Introduction to the basic terminology and notations
Now that we have discussed the three broad categories of machine learning—supervised, unsupervised, and reinforcement learning—let us have a look at the basic terminology that we will be using throughout the book. The following table depicts an excerpt of the Iris dataset, which is a classic example in the field of machine learning. The Iris dataset contains the measurements of 150 Iris flowers from three different species—Setosa, Versicolor, and Virginica. Here, each flower sample represents one row in our dataset, and the flower measurements in centimeters are stored as columns, which we also call the features of the dataset:
To keep the notation and implementation simple yet efficient, we will make use of some of the basics of linear algebra. In the following chapters, we will use a matrix and vector notation to refer to our data. We will follow the common convention to represent each sample as a separate row in a feature matrix X, where each feature is stored as a separate column.
The Iris dataset consisting of 150 samples and four features can then be written as a 
matrix 
:
Note
For the rest of this book, unless noted otherwise, we will use the superscript i to refer to the ith training sample, and the subscript j to refer to the jth dimension of the training dataset.
We use lowercase, bold-face letters to refer to vectors 
and uppercase, bold-face letters to refer to matrices 
. To refer to single elements in a vector or matrix, we write the letters in italics (
or 
, respectively).
For example, 
refers to the first dimension of flower sample 150, the sepal length. Thus, each row in this feature matrix represents one flower instance and can be written as a four-dimensional row vector 
:
And each feature dimension is a 150-dimensional column vector 
. For example:
Similarly, we store the target variables (here, class labels) as a 150-dimensional column vector:
