# What Is Differential Privacy?

# What Is Differential Privacy?

### Differential privacy has been around for a while but continues to gather momentum with its solid mathematical backing. Let's investigate.

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Join For Free**Differential privacy** is a strong form of privacy protection with a solid mathematical definition.

Roughly speaking, a query is **differentially private** if it makes little difference whether your information is included or not. This intuitive idea can be made precise as follows.

## Queries and Algorithms

First of a differential privacy is something that applies to **queries**, not to databases. It *could* apply to a database if your query is to select everything in the database, but typically, you want to run far more specific queries. Differential privacy adds noise to protect privacy, and the broader the query, the more noise must be added. Typically, you want queries to be more narrow than "Tell me everything about everything."

Generally, the differential privacy literature speaks of **algorithms** rather than queries. The two are the same if you have a general idea of what a query is, but using the word *algorithm* emphasizes that the query need not be a simple SQL query.

## Opt-Out and Neighboring Databases

To quantify the idea of "whether your information is included or not," we look at two versions of a database: *D* and *D'. *These differ by one row, which you can think of as the row containing your data. Our formalism is symmetric, so we do not specify which database, *D* or *D* ', is the one which contains your row and which is missing your row.

We should mention some fine print here. The paragraph above implicitly assumes that your database is just a simple table. In general, we can speak of **neighboring** databases. In the case of a more complex database design, the notion of what it means for two databases to be neighboring is more complex. Differential privacy can be defined whenever a notion of neighboring databases can be defined, so you could, for example, consider differential privacy for a non-relational ("No SQL") database. But for the simple case of a single table, two databases are neighboring if they differ by a row.

However, there's a subtlety regarding what it means even for two tables to "differ by one row." **Unbound** differential privacy assumes one row has been removed from one of the databases. **Bound** differential privacy assumes the two databases have the same number of rows, but the data in one row has been changed. In practice, the difference between bound and unbound differential privacy doesn't often matter.

## Quantifying Difference

We said it "makes little difference" whether an individual's data is included or not. How do we quantify that statement? Differential privacy is a stochastic procedure, so we need to measure the difference in terms of probability.

Whenever mathematicians want to speak of two things being close together, we often use the "ε" as our symbol. While, in principle, ε could be large, the choice of symbol implies that you should think of it as a quantity you can make as small as you like (though there may be some cost that increases as ε decreases).

We're going to look at ratios of probabilities, so we want these ratios to be near 1. This means we'll work with *e*^{ε} = exp(ε) rather than ε itself. A convenient property that falls out of the Taylor series for the exponential function is that if ε is small then exp(ε) is approximate 1+ε. For example, exp(0.05) = 1.0513, and so if the ratio of two probabilities is bounded by exp(0.05), the probabilities are roughly within 5 percent of each other.

## Definition of Differential Privacy

Now, we can finally state our definition. An algorithm *A* satisfies ε-differential privacy if for every *t* in the range of *A*,

Here, it is understood that 0/0 = 1, i.e. if an outcome has zero probability under both databases, differential privacy holds.

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