Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a time series of hourly measurement of environmental and meteorological variables (temperature and humidity) over several years. From these hourly values I would like to calculate a 24 hour running mean to create exposure parameter. For this the requirement is that at least 17 of the hourly measurements should be available with no more than 6 hours of consecutive missing values. If more than 6 hourly values are consecutively missing in 24, the data for that specific date is set to missing. How can I implement this in Stata or SAS?

Thanks in advance

share|improve this question

migrated from stats.stackexchange.com Jun 27 '12 at 20:20

This question came from our site for people interested in statistics, machine learning, data analysis, data mining, and data visualization.

    
Are you asking to reduce your hourly data to daily data, changing your values from (perhaps) DATE, HOUR, TEMP, HUMIDITY to just DATE TEMP, HUMIDITY? –  BellevueBob Jun 27 '12 at 21:46

4 Answers 4

It looks like you can create a dummy variable for a "valid" observation using a combination of

  • by varname : generate ....,

  • egen, and

  • lag variables (L.varname, L2.varname... L24.varname...)

Then, create your average using the subset of your data (e.g., yourcommand ... if dummy==1 ...)

share|improve this answer

Ok here is my attempt. First create some sample data to use:

**
** CREATE ~3 YEARS DAYS OF HOURLY TEMPERATURE DATA
** THIS IS UGLY - IM SURE THERES A BETTER WAY TO DO IT BUT WHATEVER
*;
data tmp;
  pi = constant('pi');
  do year=1 to 3;
    linear_trend = 0.1 * year;
    day = 0;
    do yearly_progress=0 to (pi*2) by (pi/182.5);
      day = day + 1;
      yearly_seasonality = (1 + sin(yearly_progress)) / 2;
      hour = 0;
      day_mod = (ranuni(0)*10);
      do hourly_progress=0 to (pi*2) by (pi/12);
        hourly_seasonality = (1 + sin(hourly_progress)) / 2;
        if hour ne 24 then do;
          temperature = 60*(1+linear_trend) + (20 * yearly_seasonality) + (30 * hourly_seasonality) - day_mod;
          output;
        end;
        hour = hour + 1;
      end;
    end;
  end;
run;


**
** ADD SOME MISSING VALS
** ~ 10% MISSING
** ~ 10 IN A ROW MISSING EVERY 700 OR SO HOURS
*;
data sample_data;
  set tmp;
  if (ranuni(0) < 0.1) or (mod(_n_,710) > 700) then do;
    temperature = .;
  end;
run;

Secondly calculate the moving average for temperature if the requirements are met:

**
** I DONT NORMALLY LIKE USING THE LAG FUNCTION BUT IN THIS CASE ITS IDEAL
*;
data results;
  set sample_data;

  **
  ** POPULATE AN ARRAY WITH THE 24 CURRENT VALUES
  ** BECAUSE WE ARE USING LAG FUNCTION MAKE SURE IT IS NOT WITHIN ANY 
  ** CONDITIONAL IF STATEMENTS
  *;
  array arr [0:23] temperature0-temperature23;
  temperature0  =  lag0(temperature);
  temperature1  =  lag1(temperature);
  temperature2  =  lag2(temperature);
  temperature3  =  lag3(temperature);
  temperature4  =  lag4(temperature);
  temperature5  =  lag5(temperature);
  temperature6  =  lag6(temperature);
  temperature7  =  lag7(temperature);
  temperature8  =  lag8(temperature);
  temperature9  =  lag9(temperature);
  temperature10 = lag10(temperature);
  temperature11 = lag11(temperature);
  temperature12 = lag12(temperature);
  temperature13 = lag13(temperature);
  temperature14 = lag14(temperature);
  temperature15 = lag15(temperature);
  temperature16 = lag16(temperature);
  temperature17 = lag17(temperature);
  temperature18 = lag18(temperature);
  temperature19 = lag19(temperature);
  temperature20 = lag20(temperature);
  temperature21 = lag21(temperature);
  temperature22 = lag22(temperature);
  temperature23 = lag23(temperature);

  **
  ** ITERATE OVER THE ARRAY VARIABLES TO MAKE SURE WE MEET THE REQUIREMENTS
  *;
  available_observations  = 0;
  missing_observations    = 0;
  max_consecutive_missing = 0;
  tmp_consecutive_missing = 0;
  do i=0 to 23;
    if arr[i] eq . then do;
      missing_observations    = missing_observations + 1;
      tmp_consecutive_missing = tmp_consecutive_missing + 1;
      max_consecutive_missing = max(max_consecutive_missing, tmp_consecutive_missing);
    end;
    else do;
      available_observations  = available_observations + 1;        
      tmp_consecutive_missing = 0;
    end;
  end;

  if tmp_consecutive_missing <= 6 and available_observations >= 17 then do;
    moving_avg = mean(of temperature0-temperature23);
  end;
run;
share|improve this answer
1  
Hi Rob, your calculation of the moving average has a slight error, in that mean(of temperature:) includes the column 'temperature' as well as 'temperature0'-'temperature23', so the first value is being double counted. –  Keith Jun 28 '12 at 12:27
    
Just to add to my previous comment, you could obviously replace mean(of temperature:) with mean(of arr{*}) as the values are stored in the array. –  Keith Jun 28 '12 at 12:54
    
Thanks - I'll make the correction –  Robert Penridge Jun 28 '12 at 14:00

A Stata solution:

  1. Use tssmooth ma myvar_ma = myvar, w(24) to create a moving average. Missings will be ignored.

  2. Create an indicator gen ismiss = missing(myvar)

  3. Use tssmooth ma ismiss_ma = ismiss, w(24) to create a moving average of the indicator.

  4. replace myvar_ma = . if ismiss_ma > (7/24)

(At least 17/24 must be present, so 7 or fewer missing is acceptable, but 8 or more is not.

share|improve this answer

For general moving average calculations, using PROC EXPAND is the easiest method (you need ETS licenced to use this procedure). For example, the code below will calculate a 24 period moving average and set the first 16 observations to missing. However, to comply with the rest of your criteria you would still need to run a data step afterwards, along the lines of Rob's code, so you may as well perform all the calculations within that step.

proc expand data=sample_data out=mov_avg_results;
convert temperature=mean_temp / method=none transformout=(movave 24 trimleft 17);
run;
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.