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Federal Department of Home Affairs FDHA Federal Office of Meteorology and Climatology MeteoSwiss Development and challenges in SwissMetNet, the new Swiss.

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Presentation on theme: "Federal Department of Home Affairs FDHA Federal Office of Meteorology and Climatology MeteoSwiss Development and challenges in SwissMetNet, the new Swiss."— Presentation transcript:

1 Federal Department of Home Affairs FDHA Federal Office of Meteorology and Climatology MeteoSwiss Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet, B. Landl, Ch. Félix, B. Calpini TECO-2010, Helsinki

2 2 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki 350 km 200 km

3 3 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki This shows… The importance to have reliable meteorological measurements covering the whole Swiss territory The need for integrated systems, starting with complementary meteorological observations and ending up with reliable information for population safety (warning, alarming)  The new MeteoSwiss ground-based meteorological network: SwissMetNet

4 4 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki SwissMetNet: General Information Existing networks (automatic, human observers) are being merged into one unified network At the end of the project, 134 automatic weather stations will be connected to the SwissMetNet back-bone and will deliver continuous measurements covering the entire complex Swiss territory Internal customers: national security (alarming in case of extreme meteorological events), weather forecasting, climate change studies, … External customers: airports, tourism, agriculture, …

5 5 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki SwissMetNet: Final Configuration 134 stations 41’290 km 2

6 6 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki SwissMetNet: Main Characteristics Standardised infrastructure and design (maintenance optimisation) GPRS/UMTS data communication (cost reduction) Transmission of housekeeping parameters (network monitoring) Transmission of statistical values for each parameter (min, max, mean, SD, NVV) Local data collection buffer (high data availability, 2009 for the whole network: 99.9%) Point-to-point communication via the central server (remote diagnostics and maintenance) Centralised network monitoring, regionalised intervention Instantaneous meteorological and technical alarms Real-time alarming of the population Real-time technical monitoring and maintenance

7 7 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki

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10 10 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki

11 11 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki

12 12 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Network monitoring room

13 13 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki SwissMetNet: Quality Control 1 st level QC on raw data Real-time data control, using simple criteria (threshold, dead band, jump, …) The aim is to detect sudden breakdown of an AWS component, or communication loss 2 nd level QC on raw data QCT (Quality Control in Time 1 ) Performed daily, using past data (typically 6 months) to control data from the last days The aim is to detect drifts or intermittent failure on AWS components (sensors, power consumption, battery, …) 1 cf. Poster P5(11)

14 14 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki QCT: Example Counts of 10-min mean values of 0.0 m/s wind velocity for each day

15 15 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki SwissMetNet: Outlook Integrate various observing techniques on a unique data acquisition and communication platform: in-situ and remote sensing instruments Develop new AWS generation for applied purposes: Stand-alone stations (solar energy) Dedicated sub-network for dense precipitation measurement

16 16 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Integration of remote-sensing instrumentation: windprofiler

17 17 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Integration of remote-sensing instrumentation: radiometer

18 18 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Integration of remote-sensing instrumentation: LIDAR

19 19 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Monte Rosa (2880 m a.s.l.) 1 st SMN stand-alone station

20 20 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Fast Deployed precipitation station for a dedicated sub-network

21 21 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Sub-network for precipitation obs. 50 additional automatic rain gauges

22 22 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki

23 23 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Summary SwissMetNet: the new ground-based automatic meterological network of MeteoSwiss to cover various governmental and private issues Single communication platform for different observing systems Appropriate technical QC of the whole network Possibility to extend the network at any time with dedicated sub-networks for specific purposes

24 24 Development and challenges in SwissMetNet, the new Swiss meteorological network Y.-A. Roulet et al., TECO-2010, Helsinki Thank you for your attention!

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