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4IWVM - Tutorial Session - June 2009 Verification of categorical predictands Anna Ghelli ECMWF.

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Presentation on theme: "4IWVM - Tutorial Session - June 2009 Verification of categorical predictands Anna Ghelli ECMWF."— Presentation transcript:

1 4IWVM - Tutorial Session - June 2009 Verification of categorical predictands Anna Ghelli ECMWF

2 4IWVM - Tutorial Session - June 2009 Outline What is a categorical forecast? Basic concepts Basic scores Exercises Conclusions

3 4IWVM - Tutorial Session - June 2009 Basic concepts Categorical: only one of a set of possible events will occur Categorical forecast does not contain expression of uncertainty There is typically a one-to-one correspondence between the forecast values and the observed values. The simplest possible situation is a 2x2 case or verification of a categorical yes/no forecast: 2 possible forecasts (yes/no) and 2 possible outcomes (event observed/event not observed)

4 4IWVM - Tutorial Session - June 2009 Contingency tables

5 4IWVM - Tutorial Session - June 2009 How do we build a contingency table? Date24 hour forecastObserved quantities Jan. 1st0.0- Jan. 2nd0.4yes Jan. 3rd1.5yes Jan. 4th2.0-.. Mar. 28th5.0- Mar. 29th0.0yes d a b c

6 4IWVM - Tutorial Session - June 2009 Contingency tables Tornado forecast Tornado Observed yesnoTotal fc yes3070100 no2026802700 Total obs5027502800 Marginal probability: sum of column or row divided by the total sample size For example the marginal probability of a yes forecast is: p x =Pr(X=1) = 100/2800 = 0.03 Sum of rows Total sample size

7 4IWVM - Tutorial Session - June 2009 Contingency tables Tornado forecast Tornado Observed yesnoTotal fc yes3070100 no2026802700 Total obs5027502800 represents the intersection of two events in a cross-tabulation table. Joint probability: represents the intersection of two events in a cross-tabulation table. For example the joint probability of a yes forecast and a yes observed: P x,y =Pr(X=1,Y=1) = 30/2800 = 0.01

8 4IWVM - Tutorial Session - June 2009 Basic measures/scores Frequency Bias Index (Bias) FBI > 1 over forecasting FBI < 1 under forecasting Proportion Correct simple and intuitive yes and no forecasts are rewarded equally can be maximised by forecasting the most likely event all the time Range: 0 to Perfect score = 1 Range: 0 to 1 Perfect score = 1

9 4IWVM - Tutorial Session - June 2009 Basic measures/scores Hit Rate, Probability Of Detection, Prefigurance sensitive to misses events and hits, only can be improved by over forecasting complement score Miss Rate MS=1-H=c/(a+c) False Alarm Ratio function of false alarms and hits only can be improved by under forecasting Range: 0 to 1 Perfect score = 1 Range: 0 to 1 Perfect score = 0

10 4IWVM - Tutorial Session - June 2009 Basic measures/scores Post agreement Complement FAR -> PAG=1-FAR not widely used sensitive to false alarms and hits False Alarm Rate, Probability of False Detection sensitive to false alarms and correct negative can be improved by under forecasting generally used with H (POD) to produce ROC score for probability forecasts (see later on in the week) Range: 0 to 1 Perfect score = 1 Range: 0 to 1 Perfect score = 0

11 4IWVM - Tutorial Session - June 2009 Basic measures/scores Threat Score, Critical Success Index takes into account: hits, misses and false alarms correct negative forecast not considered sensitive to climatological frequency of event Equitable Threat Score, Gilbert Skill Score (GSS) it is the TS which includes the hits due to the random forecast Range: 0 to 1 Perfect score = 1 No skill level = 0 Range: -1/3 to 1 Perfect score = 1 No skill level = 0

12 4IWVM - Tutorial Session - June 2009 Basic measures/scores Hanssen & Kuipper’s Skill Score, True Skill Statistic (TSS), Pierce’s Skill Score popular combination of H and F Measures the ability to separate yes (H)and no (F) cases For rare events d is very large -> F small and KSS (TSS) close to POD (H) Related to ROC (Relative Operating Characteristic) Heidke Skill Score Measures fractional improvements over random chance Usually used to score multi-category events Range: -1 to 1 Perfect score = 1 No skill level = 0 Range: - to 1 Perfect score = 1 No skill level = 0

13 4IWVM - Tutorial Session - June 2009 Basic measures/scores Odds Ratio measures the forecast probability(odds) to score a hit (H) compared to giving a false alarm (F) independent of biases unbound Odds Ratio Skill Score produces typically very high absolute skill values (because of its definition) Not widely used in meteorology Range: -1 to 1 Perfect score = 1 Range: 0 to Perfect score = No skill level = 1

14 4IWVM - Tutorial Session - June 2009 Verification history Tornado forecast Tornado Observed yesnoTotal fc yes3070100 no2026802700 Total obs 5027502800 PC=(30+2680)/2800= 96.8% H = 30/50 = 60% FAR = 70/100 = 70% B = 100/50 = 2 Tornado forecast Tornado Observed yesnoTotal fc yes000 no5027502800 Total obs 5027502800 PC=(2750+0)/2800= 98.2% H = 0 = 0% FAR = 0 = 0% B = 0/50 = 0

15 4IWVM - Tutorial Session - June 2009 Multi-category events Generalised version of HSS and KSS - measure of improvement over random forecast The 2x2 tables can be extended to several mutually exhaustive categories  Rain type: rain/snow/freezing rain  Wind warning: strong gale/gale/no gale  Cloud cover: 1-3 okta/4-7 okta/ >7 okta Only PC (Proportion Correct) can be directly generalised Other verification measures need to be converted into a series of 2x2 tables fifi X

16 4IWVM - Tutorial Session - June 2009 Multi-category events Calculate: PC = ? KSS = ? HSS = ? results: PC = 0.61 KSS = 0.41 HSS = 0.37

17 4IWVM - Tutorial Session - June 2009 Summary scores Left panel: Contingency table for five months of categorical warnings against gale-force winds (wind speed > 14m/s) Right panel: Tornado verification statistics B = (a+b)/(a+c)______ ______ PC = (a+d)/n____________ POD = a/(a+c)____________ FAR = b/(a+b)____________ PAG = a/(a+b)____________ F = b/(b+d)____________ KSS = POD-F____________ TS = a/(a+b+c)____________ ETS = (a-a r )/(a+b+c-a r )____________ HSS = 2(ad-bc)/[(a+c)(c+d)+(a+b)(b+d)]____________ OR = ad/bc____________ ORSS = (OR-1)/(OR+1)____________ GALE TORNADO

18 4IWVM - Tutorial Session - June 2009 Summary scores Left panel: Contingency table for five months of categorical warnings against gale-force winds (wind speed > 14m/s) Right panel: Tornado verification statistics B = (a+b)/()a+c)_0.65___2.00_ PC = (a+d)/n_0.91___0.97_ POD = a/(a+c)_0.58___0.60_ FAR = b/(a+b)_0.12___0.70_ PAG = a/(a+b)_0.88___0.30_ F = b/(b+d)_0.02___0.03_ KSS = POD-F_0.56___0.57_ TS = a/(a+b+c)_0.54___0.25_ ETS = (a-a)/(a+b+c-a)_0.48___0.24_ HSS = 2(ad-bc)/[(a+c)(c+d)+(a+b)(b+d)]_0.65___0.39_ OR = ad/bc_83.86__57.43_ ORSS = (OR-1)/(OR+1)_0.98___0.97_ GALE TORNADO

19 4IWVM - Tutorial Session - June 2009 Example 1 http://tinyurl.com/verif-training

20 4IWVM - Tutorial Session - June 2009 Example 1 -- Answer

21 4IWVM - Tutorial Session - June 2009 Example 2

22 4IWVM - Tutorial Session - June 2009 Example 2 -- answer

23 4IWVM - Tutorial Session - June 2009 Example 3

24 4IWVM - Tutorial Session - June 2009 Example 3 -- answer

25 4IWVM - Tutorial Session - June 2009 Example 4

26 4IWVM - Tutorial Session - June 2009 Example 4 -- answer

27 4IWVM - Tutorial Session - June 2009 Example 5

28 4IWVM - Tutorial Session - June 2009 Example 5 -- answer

29 4IWVM - Tutorial Session - June 2009 Example 6

30 4IWVM - Tutorial Session - June 2009 Example 6 -- answer

31 4IWVM - Tutorial Session - June 2009 Example 7

32 4IWVM - Tutorial Session - June 2009 Example 7 -- answer

33 4IWVM - Tutorial Session - June 2009 Example 8

34 4IWVM - Tutorial Session - June 2009 Example 8 -- answer Correct. Rain occurs with a frequency of only about 20% (74/346) at this station True. The frequency bias is 1.31, greater than 1, meaning over forecasting Correct. It could be seen that the over forecasting is accompanied by high false alarm ratio, but the false alarm rate depends on the observation frequencies, and it is low because the climate is relatively dry Probably true. The PC gives credits to all Those “easy” correct forecasts of the non-occurrence. Such forecasts are easy when the non-occurrence is common The POD is high most likely because the Forecaster has chosen to forecast the occurrence of the event too often, and Has increased the false alarms Yes, both the KSS and HSS are well within The positive range. Remember, the standard For the HSS is a chance forecast, which is Easy to beat.

35 4IWVM - Tutorial Session - June 2009 Conclusions Definition of categorical forecast How to build a contingency table and what are the marginal and joint probabilities Basic scores for simple 2x2 tables Extension to multi-category events Practical exercises

36 4IWVM - Tutorial Session - June 2009 references Jolliffe and Stehenson (2003): Forecast verification: A practitioner’s guide, Wiley & sons Nurmi (2003): Recommendations on the verification of local weather forecasts. ECMWF Techical Memorandum, no. 430 Wilks (2005): Statistical methods in the atmospheric sciences, ch. 7. Academic Press JWGFVR (2009): Recommendation on verification of precipitation forecasts. WMO/TD report, no.1485 WWRP 2009-1 http://tinyurl.com/verif-training http://www.bom.gov.au/bmrc/wefor/staff/eee/verif/verif_web_page.html

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