 ETH Zurich| Acronym | ETHZ | | Homepage | http://www.ethz.ch/ | | Country | Switzerland | | ZIP, City | | | Address | | | Phone | | | Type | Academy | | Current organization | ETH Zurich | | Child organizations | | | Members | | | Memberships | | | Partners | |
Open OpportunitiesThe goal of this project is to develop an image-based analysis method that enables timely evaluations. - Chemical Engineering, Computer Software, Image Processing, Interdisciplinary Engineering, Manufacturing Engineering, Materials Engineering, Mechanical and Industrial Engineering
- Bachelor Thesis, Master Thesis, Semester Project
| The goal of this project is to develop an analytical method that will enable even small material samples to be tested for their suitability for the extrusion process. - CAD/CAM Systems, Chemical Engineering, Food Engineering, Food Processing, Materials Engineering, Mechanical and Industrial Engineering
- Bachelor Thesis, Master Thesis, Semester Project
| Based on pre-study, the aim of this new thesis project is to continue the research work and further improve the die design, fabricate new die variants using AM, and experimentally test them onsite at the facilities of Planted. - CAD/CAM Systems, Chemical Engineering, Food Engineering, Food Processing, Materials Engineering, Mechanical and Industrial Engineering
- Bachelor Thesis, Master Thesis, Semester Project
| Project Summary
We’re developing a powerful new in vitro model to untangle the complex mechanical cues—osmotic pressure and substrate stiffness—that skin cells experience every day. These signals are deeply intertwined in the body, but we’re building a system to decouple and precisely control them, for the first time. Why? Because understanding how cells respond to these forces is crucial for engineering functional tissues, guiding organ regeneration, and tackling mechanobiology-driven diseases like fibrosis.
- Biochemistry and Cell Biology, Biomaterials, Diagnostic Applications
- Master Thesis
| Introduction and Background
Skin cells dynamically respond to mechanical and biochemical stimuli, which influence critical processes such as proliferation, differentiation, and migration. By understanding this interplay, mechanical and biochemical stimuli may be used in the future to facilitate the growth of skin patches, tissue formation, and organ regeneration, enabling new therapies and benefiting patients. The study of these responses, mechanobiology, requires advanced in-vitro systems to emulate physiological conditions. This project utilizes a device designed for controlled manipulation of hydrostatic pressure (0.1–1.5 kPa) and substrate stiffness (0.1–100 kPa). The system facilitates isolated and scalable experiments to analyze how the interplay of these mechanical parameters affects cell behavior. In this thesis, the student will use this system to investigate how different stimuli affect cell behavior.
- Biochemistry and Cell Biology, Biomedical Engineering, Biotechnology, Polymers
- Master Thesis
| The lattice Boltzmann method (LBM) is a state-of-the-art computational fluid dynamics (CFD) model used to simulate fluid flow based on the solution of the Boltzmann equation. LBM has considerable advantages in solving low Mach number flows as compared to conventional Navier-Stokes solvers, mainly due to the locality and explicitness of operations. This results in a huge potential for massive parallel computing on modern distributed memory machines.
Adaptive mesh refinement (AMR) is a commonly employed computational technique in CFD to enhance the ratio between efficiency and accuracy of simulations by dynamically adjusting the resolution of the computational grid based on some local indicators of the flow. By adaptively refining the grid in regions of interest, e.g. shocks in compressible flows or interfaces in multiphase flows, AMR can provide high resolution where it is most needed, while reducing computational effort and memory footprints in regions where coarser resolution is sufficient.
The group recently developed a parallel AMR solver based on a finite-volume discrete velocity Boltzmann method (FV-DVBM). The solver is strictly conservative and showed promising results for compressible flows with moderate Mach numbers and discontinuities. The advantages of AMR, however, are not restricted to the regime of compressible flows. Therefore, the group is currently developing an AMR framework for general purpose kinetic models, including LBM.
The goal of this project is to incorporate a standard lattice Boltzmann model for isothermal, low Mach number flows (D2Q9, possibly D3Q27) into the AMR framework and to validate it with (2D, possibly 3D) test cases. For a master’s thesis, the scope shall be extended to include work on boundary conditions, complex geometries, as well as models for compressible, turbulent, or multiphase flows, depending on discussed preferences.
- Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Physics
- Master Thesis, Semester Project
| This thesis develops an automated onboard waste quantification system for a maritime waste collection vessel, leveraging computer vision with continual learning and domain adaptation to replace manual counting of floating waste. Evaluated under real-world maritime conditions, the system aims to improve waste management in the South East Asian Sea. - Engineering and Technology
- Master Thesis
| diaxxo, a start-up from ETH Zürich, is transforming molecular diagnostics with an innovative Point-of-Care Polymerase Chain Reaction (PCR) device. Designed to accelerate and democratize access to diagnostic testing, our cutting-edge technology can be used across various fields, from human diagnostics to vet and food testing.
Our products are also tailored for use in developing countries and resource-limited settings, aiming to bring reliable diagnostics to every corner of the globe.
The company offers several projects and thesis opportunities focusing on interfacing computer and camera systems (e.g. controlling Camera Pi from ESP microcontrollers, and integrating hardware and software components to address design and automation challenges. - Chemical Engineering, Computer Hardware, Electrical Engineering, Manufacturing Engineering, Mechanical Engineering, Software Engineering
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| In this project, we focus on continuous and quantitative monitoring of activities of daily living (ADL) in SCI individuals with the goal of identifying cardiovascular events and PI-related risk behaviors.
ADLs specific to SCI patients and their lifestyles shall be discussed and narrowed down in the scope of this work, therefore an autonomous camera-based system is proposed to classify ADLs.
The Current work builds on a previous project where a SlowFast network [1] was trained to identify SCI-specific classes and we aim to further improve the classification and temporal resolution for transferring to wearables' time-series data. - Computer Vision, Health Information Systems (incl. Surveillance), Intelligent Robotics, Knowledge Representation and Machine Learning, Neural Networks, Genetic Alogrithms and Fuzzy Logic, Pattern Recognition
- Bachelor Thesis, Course Project, ETH for Development (ETH4D) (ETHZ), ETH Zurich (ETHZ), Internship, Master Thesis, Semester Project
| The objective of this project is to synthesize monodisperse solutions of elongated silica nanoparticles following established recipes. The nanoparticles will be analyzed with electron microscopy and their mode structure will be studied in optical traps operated in high vacuum. - Chemical Engineering, Electrical and Electronic Engineering, Materials Engineering, Optical Physics, Physical Chemistry
- Master Thesis, Semester Project
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