2

Using DBSCAN,

(DBSCAN(eps=epsilon, min_samples=10, algorithm='ball_tree', metric='haversine')

I have clustered a list of latitude and longitude pairs, for which I then plotted using matplotlib. When plotting, it includes the "noise" coordinates, which are the points that are not assigned to one of the 270 clusters created. I would like to remove the noise from the plot, and just plot the clusters meeting the requirements specified, but I'm not sure how to do so. How might I go about excluding the noise (again, those points not assigned to a cluster)?

Below is the code I have used to cluster and plot:

df = pd.read_csv('xxx.csv')

# define the number of kilometers in one radiation
# which will be used to convert esp from km to radiation
kms_per_rad = 6371.0088

# define a function to calculate the geographic coordinate
# centroid of a cluster of geographic points
# it will be used later to calculate the centroids of DBSCAN cluster
# because Scikit-learn DBSCAN cluster class does not come with centroid attribute.
def get_centroid(cluster):
"""calculate the centroid of a cluster of geographic coordinate points
Args:
  cluster coordinates, nx2 array-like (array, list of lists, etc)
  n is the number of points(latitude, longitude)in the cluster.
Return:
  geometry centroid of the cluster

"""
cluster_ary = np.asarray(cluster)
centroid = cluster_ary.mean(axis=0)
return centroid

# convert eps to radians for use by haversine
epsilon = 0.1/kms_per_rad #1.5=1.5km  1=1km  0.5=500m 0.25=250m   0.1=100m

# Extract intersection coordinates (latitude, longitude)
tweet_coords = df.as_matrix(columns=['latitude','longitude'])

start_time = time.time()
dbsc = (DBSCAN(eps=epsilon, min_samples=10, algorithm='ball_tree', metric='haversine')
    .fit(np.radians(tweet_coords)))

tweet_cluster_labels = dbsc.labels_

# get the number of clusters
num_clusters = len(set(dbsc.labels_))

# print the outcome
message = 'Clustered {:,} points down to {:,} clusters, for {:.1f}% compression in {:,.2f} seconds'
print(message.format(len(df), num_clusters, 100*(1 - float(num_clusters) / len(df)), time.time()-start_time))
print('Silhouette coefficient:     {:0.03f}'.format(metrics.silhouette_score(tweet_coords, tweet_cluster_labels)))

# Turn the clusters into a pandas series,where each element is a cluster of points
dbsc_clusters = pd.Series([tweet_coords[tweet_cluster_labels==n] for n in  range(num_clusters)])

# get centroid of each cluster
cluster_centroids = dbsc_clusters.map(get_centroid)
# unzip the list of centroid points (lat, lon) tuples into separate lat and lon lists
cent_lats, cent_lons = zip(*cluster_centroids)
# from these lats/lons create a new df of one representative point for eac   cluster
centroids_df = pd.DataFrame({'longitude':cent_lons, 'latitude':cent_lats})
#print centroids_df

# Plot the clusters and cluster centroids
fig, ax = plt.subplots(figsize=[20, 12])
tweet_scatter = ax.scatter(df['longitude'], df['latitude'],   c=tweet_cluster_labels, cmap = cm.hot, edgecolor='None', alpha=0.25, s=50)
centroid_scatter = ax.scatter(centroids_df['longitude'], centroids_df['latitude'], marker='x', linewidths=2, c='k', s=50)
ax.set_title('Tweet Clusters & Cluser Centroids', fontsize = 30)
ax.set_xlabel('Longitude', fontsize=24)
ax.set_ylabel('Latitude', fontsize = 24)
ax.legend([tweet_scatter, centroid_scatter], ['Tweets', 'Tweets Cluster Centroids'], loc='upper right', fontsize = 20)
plt.show()

cluster_small_scale

cluster_large_scale

Black points are the noise, those not added in a cluster as defined by DBSCAN inputs, and colored points are clusters. My goal is to visualize just the clusters.

  • I edited the post to include just one question. Noise are points not assigned to a cluster using the algorithm. – andrew-ryan Apr 2 '17 at 20:07
  • I hope this latest edit provides further clarification on noise, and what I'm attempting to accomplish. I've tried to include screenshots of my results but I'm not high enough reputation yet. – andrew-ryan Apr 2 '17 at 20:46
  • 1
    Images are helpful. You can put them in, they will be shown as links. – ImportanceOfBeingErnest Apr 2 '17 at 21:06
  • If you notify me, I can put them inside – Martin Thoma Apr 2 '17 at 21:11
  • Martin, I was able to include links to imgur – andrew-ryan Apr 2 '17 at 21:11
2

Store the labels in an additional column in the original DataFrame

df['tweet_cluster_labels'] = tweet_cluster_labels

filter the DataFrame so that it only contains non-noise points (noisy samples are given the label -1)

df_filtered = df[df.tweet_cluster_labels>-1]

and plot just those points

tweet_scatter = ax.scatter(df_filtered['longitude'], 
                df_filtered['latitude'],
                c=df_filtered.tweet_cluster_labels, 
                cmap=cm.hot, edgecolor='None', alpha=0.25, s=50)
  • New data frame did the trick! Thanks for the help! – andrew-ryan Apr 3 '17 at 0:31

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