Mathematical Statistics for Data Science

Ex-Google data scientist's guide to mathematical statistics, covering method of moments, maximum likelihood, and more

Ratings: 4.81 / 5.00




Description

This course teaches the foundations of mathematical statistics, focusing on methods of estimation such as the method of moments and maximum likelihood estimators (MLEs), evaluating estimators by their bias, variance, and efficiency, and explore asymptotic statistics, including the central limit theorem and confidence intervals.

Course Highlights:

  • 57 engaging video lectures, featuring innovative lightboard technology for an interactive learning experience

  • In-depth lecture notes accompanying each lesson, highlighting key vocabulary, examples, and explanations from the video sessions

  • End-of-chapter practice problems to solidify your understanding and refine your skills from the course

Key Topics Covered:

  1. Fundamental probability distributions: Bernoulli, uniform, and normal distributions

  2. Expected value and its connection to sample mean

  3. Method of moments for developing estimators

  4. Expected value of estimators and unbiased estimators

  5. Variance of random variables and estimators

  6. Fisher information and the Cramer-Rao Lower Bound

  7. Central limit theorem

  8. Confidence intervals

Who This Course Is For:

  • Students with prior introductory statistics experience, looking to delve deeper into mathematical foundations

  • Data science professionals seeking to refresh or enhance their statistics knowledge for job interviews

  • Anyone interested in developing a statistical mindset and strengthening their analytical skills

Pre-requisites:

  • This course requires a solid understanding of high school algebra and equation manipulation with variables.

  • Some chapters utilize introductory calculus concepts, such as differentiation and integration. However, even without prior calculus knowledge, those with strong math skills can follow along and only miss a few minor mathematical details.

What You Will Learn!

  • Learn how to use the method of moments and maximum likelihood estimation to learn from data
  • Learn how to evaluate and compare different methods using notions such as bias, variance, and mean squared error.
  • Master the Bernoulli, Uniform and Normal Distributions
  • Learn about the Cramer-Rao lower bound and how to know if we have found the best possible estimator
  • Learn to evaluate asymptotic properties of estimators, including consistency and the central limit theorem.
  • Learn to create confidence intervals

Who Should Attend!

  • Anyone who has taken a basic statistics class and wants to dive into more mathematical detail
  • Data scientists looking to learn some basics of mathematical statistics
  • Undergraduate and graduate students looking for help in mathematical statistics courses
  • Academics and professionals wanting a strong foundation for further study in statistics