http://www.dataists.com/2010/09/a-taxonomy-of-data-science/

Statistical Modeling: The Two Cultures

**A Discussion on Terminology:**

When I was making the videos this week, I quickly found myself using some terminology that may be unfamiliar to you. Here are some of the terms I want you to be familiar with:

**Observations/Variables**

First, lets talk about observations and variables. Observations are just individual data elements (datum) in data. They could be individual experiments (imagine coin flips), which is how they got their name. They are an instance of something happening. Variables are bits of information we have for each observation. Variables can also be called features.

Variable 1 | Variable 2 | |

Observation 1 | ||

Observation 2 | ||

Observation 3 |

**Continuous/Categorical**

Some variables are continuous, and some are categorical. Imagine a variable that contains the result of a coin flip. Lets call that variable flip. Flip could equal 1 for a head, or 0 for a tail. It’s important to note though, that for categorical variables, heads isn’t ‘greater than’ tails, just because 1 > 0. It’s also important to note that the distance between a head and a tail isn’t |1-0| = 1. Categorical variables don’t have any ordinal properties. They’re just labels.

**Independent/Dependent variables**

When we’re building models, we typically care to try to predict some dependent variable, based on the independent variables in the dataset.

Independence is pretty rigorously defined. Simply though, if A and B are independent then P(A,B) = P(A) * P(B) and P(B|A) = P(B). In real life, it’s really hard to know if A and B are truly independent, and we have to make assumptions about those variables. Careful though, A and B are dependent, and both find our way into our model, that’s called collinearity. If you have too much collinearity in your dataset, you’re going to have a bad time. We will talk about that more later.

Lets put this all together in an example:

obs. num | bedrooms | basement | price |

house1 | 3 | 1 | 200k |

house2 | 2 | 1 | 150k |

house3 | 3 | 0 | 180k |

In this dataset, there are two independent variables (bedrooms and basement) and three observations. Basement is categorical. The dependent variable would be price.

]]>This was my approach.

http://drewconway.com/zia/2013/3/26/the-data-science-venn-diagram

]]>I recently needed a dataset to test a hypothesis that OK Cupid would be perfect for, so I cobbled this together.

http://nbviewer.ipython.org/github/mbernico/okcupid_scraper/blob/master/scrape_OKC.ipynb

I got a great start from Andrew Matteson.

If this helps you out, let me know!

P.S. Please read the OKCupid ToS very closely and make sure your use case isn’t breaking those rules.

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This is a first post on my brand new shiny blog. Hi everyone.

While this blog is new, I’m not so new to blogging. I’ve been writing over at iron-path.blogspot.com for a few years on eating, athletics, triathlon, and other such nonsense. But, this blog is for my non-athletic life. Honestly, most of what you’re going to find here will be ‘Data Science’ stuff. But, I don’t want to paint myself into a corner with that. So, you might also find things about me, bikes, wine making, or who knows what else here.

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