 University of Zurich| Acronym | UZH | | Homepage | http://www.uzh.ch/ | | Country | Switzerland | | ZIP, City | | | Address | | | Phone | | | Type | Academy | | Current organization | University of Zurich | | Child organizations | | | Members | | | Memberships | |
Open OpportunitiesThe aim of the project is to investigate the benefits, requirements and drawbacks of physics informed neural networks in the context of personalised cardiac and cardiovascular models - Biomechanical Engineering, Clinical Engineering, Computation Theory and Mathematics, Fluidization and Fluid Mechanics, Neural Networks, Genetic Alogrithms and Fuzzy Logic, Simulation and Modelling
- Master Thesis
| The project focuses on the development of a synthetic numerical phantom for cardiac anatomy and function suitable for representing population variability. - Biomechanical Engineering, Information, Computing and Communication Sciences
- Master Thesis
| Our lab is looking for a highly motivated Bachelor/Master student, who is interested to conduct a research in the field of disease modeling using ADHD patient-specific cells. The process will involve learning how to generate and culture human induced pluripotent stem cells (iPSCs) and generation of neural stem cells (NSCs) from patients with Attention-Deficit Hyperactivity Disorder (ADHD), as well as how to scientifically interpret and discuss scientific papers and conduct research with independence and critical thinking. - Biochemistry and Cell Biology, Neurosciences, Pharmacology and Pharmaceutical Sciences, Psychiatry
- Master Thesis
| Our lab is looking for a highly motivated Bachelor/Master student, who is interested to conduct a research in the field of disease modeling using ADHD patient-specific cells. The process will involve learning how to generate and culture human induced pluripotent stem cells (iPSCs) and generation of neural stem cells (NSCs) from patients with Attention-Deficit Hyperactivity Disorder (ADHD), as well as how to scientifically interpret and discuss scientific papers and conduct research with independence and critical thinking. - Biochemistry and Cell Biology, Neurosciences, Pharmacology and Pharmaceutical Sciences, Psychiatry
- Master Thesis
| Our lab is looking for a highly motivated Master student (6-12 months), who is interested to conduct a research in the field of disease modeling using ADHD patient-specific cells. The process will involve learning how to generate and culture human induced pluripotent stem cells (iPSCs) and generation of neural stem cells (NSCs) from patients with Attention-Deficit Hyperactivity Disorder (ADHD), as well as how to scientifically interpret and discuss scientific papers and conduct research with independence and critical thinking. - Biochemistry and Cell Biology, Neurosciences, Pharmacology and Pharmaceutical Sciences, Psychiatry
- Master Thesis
| (for English see below) Für eine Studie mit roboterassistiertem Ultraschall suchen wir gesunde Personen zwischen 18-35 Jahre. Es dürfen keine Verletzungen, chronische Beschwerden oder jegliche Art vergangener Therapien der lumbalen Wirbelsäule vorliegen. Die Studie findet am Balgrist Campus statt und dauert ca. 2.5-3h. Die Aufwandsentschädigung beträgt 25.-/h bzw. max. 75.- pro Proband. Bei Interesse bitte den QR-Code im Anhang (Deutsch/Englisch) scannen für die Registrierung.
Vielen Dank für Ihre Teilnahme!
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We are seeking healthy individuals between the ages of 18-35 for a robotic assisted ultrasound study. There must be no injuries, chronic complaints or any kind of past therapies of the lumbar spine. The study will take place at the Balgrist Campus and will last approximately 2.5-3h. The expense allowance is 25.-/h or max. 75.- per subject. If interested, please scan the QR code in the attachment (German/English) for registration.
Thank you for your participation! - Medical and Health Sciences
- Other specific labels
| We have one PhD position in the Emerging Intelligent Substrates lab for an exciting new project on designing event-driven few-shot learning algorithms and hardware implementations for intelligent edge applications.
This is part of the recently accepted SNSF Starting Grant, “UNITE: Brain-inspired device-circuits-algorithm co-design for resource-constrained hardware on the edge”.
The project will follow a co-design to take the best out of the worlds of memory devices, circuits and brain-inspired algorithm, by capitalizing on the following.
- Access to BEOL-integrated resistive memory devices (OxRAM, FTJ, PCM) into 130 nm, and 28 nm technologies.
- Our two recently proposed neuro-inspired hardware architectures based on (i) hardware-aware dendrites for fast and energy efficient feature detection [1], and small-world connectivity for fast information transfer and energy efficient information routing [2].
- Recent NeuroAI algorithms bridging machine learning and neuroscience for efficient on-device few-shot learning [3].
- Electrical and Electronic Engineering
- ETH Zurich (ETHZ), PhD Placement
| Online learning-aided visual inertial odometry for robust state estimation - Engineering and Technology
- Master Thesis
| This project aims to improve the precision and safety of spinal surgeries by developing a new method for placing screws in the vertebrae. The current method uses an optical navigation system that helps surgeons visualize the patient's spine in real-time during the surgery, but there can be errors due to patient movement. To address this, a student will use advanced computer technologies like deep learning to segment the vertebrae from imaging data, allowing the preoperative image to be registered to the segmented vertebrae and eliminating any errors caused by patient movement. The developed method will be evaluated in future experiments to ensure it can improve the safety and accuracy of pedicle screw placement in spinal surgeries. - Computer Vision
- Master Thesis, Semester Project
| Developing Smart Vision Assistive Technology - Engineering and Technology
- Master Thesis, Semester Project
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