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Welcome to the course CS-C4100 - Digital Health and Human Behavior!

Course Description

The primary audience of this course is BSc students in their final year and MSc students with knowledge of Python and data science. You can find the course and enroll on Sisu by searching for the course code “CS-C4100”. This is a 5-credit course over period II.

Overview

In the past two decades, connected devices like smartphones, smartwatches, and online platforms like social media have become essential to our daily lives. Interacting with these devices and platforms, we leave digital traces behind. We often hear companies accessing these digital traces (our data) can learn much about our lives and behavior. But what exactly can be learned from these data, how it can be learned, and for what purposes can it be used? In this course, we learn about different kinds of digital traces that people leave behind. Working with data in some case studies, we learn how to extract from these data. We also discuss different ways to use the extracted information from the data. We focus on use cases that are related to health and well-being (e.g., self-tracking, monitoring people’s sentiments during crises on social media, and digital phenotyping).

Learning outcomes

After completing this course, you will learn how digital data from people (e.g., data from their smartwatches) can be used to measure different aspects of their behavior at individual and group levels. You will also learn how this information can be used in health and public health domains. By the end of the course, you will know what kind of questions can be answered using such data, and you will be able to implement code to extract relevant and valuable information from such data.

Description

This course will cover topics related to quantifying human behavior, health, and well-being using digital traces at the individual and group/society levels. The topics include 1) quantified-self, 2) digital data collection and analysis of behavioral and/or physiological data in the wild as well and 3) controlled digital data collection via recruitment of study participants for the purpose of quantifying behavior, health, and well-being, 4) digital phenotyping, 5) digital phenotyping for public health and 6) ethics, privacy and validity assessment in the context of all the topics covered in the course.

Prerequisites

Mandatory

  • Basic mathematics courses (especially introductory statistics)

  • Python programming skills

  • At least one introductory course in machine learning, data science, or artificial intelligence

Helpful to know

  • Python libraries such as Scikit-learn and Seaborn

Schedule

  • Wed 23.10.2024 14:15–16:00

  • Wed 30.10.2024 14:15–16:00

  • Wed 06.11.2024 14:15–16:00

  • Wed 13.11.2024 14:15–16:00

  • Wed 20.11.2024 14:15–16:00

  • Wed 27.11.2024 14:15–16:00

  • All lectures are held on campus (Location: Kandidaattikeskus, E-sali - Y124).

Exercise Sessions

  • Mon 28.10.2024 14:15–15:45

  • Mon 04.11.2024 14:15–15:45

  • Mon 11.11.2024 14:15–15:45

  • Mon 18.11.2024 14:15–15:45

  • Mon 25.11.2024 14:15–15:45

  • Mon 02.12.2024 14:15–15:45 (Questions related to the final project)

  • All exercise sessions are held online.

Workload structure

  • Weekly lectures (bonus attendance points)

  • Weekly exercises; data analysis

  • Weekly reading + multiple choice questions

  • Final project + Peer grading

  • No exam!

Lecture 1: Intro and background

  • Course overview and practicalities

  • Health, well-being, and digital data

  • Data sources

  • Types of data

Lecture 2: Quantified-self

  • What is quantified-self? How prevalent is it?

  • What is measured and how is it measured? (apps vs devices)

  • Applications of self-tracking

Lecture 3: Quantifying behavior of groups of people/sub-populations

  • Data collection in the wild/Social media data: case study: sentiment analysis during crises

  • Controlled data collection: case study: Reality mining/DTU/ identifying chronotypes

Lecture 4: Digital Phenotyping

  • What is digital phenotyping?

  • Areas where it can be used

  • Case-study: MoMo-Mood

Resources
Onnela, J. P., & Rauch, S. L. (2016). Harnessing smartphone-based digital phenotyping to enhance behavioral and mental health. Neuropsychopharmacology, 41(7), 1691-1696.

Lecture 5: Digital Phenotyping for Public Health

Resources
Waring, O. M., & Majumder, M. S. (2020). Introduction to Digital Phenotyping for Global Health. In Leveraging Data Science for Global Health (pp. 251-261). Springer, Cham.

Lecture 6: Privacy, ethics, assessment

  • Privacy and ethics in data collection

  • Data handling and safekeeping, GDPR

  • Assessment and evaluation of tools and interventions which are based on patient-generated data

Requirements & grading

  • Exercises are graded automatically/by the TAs

  • In-class tasks (not graded)

  • Projects are graded by peer review and teaching assistants

  • No exam

Assignments

Weekly assignments on Jupyer Hub to support lecture material

Project

Learn more

Contact information

talayeh.aledavood@aalto.fi