1. GIS-Based Dissemination of Air Quality Information in APNEE Gertraud Peinel, Thomas Rose FAW Ulm, Germany Kostas Karatzas AUTH, Department of Mechanical Engineering, Greece 6th European Commission GI and GIS Workshop, The Spatial Information Society - Shaping the Future EC-GIS 2000, Lyon

2. GIS-Based Dissemination of Air Quality Information in APNEE Project A PNEE Co-ordinates q Air Pollution Network for Early warning and on-line information Exchange in Europe IST-1999-11517 q 5th Framework Programme - IST  Key Action 1: Systems and services for the citizen —Environment q 1/2000 - 12/2001 q Co-ordinators  Financial - Administrative, Technical: FAW Ulm, Germany  Scientific Co-ordinator: NILU: Norwegian Air Research Institute, Norway

3. GIS-Based Dissemination of Air Quality Information in APNEE A PNEE Consortium

4. GIS-Based Dissemination of Air Quality Information in APNEE Aim q APNEE will  provide an interface to air pollution management systems and will characterise dedicated information to affected groups of citizens.  strives to develop a technical umbrella for the distribution and customisation of existing air quality management systems.  develop a harmonised classification schema for a uniform categorisation of environmental data and further develop forecasting methods and will use operational versions of the most used air quality forecasting models.  serve EU-directives on information services for citizens about health threatening air pollution states.

5. GIS-Based Dissemination of Air Quality Information in APNEE Technology and Functionalities q Technology/Interfaces  Web GIS  Street Panels  Mobiles  Voice Mail  Email q Functionalities  Air Pollution Visualisation  Early Warning  Forecasting  Discussion Groups, Bulletin Boards....

6. GIS-Based Dissemination of Air Quality Information in APNEE Before APNEE

7. GIS-Based Dissemination of Air Quality Information in APNEE After APNEE

8. GIS-Based Dissemination of Air Quality Information in APNEE Functions I q General Functions  Access to additional information (e.g. historical data, European directives, forecasting information)  Online air information from user  Link list  Administration  APNEE feedback  Subscribing to push services q Bulletin, Newsletter, Discussion group  Daily bulletin for air quality on key spots urban areas  Daily forecasting bulletin  ATMO bulletin q Early Warning  Alert message when level is up to given country specific and EC or local authorities legislative threshold with advises adapted to the different target citizens

9. GIS-Based Dissemination of Air Quality Information in APNEE Functions II q Online Info  Pollutant values measured at a measurement station —Actual pollutant values, air pollution index calculated for a measurement station  Interpolation in real time on hours values base - Dynamic changes (animation) —Level of different pollutants, level of air pollution index  Forecasting —Level of different pollutants, Level of air pollution index  Accuracy Concept for Measurements and Modelling —SMS messages will be sent to local experts to check systems, results and modelling  Thermal comfort, traffic conditions, medical advises, representation of multimedia files, e.g. images, video, audio  Pollutant transport assessment capability  Mapping functionalities —Display and selection of different information layers —Panning, Zooming —Display of longitude/latitude and zooming factor —Representation of measurement values in bar charts, pie charts and graphs —Representation of geographical themes related to air pollution

10. GIS-Based Dissemination of Air Quality Information in APNEE Functions III q User Interaction (mainly WebGIS)  Selection of predefined forecasting simulations on different pollutants  Query functionalities, e.g. ”Find all stations where level of O 3 > given country specific threshold”  Display of sensitive areas on mouse-over  Launching popup-windows  Presentation of new information layers, e.g. defining deviations for trucks and cars  Sensitive areas - smart maps

11. GIS-Based Dissemination of Air Quality Information in APNEE APNEE Services Display: simply display of information, frequently updates Push Service: "push" content to interested persons who subscribe to such a service on timely or event specific basis Pull Service: interested persons request information on demand, information will be returned on this request immediately by sending information Interaction: similar to pull service but direct user interaction for refinement of requests or parameterised requests possible

12. GIS-Based Dissemination of Air Quality Information in APNEE A PNEE Draft Architecture Local Website: GIS, graphs, tables, info and links APNEE DB System Mobile phone WAP Mobile phone Voice Electronic panels Mobile phone SMS Multi- media Interface to Local Air Quality Management System APNEE NetProvider Interface

13. GIS-Based Dissemination of Air Quality Information in APNEE A PNEE Components DB WebGIS Street Panel Export Watcher/ Trigger SMS Cron Email Phone WAP/ WML CGI/ WebServer/ WAP Server Voice Server GIS Existing air quality information systems Interfaces

14. GIS-Based Dissemination of Air Quality Information in APNEE GIS-based Information Access q Simulation and forecasting  access to region-specific data —fossile usages for home heating —traffic peaks q Classification  regional alerts  regions of comfort  recommendations to pass-by regions q Dissemination  available communication channels  affected people ÄGIS as anchor point in the information infrastructure

15. GIS-Based Dissemination of Air Quality Information in APNEE Contact q FAW Ulm, Germany  Thomas Rose (Thomas.Rose@faw.uni-ulm.de)  Gertraud Peinel (Gertraud.Peinel@faw.uni-ulm.de) q NILU, Norway  Trond Bøhler (Trond.Bohler@nilu.no)  WWW: http://www.faw.uni-ulm.de/apnee

16. GIS-Based Dissemination of Air Quality Information in APNEE End