Classification anomaly detection in IOT with Machine Learning
See this notebook for an example of our work.
use a virtual environment with Python 3.6 and install the modules from requirements.txt.
python -m virtualenv venv
source venv/bin/activate
pip install -r requirements.txt
You only need two files, detector.py contains the Detector that is used to store and compute datasets. A example of its usage is shown in main.ipynb.
- body.csv (source: Grete Heinz, Louis J. Peterson, Roger W. Johnson, and Carter J. Kerk. Exploring relationships in body dimensions. Journal of Statistics Education, Volume 11, Number 2)
- moto.csv (sample from the Motorcycle database from Teoalida, which is a gathering of data scrapped of bikez.com)
- moto2.csv (sample from motocicliste.net)
One may use scp to copy databases over a distant server to execute code.
scp *.csv user@host:path/
In order to find the best parameters for each classifier, we use a grid search with cross validation to find the best set of parameters. The class Detector now has a method called tune_parameters which seeks the best set of selected parameters for a given classifier. This method is used in a small Python script called parameters.py that can be run on more powerful servers.
This script outputs a .out file that then can be exported as JSON and/or CSV using beautify.py. You can find examples of those files here.
CSV files are formatted such that a single test batch is split in several files:
- .scores.csv: the detailed scores for each test (including the confusion matrix), along with the unique parameters combination id.
- .params.estimatorName.csv: for each type of classifier, the value of each parameter for every combination using this classifier, along with the combination id used as a foreign key with the scores table.
Side note: the delimiter for those CSV file is currently ;.
The script process_output.py processes thoses CSV files to produce relevant plots. Here is an example:
The following notebook shows how to generate the prediction function. Then, the following script only need this file to classify whether the given record is an anomaly or not:
def classify(class_, length, width):
import pickle
file = open('anomaly_classifier.clf', 'rb')
fun = pickle.load(file)
file.close()
if fun(class_, length, width):
return "malicious"
else:
return "non-malicous"