# Least Angle Regression (LARS)

Regression is a supervised machine learning task that can predict continuous values (real numbers), as compared to classification, that can predict categorical or discrete values. Before we begin, if you are a beginner, I highly recommend this article.

Least Angle Regression (LARS) is an algorithm used in regression for high dimensional data (i.e., data with a large number of attributes). Least Angle Regression is somewhat similar to forward stepwise regression. Since it is used with data that has lots of attributes, at each step, LARS finds the attribute which is most highly correlated to the target value. There may be more than one attribute that has the same correlation. In this scenario, LARS averages the attributes and proceeds in a direction that is at the same angle to the attributes. This is exactly why this algorithm is called **Least Angle **regression. Basically, LARS makes leaps in the most optimally calculated direction without overfitting the model. **Algorithm: **

- Normalize all values to have zero mean and unit variance.
- Find a variable that is most highly correlated to the residual. Move the regression line in this direction until we reach another variable that has the same or higher correlation.

**Note :** **Residual **is the difference between the observed value and the predicted value. **Variable**, here implies an attribute.

- When we have two variables that have the same correlation, move the regression line at an angle that is in between (i.e., least angle between the two variables).
- Continue this until all of our data is exhausted or until you think the model is big and ‘general’ enough.

Mathematically, LARS works as follows :

- All coefficients, ‘B’ are set to 0.
- The predictor, x
_{j }is found that is most correlated to y. - Increase the coefficient B
_{j}in the direction that is most correlated with y and stop when you find some other predictor x_{k }the has equal or higher correlation than x_{j}. - Extend (B
_{j}, B_{k}) in a direction that is**equiangular**(has the same angle) to both x_{j }and x_{k}. - Continue and repeat until all predictors are in the model.

**Implementation of LARS in Python3:**

For this example, we will be using the Boston housing dataset that has the median value of homes in the Boston Massachusetts area. You can learn more bout this dataset here.

For evaluation, we will be using the r2 score. The best possible r2 score is 1.0. It can also be negative and is 0, when the predictor always predicts a constant value, regardless of values of attributes. **Code: **

## python3

`# Importing modules that are required` `from` `sklearn.datasets ` `import` `load_boston` `from` `sklearn.linear_model ` `import` `LassoLars` `from` `sklearn.metrics ` `import` `r2_score` `from` `sklearn.model_selection ` `import` `train_test_split` `# Loading dataset` `dataset ` `=` `load_boston()` `X ` `=` `dataset.data` `y ` `=` `dataset.target` `# Splitting training and testing data` `X_train, X_test, y_train, y_test ` `=` `train_test_split(X, y,` ` ` `test_size ` `=` `0.15` `, random_state ` `=` `42` `)` `# Creating and fitting the regressor` `regressor ` `=` `LassoLars(alpha ` `=` `0.1` `)` `regressor.fit(X_train, y_train)` `# Evaluating model` `prediction ` `=` `regressor.predict(X_test)` `print` `(f` `"r2 Score of test set : {r2_score(y_test, prediction)}"` `)` |

**Output: **

r2 Score of test set : 0.6815908068381828

We have achieved an r2 score of approximately 0.6816, which is actually quite good. **Advantages of using LARS: **

- Computationally as fast as forward selection but may sometimes be more accurate.
- Numerically very efficient when the number of features is much larger than the number of data instances.
- It can easily be modified to produce solutions for other estimators.

**Disadvantages of using LARS: **

- LARS is highly sensitive to noise and can produce unpredictable results sometimes.

**Reference:**

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