Applied Data Science with Python and Jupyter
Course Description Overview
Data science is becoming increasingly popular with more and more industries beginning to value its importance, while recent advancements in open-source software have made the discipline accessible to a wide range of people. Python is a popular choice for most data scientists, owing to its ease of use and versatile nature.
In this course, we show how Jupyter Notebooks can be used with Python for various data-science applications. Aside from being an ideal "virtual playground" for data exploration, Jupyter Notebooks are equally suitable for creating reproducible data processing pipelines, visualizations, and prediction models.
We will look at various data modelling concepts using Jupyter Notebooks, and we will see the full power of Jupyter Notebooks as we work through this course.
This fast-paced practical single-day course focuses on solving challenges presented by data science in a manner that is simple to conceptualize and easy to implement.
This is achieved by leveraging Python libraries that offer abstractions to complicated underlying algorithms. The result is that data science becomes very approachable for beginners, a fact which is reflected by the strength and growing popularity of the Python ecosystem. In this course, we will cover every aspect of the standard data workflow process, including collecting, cleaning, investigating, visualizing, and modeling data.
The Jupyter Notebook acts as an add-on tool - a virtual playground - that allows you to create and share live code, equations, visualizations, and text.
By touching on a variety of topics within the discipline, you'll be exposed to many interesting examples with real-world data.
If you're a Python programmer stepping out into the hugely popular world of data science, opting for this course is the right way to get started.
For the best experience in this course, you should have knowledge of programming fundamentals and some experience with Python. In particular, having some familiarity with the Python libraries Pandas, Matplotlib, and scikit-learn will be useful.
For this course, we will use the following software:
- Anaconda 4.3+ and Python 3.5+
- Python libraries included with Anaconda installation:
o matplotlib 2.1.0+
o ipython 6.1.0+
o requests 2.18.4+
o beautifulsoup4 4.6.0+
o numpy 1.13.1+
o pandas 0.20.3+
o scikit-learn 0.19.0+
o seaborn 0.8.0+
o bokeh 0.12.10+
- Python libraries that require manual installation:
o mlxtend
o version_information
o ipython-sql
o pdir2
o graphviz
Installation and Setup
- Download and install all the required Python libraries.
This course will require a computer system for the instructor and one for each student. The minimum hardware requirements are as follows:
- Processor: i5
- Memory: 8 GB RAM
- Hard disk: 10 GB
- An internet connection
Lesson 1: Jupyter Fundamentals
- Basic Functionality and Features
- Our First Analysis - The Boston Housing Dataset
Lesson 2: Data Cleaning and Advanced Machine Learning
- Preparing to Train a Predictive Model
- Training Classification Models
Lesson 3: Web Scraping and Interactive Visualizations
- Scraping Web Page Data
- Interactive Visualizations