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, E. Robinson, A, Surijavong, S. Vlasic, W. White GEO AQ CoP Contact: R. Husar, [email protected]DRAFT Phase II. Encode and Enter the AQ Requirements into the GEO User Requirement Registry (SCG)
30
Embed
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,
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
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, E. Robinson, A, Surijavong, S. Vlasic, W. WhiteGEO AQ CoP Contact: R. Husar, [email protected]
DRAFT
Phase II. Encode and Enter the AQ Requirements into
Forum to Develop AQ Requirements: GEO AQ Community of Practice
Methodology for Gathering User Requirements:
1. State the SB Sub-Area: e.g. Manage Air Quality 2. Define Major Workflow Steps of the SBA3. Name the Value-Adding Activities4. Identify Participants for Each Activity (i.e. the ‘Users’)5. Determine the Participant’s EO Needs
Phase I. Determine Earth Observation Requirements for Air Quality SBA
1. Select SBA: AQ Management2. Define Workflow
Bachmann, 2008
3. Define Value Adding Activities: Workflow Step 1: Setting AQ Standard
Emission Analyst
Transport Meteor.
Activity Drivers
Emission Modeler
Chem. Tr.
Modeler
Receptor Modeler
Air Qual. Analyst
HealthAnalyst
PM Comp.
Gas Comp.
Policy Analyst
Popul. Density
Policy Maker
Knowledge: DecisionsInformation: Processed Data Data: Observations
Spreadsheet of activities, participants, requirements
Other Data
Phase I. Determining Earth Observation Requirements for Air Quality SBA
ClearinghouseAQ Community Catalog
User Requirement Registry
GEO Task US 0901a: Priority Earth Observations
for Air Quality
The URR is a facility for collection, sharing and describing:• User types among the nine SBAs;• Applications that use Earth observations;• Requirements for Earth observations and derived products; • Links among user types, applications, and requirements.
Phase II: Encode and Enter the AQ Requirements into the GEO User Requirement Registry (SCG)
Encoding into URR: Activities – User Types - Requirements
Characterize Current AQ
Characterize Current AQ
Develop AQ Standard
Determine Compliance
Determine Compliance
Eval. Control Effectiveness
Eval. Control Effectiveness
Det. Background AQ
Assess Health Risk
Assess Visibility Risk
Assess Terrestr. Risk
Assess Aquatic Risk
Set AQ Standard
ActivitiesWorkflow User TypesAQ Analyst
Receptor Mod.
Transport Mod.
AQ Analyst
Health Analyst
AQ Analyst
Aquatic Analyst
AQ Analyst
Terrestr. Analyst
AQ Analyst
Visibility Analyst
Policy Analyst
Requirements
Workflow Step 2: Evaluate Current Air Quality
Evaluate Current AQ
Evaluate Current AQ
Develop AQ Standard
Determine Compliance
Determine Compliance
Eval. Control Effectiveness
Eval. Control Effectiveness
Det. Ambient AQAttribute Sources
Determ. Exceedance
ActivitiesWorkflow User Types
AQ Analyst
Receptor Mod.
Transport Mod.
Policy Analyst
Det. EmissionsEmiss. Analyst
Emiss. Modeler
Requirements
Workflow Step 3: Develop and Enforce Compliance
Characterize Current AQ
Characterize Current AQ
Develop AQ Standard
Develop Compliance
Develop Compliance
Eval. Control Effectiveness
Eval. Control Effectiveness
Attribute Sources
Emiss. Reduct. Plan
ActivitiesWorkflow User Types
AQ Analyst
Receptor Mod.
Transport Mod.
Policy Analyst
Det. EmissionsEmiss. Analyst
Emiss. Modeler
Requirements
Workflow Step 4: Evaluate Control Effectiveness
Characterize Current AQ
Characterize Current AQ
Develop AQ Standard
Determine Compliance
Determine Compliance
Eval. Control Effectiveness
Eval. Control Effectiveness
Det. Ambient AQAttribute Sources
Assess Health Risk
Assess Visibility Risk
Assess Terrestr. Risk
Assess Aquatic Risk
Eval. Control Effect
ActivitiesWorkflow User 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. EmissionsEmiss. Analyst
Emiss. Modeler
Requirements
Activity – Participant - Requirements Browser for AQ Managementhttp://webapps.datafed.net/catalog.aspx?table=URR_Activities
Provider - Instrument - Observation Browser for AQ Data in GEOSS Clearinghouse
It is possible to Approach:Make AQ Contribution Consistent with:
Any AQM activity may require multiple user typesAny user type can contribute to multiple AQM activitiesThe specific user requirements depend on the activity
Browser of AQM Activities, Participants, and EO Needs
Value Chain for Informing the Public
Emission Analyst
Transport Meteor.
Activity Drivers
Emission Modeler
ForecastModeler
Air Qual. Analyst
Public Media
Gas Comp.
Public Dec. Maker
Observation-Data Processed Data
Actionable Knowledge
AQ Management: Science View
Processes and Earth Observations for AQ: Emissions, Transport and ambient Concentrations/Depositions
User Types: Emission Analysts, Emission Modeler, AQ Data Analyst, AQ Transport Modeler, AQ Receptor Modeler, Health Analyst, Aquatic Analyst, Terrestrial Analyst, Visibility Analyst
AQ Management: Science ViewEmissions, Transport and ambient Concentrations/Depositions causing Effects on Health and Welfare
Emission Analysts Emission Modeler
Transport Modeler Receptor ModelerAQ Data Analyst
Health AnalystAquatic AnalystTerrestrial AnalystVisibility Analyst
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
UIC Objectives
• Enable GEO to address in a systematic, targeted, focused and comprehensive way the needs and concerns of a broad range of user communities in developing and developed countries, across issues and trans-disciplinary needs, with a particular focus on fostering new or less organized communities.
• Enable GEO, in the implementation of GEOSS, to engage a continuum of users, from producers to the final beneficiaries of the data and information
• Facilitate linkages and partnerships between established CPs and new user groups or organizations interested in collaborating.
THE SPECTRUM OF USERShttp://www.google.com/url?sa=t&source=web&cd=6&ved=0CCkQFjAF&url=http%3A%2F%2Fwww.earthobservations.org%2Fdocuments%2Fcommittees%2Fc4%2FUIC%2520Presentation%2520C4%2520Mtg%25206-17-08.ppt&rct=j&q=Foley%20Spectrum%20of%20Users&ei=Jyu7TPXBBI3Lngejvvy-DQ&usg=AFQjCNHwFre7zIWG_68GQLe9on3A7k-2mA&sig2=SA5reCriEOLJY0a18XM7JA
Earth observations & earth system models
Data-to-Information archiving & services
Decision support tool developmentDecision making
Assessment of benefits
Earth system scientists and modelersEarth system service providers
Environmental process modelers & researchers
Policy Makers & Environmental managersPublic officials, advocacy groups and the
Public
From observations
To societal benefits
Requirements well known
Not aware that observational Requirements are even needed
How to Approach Users in the Lower Half of the Spectrum
• What do they do in their occupation and what does their organization do? Is there a web-site?
• How would they describe their more important activities? What are those of their organization?
• What decision-making are they involved in, either directly or indirectly by providing research or decision support tool development?
• What impact/benefits result or might potentially result from this decision-making, including the expected timeframe of the impact/benefits? Does the organization measure the impacts/benefits?
How to Approach Users in the Lower Half of the Spectrum
• Does your organization operate a system or systems that collect observational data, either in-situ or remotely sensed? Describe these systems. Are they part of a larger system?
• What observational data, geographical data, socio-economic data and/or models/forecasts, if any, are used in the decision-making or the indirect support to the decision-making
• What are the needs for additional information that could improve the decision-making or the indirect support to the decision-making?
• What regional or international working groups are you a member of or on the mailing list of?
A user-led community of stakeholders, from providers to the final beneficiaries of Earth observation data and information, with a common interest in specific aspects of societal benefits to be realized by GEOSS implementation.
The Communities of Practice will be self organized and will include stakeholders required to achieve benefits.
Communities of Practice
An Example Community of Practice Air Quality & HealthThe Public
Registering User TypesAir & Health CP Examples
The Air Quality Managers• Air Quality Index operations• Air Quality monitoring and