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I am using python to look at monthly climate data. Basically, I have calculated averages for both the observed values and simulated values of each month. I am "normalizing" or multiplying the entire simulated timeseries by the ratio observed/simulated from 1964-2013 (1 value for each month). How do I multiply the constant for each month by that respective month throughout the entire timeseries?

Observed Dataset

Date           Obs   
1964-01-01  2.362798
1964-02-01  2.581734
1964-03-01  1.978354
1964-04-01  1.297320
1964-05-01  2.419230
1964-06-01  1.792333
1964-07-01  1.241412
1964-08-01  1.738074
1964-09-01  0.232911
1964-10-01 -1.790989
1964-11-01  1.902479
1964-12-01  2.304906
1965-01-01  2.913466
1965-02-01  2.895884
1965-03-01  2.457741
1965-04-01  3.435275
1965-05-01  4.428590
1965-06-01  4.530668
1965-07-01  4.096984
1965-08-01  3.543258
1965-09-01  2.856509
1965-10-01  2.817188
1965-11-01  3.838903
1965-12-01  3.985564
...

Simulated Dataset

Date            Sim
1964-01-01    4.114642
1964-02-01    4.115002
1964-03-01    4.524121
1964-04-01    4.490407
1964-05-01    4.771731
1964-06-01    5.308645
1964-07-01    4.921411
1964-08-01    4.690133
1964-09-01    4.377383
1964-10-01    4.810576
1964-11-01    4.775757
1964-12-01    4.323243
1965-01-01    4.264359
1965-02-01    4.347614
1965-03-01    4.409341
1965-04-01    4.570921
1965-05-01    5.131675
1965-06-01    4.950372
1965-07-01    4.711410
1965-08-01    4.460363
1965-09-01    4.223364
1965-10-01    4.092056
1965-11-01    4.102400
1965-12-01    3.963300
...

I know how to find the average of each month for both datasets using:

    obs_mean=OBS.groupby(OBS.index.strftime("%m")).mean()
    sim_mean=SIM.groupby(OBS.index.strftime("%m")).mean()

Then I can get a ratio of observed/simulated by:

    obsarray = np.squeeze(obs_mean.values)
    simarray= np.squeeze(sim_mean.values)
    N_mean=(obsarray)/(simarray)

N_mean yield the following:

[0.74664557 0.75842637 0.72030754 0.68142632 0.68588863 0.56606582
 0.54309691 0.54699926 0.50097214 0.48727185 0.71990437 0.75965146]

How do I apply this N_mean value, for each month, to each respective month in the original simulated timeseries. So, for January N=0.74664557, I want to multiply this coefficient by each January value on the simulated timeseries. Another thing to keep in mind is that this coefficient is based on the 50-year baseline (1964-2013) and I want to apply this coefficient to a larger simulated timeseries (1950-2100). Is this easier to accomplish within the pandas framework? Any help would be greatly appreciated!

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First compute the ratio using groupby and mean, then use reindex to broadcast the result across all rows of sim and multiply.

u = pd.concat([obs, sim], axis=1)
v = u.groupby(u.index.month).mean().eval('Obs / Sim')

sim.mul(v.reindex(obs.index.month).values, axis=0)
  • I think the groupby index.month wouldn't work in this case because the data spans multiple years – Sven Harris Jan 21 at 19:55
  • @SvenHarris "I am using python to look at monthly climate data" so, years are irrelevant – cs95 Jan 21 at 19:56
  • Yeah you're right, that makes sense, misread the data/question – Sven Harris Jan 21 at 19:58
  • Wow, this is exactly what I was looking for! Thank you so much! If I have about 20 more columns of simulated data, how could I go through doing this procedure on each column most efficiently? – Jeff Coldplume Jan 21 at 20:41
  • @JeffColdplume Do you mean to say that each DataFrame could have 20 columns (such as obs1, obs2, .... and sim1, sim2, ...)? – cs95 Jan 21 at 20:42
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I would recommend you first merge the two frames together, (looks like you're using a shared time index)

joined_df = obs_df.join(sim_df, how="outer")

You can then apply-transform your groupby values to create new columns in your original DataFrame

joined_df[["sim_mean", "obs_mean"]] = joined_df.groupby(joined_df.index.month)[["Sim", "Obs"]].transform("mean")

You can then find a ratio of the columns

joined_df["n_mean"] = joined_df["obs_mean"]/joined_df["sim_mean"]

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