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Andrzej Filipkowski , Krzysztof Kulpa, Jacek Misiurewicz * Politechnika Warszawska

Andrzej Filipkowski , Krzysztof Kulpa, Jacek Misiurewicz * Politechnika Warszawska Warsaw University of Technology (WUT) Institute of Electronic Systems & Department of Analytical Chemistry WARSAW, Poland. http://www.pw.edu.pl. filipk@ise.pw.edu.pl Kkulpa@elka.pw.edu.pl.

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Andrzej Filipkowski , Krzysztof Kulpa, Jacek Misiurewicz * Politechnika Warszawska

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  1. Andrzej Filipkowski, Krzysztof Kulpa, Jacek Misiurewicz * Politechnika Warszawska Warsaw University of Technology (WUT) Institute of Electronic Systems & Department of Analytical Chemistry WARSAW, Poland http://www.pw.edu.pl filipk@ise.pw.edu.pl Kkulpa@elka.pw.edu.pl COPAL-Polska, January 18, 2008

  2. Part I: A. Filipkowski Environment Monitoring with the aid of COPAL What I want to present: 1. Historical introduction 2. Actual involvement 3. EUFAR and COPAL interest 4. Conclusions COPAL-Polska, January 18, 2008

  3. 1. Historical introduction - In the years 2001-2003 co-ordination of FP5 project SEWING: (System for European Water monitorING). Finished with success. It concerned elaborating equipment for monitoring of water pollution with chemical non-organic pollutants, using Ion-Sensitive-Field-Effect-Transistors (ISFETs) with electronics, informatics and hydraulics. - Starting from 2006 the FP6 project WARMER (WAter Risk Management in EuRope). Coordinator SME SYSTEAin Rome, Italy, WUT being non-formal „vice co-ordinator”. This project is much broader, involves in-situ and remote sensing, with the information network. COPAL-Polska, January 18, 2008

  4. 2. Actual involvement The idea of WARMER project: In WARMER in-situ stations and remote stations on satellites co-operate COPAL-Polska, January 18, 2008

  5. The partner responsible for remote monitoring is NERSC (Nansen Environmental and Remote Sensing Centre, Bergen, Norway). The following water parameters are to be monitored: With visible and near-infrared light sensors colour is monitored giving information about plankton, secondary organic matter, dissolved organic matter, suspended matter, oil spill etc. With thermal infrared sensors the surface temperature is monitored. With Synthetic Aperture Radar the waves and surface state is monitored. Information from in-situ stations is also collected, processed and sent to the data centre. COPAL-Polska, January 18, 2008

  6. This is an example of satellite colour monitoringof chlorophyll pigment. Blue-purple means low pigment, red – high. COPAL-Polska, January 18, 2008

  7. 3. EUFAR and COPAL interest By a general point of view, to test our integrated water monitoring system we are limited by the actual poor spatial resolution of the commercial satellites, so we are obliged to work on estuaries or very large rivers and lakes. This is why, when the first information about EUFAR project reached me in January 2006, I wrote a letter of intent. We planned to propose a more integrated proposal in FP7, combining the in-situ, satellite and aircraft monitoring of water quality. Unfortunately this proposal was not accepted (in theme 6 –ENV.) We are still interested in the following activities: COPAL-Polska, January 18, 2008

  8. Elaborating a large variety of sensors, suitable for using them in-situ, in satellites and in aircrafts. Integrate all important parameters of water, both surface and sea, in one software and firmware solution, making the data suitable for use in controlling the quality of water in Europe. The use of aircraft was too expensive so-far, and the economic and technically satisfactory method to use them in water monitoring was almost impossible. I hope that this can be changed in the near future and that integrated monitoring will become possible. COPAL-Polska, January 18, 2008

  9. 4. Conclusions The water monitoring group from Politechnika Warszawska is not yet ready for entering as user and collaborator in COPAL project, but certainly in the perspective of 10 years our activities and international co-operation will make entering to the EUFAR and COPAL family possible. We should take into account that water is not the only one environmental parameter to be remotely monitored. Air pollution, fires, floods, and even organising of dangerous human manifestations can be early discovered and monitored. COPAL-Polska, January 18, 2008

  10. Part II: K. Kulpa, J. Misiurewicz SAR radar technology for COPAL • SAR sensor in environmental monitoring • Our experience with SAR • Possible engagement in COPAL COPAL-Polska, January 18, 2008

  11. SAR sensor for environment • SAR – Synthetic Aperture Radar:high resolution imaging of Earth surface • Airborne platform SAR advantage:sub-meter resolution, short revisit time, real-time imaging, rescue assistance • Oil slick detection & tracking, forest fire/hurricane damages, ice monitoring • Slow motion detection COPAL-Polska, January 18, 2008

  12. Our experience with SAR • Working in the airborne SAR since 2002 • First Polish SAR images (processed offline) in 2003 • Algorithms for real-time airborne SAR • Cooperation with PIT – implementations: • Border Guard airplane (maritime patrol, oil slick detection mode) • Reconnaisance airplane (military) COPAL-Polska, January 18, 2008

  13. SAR sensor in COPAL • Sea, ice, forest, oil slicks, traffic ..... • Weather-independent sensor We propose to include SAR in a standard COPAL payload. • Interferometric SAR • Polarimetric SAR • ISAR - identification of pollution sources • Micro-SAR for small aircafts COPAL-Polska, January 18, 2008

  14. Thank you for your attention COPAL-Polska, January 18, 2008

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