*Definitions*

**KNN algorithm** = K-nearest-neighbour classification algorithm

**K-means** = centroid-based clustering algorithm

**DTW** = Dynamic Time Warping a similarity-measurement algorithm for time-series

I show below step by step about how the two time-series can be built and how the Dynamic Time Warping (DTW) algorithm can be computed. You can build a unsupervised k-means clustering with scikit-learn without specifying the number of centroids, then the scikit-learn knows to use the algorithm called `auto`

.

**Building the time-series and computing the DTW**

You have have two time-series and you compute the DTW such that

```
import pandas as pd
import numpy as np
import random
from dtw import dtw
from matplotlib.pyplot import plot
from matplotlib.pyplot import imshow
from matplotlib.pyplot import cm
from sklearn.cluster import KMeans
from sklearn.preprocessing import MultiLabelBinarizer
#About classification, read the tutorial
#http://scikit-learn.org/stable/tutorial/basic/tutorial.html
def createTs(myStart, myLength):
index = pd.date_range(myStart, periods=myLength, freq='H');
values= [random.random() for _ in range(myLength)];
series = pd.Series(values, index=index);
return(series)
#Time series of length 30, start from 1/1/2000 & 1/2/2000 so overlap
myStart='1/1/2000'
myLength=30
timeS1=createTs(myStart, myLength)
myStart='1/2/2000'
timeS2=createTs(myStart, myLength)
#This could be your dataframe but unnecessary here
#myDF = pd.DataFrame([x for x in timeS1.data], [x for x in timeS2.data])#, columns=['data1', 'data2'])
x=[xxx*100 for xxx in sorted(timeS1.data)]
y=[xx for xx in timeS2.data]
choice="dtw"
if (choice="timeseries"):
print(timeS1)
print(timeS2)
if (choice=="drawingPlots"):
plot(x)
plot(y)
if (choice=="dtw"):
#DTW with the 1st order norm
myDiff=[xx-yy for xx,yy in zip(x,y)]
dist, cost, acc, path = dtw(x, y, dist=lambda x, y: np.linalg.norm(myDiff, ord=1))
imshow(acc.T, origin='lower', cmap=cm.gray, interpolation='nearest')
plot(path[0], path[1], 'w')
```

**Classification of the time-series with KNN**

It is not evident in the question about what should be labelled and with which labels? So please provide the following details

- What should we label in the data-frame? The path computed by DTW algorithm?
- Which type of labeling? Binary? Multiclass?

after which we can decide our classification algorithm that may be the so-called KNN algorithm. It works such that you have two separate data sets: training set and test set. By training set, you teach the algorithm to label the time series while the test set is a tool by which we can measure about how well the model works with model selection tools such as AUC.

*Small puzzle left open until details provided about the questions*

```
#PUZZLE
#from tutorial (#http://scikit-learn.org/stable/tutorial/basic/tutorial.html)
newX = [[1, 2], [2, 4], [4, 5], [3, 2], [3, 1]]
newY = [[0, 1], [0, 2], [1, 3], [0, 2, 3], [2, 4]]
newY = MultiLabelBinarizer().fit_transform(newY)
#Continue to the article.
```

Scikit-learn comparison article about classifiers is provided in the second enumerate item below.

**Clustering with K-means (not the same as KNN)**

K-means is the clustering algorithm and its unsupervised version you can use such that

```
#Unsupervised version "auto" of the KMeans as no assignment for the n_clusters
myClusters=KMeans(path)
#myClusters.fit(YourDataHere)
```

which is very different algorithm than the KNN algorithm: here we do not need any labels. I provide you further material on the topic below in the first enumerate item.

**Further reading**

Does K-means incorporate the K-nearest-neighbour algorithm?

Comparison about classifiers in scikit learn here