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Learn Statistics & Biostatistics Data Analysis From Scratch - OneDDL - 09-02-2024 Free Download Learn Statistics & Biostatistics Data Analysis From Scratch Published 9/2024 MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz Language: English | Size: 5.39 GB | Duration: 10h 22m Learn fundamentals of statistics and biostatistics from very basic to upward with R-Programming (Coding Exercise) What you'll learn Basics Concepts Related to Data and Its Types Different Types of Sampling Stratagies and Their Applications to Collect Data Installation of R and R-Studio in Operating System Core Functionalities of R and R-Studio & Fundamentals of R-Programming Installation of R-Packages and Use of Their Functions in Coding Core Concepts of Discriptive Statistics and Visulization of Data Use of R ProgrammingTo Calculation Discriptive Statistics and Data Visulization Concept of Probability, Types and Their Application in Daily Life Use of R Programming to Calculate Probabilities Concept of Correlation and Its Types Use of R Programming to Calculate Pearson, Kendalls and Spearman Correlation Detailed Concept of Regression and Its Types Use of R Programming To Build Linear and Logistic Regression Detailed Concept of Hypothesis Testing and Different Types of Hypothesis Tests (Z-Test, T-Test, F-Test, ANOVA, Chi-Sq)) Use of R Programming to Calculate Different Test Statistics Requirements This course is tailored for beginners, with no prerequisites required. Even if you're new to statistics and R programming, there's no need to worry. We'll start from the very basics and gradually build your understanding step-by-step, ensuring you grasp each concept clearly and can easily follow along with the content. Description Welcome to our fourth course "Learn Statistics & Biostatistics Data Analysis From Scratch". In this course, you will start from the very fundamentals of Data and slowly move forward to the analysis of the data using different statistical tools. In an era dominated by big data and machine learning, statistics is the cornerstone that allows us to make sense of the vast amounts of information we collect. It provides the methodologies for the collection, analysis, interpretation, and presentation of data. This course not only makes you literate in the language of data but also empowers you to make informed decisions in business, science, and technology.In this course, you will also learn the R-Programming to calculate different statistics on your data. R programming is one of the most sought-after skills in the fields of statistics, biostatistics and data analysis. With its extensive libraries and frameworks, R provides an unparalleled platform for analyzing and visualizing data, making it an indispensable tool for statisticians and data scientists. This course provides hands-on experience with R, ensuring you can apply statistical methods effectively in real-world scenarios.This course is divided into Eight ModulesWhat is Data? - Understand the basics of data, its types, and how it's collected and organized.Introduction to R Programming - Dive into R and R-studio, a powerful tool for statistical computing and graphics, essential for modern data analysis.Descriptive Statistics - Learn to summarize and describe the essential features of numerical data, crucial for initial data exploration. You will also learn how to build their visualization. Handling Categorical Data - Explore techniques for effectively managing and analyzing categorical variables.Probabilities - Gain insights into the concepts of probability, a foundational pillar for statistical inference. You will understand the subjective, classical, conditional, etc probabilities concepts at the end of this module. Correlation - Discover the methods to measure the strength and direction of a relationship between two variables. We will explain to you the Pearson, Kendall and Spearman correlations.Regression - Understand how to model relationships between variables and make predictions. We will teach you about Simple linear Regression, Multiple Linear Regression, and Logistic Regression. Hypothesis Testing - Develop the ability to test assumptions and make decisions based on data. You will learn the Z-test, T-test and its types, F-test, ANOVA and its types, and Chi-Sq test and its types. This course is a unique blend of theory and practical. You will learn the theory of statistical concepts and along with it you will learn the R-programming to apply those statistical concepts to your data. We hope this journey will be enlightening for you. After having this course, you will be confident to analyze your data by your own. Overview Section 1: What is Data? Lecture 1 Welcome to the Course Lecture 2 What is Data? Lecture 3 Different Types Data; Numeric & Categorical Data Lecture 4 Types of Categorical Data; Ordinal & Simple Categorical Lecture 5 Factorial Data Lecture 6 Discretization of Data; Converting Numeric Variable to Categorical One Lecture 7 How to Get Data? (Observational and Experimental Studies) Lecture 8 Confounding Variables Lecture 9 Random Sampling and Random Assignment to Collect Data Lecture 10 How to Get Sample Data From Population For Observational Studies? Lecture 11 Random Sampling; Popular Sampling Strategy Lecture 12 Stratified Sampling Strategy for Data That is Heterogenous Distributed Lecture 13 Cluster and Multi-Stage Sampling Strategies Section 2: Hands On on R and R-Studio (Basic Working Principles) Lecture 14 Installation of R and R-Studio Lecture 15 Setting Working Directory in R-Studio Lecture 16 Basic Data Types That R can Handle Lecture 17 Vector; A Simplest Form Of Data Type in R Lecture 18 Matrix; A Tabular Form of Data in R Lecture 19 DataFrame; Most Used Data Type in R Lecture 20 List; A Big Container to Hold Data Lecture 21 What is Variable? Rules to Set Variable Names Lecture 22 R Base Package and Functions; An Important Video Lecture 23 Functions and Packages in R Lecture 24 Brief Introduction of Bioconductor For Biological Data Section 3: Descriptive Statistics Lecture 25 Basic Definition of Statistics Lecture 26 Two Basic Types of Statistics Lecture 27 Distribution of Data; Normal and Skewed Lecture 28 Different Types of Plots to See Distribution of Data Lecture 29 Practical-3.1: How to Build Plots in R to See Distribution of Data Lecture 30 Concept of Central Tendency and Mean Lecture 31 Concept of Median Value of Data Lecture 32 Basic Concept of Outliers in Data Lecture 33 How to Identify the Outliers Lecture 34 Important Properties of Mean and Median Lecture 35 Where to Apply Mean and Median; A Clinical Example Lecture 36 Concept of Mode; Most Frequent Value in Data Lecture 37 Practical-3.2: Calculate Mean, Median and Mode In R Lecture 38 Interquartile Range (IQR); Get an Idea about Spread of Data Lecture 39 Practical-3.3: Calculation of IQR in R Lecture 40 Variance and Standard Deviation (Part-1) Lecture 41 Practical-3.4: Calculation of Variance in R Lecture 42 Variance and Standard Deviation (Part-2) Lecture 43 Practical-3.5: Calculation of Standard Deviation in R Lecture 44 Calculate All Descriptive Statistics For Numeric Variables At Once Section 4: Handling the Categorical Data Lecture 45 Welcome to Module 4; Handling of Catagorical Data Lecture 46 R may Not Identify Categorical Variables Properly Lecture 47 Practical-4.1: How to Rectify R Mistake Regarding Categorical Variables Lecture 48 Frequency Tables; Basic Statistical Analysis of Categorical Variables Lecture 49 Practical-4.2: Building Frequency Tables in R Lecture 50 Percentages & Proportions to Make Sense of Categorical Data Lecture 51 Practical-4.3: Calculations of Percentages & Proportions in R Lecture 52 Mode for Categorical Data Lecture 53 Practical-4.4: Finding Mode of Categorical Data Lecture 54 Contingency Table To Figure Out Relationship of Two Categorical Variables Lecture 55 Practical-4.5: Building Contingency Table of Two Categorical Variables Lecture 56 Different Visualization Method for Categorical Data Lecture 57 Practical-4.6: Building Visualization of Single Categorical Data Lecture 58 Practical-4.7: Building Visualization of Two Categorical Data Together Section 5: Probability Lecture 59 Introduction of Probability Lecture 60 Types of Probability and Classical Probability Lecture 61 Emperical and Subjective Probability Lecture 62 Conditional Probability Section 6: Correlation Lecture 63 Introduction of Correlation; Important Statistical Concept Lecture 64 Parametric and Non-Parametric Distribution Lecture 65 Pearson Correlation Lecture 66 Practical: Pearson Correlation Calculation in R Lecture 67 ggplot2: Brief Introduction of Data Visulization Package Lecture 68 ggplot2: Practical Tutoriall To Make Visulization in R-Studio Lecture 69 Spearman Correlation Lecture 70 Spearman Correlation Example Lecture 71 Practical: Spearman Correlation Calculation in R Lecture 72 Kendall Correlation Lecture 73 Correlation Summary Section 7: Regression Analysis Lecture 74 Regression; Most Decorated Statistical Concept Lecture 75 Fundamental Defination of Regression Lecture 76 Different Types of Regression Lecture 77 Simple Linear Regression; A Simple Elaboration Lecture 78 Predicted Power of Simple Linear Regression Lecture 79 Concept of Residual in Regression (Very Important) Lecture 80 Concept of R-Square Value in Regression Results Lecture 81 Explantion of R Code to Build Simple Linear Regression Lecture 82 Practical-7.1: Building Simple Regression Model in R Lecture 83 Practical-7.2: Understanding of Simple Linear Regression Results in R Lecture 84 Introduction of Multiple Linear Regression Lecture 85 Defination of Multiple Linear Regression Lecture 86 Practical-7.3: How to Build Multiple Regression Model in R Lecture 87 Practical-7.4: How to Visulize Multiple Regression Model in R Using ggplot Lecture 88 Practical-7.5: Understanding of Multiple Regression Model Results in R Lecture 89 Basic Assumption that Holds True in Good Multiple Regression Model Lecture 90 Concept of Linearity Lecture 91 Concept of Independence Lecture 92 Introduction to Logistic Regression (Part-1) Lecture 93 Introduction to Logistic Regression (Part-2) Lecture 94 Explantion of Statistical Formula of Logistic Regression Lecture 95 Logistic Regression R-Code; An Introduction Lecture 96 Practical 7.6: Building Logistic Regression Model in R-Studio Lecture 97 Interpretation of Logistic Model Results From R-Studio Lecture 98 Calculation of Probabilities From Logistic Regression Model Lecture 99 Interpretation of Logistic Regression Curve Section 8: Hypothesis Testing Lecture 100 Introduction of Module Lecture 101 What is hypothesis, Its types and Type-I & Type-II Error Lecture 102 Couple of Examples of Hypothesis Formulation Lecture 103 Basic Workflow of Hypothesis Testing Lecture 104 What is Level of Significance? Lecture 105 Different type of Test for Hypothesis Testing Lecture 106 Traditional Method to Make Decsion About Hypothesis Lecture 107 P-value based Method to Take decsion Lecture 108 Very Important Note Before Talking About Tests Lecture 109 Introduction to Z-test and Its Types Lecture 110 Example of Z-test to Test Hypothesis Lecture 111 What if we have Negative Test Value? Lecture 112 Practical-8.1: Performing One Sample Z-test in R Lecture 113 Introduction ot T-Test Lecture 114 One Sample T-Test and Its Example Lecture 115 Practical-8.2: Performing One Sample T-test in R Lecture 116 Two Sample Independent T-Test Lecture 117 Explanation of R Code to Perform Two Sample Independent T-Test Lecture 118 Practical-8.3: Performing Two Sample Indepedent T-test in R Lecture 119 Two Sample Dependent (Paired) T-test Lecture 120 Explanation of R Code to Perform Two Sample Dependent (Paired) T-Test Lecture 121 Practical-8.4: Performing Two Sample Dependent (Paired) T-Test in R Lecture 122 Practical-8.5: How Type-I and Type-II Error can Occur? Lecture 123 F-Test Lecture 124 Comparsion of F-Test with T and Z-Test Lecture 125 Explantion of R Code to perform F-Test Lecture 126 Practical-8.6: Performing F-Test in R Lecture 127 Introduction of ANOVA and Its Types Lecture 128 What is One Way ANOVA & How to Calculate it? Lecture 129 Explanation of R Code to Perform One Way ANOVA Lecture 130 Practical-8.7: Performing One Way ANOVA in R Lecture 131 What is Two Way ANOVA & How to Calculate it? Lecture 132 Explanation of R Code for Two Way ANOVA Lecture 133 Practical-8.8: Performing Two Way ANOVA in R Lecture 134 Introduction of Chi-Sq Test; A Non-parametric Test Lecture 135 Chi-Sq Test of Independence Theory Lecture 136 Explanation of R Code of Chi-Sq Test of Independence Lecture 137 Practical:8.9: Chi-Sq Test of Independence in R Lecture 138 Chi-Sq Goodness of Fit Test Lecture 139 Explanation of R Code of Chi-Sq Goodness of Fit This course is for broad audiance.,Students from basic sciences, particularly those in life sciences, will find this course especially beneficial, as it is designed to cater to their needs and enhance their understanding of R programming in scientific contexts.,Computer science students aiming for a career in data science will greatly benefit from this course, as it provides foundational skills in R programming that are essential for data analysis and interpretation in the field.,Sociologists who collect population data and wish to analyze and visualize it independently will find this course highly beneficial, as it equips them with the skills to effectively manage, analyze, and present data using R programming.,Not highly recommended but economics and finance students who analyze market trends and financial data will benefit from this course, as it provides the tools to independently conduct statistical analysis and create impactful data visualizations. 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