Description
What you’ll learn
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Know the time series forecasting steps
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Know the essential time series components
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Know the most important forecasting accuracy metrics
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Use the moving averages and the simple exponential smoothing techniques
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Use the advanced exponential smoothing techniques: Holt and Holt-Winters
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Use extended exponential smoothing models: TBATS and STLM
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Build regression models with trend only
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Build regression models with trend and seasonality
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Understand important concepts like autocorrelation, stationarity and integration
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Use the augmented Dickey-Fuller test for stationarity
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Build autoregressive integrated moving average models (ARIMA)
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Build neural networks for time series forecasting
Become the Best Time Series Expert in Your Organisation!
The goal of this course is to convert you into a highly-skilled time series forecaster. You will learn the most effective forecasting techniques that analysts use every day to make accurate predictions about the future. This will make you invaluable for your organisation and help you speed up your career like a flash. A time series analyst makes about $70,000 a year on average, but the top performers can make as much as $130,000 (according to SimplyHired).
This course will be a revolution for you, even if you don’t know anything about time series forecasting at this point. After completing it you will know how to…
- investigate historical data,
- detect trends and patterns
- choose the most appropriate forecasting methods
- assess forecasting accuracy
- reduce forecasting error
In a word, time series forecasting is a critical data science skill. If you want to be a full-blown data analyst you have to master time series.
Without further delay, let’s see what you are going to learn in this course.
In the first two sections (not counting the introduction) we build the foundations. The second section presents all the steps we must take to perform time series forecasting in practice, while in the third section you will become familiar with the essential time series notions. You will learn about trend and seasonality, time series decomposition, visualising trends, spotting seasonal patterns etc.
The fourth section is about evaluating forecasting performance. We will review the most used accuracy metrics for time series forecasting and explain them in detail. (We are going to use them extensively throughout the course.)
In the fifth section you will find a brief overview of the forecasting techniques approached in the course. The following sections examine these techniques in great detail and offer practical applications for each, using the R program.
The forecasting methods studied in this course are:
1. Moving averages (section 6). We don’t have to discard the simple forecasting methods, because sometimes they are more effective than the complex ones. This is why we start by looking into the moving averages, both simple and weighted.
2. Simple exponential smoothing (section 7), an extension of the moving averages method. In this section we introduce a very important R function for time series forecasting: ets. More details in the course.
3. Advanced exponential smoothing (section 8). Here we delve into really good stuff: we learn to forecast complicated series that present both trend and seasonal patterns. You will become familiar with two powerful models, Holt and Holt-Winters.
4. Extended exponential smoothing methods (section 9). In this chapter we will implement state-of-the-art models for series with double seasonality: TBATS and STLM.
5. Regression models (section 10). These models can be used for series with both trend and seasonality. They are easy to understand and apply.
6. Autoregressive – or ARIMA – models (sections 11 and 12). These models represent a must have tool for any time series forecaster. They can be extremely effective in many situations, since they can make predictions with a remarkable level of accuracy. In these section you’ll learn all-important concepts like autocorrelation, stationarity, integration, autoregressive processes and moving average processes. Afterwards you’ll learn how to identify an ARIMA model using the autocorrelation charts, how to build these models in R and how to use them for forecasting purposes.
7. Neural networks (section 13). Here we will deal with a special function that creates neural network models for time series forecasting.
Every technique is presented in video, both the syntax and the output being thoroughly explained. At the end of the course, a good number of practical exercises are proposed. This exercises will help you practice and improve your time series forecasting skills.
Join this course today and get hold of a mission critical ability – time series forecasting!
Who this course is for:
- Students in any field that requires quantitative forecasts
- Data analysts
- Wanna be data analysts
- Doctoral students
- Any person who wants to develop their skills in time series analysis and forecasting
Course content
- Introduction1 lecture • 4min
- Introduction
- Forecasting Basics3 lectures • 11min
- Forecasting Basics
- Time Series Data4 lectures • 23min
- Time Series Data
- Assessing Forecasting Performance3 lectures • 17min
- Assessing Forecasting Performance
- Forecasting Methods: A Brief Summary3 lectures • 8min
- Forecasting Methods: A Brief Summary
- Moving Averages9 lectures • 1hr 4min
- Moving Averages
- Simple Exponential Smoothing5 lectures • 41min
- Simple Exponential Smoothing
- Advanced Exponential Smoothing15 lectures • 1hr 9min
- Advanced Exponential Smoothing
- Extended Exponential Smoothing5 lectures • 27min
- Extended Exponential Smoothing
- Regression Models11 lectures • 1hr 10min
- Regression Models
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