Data science and artificial intelligence (AI) techniques have been applied successfully for a number of years to predict or detect all kinds of events in very different domains, including:
- Biology DNA fragments
- Customer behaviors
- Life cycle control of mechanical pieces in IoT
- Creation of new molecules in the pharma industry
- Mood analysis in social media
- Fraud detection in credit card transactions
- Disease wave prediction in epidemiology
- Heart beat classification in the ECG signal
- Human face recognition
- Speech recognition
If you run a quick web search on "machine learning use cases," you will find pages and pages of links to documents describing machine learning (ML) algorithms to detect or predict some kind of event group in some kind of data domain.
Generally, the key to a successful machine learning-based application is a sufficiently general training set. The ML model, during training, should have a sufficient number of available examples to learn about each event group. This is one of the key points to any data science project: the availability of a sufficiently large number of event examples to train the algorithm.
Applying Machine Learning to IoT Event Prediction
Can security teams apply a machine learning algorithm to predict or recognize deterioration of mechanical pieces, or to detect cybersecurity breaches? The answer is, yes! Data science techniques have already been successfully utilized in the field of IoT and cybersecurity. For example, a classic usage of machine learning in IoT is demand prediction. How many customers will visit the restaurant this evening? How many cartons of milk will be sold? How much energy will be consumed tomorrow? Knowing the numbers in advance allows for better planning.
Healthcare is another very common usage of data science in IoT. There are many sports fitness applications and devices to monitor our vital signs, making available an abundance of data available in near real time that can be studied and used to assess a person's health condition.
Another common case study in IoT is predictive maintenance. The capability to predict if and when a mechanical piece will need maintenance leads to an optimum maintenance schedule and extends the lifespan of the machinery until its last breath. Considering that many machinery pieces are quite sophisticated and expensive, this is not a small advantage. This approach works well if a data set is available — and even better if the data set has been labeled. Labeled data means that each vector of numbers describing an event has been preassigned to a given class of events.
Anomaly Discovery: Looking for the Unexpected
A special branch of data science, however, is dedicated to discovering anomalies. What is an anomaly? An anomaly is an extremely rare episode, hard to assign to a specific class, and hard to predict. It is an unexpected event, unclassifiable with current knowledge. It's one of the hardest use cases to crack in data science because:
- The current knowledge is not enough to define a class.
- More often than not, no examples are available in the data to describe the anomaly.
So, the problem of anomaly detection can be easily summarized as looking for an unexpected, abnormal event of which we know nothing and of which we have no data examples. As hopeless as this may seem, it is not an uncommon use case.
- Fraudulent transactions, for example, rarely happen and often occur in an unexpected modality.
- Expensive mechanical pieces in IoT will break at some point without much indication on how they will break.
- A new arrhythmic heart beat with an unrecognizable shape sometimes shows up in ECG tracks.
- A cybersecurity threat might appear and not be easily recognized because it has never been seen before.
In these cases, the classic data science approach, based on a set of labeled data examples, cannot be applied. The solution to this problem is a twist on the usual algorithm learning from examples.
Anomaly Detection in IoT
In IoT data, signal time series are produced by sensors strategically located on or around a mechanical component. A time series is the sequence of values of a variable over time. In this case, the variable describes a mechanical property of the object, and it is measured via one or more sensors.
Usually, the mechanical piece is working correctly. As a consequence, we have tons of examples for the piece working in normal conditions and close to zero examples for the piece failure. This is especially true if the piece plays a critical role in a mechanical chain because it is usually retired before any failure happens and compromises the whole machinery.
In IoT, a critical problem is to predict the chance of a mechanical failure before it actually happens. In this way, we can use the mechanical piece throughout its entire life cycle without endangering the other pieces in the mechanical chain. This task of predicting possible signs of mechanical failure is called anomaly detection in predictive maintenance.
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