# Normalization of several time-series of different lengths and scale

Say I have several random time-series in numpy, e.g.:

``````my_time_series = dict()
for L in range(20,50,10):
scaling = np.random.randint(100)
my_time_series[L] = scaling * np.random.rand(L) + scaling * np.random.rand(L)
``````

I would like to normalize them in scale and length so that can I visualize them and compare changes over time. To do this, one approach would be the following:

1. Normalization in scale: Apply Z-standarization
2. Normalization in length: Stretch (interpolate) the shorter time-series to the length of the longest one, so that they all have the same length.

Motivation: I am mostly interested in comparing the relative variability of the time-series over their lifespan (regardless of how long they are).

How can I do this in numpy?

## 1 Answer

``````y_normed = {k: (data-np.mean(data))/np.std(data)
for k, data in my_time_series.items()}

maxlength = max(my_time_series)
x_interped = {k: np.interp(np.linspace(0, 1, maxlength),
np.linspace(0, 1, k), data)
for k, data in y_normed.items()}

[plot(data) for data in x_interped.values()]
`````` • Thanks for sharing this. Can we normalize this way to forecast time series in different scales? – Yohan Chung Apr 26 '20 at 10:59