1. MAM 2024 reports
WMO Lead Centre for Wave Forecast Verification (2024): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2024 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2024): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2024 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
2. Previous reports:
WMO Lead Centre for Wave Forecast Verification (2024): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2024 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2024): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2024 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for SON 2023 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for SON 2023 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for JJA 2023 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for JJA 2023 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2023 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2023): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2023 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2022 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2022 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for SON 2022 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for SON 2022 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for JJA 2022 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for JJA 2022 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2022 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for MAM 2022 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2021 - 00UTC runs only, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2022): Intercomparison of operational wave forecasting systems against in-situ observations for DJF 2021 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 61p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Autumn 2021 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Autumn 2021 - 00U and 12TC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Summer 2021 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Summer 2021 - 00U 12TC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Spring 2021 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Spring 2021 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Winter 2020 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2021): Intercomparison of operational wave forecasting systems against in-situ observations for Winter 2020 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Autumn 2020 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Autumn 2020 - 00 and 12UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Summer 2020 - 00UTC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Summer 2020 - 00 and 12UTC runs, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Spring 2020 - 00UTC runs only, Part I: Significant wave height, ECMWF, 17p.
WMO Lead Centre for Wave Forecast Verification (2020): Intercomparison of operational wave forecasting systems against in-situ observations for Spring 2020 - 00U and 12TC runs, Part I: Significant wave height, ECMWF, 17p.
3 Comments
Min Roh
This webpage is very useful for my work as one of the production supporters in LC-WFV.
By the way, I would like to know the numeric data including all centres when you make the figures in the report.
Could you tell me, if you have a method how can I access the numeric data of verification results.
Zied Ben Bouallègue
Please refer to the Data page.
Min Roh
Thank you for the information.