The Technology and Future of Weather Forecasting Cliff Mass University of Washington
Jan 17, 2016
The Technology and Future of Weather Forecasting
Cliff MassUniversity of Washington
2012: Hurricane Sandy
125 dead, 60+ billion dollars damage in an area with a population of tens of millions.
Well predicted, more than a week ahead
ECMWF 6-day Forecast of Sea Level Pressure
1938 Hurricane: Similar in Strength to Sandy
Nearly a thousand died
Not forecast the day before
1962 Columbus Day Storm
Not forecast the day before either
Seattle Times
Jan 1993: Inauguration Day Storm: Near Perfect Forecast
Something Has Changed
Before 1990 the National Weather Service got virtually every major storm wrong, even the
day before.
After 1990, they gave good warnings for nearly all.
Forecast Skill Improvement
ForecastError
Year
Better
National Weather Service
Skill Improvements (ECMWF)
Major improvements, mainly due to satellite data and improved models
Weatherman Jokes Are No Longer Appropriate
The Key Technology of Modern Weather Forecasting is
Numerical Weather Prediction
The First Numerical Weather Prediction
• The first successful numerical prediction of weather was made in April 1950, using the ENIAC computer at Maryland's Aberdeen Proving Ground
Numerical Weather Prediction
• The basic idea is that if you can determine the current state of the atmosphere (known as the initialization) , you can predict the future using the equations that describe the physics of the atmosphere.
• These equations can be solved on a three-dimensional grid.
Observation Collection Needed to Create the Initialization
Numerical Weather Prediction
One of the equations used to predict the weather is Newton’s Second Law:
F = maForce = mass x acceleration
Mass is the amount of matter
Acceleration is how velocity changes with time
Force is a push or pull on some object (e.g., gravitational force, pressure forces, friction)
This equation is a time machine!
•The initialization gives the distribution of mass (how much air there is and where) and allows us to calculate the various forces.
•Then… we can solve for the acceleration using F=ma
•With the acceleration we can calculate the velocities in the future.
•Similar idea with temperature and humidity but with different equations.
F = ma
The “Primitive” Equations
Numerical Weather Prediction• Numerical weather prediction is limited by the
available computer resources.
• As computer speed increases, the number of grid points can be increased.
• More (and thus) closer grid points means we can simulate (forecast) smaller scale features.
National WeatherService WeatherPrediction Computer
NGM, 80 km,1995
1995
2007-2008
4-km UWMM5 System
1.33 km resolution available on the UW web site
But just as important as the computer revolution has been the
weather data revolution, with satellites giving us three
dimension data over the entire planet
Example: The Pacific Data Void No Longer Exists
Cloud Track Winds
Better than Star Trek!
NOAA PolarOrbiter WeatherSatellite
Satellite Sensors Provide Thousands of High Quality Vertical Soundings Daily over the Pacific
Cosmic GPS Satellites Provide More Soundings!
Impacts
• The addition of massive amounts of new observations is causing a steady improvement in weather prediction
• We are now starting to see frequent examples of forecast skill past one week:
• Hurricane Sandy is only one example
Observed 180 hr (7.5 days)
Forecast Skill Will Continue to Extend Further in Time…with
limits (about 2 weeks)
• More satellite assets will provide a far better description of the atmosphere.
• Better models and higher resolution
• Better data assimilation: how we use the observations to produce an initialization for our models.
Increasing Resolution and Better Models Will Not Be Enough
The Next Major Revolution in Numerical Weather Prediction
Will Come Elsewhere
The Transition from Deterministic to Probabilistic
Prediction
A Fundamental Problem• The way we have been forecasting
has been essentially flawed.
• The atmosphere is a chaotic system, in which small differences in the initialization…well within observational error… can have large impacts on the forecasts, particularly for longer forecasts.
• Not unlike a pinball game….
A Fundamental Problem
• Similarly, uncertainty in processes, like the development of clouds and precipitation, also produces uncertainty in forecasts.
• Thus, all forecasts have some uncertainty.
• The uncertainty generally increases in time.
This is Ridiculous!
Forecast Probabilistically
• We should be using probabilities for all our forecasts or at least providing the range of possibilities.
• There is an approach to handling this issue that is being explored by the forecasting community…ensemble forecasts
Ensemble Prediction
• Instead of making one forecast…make many…each with a slightly different initialization or different model physics.
• Possible to do this now with the vastly greater computation resources that are available.
Ensemble Prediction
•Can use ensembles to give the probabilities that some weather feature will occur.
• Ensemble mean is more accurate than any individual member.
•Can also predict forecast skill!•When forecasts are similar, forecast skill is generally higher.•When forecasts differ greatly, forecast skill is less.
Prediction!
• The meteorological profession is rapidly gaining the ability to produce high-resolution probabilistic weather forecasts AND analyses.
• Probabilistic forecasts and analyses will be available for a wide range of weather parameters.
The Nowcasting Revolution
AMS Nowcasting Definition
A description of current weather and a short-term forecast varying from minutes to a few hours; typically shorter than most operational short-range forecasts.
American Meteorological Society’s Glossary of Weather and Climate
During the past decade or so the geographical and temporal specificity of
the information that the weather profession can provide has greatly
increased.
Pacific Northwest Surface Observations
3000-4000 observations per hour over WA and OR
Traditional Approaches of Weather Information
Dissemination Are Incapable of Delivering the Specificity and
Detail Meteorologists Can Now Provide
Typical TV weathercasters have only 2.5 minutes!
There has never been such a large difference between what meteorologists know about current weather and what we are communicating to the public.
An Irony
A Worry
The Solution? Smartphones are Ideal for Weather Data Delivery.
• Lots of bandwidth• They know where they are, so forecast
information can be tailored to the user• Substantial computational capacity.
Smartphones Offer a Powerful, Portable Platform for Viewing Weather Information, Forecasts, and Warnings
There are now thousands of weather apps for
smartphones…and the best are yet to come!
WeatherProtector
WEATHERPROTECTOR
Tells you whether heavy precipitation, winds, or other weather issue are approaching your position.
BikeWeatherGuard
Bike WeatherGuard
•Using a map interface, describe your planned route and when you want to travel.•Tells you whether you should delay your trip, or perhaps leave a few minutes early, to stay dry.
The Weather Adaptive Society
• Advances in computation, control, and communication allows society to react quickly and effectively to weather information.
• At the same time, weather forecasts will rapidly improve.
• Together they allow effective real-time weather adaptation.
Traffic Can Be Slowed During Dangerous Weather
Can use flow control to limit the number of cars entering the roadways near heavy rain.
Power Generation• Coordination of power generation by
weather-sensitive renewables and reserve power sources (e.g., hydro, gas turbines).
Weather Forecasting is Only One Part of Atmospheric Sciences
• Climate research and prediction
• Severe weather research and prediction (hurricanes, tornadoes, severe thunderstorms, windstorms, snowstorms)
• Atmospheric pollution and chemistry
• Mountain meteorology
• And many more…
The End