSS Air Quality Community Infrastructure
DRAFT Air Quality SBA Air Quality Management: Workflow, Value-Adding Activities, Participants and Earth Observation Needs R. Husar Oct. 3, 2010.
GEO- C Side Event Welcome
GEO AQ CoP Contact: R. Husar,
The GEO Air Quality Community of Practice
4/5 May 2009 The Palazzo dei Congressi di Stresa Stresa, Italy
Air Quality Data Systems and the GEOSS Architecture
Presentation transcript:

Air Quality Management: Workflow, Value-Adding Activities, Participants and Earth Observation Needs R. Poirot, W. White, S. Falke, M. Schulz., K Hoijarvi, K. Torsett, E. Robinson, J Husar CoP Contact: R. Husar Oct. 5, 2010 DRAFT

Background AQ Management (AQM) and Science relies on a range of on Earth Observations (EO) form in-situ and remote sensing platforms. The the procedures and the outcome of AQM are defined by laws and regulations in most countries including the workflow/activities, the key participants and their respective needs. Hence, AQM is a suitable application area of the Global Observing System of Systems (GEOSS) where the user needs are satisfied by services offered. This is an initial attempt to formulate EO needs of AQM. The AQ Community of Practice is invited to contribute to this effort.

AQ Management: Science View Earth Observations are are most needed for quantifying pollutant emissions, transport and ambient concentrations User Types: Emission Analysts, Modelers, AQ Data Analysts

GEOSS Information Flow Framework Policy Maker Policy Analyst AQ Domain Analyst AQ Analyst Modeler AQ Management: Information Flow View GEOSS Core The AQ Information system processes Earth and other observations into actionable knowledge for policy/decision makers. User Types: AQ data analysts and modelers; health, aquatic and other domain analysts, policy analysts and policy/decision makers

AQ Management: Process View Backmann, Scheffe

Approach to Define EO Needs for AQM 1.Use the Process View to identify the workflow steps 2.For each step, list the respective required activities 3.Identify the participants who perform the activities 4.State their respective needs for EOs, tools and methods Structure Consistent with: GEO Task US 0901a: Priority Earth Observations for AQ GEOSS Clearinghouse/AQ Community Catalog User Requirement Registry Define needs using the open GEOSS AQ Community of Practice

General Requirements by User Type AQ Analyst Receptor Modeler Transport Modeler Health Analyst Aquatic Analyst Terrestrial Analyst Visibility Analyst Policy Analyst Emission Analyst Emission Modeler User Types EO Requirements: Where, What Type; Pollutant Surface| MassConc. | PM25, PM10, O3, SO2, NO2, VOC; Surface | MassConc. |PM25, PM10, PMComp, WindField 4Dim| Emiss. /4DWea| PM25, PM10, SO2, NO2, VOC Surface/Col| Emission Obs/| PM25, PM10, SO2, NO2, VOC; Surface| Activity Drivers| PM25, PM10, SO2, NO2, VOC; Surface| Expos., HealthMeas| PM25, PM10, O3, SO2, NO2 Surface| Depos., AquaMeas| PM25, PM10, O3, SO2, NO2, VOC; Surface| Depos., TerrMeas. | PM25, PM10, O3, SO2, NO2 Surface | Light Ext., Vistas | PM25, PM10, PMComp Surface | Analysts Outout |PM25, PM10, O3, SO2, NO2 Any AQM activity may require multiple user types Any user type can contribute to multiple AQM activities The specific user requirements depend on the activity

Develop and Set Air Quality Standard Characterize Current AQ Develop AQ Standard Determine Compliance Eval. Control Effectiveness Det. Background AQ Assess Health Risk Assess Visibility Risk Assess Terrestr. Risk Assess Aquatic Risk Set AQ Standard ActivitiesWorkflowUser Types AQ Analyst Receptor Mod. Transport Mod. AQ Analyst Health Analyst AQ Analyst Aquatic Analyst AQ Analyst Terrestr. Analyst AQ Analyst Visibility Analyst Policy Analyst Needs for info, tools, methods

Evaluate Current Air Quality Evaluate Current AQ Develop AQ Standard Determine Compliance Eval. Control Effectiveness Det. Ambient AQ Attribute Sources Determ. Exceedance ActivitiesWorkflowUser Types AQ Analyst Receptor Mod. Transport Mod. Policy Analyst Det. Emissions Emiss. Analyst Emiss. Modeler Needs for info, tools, methods

Develop and Enforce Compliance Characterize Current AQ Develop AQ Standard Develop Compliance Eval. Control Effectiveness Attribute Sources Emiss. Reduct. Plan ActivitiesWorkflowUser Types AQ Analyst Receptor Mod. Transport Mod. Policy Analyst Det. Emissions Emiss. Analyst Emiss. Modeler Needs for info, tools, methods

Evaluate Control Effectiveness Characterize Current AQ Develop AQ Standard Determine Compliance Eval. Control Effectiveness Det. Ambient AQ Attribute Sources Assess Health Risk Assess Visibility Risk Assess Terrestr. Risk Assess Aquatic Risk Eval. Control Effect ActivitiesWorkflowUser Types AQ Analyst Receptor Mod. Transport Mod. AQ Analyst Health Analyst AQ Analyst Aquatic Analyst AQ Analyst Terrestr. Analyst AQ Analyst Visibility Analyst Policy Analyst Det. Emissions Emiss. Analyst Emiss. Modeler Needs for info, tools, methods

Browser of AQM Activities, Participants, and EO Needs

Structure Consistent with: GEO Task US 0901a: Priority Earth Observations for AQ GEOSS Clearinghouse/AQ Community Catalog User Requirement Registry

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.