Hochschulmedizin ZürichAcronym | HMZ | Homepage | http://www.hochschulmedizin.uzh.ch/ | Country | Switzerland | ZIP, City | 8001 Zürich | Address | Künstlergasse 15 | Phone | +41 44 634 57 37 | Type | Alliance | Current organization | Hochschulmedizin Zürich | Child organizations | | Members | |
Open OpportunitiesYou will develop a diagnostic test for testicular cancer. The focus of the project will be on creating the biochemical protocols for the test. The project is in collaboration with a prelaunch startup and a hospital (USZ). Therefore, it is ideal for motivated students who want to have a direct impact - Analytical Biochemistry, Biological and Medical Chemistry, Biomedical Engineering, Immunological and Bioassay Methods, Interdisciplinary Engineering, Materials Engineering, Sensor (Chemical and Bio-) Technology
- Bachelor Thesis, Internship, Lab Practice, Master Thesis, Semester Project, Summer School
| Collaborating with a dynamic startup, you will work on designing, manufacturing, and testing microfluidic devices to quantify biomolecules associated with chronic inflammation, heart attacks, and tropical diseases. - Biology, Biomedical Engineering, Chemical Engineering, Chemistry, Electrical and Electronic Engineering, Mechanical and Industrial Engineering, Medical and Health Sciences, Physics
- Bachelor Thesis, Collaboration, Internship, Lab Practice, Master Thesis, Semester Project, Summer School
| The goal of the project is to develop a wearable device capable of non-invasive measurement of human biomarkers related to performance and fatigue during exercise. - Chemistry, Engineering and Technology, Medical and Health Sciences
- Master Thesis
| The goal of the project is to synthesize and characterize a number of small molecules capable of acting as mechanophore addition to various polymers. These polymers would then be used as wearable strain or pressure sensors. - Chemical Engineering, Chemistry, Composite Materials
- Master Thesis
| Join our interdisciplinary student project to transform at-home diagnostics! Work on cutting-edge technology, boost sensitivity, engineer tests for seamless home use, and develop targeted disease detection. Help us to shape the future of healthcare. - Biochemistry and Cell Biology, Biomedical Engineering, Chemical Engineering, Chemistry, Electrical Engineering, Fluidization and Fluid Mechanics, Materials Engineering, Mechanical Engineering, Medical and Health Sciences, Nanotechnology, Physics
- Bachelor Thesis, ETH Zurich (ETHZ), Lab Practice, Master Thesis, Semester Project, Summer School
| You will work on bringing medical tests to peoples home. You will further develop the hardware and software for a readout device that can perform a variety of diagnostic tests in a reliable but simple fashion. - Electrical and Electronic Engineering
- Bachelor Thesis, Internship, Lab Practice, Master Thesis, Semester Project, Summer School
| Model Predictive Control (MPC) is extensively utilized in industry and academia. However, designing an optimal cost function and constraints for achieving the best closed-loop performance remains an open challenge. This project seeks to bridge this gap by framing the problem as a policy optimization problem and solving it through the application of gradient-based optimization schemes. - Electrical Engineering
- Master Thesis, Semester Project
| Abstract
Reinforcement learning (RL) has achieved remarkable performance in various domains such as gaming, protein folding, and foundation models. However, efficiently applying RL to real-world applications like go-kart racing and urban driving presents significant challenges due to high-dimensional environments and the lack of structured task decomposition. This thesis proposes addressing these challenges through prioritized rewards and hierarchical task decomposition. By incorporating prioritized experience replay and dynamic reward shaping, the learning process focuses on critical experiences, enhancing efficiency. Hierarchical RL will break down complex tasks into manageable sub-tasks for better strategic planning and execution. The goal is to develop robust and adaptable RL agents capable of high performance in both racing and urban driving scenarios. The student will select a specific application domain, define benchmarks, and potentially conduct real-world testing. The outcomes are expected to contribute significantly to robotics research, with potential publications in top conferences and journals. Pre-requisites include a strong interest in machine learning, RL, optimization, robotics, and proficiency in Python. Prior experience in autonomous vehicles or robotics is a plus. - Automotive Engineering, Intelligent Robotics, Knowledge Representation and Machine Learning
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| Background: Topology is vital in medical image segmentation, emphasizing anatomically correct structures & removing incorrect ones. Previous works [1-3] explored how to enforce topological constraints, however, are applied only at training. Recent diffusion-based models [4, 5] offer a novel way to enforce topological constraints during inference.
MSc Thesis: First, you will develop a diffusion model for segmentation. Next, you will be devising a novel way to integrate topological constraints in the diffusion model. Importantly, we aim to publish the results of this work with you at a high-impact conference or journal. - Artificial Intelligence and Signal and Image Processing, Electrical and Electronic Engineering, Interdisciplinary Engineering, Mathematical Sciences
- Master Thesis
| Non-healing wounds are a significant medical challenge, and tissue engineering offers a promising solution for skin regeneration. This project aims to accelerate skin graft production for severe wound healing by focusing on the mechanobiology of human dermal fibroblasts. Understanding how cells sense and react to stimuli will allow us to create conditions that promote cell proliferation. In this project we will particularly focus on hydrostatic pressure and stiffness. To apply and measure the effects of these stimuli, bioreactors are essential tools. They enable the cultivation of cells in a controlled environment while applying various stimuli, including hydrostatic pressure and stiffness. The goal of this thesis is to design a bioreactor from scratch and optimize its parameters based on experimental findings related to cell proliferation rates. By tailoring the bioreactor conditions, we can affect cell proliferation. - Mechanical Engineering
- Bachelor Thesis, Master Thesis
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