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Supervised Learning Types, Algorithms, and Applications

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Supervised Learning Types, Algorithms, and Applications

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  1. SUPERVISED LEARNING TYPES, ALGORITHMS, AND APPLICATIONS Presented By Nixustechnologies www.nixustechnologies.com

  2. What is Supervised Learning? Machine learning allows a machine to learn from data, improve performance based on previous experiences, and make predictions. Machine learning is a collection of algorithms that deal with massive amounts of data. We supply data to these algorithms to train them, and the model is built and a certain job is performed based on the training. Supervised learning is a subtype of machine learning where we can teach algorithms with well-labeled training data and then infer the result based on that information. In this context, labeled data means that part of the data input has already been labeled with the appropriate output. In supervised learning, it is similar to having a teacher teach the model. Supervised learning models need users to supply both input and sample output data. A supervised learning algorithm’s goal is to discover a mapping function that will translate the input variable(x) to the output variable(y).

  3. Working of supervised learning models Gather, collect, and label data. Can also use pre-tagged data with these models. We divide the dataset into three parts: training dataset, test dataset, and validation dataset. Determine the dataset’s input features so that they include enough data to make accurate interpretations. Choose an appropriate algorithm for the model, such as a support vector machine or a decision tree. Use the training dataset to run the algorithm. Validation sets, which are a subset of training datasets, are sometimes required as control parameters. Evaluate model accuracy with the testing set.

  4. Types of Supervised Learning We can classify supervised learning further into 2: 1. Regression: If there is a link between the input and output variables, we apply regression procedures. It’s useful to predict continuous variables like weather forecasts, market trends, and so on. 2. Classification: There are a few possible output values and they are categorical. Example: true-false, male- female-other etc

  5. Supervised Learning algorithms: This method is most common for text categorization, spam detection, and recommender systems. The Bayes Theorem’s premise of conditional independence is applicable in the Naive Bayes classification technique. This indicates that the existence of one component has no influence on the existence of another in the probability of a certain event, and each predictor feature has the same effect on that result. That is, no two features are connected or dependent on each other. Multinomial Naive Bayes, Bernoulli Naive Bayes, and Gaussian Naive Bayes are the three kinds of Naive Bayes classifiers. 1. Naive Bayes: 2. Linear regression: Linear regression is widely useful to determine future events by identifying the link between a dependent measure and one or more independent variables. We can use basic linear regression when there is only one independent factor and one dependent variable. We use multiple linear regression when the number of independent variables rises. It aims to depict a line of greatest fit, using the least squares approach, for each kind of linear regression. However, like other regression models, when shown on a graph, this line is straight.

  6. Supervised Learning algorithms: 3. Logistic regression: Although linear regression is applicable when the dependent variable is continuous, one can use logistic regression when the dependent variable is categorical, which means it has binary outputs such as “0” and “1”. Although both regression models attempt to discover correlations among data inputs, logistic regression is mostly employed to address binary classification issues such as spam detection. 4. Support vector machine: A support vector machine is a common supervised learning model designed by Vladimir Vapnik that we use for data categorization as well as regression. However, it is largely applicable for classification issues, building a hyperplane with the greatest gap between two categories of data points. This hyperplane is the decision boundary, and it separates data point classes (e.g., oranges vs. apples) on either side.

  7. Advantages of supervised learning Supervised learning models learn from experience. These models have an accurate idea of classes and categories in the dataset owing to training Can handle a variety of real-world issues Disadvantages of supervised learning If the test data differs from the training data, supervised learning will not be able to predict the proper output. Training necessitated a significant amount of computing time and resources Cannot handle difficult, complex or demanding problems efficiently

  8. Conclusion In Supervised learning techniques, you train the system using well-labeled data. A Supervised Machine Learning method has two dimensions: regression and classification. The difficulty in supervised learning is because irrelevant input features in training data might lead to erroneous outcomes. The fundamental benefit of supervised learning is that it allows you to gather data or generate data output from past experience.

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