Interpretable Machine Learning Applications: Part 1

提供方
Coursera Project Network
在此指导项目中,您将:

How to select and compare different prediction models (classification regressors) for a real world dataset (FIFA 2018 Soccer World Cup Statistics).

How to extract the most important features, which impact the classifiers, in a model-agnostic approach, together with caveats.

How to get an insight into the way values of the most important features impact the predictions made by the classifiers.

Clock2-hour course, including time of video recordings, practicing and readings, taking the quiz.
Beginner初级
Cloud无需下载
Video分屏视频
Comment Dots英语(English)
Laptop仅限桌面

In this 1-hour long project-based course, you will learn how to create interpretable machine learning applications on the example of two classification regression models, decision tree and random forestc classifiers. You will also learn how to explain such prediction models by extracting the most important features and their values, which mostly impact these prediction models. In this sense, the project will boost your career as Machine Learning (ML) developer and modeler in that you will be able to get a deeper insight into the behaviour of your ML model. The project will also benefit your career as a decision maker in an executive position, or consultant, interested in deploying trusted and accountable ML applications. Note: This course works best for learners who are based in the North America region. We’re currently working on providing the same experience in other regions.

您要培养的技能

  • Python basic knowledge
  • Features engineering
  • Machine learning classification (regression) models

分步进行学习

在与您的工作区一起在分屏中播放的视频中,您的授课教师将指导您完成每个步骤:

  1. Setting the stage (Python Jupyter Lab web-based Server environment, importing the dataset and file to train and test the designated classification regressors as prediction models).

  2. Train, test and estimate the accuracy (confusion matrix) of a Decision Tree classifier.

  3. Train, test and estimate the accuracy (confusion matrix) of a Random Tree classifier as an alternative to the previous one.

  4. Extract a ranking list of the features, which are most important for each one of our prediction models.

  5. Extract and plot the impact of the values of selected important features on predictions being made by each one of our prediction models.

指导项目工作原理

您的工作空间就是浏览器中的云桌面,无需下载

在分屏视频中,您的授课教师会为您提供分步指导

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