To better understand the spread of bacteria and viruses in an acute care hospital, this project aims at combining deep learning-based methods, such as activity recognition and object detection to automatically collect and analyze data on all hand-to-surface exposures by doctors, nurses and patients.
- Electrical Engineering, Information Systems, Mechanical Engineering, Signal Processing
- Master Thesis
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The Functional Materials Laboratory (FML) of ETH Zürich is a group performing world-class research in a wide variety of fields, from nanoparticle chemistry to chemical device development. We are designing and developing innovative solutions for a wide range of applications with a cost-effective approach and short time-to-result. - Chemical Engineering, Fluidization and Fluid Mechanics, Mechanical Engineering
- Master Thesis, Semester Project, Student Assistant / HiWi
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Development and Testing of a Soft-Robotic Bloodpump to be used in close proximity of a MRI-scanner. - Biomedical Engineering
- Master Thesis
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The Chemistry and Materials Design group at ETH Zurich is looking for a highly motivated bachelor, semester, or master student for an interdisciplinary project across the fields of materials, chemistry, computer science, and electrical engineering.
Phase change memory (PCM) is an emerging data storage technology, where the information is stored in local bits, switching reversibly between high-resistance amorphous and low-resistance crystalline phases of a material (logical “0” and “1”, respectively). The data is written by heating to the crystallization temperature (SET process). Vice versa, amorphization by melting erases the data (RESET process). PCM devices are faster, more durable and offer greater scaling potential than siliconbased Flash technology. Additionally, PCM devices pave the way towards non-von Neumann architectures, enabling in-memory and brain-like neuromorphic computing. Traditionally, phase-change material films are deposited via sputtering techniques, lithography, and lift-off. Solution-phase deposition of chalcogenides such as inkjet printing at ambient temperature and pressure provides a low-cost and scalable alternative. Furthermore, inexpensive high-throughput printing methods are promising for rapid optimization and give access to new geometries of phase change memory devices (i.e., high-aspect ratio and multilayer arrays). - Chemistry, Engineering and Technology, Information, Computing and Communication Sciences
- Bachelor Thesis, Master Thesis, Semester Project
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Sorting and counting parts is a tedious manual work during post processing for additive manufacturing. In this project, you will address this bottleneck using neural networks for object detection that are solely trained on synthetic training data. - Mechanical Engineering
- Bachelor Thesis, Semester Project
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In the last years, so-called redirected walking
(RDW) has improved drastically. Different
approaches were developed and distinguished core
principles of reactive, scripted, and predictive
behavior. However, large physical spaces are still
needed to allow the user to walk freely without
resets, i.e., a forced redirection of the user near the
physical boundaries. However, the resets disturb
the immersion of the player. Thus, teleportation
techniques are still used in today's games for
locomotion. In this thesis, we will explore the usage
of redirected walking in a first-person shooter (FPS). - Virtual Reality and Related Simulation
- Bachelor Thesis, Semester Project
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We offer a project where you will develop a novel system for real-time TEER-based assessment of barrier function of human in vitro tissue models (e.g., bladder, lung) in microfluidic organ-on-a-chip device developed in the Bioengineering Lab. - Biology, Engineering and Technology, Medical and Health Sciences, Physics
- Master Thesis, Semester Project
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This project focuses on physics-based machine learning to understand the dynamics of fluid flow. We have collected high-resolution images from microfluidics experiments using acoustics. - Computer Vision, Engineering and Technology, Neural Networks, Genetic Alogrithms and Fuzzy Logic, Physics
- Master Thesis
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The Functional Materials Laboratory (FML) of ETH Zürich is a group performing world-class research in a wide variety of fields, from nanoparticle chemistry to chemical device development. We are designing and developing innovative solutions for a wide range of applications with a cost-effective approach and short time-to-result. - Analytical Biochemistry, Chemistry, Engineering and Technology, Medical Biochemistry: Nucleic Acids
- Bachelor Thesis, Internship, Master Thesis, Semester Project
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The Functional Materials Laboratory (FML) of ETH Zürich is a group performing world-class research in a wide variety of fields, from nanoparticle chemistry to chemical device development. We are designing and developing innovative solutions for a wide range of applications with a cost-effective approach and short time-to-result. - Biomedical Engineering, Chemical Engineering, Computer Hardware, Electrical and Electronic Engineering, Manufacturing Engineering, Mechanical and Industrial Engineering
- Internship, Lab Practice, Master Thesis, Semester Project
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