SKIRIM: Self-actuated Kinetic Interaction with Rich Interactive Materials
Research Project within the DFG-funded SPP 2199 "Scalable Interaction Paradigms" with Prof. Dr. Susanne Boll (University of Oldenburg) & Prof. Dr. Jürgen Steimle (Saarland University), 2023–2026
About the Project
The SKIRIM project investigates the integration of soft, shape-changing interfaces in personal spaces like smart homes. Within the project, we will develop predictive models for user experience, scalable fabrication techniques, and interaction concepts that allow customization and programming of these interfaces.
Team at RWTH
Contact
If you have any questions about the project, please contact Sarah Sahabi.
Thesis Supervisions
| Student | Topic | Type | Semester | Supervisor |
|---|---|---|---|---|
| Marius Bronner | TBA | Master's Thesis | Winter 2025/26 | Sarah Sahabi |
| Vladislav Gunchev | Literature Review: Toolkits and Frameworks for Prototyping Shape-Changing Interfaces | Bachelor's Thesis | Winter 2025/26 | Sarah Sahabi |
| Paul Gilles | TBA | Master's Thesis | Winter 2025/26 | Sarah Sahabi |
| Hana Masara | Designing Shape-Changing Interfaces for Atmospheric Mood Induction | Master's Thesis | Winter 2025/26 | Sarah Sahabi |
| Finn Hoepfner | KOOPA: A Kinetic Output Object for Position-based Alerts | Bachelor's Thesis | Summer 2025 | Sarah Sahabi |
| Muhammad Omar | From Context to Shape: AI-Driven Translations for Shape-Changing Interfaces | Master's Thesis | Summer 2025 | Sarah Sahabi |
| Franca Hübner | Co-designing Shape-Changing Interface Scenarios in Smart Homes | Bachelor's Thesis | Summer 2025 | Sarah Sahabi |
| Jennifer Drew | Foldlets: String-Actuated Shape Change for Disappearing Textile Interfaces | Master's Thesis | Summer 2025 | Sarah Sahabi |
Publication List
- Jennifer Drew. Foldlets: String-Actuated Shape Change for Disappearing Textile Interfaces. Master's Thesis, RWTH Aachen University, Aachen, November 2025.
- Franca Hübner. Co-Designing Shape-Changing Interface Scenarios in Smart Homes. Bachelor's Thesis, RWTH Aachen University, Aachen, September 2025.
- Finn Lucca Hoepfner. KOOPA: A Kinetic Output Object for Physical Alerts. Bachelor's Thesis, RWTH Aachen University, Aachen, September 2025.
2025
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