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The Weather: What’s the Outlook?
New sources of atmospheric observations, faster supercomputers and advances in science together revolutionized weather forecasting in the latter part of the 20th century. On the global scale, we can today predict up to five days ahead as accurately as we could do for three days 20 years ago. This means society has much more advance warning of weather hazards than before, permitting people to prepare and, thereby, limit the loss of lives and property. Expectations are high for even greater advances in the years to come.
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Interview: Qing-Cun Zeng
Qing-Cun Zeng, a famous academic meteorologist, is a pioneer of numerical weather prediction, dynamic climate prediction and remote sensing theory for meteorological satellites. His semi-implicit (1961) and quadratic (1981) schemes as well as his inversion variation method (1974) are still widely applied to theoretical and practical studies in meteorology and geophysical fluid dynamics. Through his active involvement in the study of global climate and environmental change, he has contributed to advancements in the study of meteorological hazards and related disaster risk reduction. He has rece ...
WMO Product Access Guide
The Product Access Guide is a web-based resource maintained by the World Meteorological Organization to (i) facilitate online search for quality-controlled, documented satellite-based data products from providers worldwide, related expert groups, and training material, (ii) enhance the visibility of satellite data products and related material; (iii) address insufficient awareness of users, especially in developing countries. The Product Access Guide complements the WMO Information System and allows a more targeted search experience than Google or the GEO portal. This resource is made availabl ...
Satellite-Derived Climatology Products for Monitoring Convection Over West and Central Africa
A weather forecaster’s knowledge of climatology is important to the success of a forecast, especially where convection is involved. That’s particularly true over Central and West Africa where convection has a strong diurnal cycle and usually develops over particular geographic regions and during specific time intervals. The lesson describes satellite-derived cloud climatology products and several global instability indices, all of which can be integrated with other products to forecast convection. Although the lesson uses examples of climatology products from specific months, it makes the full ...
Introduction to the NWS National Blend of Global Models
The National Blend of Global Models was developed to utilize the best available science and provide a consistent National Weather Service forecast product across the U.S. This lesson describes the background and motivation for the National Blend and includes comparisons of Blend forecasts with current guidance. The lesson also offers a short summary of future plans and training related to the National Blend.
Assessing NWP with Water Vapour Imagery
You've seen it happen repeatedly. Forecasters have a tough forecast ahead of them. But how are they supposed to know which model data will be the best one to help them come to a conclusion about the situation? In situations like this, the first step should always be to assess the model data against a set of current observations that should show a 1-to-1 relationship with the model output. Which variable should be plotted? On which surface? Which current observations will make the most sense to assess against? If you know the answers to some, but not all of these questions, find these answers a ...
Operational Models Encyclopedia
The availability of numerical guidance from NWP models has been an important component of operational forecasting for decades. For many, the output from this numerical guidance was produced by a mysterious “black box”. Rules for using and adjusting the guidance for operational forecasters were often subjective “Rules of Thumb” based on experience rather than based on quantitative analysis. To open up this “black box”, we produced this web-based “Operational Models Encyclopedia” linking both generic information on how NWP models work, and specifics on physical parameterizations, dynamics, and d ...
Tropical Cyclone Forecast Uncertainty
This lesson introduces learners to the uncertainty and errors in forecasting the track, timing, and intensity of tropical cyclones. It provides an overview of how the National Hurricane Center’s cone of uncertainty is constructed, as well as its uses and common misconceptions. Learners will explore the influences of track, timing, and intensity forecast errors on potential tropical cyclones impacts. The lesson offers suggestions on how to communicate tropical cyclone forecasts knowing their inherent uncertainty. This online lesson is part of the Tropical Cyclone Storm Winds: Forecasting and Co ...
Using Scatterometer Wind and Altimeter Wave Estimates in Marine Forecasting
Scatterometers and altimeters provide a variety of space-based observations that are useful for marine analysis and forecasting as well as other applications. Key among the products are ocean surface winds from scatterometers and significant wave heights from altimeters. This lesson describes the basics of scatterometers and altimeters, including how they work, what they measure, and how scatterometer winds and altimeter significant wave heights are derived. It then discusses some of the challenges in using the estimates, such as dealing with ambiguities and rain contamination. The lesson also ...
WMO Observing Systems Capability Analysis and Review Tool (OSCAR)/Space
OSCAR/Space, the “satellite” component of the WMO OSCAR resource, contains updated quality-controlled information on past, present and future satellite missions, instruments and related characteristics, covering a period from 1960 up to 2050, which adds up to 500+ satellites and 800+ instruments dedicated to Earth Observation and Space Weather. In addition, OSCAR/Space provides expert assessments of the applicability of the various instruments for particular measurements. This resource can be used as a reference for studies, as a gap analysis tool, as support for planning, and for educational ...
NWP Essentials: NWP and Forecasting
This lesson introduces forecasters to the complex and multifaceted process for creating a forecast. It also discusses how NWP fits into that process. In addition, the lesson provides a broad overview of the basic components of NWP and how they combine to produce a model forecast.
NWP Essentials: Structure and Dynamics
This lesson is focused on how a model forecast and the interpretation of that forecast, is affected by the basic design of the model. Topics include how meteorological variables are represented in grid point and spectral models, fundamental differences between hydrostatic and nonhydrostatic models, horizontal resolution of orographic and free-atmosphere features, vertical coordinate systems and how they affect the vertical resolution of features in the model forecast.
Gridded Products in the NWS National Blend of Global Models
This lesson introduces users to the five different guidance products that will be included in Version 1.0 of the U.S. National Weather Service (NWS) National Blend of global Models (NBM). The primary audience for this lesson includes forecasters and users of NWS forecast products; some prior knowledge of numerical weather prediction is useful. Learners will explore how model guidance from the Global Forecast System, Global Ensemble Forecast System, Canadian Meteorological Centre Ensemble, Ensemble Kernel Density Model Output Statistics (MOS) and gridded GFS MOS is produced. The strengths and l ...
Microwave Remote Sensing: Land and Ocean Surface Applications, 2nd Edition
This lesson introduces the concepts and principles basic to retrieving important land and ocean surface properties using microwave remote sensing observations from polar-orbiting satellites. Section one reviews the advantages of microwave remote sensing from polar-orbiting platforms and briefly highlights some of the unique spectral characteristics that allow for differentiation between various surface types and properties. Subsequent sections present a more in-depth look at the derivation and application of microwave products that quantify four different land and ocean surface properties and ...
Advanced Himawari Imager (AHI): What’s Different from the GOES-R Advanced Baseline Imager (ABI)
This brief lesson provides an overview of the AHI on Himawari and highlights its differences from the GOES-R Advanced Baseline Imager (ABI). It discusses AHI’s improved capabilities in spectral coverage, spatial resolution, and imaging interval over the MTSAT-2 imager; the differences in spectral coverage and scan strategy between AHI and ABI and the impact on products; and how AHI data and products benefit forecasters in Alaska, Pacific Region, and CONUS. Note that the lesson complements COMET’s GOES-R ABI lesson, which should be taken before going through this lesson.
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