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For working on numerical data, Pandas provide few variants like rolling, expanding and exponentially moving weights for window statistics. Among these are sum, mean, median, variance, covariance, correlation, etc.
We will now learn how each of these can be applied on DataFrame objects.
.rolling() Function
This function can be applied on a series of data. Specify the window=n argument and apply the appropriate statistical function on top of it.
import pandas as pd import numpy as np df = pd.DataFrame(np.random.randn(10, 4), index = pd.date_range(''1/1/2000'', periods=10), columns = [''A'', ''B'', ''C'', ''D'']) print df.rolling(window=3).mean()
Its output is as follows −
A B C D 2000-01-01 NaN NaN NaN NaN 2000-01-02 NaN NaN NaN NaN 2000-01-03 0.434553 -0.667940 -1.051718 -0.826452 2000-01-04 0.628267 -0.047040 -0.287467 -0.161110 2000-01-05 0.398233 0.003517 0.099126 -0.405565 2000-01-06 0.641798 0.656184 -0.322728 0.428015 2000-01-07 0.188403 0.010913 -0.708645 0.160932 2000-01-08 0.188043 -0.253039 -0.818125 -0.108485 2000-01-09 0.682819 -0.606846 -0.178411 -0.404127 2000-01-10 0.688583 0.127786 0.513832 -1.067156
Note − Since the window size is 3, for first two elements there are nulls and from third the value will be the average of the n, n-1 and n-2 elements. Thus we can also apply various functions as mentioned above.
.expanding() Function
This function can be applied on a series of data. Specify the min_periods=n argument and apply the appropriate statistical function on top of it.
import pandas as pd import numpy as np df = pd.DataFrame(np.random.randn(10, 4), index = pd.date_range(''1/1/2000'', periods=10), columns = [''A'', ''B'', ''C'', ''D'']) print df.expanding(min_periods=3).mean()
Its output is as follows −
A B C D 2000-01-01 NaN NaN NaN NaN 2000-01-02 NaN NaN NaN NaN 2000-01-03 0.434553 -0.667940 -1.051718 -0.826452 2000-01-04 0.743328 -0.198015 -0.852462 -0.262547 2000-01-05 0.614776 -0.205649 -0.583641 -0.303254 2000-01-06 0.538175 -0.005878 -0.687223 -0.199219 2000-01-07 0.505503 -0.108475 -0.790826 -0.081056 2000-01-08 0.454751 -0.223420 -0.671572 -0.230215 2000-01-09 0.586390 -0.206201 -0.517619 -0.267521 2000-01-10 0.560427 -0.037597 -0.399429 -0.376886
.ewm() Function
ewm is applied on a series of data. Specify any of the com, span, halflife argument and apply the appropriate statistical function on top of it. It assigns the weights exponentially.
import pandas as pd import numpy as np df = pd.DataFrame(np.random.randn(10, 4), index = pd.date_range(''1/1/2000'', periods=10), columns = [''A'', ''B'', ''C'', ''D'']) print df.ewm(com=0.5).mean()
Its output is as follows −
A B C D 2000-01-01 1.088512 -0.650942 -2.547450 -0.566858 2000-01-02 0.865131 -0.453626 -1.137961 0.058747 2000-01-03 -0.132245 -0.807671 -0.308308 -1.491002 2000-01-04 1.084036 0.555444 -0.272119 0.480111 2000-01-05 0.425682 0.025511 0.239162 -0.153290 2000-01-06 0.245094 0.671373 -0.725025 0.163310 2000-01-07 0.288030 -0.259337 -1.183515 0.473191 2000-01-08 0.162317 -0.771884 -0.285564 -0.692001 2000-01-09 1.147156 -0.302900 0.380851 -0.607976 2000-01-10 0.600216 0.885614 0.569808 -1.110113
Window functions are majorly used in finding the trends within the data graphically by smoothing the curve. If there is lot of variation in the everyday data and a lot of data points are available, then taking the samples and plotting is one method and applying the window computations and plotting the graph on the results is another method. By these methods, we can smooth the curve or the trend.
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