- Created a tool that estimates data science salaries (MAE ~ $ 11K) to help data scientists negotiate their income when they get a job.
- Scraped over 1000 job descriptions from glassdoor using python and selenium
- Engineered features from the text of each job description to quantify the value companies put on python, excel, aws, and spark.
- Optimized Linear, Lasso, and Random Forest Regressors using GridsearchCV to reach the best model.
- Built a client facing API using flask
Python Version: 3.8
Packages: pandas, numpy, sklearn, matplotlib, seaborn, selenium, flask, json, pickle
For Web Framework Requirements: pip install -r requirements.txt
Scraper Github: https://github.com/arapfaik/scraping-glassdoor-selenium
Scraper Article: https://towardsdatascience.com/selenium-tutorial-scraping-glassdoor-com-in-10-minutes-3d0915c6d905
Flask Productionization: https://towardsdatascience.com/productionize-a-machine-learning-model-with-flask-and-heroku-8201260503d2
Coming soon
Tweaked the web scraper github repo (above) to scrape 1000 job postings from glassdoor.com. With each job, we got the following:
- Job title
- Salary Estimate
- Job Description
- Rating
- Company
- Location
- Company Headquarters
- Company Size
- Company Founded Date
- Type of Ownership
- Industry
- Sector
- Revenue
- Competitors
After scraping the data, I needed to clean it up so that it was usable for our model. I made the following changes and created the following variables:
- Parsed numeric data out of salary
- Made columns for employer provided salary and hourly wages
- Removed rows without salary
- Parsed rating out of company text
- Made a new column for company state
- Added a column for if the job was at the company’s headquarters
- Transformed founded date into age of company
- Made columns for if different skills were listed in the job description:
- Python
- R
- Excel
- AWS
- Spark
- Column for simplified job title and Seniority
- Column for description length
I looked at the distributions of the data and the value counts for the various categorical variables. Below are a few highlights from the pivot tables.
First, I transformed the categorical variables into dummy variables. I also split the data into train and tests sets with a test size of 20%.
I tried three different models and evaluated them using Mean Absolute Error. I chose MAE because it is relatively easy to interpret and outliers aren’t particularly bad in for this type of model.
I tried three different models:
- Multiple Linear Regression – Baseline for the model
- Lasso Regression – Because of the sparse data from the many categorical variables, I thought a normalized regression like lasso would be effective.
- Random Forest – Again, with the sparsity associated with the data, I thought that this would be a good fit.
The Random Forest model far outperformed the other approaches on the test and validation sets.
- Random Forest : MAE = 11.22
- Linear Regression: MAE = 18.86
- Ridge Regression: MAE = 19.67
under development
In this step, I built a flask API endpoint that was hosted on a local webserver by following along with the TDS tutorial in the reference section above. The API endpoint takes in a request with a list of values from a job listing and returns an estimated salary.