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060730 Talk Outline Air Quality Information System Challenges (5min) –Real-time monitoring and data delivery (1 slide) –Characterization of pollutant in space/time/parameter (1 slide) –Agile (1 slide) Use Cases: (10min) –Canada Smoke: Realtime, Science, Regulatory, Public (7min) –Global Aerosol: Yearly average, Science, Policy (3min) AQ Infosystem for GEOSS: (10min) –Architecture (3slides) GEOSS - Regional Air Quality Data. Services Sharing/Harvesting Infrastructure Intellectual Resources –Engineering – DataFed design (3-4 slides/flash) –Technology – OGC Services, web services, web 2.0 (1slide) Discussion (5min)
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The data life cycle consists of the acquisition and the usage parts Usage ActivitiesData Acquisition Data Acquisition and Usage Activities (Select View Show, click to step through PPT) The acquisition part processes the sensory data by firmly linked procedures The Federation focuses on data usage activities and presumes repositories The usage activities are more iterative, dynamic procedures The collected and cleaned data are stored in the repository Data Repository The usage cycle transform data into knowledge for decision making Decisions
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The Network Effect: Less Cost, More Benefits through Data Multi-Use Program Public Data Organization Data Program Organization Data Program Data Orgs Develop Programs Programs ask/get Data Public sets up Orgs Pay only once Richer content Data Re-Use Network Effect Data are costly resource – should be reused (recycled) for multiple applications Data Reuse Less Prog. Cost More Knowledge Data reuse saves $$ to programs and allows richer knowledge creation Less Soc. Cost More Soc. Benefit Data reuse, like recycling takes some effort: labeling, organizing, distributing
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VIEWS AEROCOM Federated Information System Observations, Models, Services CAPITA Other Federations Obs Models Obs & Services Services Obs & Model Models & Services General data sharing and reuse can be accomplished through a federated approach. Data producers maintain their own workspace and resources (data, reports, comments). However, part of the resources are shared through a Federated Information System. Model-Data Information System - Federation
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Scientist Science DAACs Current info systems are project/program oriented and provide end-to-end solutions Info UsersData ProvidersInfo System AIRNow Public AIRNow Model Compliance Manager Sample AQ Information Usage Landscape Part of the data resources of any project can be shared for re-use through DataFed Through the Federation, the data are homogenized into multi-dimensional cubes Data processing and rendering can then be performed through web services Each project/program can be augmented by Federation data and services
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Providers NASA DAACs EPA R&D Model EPA AIRNow others Public Manager Scientist Users other The info system transforms the data into info products for each user In the first stage the heterogeneous data are prepared for uniform access Uniform Access Information Landscape: Info System Data Access, Processing and Products The second stage performs filtering, aggregation, fusion and other operations Data Processing Web Service Chain Custom Processing SciFlo DataFed Info Products Reports, Websites Forecasting Compliance Other Sci. Reports The third stage prepares and delivers the needed info products
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The challenge is to design a general supportive infrastructure Simply connecting the relevant provides and users for each info product is messy Wrappers Where? What? When? Federate Data Structuring Structuring the heterogeneous data into where-when-what ‘cubes’ simplifies the mess Integrated Data System for Air Quality-IDAQ ESIP AQ Cluster 050510 Draft rhusar@me.wustl.edu The info system infrastructure needs to facilitate the creation of info products AQ Compliance Nowcast/Forecast Status & Trends Find Data Gaps ID New Problems ……… Info Needs Reports Providers supply the ‘raw material’ (data and models) for ‘refined’ info products Emission Surface Satellite Model Single Datasets Providers Slice & Dice Explore Data Viewers The ‘cubed’ data can be accessed and explored by slicing-dicing tools Programs Integrate Understand More elaborate data integration and fusion can be done by web service chaining This infrastructure support for IDAQ can be provided by the ESIP Federation Non-intrusive Linking & MediationData UsersData Providers
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Decision Support System Event Knowledge into the Minds of EPA Analysts Knowledge into the Minds of State Analysts DSS for Exceptional Event Decisions Observations Event Reports: Model Forecasts, Obs. Evidence Models Decisions Event Knowledge into the Minds of EPA Regulators Decision Support System Data Sharing Std. Interface Data Obs. & Models Gen. Processing Std. Interface ReportingDomain Processing Control Reports
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Loosely Coupled Data Access through Standard Protocols Client request Capabilities Server returns Capabilities and data ‘Profile’ Client requests data by ‘where, when, what’ query Server returns data ‘cube’ in requested format GetCapabilities GetData Capabilities, ‘Profile’ Data Where? When? What? Which Format? Server Back End Std. Interface Client Front End Std. Interface QueryGetData Standards Where?BBOXOGC, ISO When?TimeOGC, ISO What?TemperatureCF FormatnetCDF, HDF..CF, EOS, OGC T2T1 Domain ProcessingData Sharing Std. Interface Gen. Processing Std. Interface Data Control Reports Reporting Obs. & ModelsDecision Support System
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Web Services and Workflow for Loose Coupling Service Broker Service Provider Publish Find Bind Service User Web Service Interaction Service Chaining & Workflow Domain ProcessingData Sharing Std. Interface Gen. Processing Std. Interface Data Control Reports Reporting Obs. & ModelsDecision Support System Web Services Triad: Publish – Find – Bind Workflow Software: Dynamic Programming
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Collaborative Reporting and Dynamic Delivery Co Writing - Wiki ScreenCast Analysis Reports: Information supplied by many Needs continuous program feedback Report needs many authors Wiki technologies are for collaborative writing Dynamic Delivery: Much of the content is dynamic Animated presentations are compelling Movies and screencasts are for dynamic delivery Domain ProcessingData Sharing Std. Interface Gen. Processing Std. Interface Data Control Reports Reporting Obs. & ModelsDecision Support System
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Summary The current challenges for air quality information systems include delivery of air quality data in real time, characterization of air pollution through the integration of multi-sensory data and providing agile support to regulatory management. The talk describes the architecture and implementation of a standards based system for accessing and processing air quality data. The web services based architecture is illustrated through two use cases: (1) real time monitoring of a smoke event and (2) hemispheric transport of air pollutants.
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“Core” Air Quality Information Network Consists of limited number of stable nodes Provides core functionality Members are eager network participants. Well connected; value through compound services. Network robustness arises from redundancy, practice,… Candidate Nodes: EPA:AIRS, AirNOW, VIEWS NOAA: NCDC, HMS NASA: OnEarth, INTEX Model Other: Unidata
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Federated Information System Data producers maintain their own workspace and resources (data, reports, comments). However, part of the resources are shared through a Federated Information System. Web-based integration of the shared resources can be across several dimensions: Data sharing federations: Open GIS Consortium (GIS data layers) NASA SEEDS network (Satellite data) NSF Digital Government EPA’s National Env. Info Exch. Network. VIEWS RPO RPO Federated Data System Data, Tools, Methods SharedPrivate RPO Other Federations Applications PM Policy Regulation Mitigation Unidata Portal ESIP Portal Portal Data to be “dispersed” to multiple “portals”, each serve different clientele Open architecture allows portals to reconfigure resource collections User communities
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Stages of AQ Data Flow and Value-Adding Processes Domain ProcessingData Sharing Std. Interface Gen. Processing Std. Interface Data Control Reports Reporting Obs. & ModelsDecision Support System Analyzing Filter/Integrate Aggregate/Fuse Custom Analysis Organizing Document Structure/Format Build Interface Characterizing Display/Browse Compare/Fuse Characterize Value-Adding Processes Reporting Inclusiveness Iterative/Agile Dynamic Report
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