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376-1229-00L 3 Credits DR , MSC D-HEST

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Artificial Intelligence in Rehabilitation and Healthcare

Lecturers & Examiners: Dr. Diego Felipe Paez Granados

VVZ CR n/a

Last Updated: 2026-02-05 16:29:12

Abstract

Students will delve into AI fundamentals (e.g., regression, classification, and deep neural networks) and their role in patient monitoring & personalized rehab. Collaborative projects offered by MedTech companies provide hands-on experience in developing and evaluating AI-driven solutions. This course will emphasise AI's explainability and ethical dimensions fostering its critical analysis.

Objective

1. Evaluate the effectiveness of AI tools and algorithms in the context of rehabilitation and healthcare, and suggest modifications or improvements as needed. 2. Understand the ethical and legal considerations surrounding the use of AI in rehabilitation and healthcare and apply this knowledge to ensure patient privacy and data security. 3. Identify potential limitations and risks of using AI in rehabilitation and healthcare and propose strategies to mitigate these challenges. 4. Collaborate effectively with other students on group projects that involve developing and im-plementing AI-based rehabilitation and healthcare solutions.

Content

In the class ‘Artificial Intelligence (AI) in Rehabilitation and Healthcare’, we will explore the integra-tion of advanced technology in the field of rehabilitation. The class consists of both theoretical and practical components. In the theoretical part, students are introduced to the fundamental concepts of artificial intelligence, including regressions and classification in machine learning, deep neural net-works, and large language models. They will explore the applications of AI in rehabilitation and healthcare, including patient monitoring, personalized treatment plans, and predictive analytics. In the practical component, each student will work with one of the clinics or technology companies to identify real-world problems and gain hands-on experience in developing AI in rehabilitation and healthcare. The practical work will be done in the course room with student assistants and experts from the companies. They will use Python as main language on their own laptops with ready to use Jupiter notebooks that could have access to our lab’s server if needed for computational resources. They will directly start using programming languages and tools to build models, analyze data, and create algorithms that can be used to improve patient outcomes. Throughout the class, students are encouraged to think critically about the ethical implications of using AI in rehabilitation. They examine the potential benefits and risks of using advanced technology in patient care and explore ways to mitigate potential negative outcomes. Practical problems partners: Schweizer Paraplegiker-Stiftung, Lake Lucerne Institute, Balgrist Uni-versity Hospital, Ortho-Team Luzern, Akina AG, and Leitwert AG.

General Information

Language: English
Levels: DR , MSC
Frequency: Yearly recurring

Examination

Type: graded semester performance

Continuous performance assessments:- Lab assignments (pass/fail)- Final project presentations with report and code submissions

Registration & Places

Max Places: 60

Course Components

Type	Title	Time & Place	Hours
lecture with exercise	Artificial Intelligence in Rehabilitation and Healthcare	Thu 14:15-17:00 (NO C 44)	3 h weekly

Offered In

Doctorate Health Sciences and Technology (More Information at: )
- Subject Specialisation
  - Health Sciences and Technology
Health Sciences and Technology Master
- Major in Rehabilitation and Inclusion
  - Electives
    - Rehabilitation Technology (Students majoring in Rehabilitation and Inclusion: At least 3 CP of the courses in this focus area must be selected.)