Python用 tslearn 进行时间序列聚类可视化

import pandas as pd
import numpy as np

from tslearn.preprocessing import TimeSeriesScalerMeanVariance

n_clusters = 50 # number of clusters to fit

smooth_n = 15 # n observations to smooth over

model = 'kmeans' # one of ['kmeans','kshape','kernelkmeans','dtw']

if n_charts:
    charts = np.random.choice(get_chart_list(host), n_charts).tolist()
    print(charts)
else:
    charts = get_chart_list(host)
# get data
df = get_data(host, charts, after=-n, before=0)

if smooth_n > 0:
    if smooth_func == 'mean':
        df = df.rolling(smooth_n).mean().dropna(how='all')
    elif smooth_func == 'max':
        df = df.rolling(smooth_n).max().dropna(how='all')
    elif smooth_func == 'min':
        df = df.rolling(smooth_n).min().dropna(how='all')
    elif smooth_func == 'sum':
        df = df.rolling(smooth_n).sum().dropna(how='all')
    else:
        df = df.rolling(smooth_n).mean().dropna(how='all')

print(df.shape)
df.head()

if model == 'kshape':
    model = KShape(n_clusters=n_clusters, max_iter=10, n_init=2).fit(X)
elif model == 'kmeans':
    model = TimeSeriesKMeans(n_clusters=n_clusters,

cluster_metrics_dict = df_cluster.groupby(['cluster'])['metric'].apply(lambda x: [x for x in x]).to_dict()
cluster_len_dict = df_cluster['cluster'].value_counts().to_dict()

clusters_final.sort()

df_cluster.head()

for cluster_number in clusters_final:
 
    x_corr = df[cluster_metrics_dict[cluster_number]].corr().abs().values
   
    plot_lines(df, cols=cluster_metrics_dict[cluster_number], renderer='colab', theme=None, title=plot_title)