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8 Ways to Improve Accuracy of Machine Learning Models (Updated 2024)

Sunil Ray Last Updated : 19 Sep, 2024
10 min read

Introduction

Enhancing a machine learning model’s performance can be challenging at times. Despite trying all the strategies and algorithms you’ve learned, you tend to fail at improving the accuracy of your model. You feel helpless and stuck. And this is where 90% of the data scientists give up. The remaining 10% is what differentiates a master data scientist from an average data scientist. This article covers 8 proven ways to re-structure your model approach on how to increase accuracy of machine learning model and improve its accuracy.

A predictive model can be built in many ways. There is no ‘must-follow’ rule. But, if you follow my ways (shared below), you’ll surely achieve high accuracy in your models (given that the data provided is sufficient to make predictions). I’ve learned these methods with experience. I’ve always preferred to know about these learning techniques practically than digging into theories. In this article, I’ve shared some of the best ways to create a robust python, machine-learning model. I hope my knowledge can help people achieve great heights in their careers. In this articl you majorly get to know about how to improve accuracy of machine learning.


 Learning Objectives

  • The article aims to provide 8 proven methods for achieving high accuracy in Python ML models.
  • It emphasizes the importance of practical learning and structured thinking for improving a data scientist’s performance.
  • It covers topics such as hypothesis generation, dealing with missing and outlier values, feature engineering, model selection, hyperparameter tuning, and ensemble techniques so that you can increase the performance of the model.

What is Model Accuracy in Machine Learning?

Model accuracy is a measure of how well a machine learning model is performing. It quantifies the percentage of correct classifications made by the model. It is commonly represented as a value between 0 and 1 (or between 0% and 100%).

Calculating Model Accuracy

Accuracy is calculated by dividing the number of correct predictions by the total number of predictions across all classes. In binary classification, it can be expressed as:

Accuracy (ACC) = (TP + TN) / (TP + TN + FP + FN)

Where:

  • TP: True Positives (correctly predicted positive instances)
  • TN: True Negatives (correctly predicted negative instances)
  • FP: False Positives (negative instances predicted as positive)
  • FN: False Negatives (positive instances predicted as negative)

Scale of Accuracy

Accuracy is typically represented as a value between 0 and 1, where 0 means the model always predicts the wrong label, and 1 (or 100%) means it always predicts the correct label.

Relationship with Confusion Matrix

The accuracy metric is closely related to the confusion matrix, which summarizes the model’s predictions in a tabular form. The confusion matrix contains the counts of true positives, true negatives, false positives, and false negatives, which are used to calculate accuracy.

Statistical Significance

It’s important to evaluate model accuracy on a statistically significant number of predictions. This ensures that the accuracy score represents the model’s true performance and is not influenced by random variations in a small dataset.

Why is Model Accuracy Important?

  • Simplicity and Interpretability: Accuracy is a straightforward and easy-to-understand metric. It represents the percentage of correct predictions made by a model. This simplicity makes it accessible to both technical and non-technical stakeholders, allowing for clear communication of the model’s performance.
  • Error Complement: Accuracy can be viewed as the complement of the error rate. In other words, accuracy is equal to 1 minus the error rate. This duality makes it a convenient metric for assessing how well a model is doing in terms of prediction errors.
  • Efficiency and Effectiveness: Accuracy is a computationally efficient metric, making it a practical choice for evaluating model performance, especially when working with large datasets. It provides a quick overview of how well the model is performing.
  • Common Research Metric: Accuracy is widely used in machine learning research, particularly in scenarios where datasets are clean and balanced. This prevalence in research allows for easy benchmarking of different algorithms and approaches, aiding in advancing the field.
  • Real-Life Applications: In real-life applications, where datasets with characteristics similar to those in research are available, accuracy can be a valuable metric. Its clear interpretation makes it easy to align with various business objectives and metrics, such as revenue and cost. This alignment facilitates reporting on the model’s value to stakeholders, which is crucial for the success of machine learning initiatives.

8 Methods to increase the accuracy of an ML Model

The model development cycle goes through various stages, starting from data collection to model building. But, before exploring the data to understand relationships (in variables), it’s always advisable to perform hypothesis generation. This step, often underrated in predictive modeling, is crucial for guiding your analysis effectively. By hypothesizing about potential relationships and patterns, you set the groundwork for a more targeted exploration. To know more about how to increase the accuracy of your machine learning model through effective hypothesis generation, refer to this link. It’s a key aspect that can significantly impact the success of your predictive modeling endeavors.

It is important that you spend time thinking about the given problem and gaining domain knowledge. So, how does it help? This practice usually helps in building better features later on, which are not biased by the data available in the dataset. This is a crucial step that usually improves a model’s accuracy.

At this stage, you are expected to apply structured thinking to the problem, i.e., a thinking process that takes into consideration all the possible aspects of a particular problem.

Let’s dig deeper now. Now we’ll check out the proven way how to increase accuracy of machine learning model:

  1. Add More Data
  2. Treat Missing and Outlier Values
  3. Feature Engineering
  4. Feature Selection
  5. Multiple Algorithms
  6. Algorithm Tuning
  7. Ensemble Methods
  8. Cross Validation

Add More Data

Having more data is always a good idea. It allows the “data to tell for itself” instead of relying on assumptions and weak correlations. Presence of more data results in better and more accurate machine-learning models.

I understand we don’t get an option to add more data. For example, we do not get a choice to increase the size of training data in data science competitions. But while working on a real-world company project, I suggest you ask for more data, if possible. This will reduce the pain of working on limited data sets.

Treat Missing and Outlier Values

The unwanted presence of missing and outlier values in machine learning training data often reduces the accuracy of a trained model or leads to a biased model. It leads to inaccurate predictions. This is because we don’t analyze the behavior and relationship with other variables correctly. So, it is important to treat missing and outlier values well for a more reliable and naturally improved machine learning model.

Look at the below test data snapshot carefully. It shows that, in the presence of missing values, the chances of playing cricket by females are similar to males. But, if you look at the second table (after treatment of missing values based on the salutation “Miss”), we can see that females have higher chances of playing cricket compared to males.

handling missing values to improve machine learning model accuracy

Above, we saw the adverse effect of missing values on the accuracy of a trained model. Gladly, we have various methods to deal with missing and outlier values:

  • Missing: In the case of continuous variables, you can impute the missing values with mean, median, or mode. For categorical variables, you can treat variables as a separate class. You can also build a model on the training dataset to predict the missing values. KNN imputation offers a great option to deal with missing values. To know more about these methods, refer to the article “Methods to deal and treat missing values“.
  • Outlier: You can delete the observations and perform transformations, binning, or imputation (same as missing values). Alternatively, you can also treat outlier values separately. You can refer article “How to detect Outliers in your dataset and treat them?” to learn more about these methods.

Feature Engineering

This step helps to extract more information from existing data. New information is extracted in terms of new features. These features may have a higher ability to explain the variance in the training data. Thus, giving improved model accuracy.

Feature engineering is highly influenced by hypothesis generation. Good hypotheses result in good features. That’s why I always suggest investing quality time in hypothesis generation. The feature engineering process can be divided into two steps:

Feature Transformation

There are various scenarios where feature transformation is required:

Changing the scale of a variable from the original scale to a scale between zero and one is a common practice in machine learning, known as data normalization. For example, suppose a dataset includes variables measured in different units, such as meters, centimeters, and kilometers. Before applying any machine learning algorithm, it is essential to normalize these variables on the same scale to ensure fair and accurate comparisons. Normalization in machine learning contributes to better model performance and unbiased results across diverse variables.

Some algorithms work well with normally distributed data. Therefore, we must remove the skewness of variable(s). There are methods like a log, square root, or inverse of the values to remove skewness.

Sometimes, creating bins of numeric data works well since it handles the outlier values also. Numeric data can be made discrete by grouping values into bins. This is known as data discretization.

feature transformation helps improve machine learning model accuracy

Feature Creation

Deriving new variable(s) from existing variables is known as feature creation. It helps to unleash the hidden relationship of a data set. Let’s say we want to predict the number of transactions in a store based on transaction dates. Here transaction dates may not have a direct correlation with the number of transactions, but if we look at the day of the week, it may have a higher correlation.

In this case, the information about the day of the week is hidden. We need to extract it to make the model accuracy better.Note that this might not be the case every time you create new features. This can also lead to a decrease in the accuracy or performance of the trained model. So every time creating a new feature, you must check the feature importance to see how that feature will affect the training process

Feature Selection

Feature Selection is a process of finding out the best subset of attributes that better explains the relationship of independent variables with the target variable.

You can select the useful features based on various metrics like:

  • Domain Knowledge: Based on domain experience, we select feature(s) which may have a higher impact on the target variable.
  • Visualization: As the name suggests, it helps to visualize the relationship between variables, which makes your variable selection process easier.
box-plot | machine learning model accuracy
  • Statistical Parameters: We also consider the p-values, information values, and other statistical metrics to select the right features.
  • PCA: It helps to represent training data into lower dimensional spaces but still characterizes the inherent relationships in the data. It is a type of dimensionality reduction technique. There are various methods to reduce training data’s dimensions (features), including factor analysis, low variance, higher correlation, backward/ forward feature selection, and others.

Multiple Algorithms

There are many different algorithms in machine learning, but hitting the right machine learning algorithm is the ideal approach to how to increase accuracy of machine learning model. But, it is easier said than done.

This intuition comes with experience and incessant practice. Some algorithms are better suited to a particular type of data set than others. Hence, we should apply all relevant models and check the performance.

how to increase accuracy of machine learning model

Source: Scikit-Learn cheat sheet

Algorithm Tuning

We know that machine learning algorithms are driven by hyperparameters. These hyperparameters majorly influence the outcome of the learning process.

The objective of hyperparameter tuning is to find the optimum value for each hyperparameter how to increase accuracy of machine learning model. To tune these hyperparameters, you must have a good understanding of these meanings and their individual impact on the model. You can repeat this process with a number of well-performing models.

For example: In a random forest, we have various hyperparameters like max_features, number_trees, random_state, oob_score, and others. Intuitive optimization of these parameter values will result in better and more accurate models.

You can refer article “Tuning the parameters of your Random Forest model” to learn the impact of hyperparameter tuning in detail. Below is a random forest scikit learn algorithm with a list of all parameters:

RandomForestClassifier(n_estimators=10, criterion='gini',
max_depth=None,min_samples_split=2, min_samples_leaf=1, 
min_weight_fraction_leaf=0.0, max_features='auto', 
max_leaf_nodes=None,bootstrap=True, oob_score=False, n_jobs=1, 
random_state=None, verbose=0, warm_start=False,class_weight=None)
knobs,how to increase accuracy of machine learning model

Ensemble Methods

This is the most common approach that you will find majorly in winning solutions of Data science competitions. This technique simply combines the result of multiple weak models and produces better results. You can achieve by the following ways:

  • Bagging (Bootstrap Aggregating)
  • Boosting

To know more about these methods, you can refer article “Introduction to ensemble learning“.

It is always a better idea to implement ensemble methods to improve the accuracy of your model. There are two good reasons for this:

  • They are generally more complex than traditional methods.
  • The traditional methods give you a good base level from which you can improve and draw from to create your ensembles.

Caution!

Till here, we have seen methods that how to increase accuracy of machine learning model. But, it is not necessary that higher accuracy models always perform better (for unseen data points). Sometimes, the improvement in the model’s accuracy can be due to over-fitting too.

Cross Validation

To find the right answer to this question, we must use the cross-validation technique. Cross Validation is one of the most important concepts in data modeling. It says to try to leave a sample on which you do not train the model and test the model on this sample before finalizing the model.

cross-validation

This method helps us to achieve more generalized relationships. To know more about this cross-validation method, you should refer article “Improve model performance using cross-validation“.

Conclusion

The process of predictive modeling is tiresome. But, if you can think smart, you can outrun your fellow competition easily. Once you get the dataset, follow these proven ways on how to increase the accuracy of a machine learning model, and you’ll surely get a robust machine-learning model. But, implementing these 8 steps can only help you after you’ve mastered these steps individually. For example, you must know of multiple machine learning algorithms such that you can build an ensemble. In this article, I’ve shared 8 proven ways that can improve the accuracy of a predictive model. Ready to optimize your machine learning journey? Let’s get started!

Key Takeaways

  • Generate and test hypotheses to improve model performance.
  • Clean and preprocess data to handle missing and outlier values.
  • Use feature engineering techniques to create new features from existing data.
  • Experiment with different model selection techniques to find the best model for your data.
  • Perform hyperparameter tuning to optimize model performance.
  • Consider using ensemble techniques to combine multiple models for better performance.
  • Focus on practical learning and structured thinking to continuously improve your skills as a data scientist.
Q1. How do you increase the accuracy of a regression model?

A. There are several ways to increase the accuracy of a regression model, such as collecting more data, relevant feature selection, feature scaling, regularization, cross-validation, hyperparameter tuning, adjusting the learning rate, and ensemble methods like bagging, boosting, and stacking.

Q2. How do you increase precision in machine learning?

A. To increase precision in machine learning:
– Improve the quality of training data.
– Perform feature selection to reduce noise and focus on important information.
– Optimize hyperparameters using techniques such as regularization or learning rate.
– Use ensemble methods to combine multiple models and improve precision.
– Adjust the decision threshold to control the trade-off between precision and recall.
– Use different evaluation metrics to better understand the performance of the model.

Q3. How can machine learning improve the accuracy of models?

A. Machine learning can improve the accuracy of models by finding patterns in data, identifying outliers and anomalies, and making better predictions. Additionally, ML algorithms can automate many of the tasks associated with model creation which can lead to increased accuracy.

Q4. How to improve accuracy of a machine learning model

Clean Data:
Fill in missing values, handle outliers, and standardize data.
Smart Features:
Create useful features, scale them, and simplifywhen possible.
Try Different Models:
Experiment with various algorithms to find the best fit.
Tune Settings:
Fine-tune model settings for optimal performance.
Validate Well:
Cross-validate results for reliable performance metrics.

Sunil Ray is Chief Content Officer at Analytics Vidhya, India's largest Analytics community. I am deeply passionate about understanding and explaining concepts from first principles. In my current role, I am responsible for creating top notch content for Analytics Vidhya including its courses, conferences, blogs and Competitions. I thrive in fast paced environment and love building and scaling products which unleash huge value for customers using data and technology. Over the last 6 years, I have built the content team and created multiple data products at Analytics Vidhya. Prior to Analytics Vidhya, I have 7+ years of experience working with several insurance companies like Max Life, Max Bupa, Birla Sun Life & Aviva Life Insurance in different data roles. Industry exposure: Insurance, and EdTech Major capabilities: Content Development, Product Management, Analytics, Growth Strategy.

Responses From Readers

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raghava.r4u
raghava.r4u

Superb Writing !!Great

Anjali
Anjali

Hello Sir, I have a question for you. Right now I am a Fresher & soon I am going to work as a junior data scientist in a startup. I would like to know how much it will be beneficial for my career and what can be the growth opportunities in the future since I am working at a startup which is just a few months old.

GH
GH

Wow, what an article - explained it so clearly and exactly what I was searching for! Analytics Vidhya is definitely my first place to go for everything data science and machine learning related!

Krish Gupta
Krish Gupta

Nice content for learning

Krish Gupta
Krish Gupta

Good content for learning

Krish Gupta
Krish Gupta

It is the process or artificial intelligence so this is very useful for future

cory
cory

This is only helpful when u use generative and primitive NN's (waste of nerves and time - hard learning how things work) one has to try out various combinations with combination of validation. If u are in this field some time u know how "hard" it is to guess hyperparameters for achieving some decent accuracy of the NN model. If your software application doesn't include most important feature such auto tune grid search hyperparameters to point u in right direction in 80%+ AUC (everything lower in numeric datasets is not really usable) then your life in this field will be stressing. U should get ANN and smart NN's at your fingers otherwise u will not succeed in data analysis.