SAMIRA Andrei Diamandi

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SAMIRA Andrei Diamandi diamandi@meteoromania.ro Rodica Dumitrache rodica.dumitrache@meteoromania.ro Anisoara Irimescu anisoara.irimescu@meteoromania.ro Vasile Craciunescu vasile.craciunescu@meteoromania.ro Oana Nicola oana.nicola@meteoromania.ro

WP7000: Pre-operational PM (PM2 WP7000: Pre-operational PM (PM2.5 and PM10) forecast system based on in situ data assimilation (PM10 only) Further develop the SiAiR prototype into a pre-operational system capable to produce more accurate PM10 forecasts over Czech Republic, Norway, Poland and Romania. The system will assimilate in-situ data and its design will allow extension to satellite data assimilation by adding processor(s) for MODIS, Sentinel 3, Sentinel 5P, METEOSAT

WP7000: Pre-operational PM10 forecast system based on in situ data assimilation WP 7100 Pre-operational System Design (NMA): Design of the pre-operational PM air quality forecast system and processing chain, starting from the existing SiAiR prototype and allowing for the extension with satellite data assimilation Input: SiAiR Software Design Document Output: D.DOC.01 Software Design Document (SDD) WP 7200 Data Collection (NMA+ALL): Collect & prepare observational data needed for the assimilation in the CTM and validation; In-situ data from all the partner countries will need to be harmonized. Input: WRF model Output: SiAiR Input/ Output Data Document D.DOC.02 Input/ Output Data Document (I/ODD) D.DOC.03 TN Data Collection ECMWF Global model data set (6 months) In-situ PM10 and PM2.5 consistent data set (6 months) covering Czech Republic, Norway, Poland and Romania METEOSAT Level 1.5b data set

WP7000: Pre-operational PM10 forecast system based on in situ data assimilation WP 7300 Pre-operational System Implementation (NMA, UBB): Implementation of the pre-operational PM air quality forecast system and processing line, starting from the existing SiAiR Prototype and pre-operational system design in WP7100; UBB will provide support for the implementation of the of the CTM on the UBB supercomputer Inputs: SiAiR D.DOC.09-12, SiAiR D.DOC.13-15, SiAiR D.SOF.01-03, SiAiR D.DOC.18-19 TNO/MACC database, WRF-Chem model, Emissions Pre-processor Data Assimilation Routines Outputs: D.DOC.04 Software Requirements Specification (SRS) D.DOC.05 Interface Requirements Document (IRD) WP 7400 Pre-operational System Design and Implementation Support: Implementation of the pre-operational PM air quality forecast system and processing chain, starting from the existing SiAiR Prototype and pre-operational system design; UBB will provide support for the implementation of the of the CTM on the UBB supercomputer (With the external support of SYSTEMA GmbH and ZAMG) Inputs: SiAiR D.DOC.09-12, SiAiR D.DOC.13-15, SiAiR D.SOF.01-03. SiAiR D.DOC.18-19 TNO/MACC Database WRF-Chem model WP7100 and WP7300 documents and reports Outputs: D.DOC.04 Software Requirements Specification (SRS) v2.0 D.DOC.05 Interface Requirements Document (IRD) v2.0 D.DOC.06 Software Reuse File (SRF) v2.0

WP7000 Pre-operational PM10 forecast system based on in situ data assimilation WP 7500 Pre-operational System Testing (NMA, UBB):Data assimilation enabled (for PM10 only)/disabled configurations of the system will run on the 6 months dataset. The CTM output in data assimilation disabled configuration will be used in WP 4000 for data fusion Input: ECMWF Global model data Output: PM2.5 and PM10 forecast D.DOC.07 Acceptance Test Plan (ATP) D.DOC.08 Acceptance Test Report (ATR) D.SOF.01 Pre-Operational System v.1 D.DOC.09 Software User Manual (SUM) D.SOF.02 Standard web services for PM forecast map dissemination

WRF-Chem assimilation enabled (PM10 only)/disabled output data sets WP7000 Pre-operational PM10 forecast system based on in situ data assimilation WP 7600 Validation of the pre-operational system (UBB, NMA): The PM2.5 and PM10 model forecast will be compared with the in-situ measurements using objective verification methods (dedicated statistical scores) and more qualitative methods (comparison between forecast and measurements maps). Furthermore, the real-time performance of the system itself will be validated. Input WRF-Chem assimilation enabled (PM10 only)/disabled output data sets PM2.5 and PM10 in-situ data SiAiR validation routines Output D.DOC.10 Validation Report (VR) WP 7700 Generation of PM10 maps from satellite data (MODIS): The PM MAPPER toolkit will be used to produce high resolution AOD’s from MODIS data. The PM10 daily maps will be used in WP 4000 and will be also available on the project website PM MAPPER software MODIS Level1B High resolution (up to 1 km) PM10 maps  

WP7000 Pre-operational PM10 forecast system based on in situ data assimilation WP 7800 Software Warranty (NMA) : Insuring warranty for the software developed; pre-operational system upgraded. Inputs D.SOF.01 Pre-Operational System v.1 Bug reports Outputs Software upgrades (D.SOF.03 Pre-Operational System v1.x) WP 7900 Web portal enhancements (NMA): develops server-side geospatial network services for product distribution. Numerical models output; Satellite data; In-situ data; Reference data; Open source software (ADAGUC, GeoServer, etc.) Maps Charts Animations

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