Data Science and Machine Learning: Mathematical and Statistical Methods Course Overview

Data Science and Machine Learning: Mathematical and Statistical Methods Course Overview

The "Data Science and Machine Learning: Mathematical and Statistical Methods" course is designed to provide a comprehensive foundation in the key mathematical and statistical concepts necessary for data science and machine learning. It covers a broad spectrum of topics that will equip learners with the skills to analyze data effectively and build predictive models. The course starts with basic statistical measures, such as mean, median, mode, and extends to more complex topics like outlier detection, hypothesis testing, and various types of machine learning algorithms including regression, classification, and clustering.

By delving into these areas, learners will gain proficiency in important tools for data analysis, such as BoxPlot analysis, correlation coefficients, and A/B testing. The inclusion of modules on advanced topics like Naive Bayes, ROC curves, and hyperparameter tuning ensures that participants are well-prepared for real-world data science challenges. This data science and machine learning certification is ideal for those seeking to enhance their skill set in machine learning and data science courses and pursue a career in this dynamic field.

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Course Prerequisites

To ensure you are well-prepared and can get the most out of the Data Science and Machine Learning: Mathematical and Statistical Methods course, the following prerequisites are recommended:


  • Basic understanding of mathematics, including familiarity with algebra and elementary statistics.
  • Some knowledge of probability concepts, as you will be dealing with statistical methods.
  • Ability to work with data in spreadsheets or similar tools, as data manipulation is a key part of data science.
  • Basic computer literacy, as the course will likely involve the use of data science software or programming languages.
  • A willingness to learn and engage with complex concepts, as data science and machine learning can be challenging but rewarding fields of study.

Please note that a deep expertise in mathematics or programming is not required to begin this course; however, a foundation in the above areas will enable you to grasp the concepts more quickly and fully.


Target Audience for Data Science and Machine Learning: Mathematical and Statistical Methods

  1. This course offers an in-depth exploration of data science and machine learning through mathematical and statistical methods. Ideal for analytics-focused professionals.


  2. Target Audience and Job Roles:


  • Data Scientists
  • Machine Learning Engineers
  • Data Analysts
  • Statisticians
  • Business Analysts
  • Research Scientists
  • AI Engineers
  • Software Developers interested in data science
  • Quantitative Analysts
  • PhD and Masters students specializing in data science or related fields
  • Data Science Instructors/Educators
  • Technical Project Managers overseeing data-driven projects
  • Product Managers in tech companies focusing on analytics-driven features
  • Data Engineers looking to enhance analytical skills
  • Marketing Analysts interested in consumer data analysis
  • Finance Professionals leveraging predictive analytics


Learning Objectives - What you will Learn in this Data Science and Machine Learning: Mathematical and Statistical Methods?

Introduction to Course Learning Outcomes

This course aims to equip students with a thorough understanding of statistical methods and machine learning techniques essential for data analysis and predictive modeling.

Learning Objectives and Outcomes

  • Understand the foundational concepts of descriptive statistics, including measures of central tendency (mean, median, mode) and measures of variability (variance, standard deviation).
  • Gain proficiency in identifying and handling outliers and anomalies within data sets to ensure the accuracy of statistical analysis.
  • Learn the principles of probability distributions, particularly the normal distribution, and how it applies to data science methodologies.
  • Develop skills in creating and interpreting visual data representations such as histograms, box plots, and scatterplots to extract insights from data.
  • Acquire knowledge of correlation and regression analysis for determining relationships between variables and making predictions.
  • Master the concepts of hypothesis testing, p-values, and A/B testing to validate data-driven decisions and scientific conclusions.
  • Explore various machine learning algorithms, including Naive Bayes, K-Nearest Neighbors, and K-means clustering, for classification and pattern discovery.
  • Understand how to construct and analyze confusion matrices, ROC curves, and other performance metrics to evaluate the effectiveness of machine learning models.
  • Learn the importance of hyperparameter tuning to optimize the performance of machine learning algorithms.
  • Develop the ability to implement sampling techniques, understand biases, and apply resampling methods to ensure representative data analysis.