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- Data Science Essentials & Machine Learning
Curriculum
- 8 Sections
- 69 Lessons
- 4 Weeks
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- Before You StartIntroduction4
- Module 1: Introduction to Data Science12
- 3.1Principles of Data Science – Data Analytic Thinking
- 3.2Principles of Data Science – The Data Science Process
- 3.3Further Reading
- 3.4Data Science Technologies – Introduction to Data Science Technologies
- 3.5Data Science Technologies – An Overview of Data Science Technologies
- 3.6Data Science Technologies – Azure Machine Learning Learning Studio
- 3.7Data Science Technologies – Using Code in Azure ML
- 3.8Data Science Technologies – Jupyter Notebooks
- 3.9Data Science Technologies – Creating a Machine Learning Model
- 3.10Data Science Technologies – Further Reading
- 3.11Lab Instructions
- 3.12Lab Verification
- Module 2: Probability & Statistics for Data Science21
- 4.1Probability and Random Variables – Overview of Probability and Random Variables
- 4.2Probability and Random Variables – Introduction to Probability
- 4.3Probability and Random Variables – Discrete Random Variables
- 4.4Probability and Random Variables – Discrete Probability Distributions
- 4.5Probability and Random Variables – Binomial Distribution Examples
- 4.6Probability and Random Variables – Poisson Distributions
- 4.7Probability and Random Variables – Continuous Probability Distributions
- 4.8Probability and Random Variables – Cumulative Distribution Functions
- 4.9Probability and Random Variables – Central Limit Theorem
- 4.10Probability & Random Variables – Further Reading
- 4.11Introduction to Statistics – Overview of Statistics
- 4.12Introduction to Statistics – Descriptive Statistics
- 4.13Introduction to Statistics – Summary Statistics
- 4.14Introduction to Statistics – Demo: Viewing Summary Statistics
- 4.15Introduction to Statistics – Z-Scores
- 4.16Introduction to Statistics – Correlation
- 4.17Introduction to Statistics – Demo: Viewing Correlation
- 4.18Introduction to Statistics – Simpson’s Paradox
- 4.19Introduction to Statistics – Further Reading
- 4.20Introduction to Statistics – Lab Instructions
- 4.21Introduction to Statistics – Lab Verification
- Module 3: Simulation & Hypothesis Testing16
- 5.1Simulation – Introduction to Simulation
- 5.2Simulation – Start
- 5.3Lab
- 5.4Simulation – Demo: Performing a Simulation
- 5.5Simulation – Further Reading
- 5.6Hypothesis Testing – Overview
- 5.7Hypothesis Testing – Introduction
- 5.8Hypothesis Testing – Z-Tests, T-Tests, and Other Tests
- 5.9Hypothesis Testing – Test Examples
- 5.10Hypothesis Testing – Type 1 and Type 2 Errors
- 5.11Hypothesis Testing – Confidence Intervals
- 5.12Hypothesis Testing – Demo with R & Python
- 5.13Hypothesis Testing – Misconceptions
- 5.14Hypothesis Testing – Further Reading
- 5.15Hypothesis Testing – Lab Instructions
- 5.16Hypothesis Testing – Lab Verification
- Module 4: Exploring & Visualizing Data4
- Module 5: Data Cleansing & Manipulation4
- Module 6: Introduction to Machine Learning4
- Final Exam & Survey4
Simulation – Introduction to Simulation
Introduction to Simulation
Introduction to Simulation
When working with large volumes of data that exhibit complex interactions, it can be difficult to determine how the data will behave in various scenarios. You can apply statistical methods to run simulations that model your data based on one or more expected distributions.