| Code |
15643
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| Year |
1
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| Semester |
S2
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| ECTS Credits |
6
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| Workload |
PL(30H)/T(30H)
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| Scientific area |
Informatics
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Entry requirements |
N/A
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Learning outcomes |
This course aims to introduce students to the fundamental topics of data science. At the end of the course, the student should be able to (1) list the steps involved in a data science project as well as the role of each one; (2) know the data science toolkit; (3) know how to apply data acquisition methods to get information from web pages and social web using python packages, apis, web scraping and web crawling; (4) import, manipulate, transform, relate, analyze and store numerical data, namely vectors and matrices, using Numpy; (5) import, clean, transform, manipulate, filter, aggregate, sort and conduct exploratory data analysis using Pandas; (6) communicate results through data visualization using matplotlib, plotly, seaborn and streamlit; (7) know how to use large language models; (8) be able to discuss ethical, privacy and transparency concerns associated with obtaining, using and manipulating data in data science projects;
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Syllabus |
1. Introduction to Data Science
2. Data Science Toolkit
3. Data Acquisition
4. Manipulation and Numerical Data Analysis with Numpy
5. Manipulation and Data Analysis with Pandas
6. Data Visualization with Matplotlib, Plotly, Seaborn and Streamlit
7. Introduction to Large Language Models (LLMs) for Natural Language Processing (NLP)
8. Ethics and Data Privacy
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Main Bibliography |
- Belorkar, A., Guntuku, S., Hora, S. & Kumar, A. (2020). Interactive Data Visualization with Python.
- Provost, F. & Fawcett, T. (2013). Data Science for Business.
- VanderPlas, J. (2017). Python Data Science Handbook.
- Loukides, M., Mason, H. & Patil, D. (2018). Ethics and Data Science.
- Molin, S. (2019). Hands-On Data Analysis with Pandas: Efficiently perform data collection, wrangling, analysis, and visualization using Python.
- Blair, S. (2019). Python Data Science: The Ultimate Handbook for Beginners on How to Explore NumPy for Numerical Data, Pandas for Data Analysis, IPython, Scikit-Learn and Tensorflow for Machine Learning and Business
- McKinney, W. (2017). Python for Data Analysis: Data Wrangling with Pandas, NumPy, and IPython.
- Alammar, J. & Grootendorst, M. (2024). Hands-On Large Language Models.
- Rodriguez, C. (2024). Generative AI. Foundations in Python.
- Raschka, S. (2024). Build a Large Languade Model (From Scratch). Manning
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Teaching Methodologies and Assessment Criteria |
Teaching/Learning Assessment
. Midterm: 50% (computer-based test with partial access to the contents)
- Project: 50% (groups of 3 elements)
Evaluation by Exam
- Exam: 100% (computer-based test without access to the contents)
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Language |
Portuguese. Tutorial support is available in English.
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