## Overview

- Learn about the different regression types in machine learning, including linear and logistic regression
- Each regression technique has its own regression equation and regression coefficients
- We cover 7 different regression types in this article

## Introduction

Linear and Logistic regressions are usually the first algorithms people learn in data science. Due to their popularity, a lot of analysts even end up thinking that they are the only form of regressions. The ones who are slightly more involved think that they are the most important among all forms of regression analysis.

The truth is that there are innumerable forms of regressions, which can be performed. Each form has its own importance and a specific condition where they are best suited to apply. In this article, I have explained the most commonly used 7 types of regression in data science in a simple manner.

Through this article, I also hope that people develop an idea of the breadth of regressions, instead of just applying linear/logistic regression to every machine learning problem they come across and hoping that they would just fit!

We also have the video format of the main regression analysis technique in the following free course- Fundamentals of Regression Analysis

And if you’re new to data science and looking for a place to start your journey,ย we have some comprehensive courses that you might be interested in-

- ย Introduction to Data Science Course: Covering the core topics of Python, Statistics and Predictive Modeling, it is the perfect way to take your first steps into data science
- Certified AI & ML Blackbelt+ Program

## Table of Contents

- What is Regression Analysis?
- Why do we use Regression Analysis?
- What are the types of Regressions?
- Linear Regression
- Logistic Regression
- Polynomial Regression
- Stepwise Regression
- Ridge Regression
- Lasso Regression
- ElasticNet Regression

- How to select the right Regression Model?

## What is Regression Analysis?

Regression analysis is a form of predictive modelling technique which investigates the relationship between a **dependentย **(target)ย and **independent variable (s)** (predictor).ย This technique is used for forecasting, time series modelling and finding the causal effect relationship between the variables. For example, relationship between rash driving andย number of road accidents by a driver is best studied through regression.

Regression analysis is an important tool for modelling and analyzing data.ย Here, we fit a curve / line to the data points, in such a manner that the differences betweenย the distances of data points from the curve or line is minimized. ย I’ll explain this in more details in coming sections.

## Why do we use Regression Analysis?

As mentioned above, regression analysis estimatesย the relationship between two or more variables. Let’s understand this withย an easy example:

Let’s say, you want to estimate growth in sales of a company based on current economic conditions. You have the recent company data whichย indicates that the growth in sales is around two and a half times the growth in the economy. Using this insight, we can predict future sales of the company based on current & past information.

There are multiple benefits of using regression analysis. They are as follows:

- It indicatesย theย
**significant relationships**between dependent variable and independent variable. - It indicates theย
**strength of impact**of multipleย independent variables on a dependent variable.

Regression analysis also allows us to compare the effects of variables measured on different scales, such as the effect of price changes and the number of promotional activities.ย These benefits help market researchers / data analysts / data scientists to eliminate and evaluateย the best set of variables to be used forย building predictive models.

## How many types of regression techniquesย do we have?

There are various kinds of regression techniques available to make predictions. These techniques are mostly driven byย three metrics (number of independent variables, type of dependent variables and shape of regression line). We’ll discuss them inย detail in the following sections.

For the creative ones, you can even cook up new regressions, if you feel the need to use a combination of the parameters above, which people haven’t used before. But before you start that, let us understand the most commonly used regressions:

## 1. Linear Regression

It is one of the most widely known modeling technique. Linear regression is usually among the first few topics which people pick while learning predictive modeling.ย In this technique,ย the dependent variable is continuous, independent variable(s) can be continuous or discrete,ย and nature of regression line is linear.

Linear Regressionย establishes aย relationship between **dependent variable (Y)** and one or more **independentย variables (X)** using a **best fit straight line** (also known as regression line).

It isย represented by an equation **Y=a+b*X + e**, where a is intercept, b is slope of the lineย andย e is error term. This equation can be used to predict the value of target variable based on given predictorย variable(s).

The difference between simple linear regression and multiple linear regression is that, multiple linear regression has (>1) independent variables, whereas simple linear regression has only 1 independent variable. ย Now, the question is “How do we obtainย best fit line?”.

#### How toย obtain best fit line (Value of a and b)?

This task can be easily accomplished by Least Square Method.ย It isย the most common method used for fitting a regression line. Itย calculates the best-fit line for the observed data by minimizing the sum of the squares of the vertical deviations from each data point to the line. Because the deviations are first squared, when added, thereย isย no cancelling out between positive and negative values.

We can evaluateย the model performance using the metricย **R-square**. To know more details about these metrics, you can read:ย Model Performance metrics Part 1, Part 2ย .

#### Important Points:

- There must be
**linear relationship**between independent and dependent variables - Multiple regression suffers from
**multicollinearity, autocorrelation, heteroskedasticity**. - Linear Regression is very sensitive to
**Outliers**. It can terribly affect the regression line andย eventually the forecasted values. - Multicollinearity can increase the variance of the coefficient estimates and make the estimates very sensitive to minor changes in the model. The result is that the coefficient estimates are unstable
- In case of multiple independent variables, we can go with
**forward selection**,**backward elimination**and**step wise approach**for selection of most significant independent variables.

## 2. Logistic Regression

Logistic regression is used to find the probability of event=Success and event=Failure. We shouldย use logistic regression when theย dependent variable is binary (0/ 1, True/ False, Yes/ No) in nature. Here the value of Y ranges from 0 to 1 and it can represented by following equation.

odds= p/ (1-p) = probability of event occurrence /ย probability of not event occurrence ln(odds) = ln(p/(1-p)) logit(p) = ln(p/(1-p)) = b0+b1X1+b2X2+b3X3....+bkXk

Above, p is the probability of presence of the characteristic of interest. A question that you should ask here isย “why have we used log in the equation?”.

Sinceย we are working here with aย binomial distribution (dependent variable), we need to choose a link function which is best suited for thisย distribution. And, it is **logit** function. In the equation above, the parameters are chosenย to maximize the likelihood of observing the sample values rather than minimizing the sum of squared errors (like in ordinary regression).

#### Important Points:

- Logistic regression is widely used for
**classification problems** - Logisticย regression doesn’t requireย linear relationship between dependent and independent variables.ย Itย can handle various types of relationships because it applies a non-linear log transformation to the predicted odds ratio
- To avoidย over fitting and under fitting, we should includeย all significant variables. A good approach to ensure this practice is to use a step wise method to estimate the logistic regression
- It requires
**large sample sizes**because maximum likelihood estimates are less powerful at low sample sizes than ordinary least square - The independent variables should not be correlated with each otherย i.e.
**no multi collinearity**.ย However, we have the options to include interaction effects of categorical variables in the analysis and in the model. - If theย values of dependent variable is ordinal, then it is called as
**Ordinal logistic regression** - If dependent variable is multi class then it is known as
**Multinomial Logistic regression**.

**Note: You can understand the above regression techniques in a video format – Fundamentals of Regression Analysis**

## 3. Polynomialย Regression

A regression equation is a polynomial regression equation if the power of independent variable is more than 1. The equation below represents a polynomial equation:

y=a+b*x^2

In this regression technique, the best fit line is not a straight line. Itย is rather a curve that fits into the data points.

#### Important Points:

- While there might be a temptation to fit a higher degree polynomial to get lower error, this can result in over-fitting. Always plot the relationships to see the fit and focus on making sure that the curve fits the nature of the problem. Here is an example of how plotting can help:

- Especially look out for curve towards the ends and see whether those shapes and trends make sense. Higher polynomials can end up producing wierd results on extrapolation.

## 4. Stepwiseย Regression

This form of regression is usedย when we deal with multiple independent variables. In this technique, the selection of independent variables isย done with the help of an automatic process, which involvesย *no* human intervention.

This featย is achieved by observingย statisticalย values like R-square, t-stats and AIC metric to discernย significant variables.ย Stepwise regression basically fits the regression model by adding/dropping co-variates one at a time based on a specified criterion. Some of the most commonly used Stepwise regression methods are listed below:

- Standard stepwise regression does two things. Itย adds and removes predictors as needed for each step.
- Forward selection starts with most significant predictor in the model and adds variable for each step.
- Backward elimination starts with all predictors in the model and removes the least significant variable for each step.

The aim of this modeling technique is to maximize the prediction power with minimum number of predictor variables.ย It is one of the method to handle higher dimensionality of data set.

## 5. Ridgeย Regression

Ridge Regression is a technique used when the data suffers from multicollinearity (independent variables are highly correlated). In multicollinearity, even though the least squares estimates (OLS) are unbiased, their variances are large which deviates the observed value far from the true value. By adding a degree of bias to the regression estimates, ridge regression reduces the standard errors.

Above, we sawย the equation for linear regression.ย Remember? It can be represented as:

y=a+ b*x

This equation also has an error term. The complete equation becomes:

y=a+b*x+e (error term),ย [error term is the value needed to correct for a prediction error between the observed and predicted value]

=> y=a+y= a+ b1x1+ b2x2+....+e, for multiple independent variables.

In a linear equation, prediction errors can be decomposed into two sub components. First isย due to the **biased** and second isย due to theย **variance**.ย Prediction error can occur due to any one of these two orย both components. Here, we’ll discuss about the error caused due to variance.

Ridge regression solves the multicollinearity problem throughย shrinkage parameter ฮป (lambda). Look at the equation below.

In this equation, we have two components. First one is least square term and other one is lambda of the summation ofย ฮฒ2 (beta- square) whereย ฮฒ is the coefficient. This is added to least square term in order to shrink the parameter to have a very low variance.

#### Important Points:

- The assumptions of this regression is same as least squared regression except normality is not to beย assumed
- Ridge regression shrinks the value of coefficients but doesn’t reaches zero, which suggests no feature selection feature
- This is a regularization method and uses l2 regularization.

## 6. Lassoย Regression

Similar to Ridge Regression, Lasso (Least Absolute Shrinkage and Selection Operator) also penalizes the absolute size of the regression coefficients. In addition, it is capable of reducing the variability and improving the accuracy of linear regression models. ย Look at the equation below:ย Lasso regression differs from ridge regression in a way thatย it usesย absolute values in the penalty function, instead of squares. This leads toย penalizing (or equivalently constraining the sum of the absolute values of the estimates) valuesย which causesย some of the parameter estimates to turn out exactly zero. Larger the penalty applied, further the estimates getย shrunk towards absolute zero. Thisย results to variable selection out of given n variables.

#### Important Points:

- The assumptions of lasso regression is same as least squared regression except normality is not to be assumed
- Lasso Regression shrinks coefficients to zero (exactly zero), which certainly helps in feature selection
- Lasso is a regularization method and uses l1 regularization
- If group of predictors are highly correlated, lasso picks only one of them and shrinks the others to zero

## 7.ย ElasticNet Regression

ElasticNet is hybrid of Lasso and Ridge Regression techniques.ย Itย is trained with L1 and L2 prior as regularizer.ย Elastic-net is useful when there are multiple features which are correlated. Lasso is likely to pick one of these at random, while elastic-net is likely to pick both.

A practical advantage of trading-off between Lasso and Ridge is that, it allows Elastic-Net to inherit some of Ridgeโs stability under rotation.

#### Important Points:

- It encourages group effect in case of highly correlated variables
- There are no limitations on the number of selected variables
- It can suffer with double shrinkage

Beyond these 7ย most commonly used regression techniques, you can also look at other models like Bayesian, Ecological and Robust regression.

## How to select the right regression model?

Life is usually simple, when you know only one or two techniques. One of the training institutes I know of tells their students – if the outcome is continuous – apply linear regression. If it is binary – use logistic regression! However, higher the number of options available at our disposal, more difficult it becomes to choose the right one. A similar case happens with regression models.

Withinย multiple typesย of regression models, it is important to choose the best suited techniqueย based on type of independent and dependent variables, dimensionality in the data and other essential characteristics of the data. Below are the key factors that you should practice to select theย rightย regression model:

- Data exploration is an inevitable part of building predictive model. It should be youย first step before selecting the right model like identify the relationship and impact of variables
- To compare the goodness of fit for different models, we can analyse different metrics like statistical significance of parameters, R-square, Adjusted r-square, AIC, BIC and error term.ย Another one is the Mallow’s Cp criterion. This essentially checks for possible bias in your model, by comparing the model with all possible submodels (or a careful selection of them).
- Cross-validation is the best way to evaluate models used for prediction. Here you divide your data set into two group (train and validate).ย A simple mean squared difference between the observed and predicted values give you a measure for the prediction accuracy.
- If your data set has multipleย confounding variables, you should not chooseย automatic model selection methodย because you do not want to put theseย in a model at the same time.
- It’ll also depend on your objective. It can occur that a less powerful model is easy to implement as compared to a highlyย statistically significant model.
- Regression regularization methods(Lasso, Ridge and ElasticNet) works well in case of high dimensionality and multicollinearity among the variables in the data set.

## Projects

Now, its time to take the plunge and actually play with some other real datasets. Try the techniques learnt in this post on the datasets provided in the following practice problems and let us know in the comment section how it worked out for you!

Practice Problem: Food Demand Forecasting Challenge | Predict the demand of meals for a meal delivery company | |

Practice Problem: Predict Number of Upvotes | Predict number of upvotes on a query asked at an online question & answer platform |

## End Note

By now, I hope you would have got an overview of regression. These regression techniques should be applied considering the conditions of data. One of the best trick to find out which technique to use, is by checking the family of variables i.e. discrete or continuous.

In this article, I discussed about 7 types of regression and some key facts associated with each technique. As somebody who’s new in this industry, I’d advise you to learn these techniques and later implement them in your models.

For better understanding, we recommend our free course – Fundamentals of Regression Analysis

Did you find this article useful ? ย Share your opinions / views in the comments section below.

Hi Sunil, Really a nice article for understanding the regression models. Especially for novice like me who are stepping into Analytic .

Thanks for the comment …

Could you please, provide a material ( book/website) where I can understand concept underlying in such regression techniques.

Thanks for the comment …

You can read book “The Elements of Statistical Learning”, it has detailed explanation of these regression models.

Regards,

Sunil

I agree with you Sunil, but before reading โThe Elements of Statistical Learningโ, I would recommend reading An Introduction to Statistical Learning: with application in R, which is more practical because you have to practise with R codes, or you may take Statistical Learning course which is offered by authors of these books, in addition they are inventors of some of these model as well (e.g. Lasso by Tibshirani).

regards,

Julius

A good refresher on Regression techniques

Hi Sunil

Thanks for posting this. Very nice summary on a technique used so often but underutilised when looking at the different forms available. You wouldnt be interested in doing something similar for classification techniques..quite a few here as well..

Tom

Thanks Tom…you can refer article on most common machine learning algorithms http://www.analyticsvidhya.com/blog/2015/08/common-machine-learning-algorithms/. Here I have discussed various types of classification algorithms like decision tree, random forest, KNN, Naive Bayes…

Regards,

Sunil

Dear sir,

Is the regression applied for predicting the results of a college for the coming academic year.

Hi Sunil,

The difference given between linear regression and multiple regression needs correction. When there is just one independent and one dependent variable, it is called “simple linear regression” not just linear regression.

Hi PratzJoshi,

Thanks for highlighting it…

Regards,

Sunil

Hey,quite nice article.It did help me broaden my perspective regarding the regression techniques(specially ElasticNet),but still it would be nice to elucidate upon the differences between l1 and l2 regularization techniques.For this,http://www.quora.com/What-is-the-difference-between-L1-and-L2-regularization will be very helpful.Though it could be incorporated into a new article I think.

I’m sorry but I am going to complain again.

This is an excellent article. However, when I go to save it or print it, it is a mess!

If I print from IE, the only browser allowed on my network, all the ads and hypertext links cover the article text; you cannot read the article.

I had suggested having a feature where you use a button to convert the article to a PDF, which can them be printed without the ads and hypertext. You did in once, then stopped. Please start again!

Good consolidation of concepts…Sunil do you have a comprehensive data set upon which we can apply all/few of the the above techniques and see how each regression behaves…thanks again

Shashi,

You can look at scikit-learn example data sets..

Regards,

Sunil

Hi Sunil,

Nice compilation. Suggesting a correction , elastic net penalty has another parameter too and is written as lambda * summation ([alpha * L2 penalty + (1-alpha)* L1 Penalty ] )….

Also quoting book by trevor & hastie “The elastic-net selects variables like the lasso, and shrinks together the coefficients of correlated predictors like ridge.”

like your posts, very informative.

-Lalit

Hi,

Can you please explain this point mentioned under the logistic regression – multi collinearity part “However, we have the options to include interaction effects of categorical variables in the analysis and in the model.”

Hi Seema,

Read this article to understand the effect of interaction in detail.

http://www.theanalysisfactor.com/interpreting-interactions-in-regression/

Regards,

Sunil

Hi sunil,

The article seems very interesting. Please can you let me know how can we implement Forward stepwise Regression in python as we dont have any inbuilt lib for it.

good article especially for computer science students.please provide this and further articles in pdf.thank you.

thank you so much for this valuable article

it is very nice

Thanks fo the guide. Just one question : do you really think that “stepwise regression” is a type of regression? In my point of view, it’s just a compilation of methods for selecting relevant variables. And it is performed by making several successive (real) regression technics (linear, polynomial, ridge or lasso…).

Very useful article. Are there any specific types of regression techniques which can be used for a time series stationary data?

Hi,

Very nice article, crisp n neat! Thank youโบ

In 2. Logistic regression

We use log because while calculating MLE ( Maximum Likelihood Estimate) it is easy to differentiate and equate to 0.

Easy to differenciate log (a * b) rather than just (a * b)

Where a = P and b = 1-P

Correct me if I m wrong.

i just love this article ๐ very very useful ๐

Sunil, Great feeling to get a modern insight to what I learnt 35 years ago. Excellent. Professional practicing today may have several question to clarify. We had no option to choose Data Analytics as a popular profession in 80’s. It was mainly R&D to use regression techniques. Compliment to you for such a vast subject so lucidly worded and explained..

What fascinated me most, is you mention of a tutor teaching students in an institute – if outcome is continuous use linear and if it is binary, use logistics. That’s simplistic for a reader to appreciate the importance of Regression. What I want to ask is as under:

In case of multiple independent variables, we can go with forward selection, backward elimination and step wise approach for selection of most significant independent variables.

Please let me know where to get little details on these?

Compliments once again. All is well.

Asesh Datta

Thanks Sunil ,

Useful article . Why is poisson regression not mentioned here.

Hi sunil

Very nice aticle and really very informative and interesting.

With regard

Fazal azeem

Amazing article, broadens as once seemingly narrow concept and gives food for thought. Thank you.

Thanks SMS

Thank you very much!

This is an awesome article. I just want to point out something important for people that may be new to modeling as many data science students I’ve mentored get overwhelmed and confused about what the different types of regression truly are, and what the true definition of linear regression is.

These aren’t really different types of regression models per se. This is a mix of different techniques with different characteristics, all of which can be used for linear regression, logistic regression or any other kind of generalized linear model.

Linear and logistic are the only two types of base models covered.

Polynomial is just using transformations of the variables, but the model is still linear in the beta parameters. Thus it is still linear regression. Even a weird model like y = exp(a + bx) is a generalized linear model if we use the log-link for logistic regression. This yields log y = a + bx. This is a concept that bewilders a lot of people.

Stepwise is just a method of building a model by adding and removing variables based on the F statistic.

Ridge, Lasso and ElasticNet aren’t really regressions, they’re penalties (regularization) on the loss function (OLS), or log-likelihood function (logistic and GLM). Hence, they are useful for other models that are distinct from regression, like SVMs. We usually say “linear regression with a regularization term/penalty.”

To be technical, different regression models would be plain linear, logistic, multinomial, poisson, gamma, Cox, etc.

Hi Sunil,

Wonderfull put down information. Thanks for sharing this in detail.

Hi Sunil ,

Really a good gist on regression techniques. Thanks for sharing the article.