Setting up a data analytics environment in Linux with Python

Setting Up the Data Science Libraries

The final step is to install the main libraries. Again, just like with JupyterLab, you have the option of installing them with pip:

# pip install numpy pandas matplotlib sklearn

or with the OS package manager (Table 2).

This setup leaves you an environment that is ready both for exploratory data analytics, using JupyterLab, and for large batch processing, using the Python interpreter in script mode. Note that JupyterLab allows you to export a notebook to a Python script. You can also distribute results and documentation using Jupyter notebooks, to report data analytics work to clients. There is one more step that some users might want to take, depending on the specific data analytics project, and that is to install additional Python libraries. PyPI [2] lists all the libraries available in pip. It is good practice to explore the package index before a big project and assess the available field-specific libraries, as well as their maturity and compliance with project requirements.

Example

Suppose I want to understand the behavior of the traffic in a parking lot. I will obtain a profile that shows the hourly average occupancy of the parking lot based on data collected in several measurement campaigns, at different days, in different points of the city. First, I need to retrieve the raw data. For this example, I will use the Birmingham Parking dataset [3], which was used in research work on Smart Cities [4]. Dowload the full dataset using wget:

wget https://archive.ics.uci.edu/ml/machine-learning-databases/00482/dataset.zip

You can enter this command in a terminal window, or you can use the special character ! within Jupyter to run a command in an embedded terminal. Next, unzip the data with unzip.

Given the great variety of formats, processes, and policies of data collection, dataset retrieval will look different each time; sometimes you need to download a ZIP file, sometimes you might just go to a database, or other times you might need to retrieve an SD card from an embedded system. That's the beauty of data science: Each project starts and develops in a different way.

For this example, I will include the Pandas data analytics library. Pandas completely changes the data workflow in Python, making it much more intuitive and easy. Internally, Pandas uses the mechanisms provided by NumPy, thus inheriting its efficiency. One common scenario is to load the data into a Pandas object, on which to perform preliminary data analysis tasks (especially the selection, preprocessing, and transformation stages).

The first step is to read the contents of the file into Pandas DataFrame, using the function read_csv() (Figure 6), to which you pass the mandatory filename parameter and an optional parse_dates parameter to force it to interpret one column as a date-time field. You can then visualize the contents loaded from the file with display().

Figure 6: Loading the dataset into a DataFrame.

As you can see in Figure 6, the data appears in columns. The first column is SystemCodeNumber, which is an identifier of the parking lot. The second column (Capacity) shows the total capacity of the lot, and the third one (Occupancy) shows the current number of occupied parking spaces. Finally, LastUpdated shows the time and date of the last sensor reading.

The next step is to apply a selection process to only take the samples of the NIA North parking lot. For this step, use the .loc property of the Pandas DataFrame object, which allows you to filter the rows. The code shown in Figure 7 filters all the entries in df, where the parking lot name is 'NIA North'.

Figure 7: Narrow the dataset to the parking lot of interest.

The .loc property is very powerful, allowing filtering with a great variety of conditions. More information can be found in the Pandas documentation [5].

You now have the data of interest in df. Nevertheless, data in the real world normally comes with errors and/or outliers. This dataset is not an exception, as you can see in the Matplotlib plot shown in Figure 8.

Figure 8: A visual representation of the data shows some inconsistencies.

In Figure 8, the readings only come from isolated days where measurements were taken. Also, some values of occupancy are lower than 0 (which is impossible), so I need to remove these wrong values. These errors will be different in each project, so normally you will have to spend some time in this phase thinking of possible errors and chasing them. It takes some experience to do this quickly, and normally you might miss some errors and detect them further down the road. When you do so, you need to come back to this part of the study and add the appropriate mechanisms to detect them. Thanks to Jupyter's nonlinear workflow, you can do this easily by adding or editing cells in the appropriate places. Again, the .loc method will come in handy. In this case, I will replace the wrong values with None. If I knew a method to directly correct them, I could have used that method instead. Next, I will fill in the missing values with some generic value. Pandas offers the .fillna() method for filling missing data. You can fill in a constant value (for instance,  ), or use the last known value. I will use the last known value in this case, because a good estimation for occupancy of a parking lot is the occupancy that it had previously. The code in Figure 9 shows the command for cleanup, and Figure 10 shows the corrected data.

Figure 9: Data cleaning step.
Figure 10: After cleaning, you do not see the inconsistencies.

Next is the transformation step. Start by thinking about what the modeling process (the next step) requires. Because you want to do an hourly average of the occupancy expressed as a proportion, you'll need two transformations. First, you need to extract the hour from the date-time field, as shown in Figure 11. With this, you can create a new column that only contains the hour. Next, you need to compute a new column that expresses the occupancy as a proportion, instead of an absolute value (Figure 12). Figure 12 also shows the dataset with the new columns.

Figure 11: Add a new column for the hour.
Figure 12: Adding another column with the percentage of occupancy.

To build the model in the data mining step, you actually only need the last two columns. Start by taking all the samples for each hour, and then calculate the average of the occupancy. In other words, group by the Hour column and calculate the mean. Grouping is such a common task that Pandas offers the groupby shorthand (Figure 13).

Figure 13: Grouping and averaging are the focus of this data mining process.

groupby will result in a new data frame, model, indexed with the unique values of Hour, and that new data frame contains the average value of all the other numerical fields grouped by Hour.

In this simple example, the data mining process was intentionally trivial. In some cases, the grouping and averaging operation can even be a part of the transformation step. Data mining can be very complex, including ML/AI processes, different kinds of numerical methods, and other advanced techniques. But there is one secret that all data analysts learn sooner or later: Most of the hard work of the data analytics process is already done before the data mining step. You can now use the model to represent a chart with the occupancy of the parking lot as a percentage for different hours of the day (Figure 14). More complex projects might involve live charts or detailed reports that are sent automatically by email to interested parties.

Figure 14: Final product of the data analytics project.

Conclusions

This article has been a primer on data science. I described how to take the KDD model as the outline for a typical workflow in a data analytics project. You also learned about the main Python libraries used with data science projects. Finally, I reviewed how to get the environment up and running, and I presented a simple example showing how to use it. This brief introduction is just the beginning. I'll leave it to you to discover how to apply the rich Python data analytics ecosystem to the problems you encounter in your own field of expertise.

Infos

  1. Fayyad, U., G. Piatetsky-Shapiro, and P. Smyth, "The KDD process for extracting useful knowledge from volumes of data," Communications of the ACM, 39(11), 1996, pp. 27-34
  2. PyPI: https://pypi.org/
  3. UCI Machine Learning Repository: https://archive.ics.uci.edu/ml/datasets/Parking+Birmingham
  4. Stolfi, Daniel H., Enrique Alba, and Xin Yao. "Predicting Car Park Occupancy Rates in Smart Cities." In: Smart Cities: Second International Conference, Smart-CT 2017, M·laga, Spain, June 14-16, 2017, pp. 107-117
  5. Pandas DataFrame.loc property: https://pandas.pydata.org/docs/reference/api/pandas.DataFrame.loc.html

The Author

Dr. Emil J. Khatib is a researcher at the University of M·laga in the field of cellular networks and industrial IoT. He also loves programming hardware and web and mobile apps. http://www.emilkhatib.com

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