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Development and evaluation of an assessment and therapy device for foot peripheral neuropathy

  • ETH Zurich
  • Rehabilitation Engineering Lab

Peripheral neuropathy affects approximately 2% of the population (e.g. linked to diabetes, MS, chemotherapy, antibiotics…), resulting in motor and somatosensory impairments and pain (numbness, tingling, burning, stabbing) in peripheral body segments, primarily the feet. Sensory stimulation and mechanical mobilization of the foot/toes have been shown to positively affect pain and balance in peripheral neuropathy. The Rehabilitation Engineering Lab at ETH has pioneered technology for the assessment and therapy of somatosensory hand function, applied in stroke, CP and MS. The goal of this project is to transfer and validate this technology in foot peripheral neuropathy.

  • Engineering and Technology, Medical and Health Sciences
  • Master Thesis, Semester Project

Optimal Heart Rate Detection using a Smartphone

  • ETH Zurich
  • Biomedical and Mobile Health Technology Lab

We aim to develop a machine learning model for accelerometer and camera data collected from a user’s smartphone that can identify the user’s heart rate.

  • Behavioural and Cognitive Sciences, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences, Physics
  • Bachelor Thesis, Master Thesis

Fall detection using a smartphone

  • ETH Zurich
  • Biomedical and Mobile Health Technology Lab

We aim to develop an Android-based app that utilizes a developed machine learning model and accelerometer data collected via the user’s smartphone for fall detection.

  • Behavioural and Cognitive Sciences, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences, Physics
  • Bachelor Thesis, Master Thesis

Identifying sleeping patterns in short- and long-sleepers using a wearable device

  • ETH Zurich
  • Biomedical and Mobile Health Technology Lab

The project aims to develop an affordable wearable system that collects electroencephalograms (EEG) and electrocardiograms (ECG) to identify EEG and ECG features associated with short and long sleepers in a real-world environment.

  • Behavioural and Cognitive Sciences, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences, Physics
  • Bachelor Thesis, Master Thesis

Detection of Cardiac Waves using a Smartphone

  • ETH Zurich
  • Biomedical and Mobile Health Technology Lab

We aim to develop a machine-learning model that assesses heart activity and extract cardiac signal from a smartphone camera.

  • Behavioural and Cognitive Sciences, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences
  • Bachelor Thesis, Master Thesis

Battery Development for a Legged Robot in a ZeroG Flight

  • ETH Zurich
  • Robotic Systems Lab

To advance the field of legged robots in low-gravity space applications, team SpaceHopper (https://spacehopper.ethz.ch/) plans to conduct a testing campaign on a parabolic flight in late 2023. For this test campaign, the robot needs to be equipped with a new battery concept that complies with the safety requirements on a ZeroG flight.

  • Aerospace Electrical Systems, Electrical Engineering, Mechanical Engineering
  • Bachelor Thesis, Semester Project

Understanding Tissue Augmentation with Hydrogels

  • ETH Zurich
  • Nanoparticle Systems Engineering Laboratory

The interest in material platforms formed by hydrogels in direct contact with tissues or cells has continued to grow in biomedical engineering technologies due to their simple implementation and robust properties. However, even with increased interest in these systems little is known about how these material systems integrate into tissues and if they can be utilized to augment human tissues to treat disease or reverse tissue damage. This project aims to increase our understanding of the changes to tissues that occur upon addition of hydrogel systems and identify formulations that can be further investigated to solve clinical needs and improve patient care.

  • Biomedical Engineering, Chemical Engineering, Materials Engineering
  • Master Thesis, Semester Project

Trainee (5422-T2)

  • Paul Scherrer Institute
  • Paul Scherrer Institute

Water cluster analysis in porous layers of polymer electrolyte fuel cells

  • Chemistry, Engineering and Technology, Information, Computing and Communication Sciences, Physics
  • Internship

Detection of Cardiac Waves using a Smartphone

  • ETH Zurich
  • Biomedical and Mobile Health Technology Lab

We aim to develop a machine-learning model that assesses heart activity and extract cardiac signal from a smartphone camera.

  • Behavioural and Cognitive Sciences, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences, Physics
  • Bachelor Thesis, Master Thesis

Discrete element modeling of powder layer generation in additive manufacturing

  • ETH Zurich
  • Advanced Manufacturing Laboratory

Using a existing Discrete element method implementation, the process of recoating in laser powder bed fusion is to be simulated and compared to experimental results.

  • Computer Software, Mechanical and Industrial Engineering
  • Bachelor Thesis, Master Thesis, Semester Project
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