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Meteorology 415 October 2012. Numerical Guidance Skill dependent on: Skill dependent on: Initial Conditions Initial Conditions Resolution Resolution Model.

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Presentation on theme: "Meteorology 415 October 2012. Numerical Guidance Skill dependent on: Skill dependent on: Initial Conditions Initial Conditions Resolution Resolution Model."— Presentation transcript:

1 Meteorology 415 October 2012

2 Numerical Guidance Skill dependent on: Skill dependent on: Initial Conditions Initial Conditions Resolution Resolution Model Physics Model Physics Parameterization Parameterization Computational Power Computational Power Boundary values Boundary values

3 Statistical Guidance There are several techniques that may be used beside multiple linear regression to generate statistical relationships between predictor and predictand. These include There are several techniques that may be used beside multiple linear regression to generate statistical relationships between predictor and predictand. These include Kalman Filters Kalman Filters Neural Networks Neural Networks Artificial Intelligence Artificial Intelligence Fuzzy Logic Fuzzy Logic Remember that Poor Model Performance translates into Poor MOS Guidance Remember that Poor Model Performance translates into Poor MOS Guidance

4 Numerical Guidance Perfect Prog Technique Perfect Prog Technique The development of a Perfect-Prog can make use of the NCEP reanalysis database which provides long and stable time series of atmospheric analyses, which are necessary for building reliable regression equations based solely on past observations.

5 Outline MOS Basics MOS Basics What is MOS? What is MOS? MOS Properties MOS Properties Predictand Definitions Predictand Definitions Equation Development Equation Development Guidance post-processing Guidance post-processing MOS Issues MOS Issues Future Work Future Work New Packages - UMOS (Canadian) New Packages - UMOS (Canadian) Gridded MOS Gridded MOS

6 Model Output Statistics (MOS) MOS relates observations of the weather element to be predicted (PREDICTANDS) to appropriate variables (PREDICTORS) via a statistical method MOS relates observations of the weather element to be predicted (PREDICTANDS) to appropriate variables (PREDICTORS) via a statistical method Predictors can include: Predictors can include:  NWP model output interpolated to observing site  Prior observations  Geoclimatic data – terrain, normals, lat/lon, etc. Current statistical method: Multiple Linear Regression (forward selection) Current statistical method: Multiple Linear Regression (forward selection)

7 MOS Properties Mathematically simple, yet powerful technique Mathematically simple, yet powerful technique Produces probability forecasts from a single run of the underlying NWP model output Produces probability forecasts from a single run of the underlying NWP model output Can use other mathematical approaches such as logistic regression or neural networks Can use other mathematical approaches such as logistic regression or neural networks Can develop guidance for elements not directly forecast by models; e.g. thunderstorms Can develop guidance for elements not directly forecast by models; e.g. thunderstorms

8 MOS Guidance Production 1. Model runs on NCEP IBM mainframe 2. Predictors are collected from model fields, “constants” files, etc. 3. Equations are evaluated 4. Guidance is post-processed Checks are made for meteorological and statistical consistency Checks are made for meteorological and statistical consistency Categorical forecasts are generated Categorical forecasts are generated 5. Final products disseminated to the world

9 MOS Guidance GFS (MAV) 4 times daily (00,06,12,18Z) GFS (MAV) 4 times daily (00,06,12,18Z) GFS Ext. (MEX) twice daily (00Z, 12Z) GFS Ext. (MEX) twice daily (00Z, 12Z) NAM (MET) 2 times daily (00,12Z) NAM (MET) 2 times daily (00,12Z) Variety of formats: text bulletins, GRIB and BUFR messages, graphics … Variety of formats: text bulletins, GRIB and BUFR messages, graphics …

10 Samples of Each GFS (MAV) GFS (MAV)

11 Samples of Each GFS EXT (MEX) GFS EXT (MEX)

12 Samples of Each NAM (MET) NAM (MET)

13 Statistical Guidance Most common approach Most common approach

14 Statistical Approach

15 Statistical Guidance

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19 Predictand Strategies Predictands always come from meteorological data and a variety of sources: Predictands always come from meteorological data and a variety of sources: Point observations (ASOS, AWOS, Co-op sites) Point observations (ASOS, AWOS, Co-op sites) Satellite data (e.g., SCP data) Satellite data (e.g., SCP data) Lightning data (NLDN) Lightning data (NLDN) Radar data (WSR-88D) Radar data (WSR-88D) It is very important to quality control predictands before performing a regression analysis… It is very important to quality control predictands before performing a regression analysis…

20 Predictand Strategies 1.(Quasi-)Continuous Predictands: best for variables with a relatively smooth distribution 1.(Quasi-)Continuous Predictands: best for variables with a relatively smooth distribution Temperature, dew point, wind (u and v components, wind speed) Temperature, dew point, wind (u and v components, wind speed) Quasi-continuous because temperature, dew point available usually only to the nearest degree C, wind direction to the nearest 10 degrees, wind speed to the nearest m/s. Quasi-continuous because temperature, dew point available usually only to the nearest degree C, wind direction to the nearest 10 degrees, wind speed to the nearest m/s. 2. Categorical Predictands: observations are reported as categories 2. Categorical Predictands: observations are reported as categories Sky Cover (CLR, FEW, SCT, BKN, OVC) Sky Cover (CLR, FEW, SCT, BKN, OVC)

21 Predictand Strategies 3. “Transformed” Predictands: predictand values have been changed from their original values 3. “Transformed” Predictands: predictand values have been changed from their original values Categorize (quasi-)continuous observations such as ceiling height Categorize (quasi-)continuous observations such as ceiling height Binary predictands such as PoP (precip amount > 0.01”) Binary predictands such as PoP (precip amount > 0.01”) Non-numeric observations can also be categorized or “binned”, like obstruction to vision (FOG, HAZE, MIST, Blowing, none) Non-numeric observations can also be categorized or “binned”, like obstruction to vision (FOG, HAZE, MIST, Blowing, none) Operational requirements (e.g., average sky cover/P- type over a time period, or getting 24-h precip amounts from 6-h precip obs) Operational requirements (e.g., average sky cover/P- type over a time period, or getting 24-h precip amounts from 6-h precip obs) 4. Conditional Predictands: predictand is conditional upon another event occurring 4. Conditional Predictands: predictand is conditional upon another event occurring PQPF: Conditional on PoP PQPF: Conditional on PoP PTYPE: Conditional on precipitation occurring PTYPE: Conditional on precipitation occurring

22 MOS Predictands Temperature Temperature Spot temperature (every 3 h) Spot temperature (every 3 h) Spot dew point (every 3 h) Spot dew point (every 3 h) Daytime maximum temperature [0700 – 1900 LST] (every 24 h) Daytime maximum temperature [0700 – 1900 LST] (every 24 h) Nighttime minimum temperature [1900 – 0800 LST] (every 24 h) Nighttime minimum temperature [1900 – 0800 LST] (every 24 h) Wind Wind U- and V- wind components (every 3 h) U- and V- wind components (every 3 h) Wind speed (every 3 h) Wind speed (every 3 h) Sky Cover Sky Cover Clear, few, scattered, broken, overcast [binary/MECE] (every 3 h) Clear, few, scattered, broken, overcast [binary/MECE] (every 3 h)

23 MOS Predictands PoP/QPF PoP/QPF PoP: accumulation of 0.01” of liquid-equivalent precipitation in a {6/12/24} h period [binary] PoP: accumulation of 0.01” of liquid-equivalent precipitation in a {6/12/24} h period [binary] QPF: accumulation of {0.10”/0.25”/0.50”/1.00”/2.00”*} CONDITIONAL on accumulation of 0.01” [binary/conditional] QPF: accumulation of {0.10”/0.25”/0.50”/1.00”/2.00”*} CONDITIONAL on accumulation of 0.01” [binary/conditional] 6 h and 12 h guidance every 6 h; 24 h guidance every 12 h 6 h and 12 h guidance every 6 h; 24 h guidance every 12 h 2.00” category not available for 6 h guidance 2.00” category not available for 6 h guidance Thunderstorms Thunderstorms 1+ lightning strike in gridbox (size varies) [binary] 1+ lightning strike in gridbox (size varies) [binary] Severe Severe 1+ severe weather report (define) in gridbox [binary] 1+ severe weather report (define) in gridbox [binary]

24 MOS Predictands Ceiling Height Ceiling Height CH 12000 ft [binary/MECE- Mutually Exclusive and Collectively Exhaustive] CH 12000 ft [binary/MECE- Mutually Exclusive and Collectively Exhaustive] Visibility Visibility Visibility < ½ mile, < 1 mile, < 2 miles, < 3 miles, < 5 miles, < 6 miles [binary] Visibility < ½ mile, < 1 mile, < 2 miles, < 3 miles, < 5 miles, < 6 miles [binary] Obstruction to Vision Obstruction to Vision Observed fog (fog w/ vis 5/8 mi), haze (includes smoke and dust), blowing phenomena, or none [binary] Observed fog (fog w/ vis 5/8 mi), haze (includes smoke and dust), blowing phenomena, or none [binary]

25 MOS Predictands Precipitation Type Precipitation Type Pure snow (S); freezing rain/drizzle, ice pellets, or anything mixed with these (Z); pure rain/drizzle or rain mixed with snow (R) Pure snow (S); freezing rain/drizzle, ice pellets, or anything mixed with these (Z); pure rain/drizzle or rain mixed with snow (R) Conditional on precipitation occurring Conditional on precipitation occurring Precipitation Characteristics (PoPC) Precipitation Characteristics (PoPC) Observed drizzle, steady precip, or showery precip Observed drizzle, steady precip, or showery precip Conditional on precipitation occurring Conditional on precipitation occurring Precipitation Occurrence (PoPO) Precipitation Occurrence (PoPO) Observed precipitation on the hour – does NOT have to accumulate Observed precipitation on the hour – does NOT have to accumulate

26 Stratification Goal: To achieve maximum homogeneity in the developmental datasets, while keeping their size large enough for a stable regression Goal: To achieve maximum homogeneity in the developmental datasets, while keeping their size large enough for a stable regression MOS equations are developed for two seasonal stratifications: MOS equations are developed for two seasonal stratifications: COOL SEASON: October 1 – March 31 COOL SEASON: October 1 – March 31 WARM SEASON: April 1 – September 30 WARM SEASON: April 1 – September 30 * EXCEPT Thunderstorms 3 seasons * EXCEPT Thunderstorms 3 seasons (Oct. 16 – Mar. 15, Mar. 16 – Jun. 30, July 1 – Oct. 15)

27 Pooling Data Generally, this means REGIONALIZATION: collecting nearby stations with similar climatologies Generally, this means REGIONALIZATION: collecting nearby stations with similar climatologies Particularly important for forecasting RARE EVENTS: Particularly important for forecasting RARE EVENTS: QPF Probability of 2”+ in 12 hours QPF Probability of 2”+ in 12 hours Ceiling Height < 200 ft; Visibility < ½ mile Ceiling Height < 200 ft; Visibility < ½ mile Regionalization allows for guidance to be produced at sites with poor, unreliable, or non- existent observation systems Regionalization allows for guidance to be produced at sites with poor, unreliable, or non- existent observation systems  All MOS equations are regional except temperature and wind

28 Example of Regions GFS MOS PoP/QPF Region Map, Cool Season Note that each element has its own regions, which usually differ by season Note that each element has its own regions, which usually differ by season

29 MOS Weaknesses / Issues MOS can have trouble with some local effects (e.g., cold air damming along Appalachians, and some other terrain-induced phenomena) MOS can have trouble with some local effects (e.g., cold air damming along Appalachians, and some other terrain-induced phenomena) MOS can have trouble if conditions are highly unusual, and thus not sampled adequately in the training sample MOS can have trouble if conditions are highly unusual, and thus not sampled adequately in the training sample  But, MOS can and has predicted record highs & lows MOS typically does not pick up on mesoscale-forced features MOS typically does not pick up on mesoscale-forced features

30 MOS Weaknesses / Issues Like the models, MOS has problems with QPF in the warm season (particularly convection near sea breeze fronts along the Gulf and Atlantic coasts) Like the models, MOS has problems with QPF in the warm season (particularly convection near sea breeze fronts along the Gulf and Atlantic coasts) Model changes can impact MOS skill Model changes can impact MOS skill MOS tends toward climatology at extended projections – due to degraded model accuracy MOS tends toward climatology at extended projections – due to degraded model accuracy CHECK THE MODEL…MOS will correct many systematic biases, but will not “fix” a bad forecast. GIGO (garbage in, garbage out). CHECK THE MODEL…MOS will correct many systematic biases, but will not “fix” a bad forecast. GIGO (garbage in, garbage out).

31 Why do we need Gridded MOS? Because forecasters have to produce products like this for the NDFD…

32 Traditional MOS Graphics This is better, but still lacks most of the detail in the Western U.S.

33 Objectives Produce MOS guidance on high- resolution grid (2.5 to 5 km spacing) Produce MOS guidance on high- resolution grid (2.5 to 5 km spacing) Generate guidance with sufficient detail for forecast initialization at WFOs Generate guidance with sufficient detail for forecast initialization at WFOs Generate guidance with a level of accuracy comparable to that of the station-oriented guidance Generate guidance with a level of accuracy comparable to that of the station-oriented guidance

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36 BCDG Analysis Method of successive corrections Method of successive corrections Land/water gridpoints treated differently Land/water gridpoints treated differently Elevation (“lapse rate”) adjustment Elevation (“lapse rate”) adjustment

37 MOS Max Temperature Forecast

38 NDFD Max Temperature Forecast

39 Statistical Guidance UMOS – Updateable MOS UMOS – Updateable MOS Updating concept As described by Ross (1992), a UMOS system is intended to facilitate the rapid and frequent updating of a large number of MOS equations from a linear statistical model, either MLR or MDA. Both of these techniques use the sums-of-squares- and-cross-products matrix (SSCP), or components of it. The idea of the updating is to do part of the necessary recalculation of coefficients in near–real time by updating the SSCP matrix, and storing the data in that form rather than as raw observations.Ross (1992) Weather and Forecasting Article: pp. 206–222 | Abstract | PDF (560K)AbstractPDF (560K) The Canadian Updateable Model Output Statistics (UMOS) System: Design and Development Tests Laurence J. Wilson and Marcel Vallée Meteorological Service of Canada, Dorval, Quebec, Canada (Manuscript received April 19, 2001, in final form October 12, 2001)

40 Statistical Guidance UMOS – Updateable MOS UMOS – Updateable MOS

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