Course Details
Advanced Data Analysis
Location
Date
Duration
Language
Discipline
Introduction
This course focuses on the techniques and applications statistical data analysis. Typically, focuses on understanding the data, empirical model building using observational data for characterization, estimation, inference and prediction. Participants will study the theory, principles and methods for statistical analysis of observational data. Regression analysis, Parameter Estimation, and Testing of Hypotheses will be the primary tools to be discussed. Participants will develop empirical model building skills and be able to employ the models for characterization, estimation and prediction purposes.
While statistical techniques are emphasized throughout, the course has a strong engineering and management orientation. Guidelines are given throughout the course for selecting the proper type of statistical technique to use in a wide variety of product and non-product situations.
Objective
Upon successful completion of this course, the delegates will be able to:
- Explain the principles and the basis for applying the basic principles of modern statistical methods for analyzing the data and make the correct inferences.
- Perform data analysis and/or data investigation for what perspective.
- Use data analysis results and turns it in attractive presentations for decision making processes.
- Define the key concepts in Statistics and Sampling
- Enable the attendees to grasp the advanced information in various aspects of basic data analysis.
- Present different techniques of statistical data analysis
- Describe the concept of regression analysis and statistical modeling to participants.
- Illustrate study cases for different applications of statistical data analysis
Audience
Engineers and Senior Engineers/Specialists working in technical areas (Field and Headquarters) dealing with production or maintenance activities. Planning Engineers with technical background, Reliability Engineers, etc. This course is also intended for engineers in various industrial and service sectors, private and public fields that need a tool to plan for the future of their company. Strategic planning managers, research and development managers, general managers, and can be tailored according to company’s specific needs.
Content
Introduction & Basics
- Introduction
- Types of Data: Measurement & Categorical Variables
- Measurement scales
- Variables
- Parameters
- Statistics:
- Descriptive Statistics
- Inferential Statistics
- Accuracy and Precision
- Summation Notation
- Confidence Intervals
- Exercises
Univariate Data
- Central Tendency
- Mean
- Median
- Mode
- Spread
- Range
- Semi-Interquartile Range
- Variance
- Standard Deviation
- Shape
- Skew
- Kurtosis
- Graphs
- Exercises
Bivarite Data
- Scatter plots
- Pearson’s Correlation
- Example Values of r
- Exercises
Probability
- Simple & Conditional Probability
- Probability of (A and B) and (A or B)
- Binomial Distribution
- Exercises
Normal Distribution
- Definition
- Standard Normal Distribution
- Conversion to Percentiles and Back
- Exercises
Sampling Distribution
- Definition
- Sampling Distribution of the Mean
- Standard Error
- Central Limit Theorem
- Difference Between Means
- Proportion
- Difference Between Proportions
- Exercises
Point Estimation
- Overview
- Characteristics of Estimators
- Estimation Variance
- Exercises
Confidence Intervals
- Overview
- Mean, σ Known
- Mean, σ Estimated
- General Formula
- Difference Between Means of Independence Groups: σ Known; σ Estimated
- Linear Combination of means from Independent Groups
- Exercises
Logic of Hypothesis Testing
- Ruling Out Changes as an Explanation
- The Null Hypothesis
- Steps in Hypothesis Testing
- The Precise Meaning of the p Value
- At What Level is H0 Really Rejected
- Statistical and Practical Significance
- Type I and II Errors
- One- and Two-Tailed Tests (t-tests)
- Confidence Intervals and Hypothesis Testing
- Exercises
Hypothesis Testing with Standard Errors
- General Formula
- Tests of μ, σ Known
- Tests of μ, σ Estimated
- μ1 - μ2, Independent Groups, σ Estimated
- μ1 - μ2, Dependent Groups, σ Estimated
- Linear Combination of Means, Linear Combination of Means, Independent
- Groups
- Proportions
- Differences Between Proportions
- Exercises
Power & *P Value
- Introduction
- Factors Affecting Power
- Introduction
- Size of Differences Between Means
- Significance Level
- Sample Size
- Variance
- Other Factors
- Estimating Power
- *P Value
- Exercises
Analysis of Variance (ANOVA)
- Preliminaries
- ANOVA with 1 Between-Subjects Factor
- Tests supplementing ANOVA
- Formal Model
- Expected Mean Squares
- Exercises
Prediction
- Introduction
- Standard Error of the Estimate
- Partitioning the Sums of Squares
- Confidence Intervals and Significance Tests for Correlation and Regression
- Simple Linear Regression
- Multiple Linear Regressions
- Exercises
Certificate
TRAINIT ACADEMY will award an internationally recognized certificate(s) for each delegate on completion of training.
Methodology
A highly interactive combination of lectures and discussion sessions will be managed to maximize the amount and quality of information and knowledge transfer. The sessions will start by raising the most relevant questions, and motivate everybody find the right answers. You will also be encouraged to raise your own questions and to share in the development of the right answers using your own analysis and experiences. Tests of multiple-choice type will be made available on daily basis to examine the effectiveness of delivering the course.
All presentations are made in excellent colorful power point. Very useful Course Materials will be given.
30% Lectures
30% Workshops and work presentation
20% Group Work& Practical Exercises
20% Videos& General Discussions