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**SiROP is an exclusive network of leading universities in science and technology**
Why join SiROP?
- Hundreds of open positions readily available online
- Direct contact and easy application procedure without any bureaucracy
- Its free and will always be! Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Selection of open positions in our database Selection of open positions in our database Durch die Verdichtung der Strömung in einem Radialverdichter wird nicht nur deren Druck, sondern auch deren Temperatur gemäss den thermodynamischen Grundlagen erhöht. Die Strömungstemperatur wechselwirkt mit der Impeller-Temperatur, sodass Wärmeflüsse in und aus dem Impeller sich einstellen. Da die oftmals verwendeten Aluminium-Legierungen des Impellers eine starke Temperatur-Abhängigkeit aufweisen, ist eine sorgfältige Analyse zur Festigkeitsbewertung essentiell.
Im Rahmen dieser Arbeit sollen die Wärmeflüsse zwischen Strömung, Radrückraum, Impeller und Rotor mit unterschiedlichen Ansätzen simulativ erfasst und bewertet werden. Die Arbeit startet dabei mit einer Literatur-Recherche und einer Darstellung des Standes der Technik. Am Beispiel einer Radialverdichterstufe soll anschliessend sowohl auf Basis von einfachen 0D/1D Modellen wie auch Strömungssimulationen mit Ansys CFX die thermische Situation analysiert werden. Die Ergebnisse sind anschliessend zu dokumentieren. Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis
| Radialverdichter haben ihre Hauptaufgabe in der kontinuierlichen Erhöhung des Drucks einer Strömung. Dies erfolgt in dem schnell rotierenden Impeller, dem Diffusor und der Volute durch aerodynamische Prinzipien. Die Volute hat dabei einerseits die Aufgabe die Strömung in Umfangsrichtung zu sammeln, andererseits aber auch im Fall eines Defekts des Impellers das Containment sicherzustellen. Im Rahmen dieser Arbeit soll ein basierender Ansatz zur instationären Abschätzung der auftretenden Kräfte verbessert werden. Hierzu ist zum Start eine Literatur-Recherche zur Evaluation des Standes der Technik auszuführen. Mit den gewonnenen Erkenntnissen soll eine Standard-Struktur für Containment-Simulationen erarbeitet und an den essentiellen Stellen (z.B. bzgl. der Materialdaten, des Simulationsumfangs, von Modellierungsansätzen der Verbindung Spiralgehäuse zu Gehäuse, ...) verbessert werden. Die Ergebnisse sollen zu externen Rechnungen verglichen werden. Eine abschliessende Dokumentation der Ergebnisse rundet die Arbeit ab. Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis
| A current development at Celeroton AG is a 5kW, 48V-input DC/AC Converter to drive low-voltage turbo-compressor systems. However, by lack of detailed simulation models and their validation in hardware, the testing of such systems is not supported by simulated results that confirm proper operation, which makes commissioning difficult. Furthermore, such simulation models would be of great benefit in case of system redesign or designing new systems with similar specifications.
This work aims the implementation of a detailed simulation model of the existing turbo-compressor driver using Gecko Circuits or a similar simulation software. This includes understanding the schematics of the designed system, modeling each component that affects operation (including parasitics) and validating results by means of hardware measurements. Learning includes power-electronic topologies, circuit-simulation and PCB-design tools as well as lab work and proper measurement procedures. - Electrical Engineering
- Semester Project
| Moderne Brennstoffzellenfahrzeuge benötigen eine Druckluftversorgung, welche vorteilhaft mit Hilfe eines Turbokompressors realisiert wird. Der zugehörige Umrichter muss neben den funktionalen Spezifikationen eine geringe Baugrösse aufweisen und herausfordernden Kostenzielen gerecht werden. Insbesondere die Filterkomponenten am Systemeingang und am Motorausgang tragen massgeblich zum benötigten Bauraum, sowie zu den Material- und Herstellkosten bei. Alternative Modulationsverfahren erlauben eine optimale Ausnutzung der Halbleiter- und Filterkomponenten, womit oben genannte Ziele erreicht werden können.
Zu Beginn dieser Masterarbeit soll daher ein Vergleich möglicher Modulationsverfahren durchgeführt werden. Auf einem existierenden Hardware-Prototyp soll zunächst eine Standardansteuerung (PWM) in Betrieb genommen werden. Basierend auf den theoretischen Resultaten soll ein optimiertes Verfahren ausgewählt und auf dem Hardware-Prototypen implementiert werden. Im letzten Teil der Arbeit sollen die Berechnungen mit Messungen am Prototyp verifiziert werden.
Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis
| Background:
The Laboratory of Orthopedic Technology has recently developed a novel joint implant and is undergoing optimization of the manufacturing process. We are looking for a master's student who is passionate about medical devices and mechanical design to join us for a semester project.
Objectives:
• Design different molds for material casting using SolidWorks or Fusion 360.
• Optimize implant using matlab or Python.
• Utilize 3D printing or laser cutting to create the molds.
• Conduct mechanical tests on the implants.
Your Profile:
• Strong knowledge in mechanical design and drawing skills.
• Hands-on and detail-oriented.
• Experience with SolidWorks or Fusion 360, as well as Python or Matlab.
Timeframe:
Starting ASAP until the end of September.
- CAD/CAM Systems, Flexible Manufacturing Systems, Mechanical Engineering, Polymers
- ETH Zurich (ETHZ), Semester Project
| Moderne Brennstoffzellenfahrzeuge benötigen eine Druckluftversorgung, welche vorteilhaft mit Hilfe eines Turbokompressors realisiert wird. Bisher wurden für den Antrieb des Kompressors Permanentmagnet erregte Synchronmaschinen (PMSM) eingesetzt. Bei den erforderlichen Drehzahlen sind die Permanentmagnete jedoch grossen mechanischen Belastungen ausgesetzt, was die Robustheit einer solchen Maschine beeinträchtigen kann. Daher soll im Rahmen dieser Arbeit der Einsatz von Maschinen untersucht werden, welche ohne Permanentmagnete auf dem Rotor auskommen, jedoch von punkto Wirkungsgrad und Leistungsfaktor mit der PMSM mithalten können.
Die Arbeit beinhaltet die elektromagnetische Auslegung der Maschine mittel analytischen Mitteln und Finite Element Methode, thermische Berechnungen, sowie die Konstruktion der Maschine im CAD. Des Weiteren soll ein Prototyp aufgebaut werden um schlussendlich die Berechnungen am Prototyp zu verifizieren.
Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis
| Moderne Brennstoffzellenfahrzeuge benötigen eine Druckluftversorgung, welche vorteilhaft mit Hilfe eines Turbokompressors realisiert wird. Der zugehörige Umrichter muss neben den funktionalen Spezifikationen eine geringe Baugrösse aufweisen und herausfordernden Kostenzielen gerecht werden. Insbesondere die Filterkomponenten am Systemeingang und am Motorausgang tragen massgeblich zum benötigten Bauraum, sowie zu den Material- und Herstellkosten bei. In einer Masterarbeit wurde ein Prototypumrichter ausgelegt, entworfen und aufgebaut. Aus zeitlichen Gründen wurde die Inbetriebnahme nur rudimentär durchgeführt.
In einem ersten Schritt soll ein automatisierter Schaltverlustmessaufbau mit dem Prototypumrichter aufgebaut und in Betrieb genommen werden. Mit Hilfe von Schaltverlustmessungen soll die Hardwareauslegung der Gatetreiber für verschiedene potentielle Halbleiter experimentell optimiert werden. In einem zweiten Schritt soll ein Volllast-Messaufbau in Betrieb genommen werden und anhand von thermischen Messungen die möglichen Parametrisierungen (e.g. verwendete Schaltfrequenz) optimiert werden.
Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Semester Project
| An der ETH wurden Antriebssysteme für Weltrekorddrehzahlen von 500‘000 bis 1 Million U/min erforscht. Durch einen Forschungspartner aus der Industrie werden diese nun in Anwendungen umgesetzt.
Bei hochdrehenden Rotoren ist häufig eine Überwachung der Rotor-Auslenkungen erforderlich. Mit einer Messung der Rotor-Auslenkung kann beispielsweise die Funktionstauglichkeit des Rotors oder des Lagersystems beurteilt werden. Bei gasgelagerten Rotoren muss die Rotorauslenkung im µm-Bereich gemessen werden können. Die Messung der Position geschieht vielfach durch eine Wirbelstrom-Sensorik.
In dieser Arbeit soll ein hochpräziser Kalibrieraufbau für eine solche bestehende Wirbelstrom-Sensorik entwickelt, gebaut und validiert werden. Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Semester Project
| Walking has been proven to create the best sense of presence while exploring
virtual environments. However, walking in virtual environments comes with the
constraint that the virtual and the physical space must have the same
dimensions. This limitation restricts the size of the virtual spaces. Various techniques have been developed to overcome this issue, such as RDW and impossible spaces. Although significant progress has been made with these methods, exploring large virtual environments can still lead the user to reach the boundaries of the physical space. Therefore, a safety mechanism is needed to prevent the user from colliding with the walls. The most popular safety mechanism is having resets, which are messages displayed to the user asking them to stop and perform a certain action that turns them away from the wall before continuing the exploration. However, resets reduce immersion and thus should be avoided as much as possible. - Computer-Human Interaction
- Bachelor Thesis, ETH Zurich (ETHZ), Semester Project
| Moderne Brennstoffzellenfahrzeuge benötigen eine Druckluftversorgung, welche vorteilhaft mit Hilfe eines Turbokompressors realisiert wird. Der zugehörige Umrichter muss neben den funktionalen Spezifikationen eine geringe Baugrösse aufweisen und herausfordernden Kostenzielen gerecht werden.
Insbesondere das passive EMV-Eingangsfilter bestehend aus Induktivitäten und Kapazitäten trägt massgeblich zum benötigten Bauraum sowie zu den Materialkosten bei. Im Vergleich dazu sollen aktive EMV-Filter basierend auf neuartigen Filter-ICs eine Reduktion der Induktivitätsgrössen um bis zu 80% ermöglichen.
In dieser Studienarbeit soll deshalb ein aktives EMV-Filter realisiert und dessen Filterdämpfung sowie Baugrösse mit einem standardmässigen EMV-Filter messtechnisch an einem bestehenden Umrichter verglichen werden.
Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis, Semester Project
| Das Ziel der Arbeit ist den bestehenden Prototyp zu optimieren um eine genaue und reproduzierbare Messung der Unwucht sicherzustellen. Das System ist modular und soll für unterschiedliche Durchmesser und Drehzahlen funktionieren. Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis, Semester Project
| Neben der offensichtlichen technischen Performance von Turbokompressor-Systemen wie Massenstrom und Druck sind sekundäre Kriterien wie das akustische Verhalten mittlerweile wichtige Selektionskriterien für einen Kunden. Im Rahmen dieser Arbeit soll untersucht werden, was massgeblich Lärm in einem elektrisch angetriebenen Turbokompressor-System verursacht und wie dies allenfalls beim Design vermindert oder durch den Einsatz geeigneter Massnahmen beim Einbau/Betrieb reduziert werden kann. Die Arbeit startet mit einer Literatur-Recherche zum Stand der Technik, gefolgt von einer Analyse der Lärmquellen im Kompressor. Der Fokus soll auf dem aerodynamischen und elektromotorischen Teil der Maschine liegen. Die numerisch ermittelten Ergebnisse sollen anhand eines im Rahmen dieser Arbeit zu definierenden Messsetups experimentell verifiziert werden. Basierend auf den Erkenntnissen sind Minderungsmassnahmen vorzuschlagen. Ob diese einen aerodynamischen oder elektromotorischen Fokus besitzen, soll im Rahmen der Arbeit evaluiert werden. Die Arbeit wird bei der ETH Spin-Off Firma CELEROTON in Volketswil durchgeführt. - Electrical Engineering
- Master Thesis
| Our aim is to create an autonomous racing system capable of swiftly learning optimal racing strategies and navigating tracks more effectively (faster) than traditional methods and human drivers using RL.
- Information, Computing and Communication Sciences
- Master Thesis, Semester Project
| The objective of this project is to develop an atomic beam by ultrasonic expansion and to align it with a levitated nanoparticle in ultrahigh vacuum. - Electrical and Electronic Engineering, Optical Physics
- Master Thesis
| The project is a collaboration between EPFL IMOS Lab and Belimo exploring Deep Learning algorithms for commissioning parameters of Heating, Ventilation, and Air Conditioning systems - Engineering and Technology
- Master Thesis
| The aim of this project is to develop an approach based on physics-based graph neural networks to generate digital twins from PC-MRI data. - Artificial Intelligence and Signal and Image Processing, Biomedical Engineering, Fluidization and Fluid Mechanics, Turbulent Flows
- Master Thesis
| Drying (e.g. Pasta drying) is the most energy intensive process step, sometimes taking up more than 50% of the total energy consumption of a plant. Superheated steam drying could present an energy efficient alternative to classical hot-air drying systems used today. This new technology could have a massive impact on the carbon-footprint and sustainability of food-drying; making it a highly future-oriented and potentially impactful innovation. - Interdisciplinary Engineering, Manufacturing Engineering, Mechanical and Industrial Engineering
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| Do you want to combine statistics, machine learning (ML), and artificial intelligence (AI) algorithms with important medical applications? Are you motivated to work with interesting real-world data and excited to implement and apply machine learning algorithms to produce personalized decision support tools? - Biology, Engineering and Technology, Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences
- Lab Practice, Master Thesis, Semester Project
| Your goal is to build a setup in our laboratory which we can use to measure the timing accuracy of our SNSPDs. 20% Theory, 40% Measurement, 40% Programming. - Optical and Photonic Systems
- Master Thesis, Semester Project
| The goal of this semester project is to electrically excite excitons in atomically thin CrSBr and measure both the electrical and optical response at temperatures down to 4 K. - Electrical and Electronic Engineering, Optical Physics
- Semester Project
| The goal of this semester thesis is to acquire a statistic of the carrier lifetime of different sized SiNP, which are then compared to the bulk carrier lifetime of silica. - Electrical and Electronic Engineering, Optical Physics
- Semester Project
| This thesis aims to utilize deep learning techniques to analyze eye-tracking data during a goal-directed upper limb task, particularly focusing on participants under the influence of alcohol. The objective is to develop digital health metrics that can elucidate differences in movement planning. - Engineering and Technology, Information, Computing and Communication Sciences, Medical and Health Sciences
- Bachelor Thesis, Master Thesis, Semester Project
| A machine learning-based classifier will be developed to automatically detect abnormal GNSS ephemerides in daily broadcast ephemeris files. - Earth Sciences
- ETH Zurich (ETHZ), Semester Project
| A dynamic tropospheric process noise model will be implemented into GNSS real time kinematic (RTK) algorithms to improve the estimation of drone-based GNSS zenith total delays (ZTDs). - Earth Sciences
- ETH Zurich (ETHZ), Semester Project
| This thesis explores ionospheric modeling using GNSS and potentially VLBI data, employing Gaussian Process regression to address the non-linear behaviors and noise inherent in such data. The study focuses on enhancing predictive accuracy and the quantification of uncertainties in ionospheric variations, which are essential for improving global navigation and communication systems. - Earth Sciences
- Bachelor Thesis, ETH Zurich (ETHZ)
| This master thesis aims to improve the retrieval of soil moisture using the GNSS Interferometric Reflectometry (GNSS-IR) method by the development of a new, machine-learning based model for the correction the vegetation influence on the retrieval. - Earth Sciences
- ETH Zurich (ETHZ), Master Thesis
| This master thesis aims to explore the application of Physics-Informed Neural Networks (PINNs) to regional geoid modeling. PINNs integrate physical constraints into neural network architectures, offering a novel approach to accurate geoid modeling while maintaining interpretability. - Earth Sciences
- ETH Zurich (ETHZ), Master Thesis
| This six-month internship at WayBetter Inc., in collaboration with ETH Zurich, involves a cutting-edge machine learning project to develop an AI model that detects weight changes through facial images using a unique dataset of 6 million labeled full-body images. This model aims to facilitate significant applications in telehealth and clinical monitoring. Candidates will have the option to integrate this project into their Master's thesis at ETH Zurich, benefitting from expert guidance while contributing to transformative health monitoring solutions. Ideal candidates should have a solid foundation in machine learning, image processing, and data management. - Computer Vision, Health Information Systems (incl. Surveillance), Health Promotion, Image Processing, Pattern Recognition, Preventive Medicine
- ETH Zurich (ETHZ), Master Thesis
| In this study, the student should apply deep learning algorithms to segment the measurements from the Surface Water and Ocean Topography satellite mission, specifically focusing on inland water bodies. The outputs of this study may contribute to inland water detection during flood events and also potentially to refining the pre-defined water body shapes. - Earth Sciences
- ETH Zurich (ETHZ), Master Thesis
| In this study, the student should develop a generative model to separate the total signals measured by GRACE(-FO) satellite missions into the contributions of individual water storage components. The results will be evaluated by comparing them with independent in-situ and satellite-based storage observations. The findings of this study will contribute to a better understanding of the terrestrial water cycle from a global perspective. - Earth Sciences
- ETH Zurich (ETHZ), Semester Project
| This work will explore the potential of greatly increasing the number of VGOS sessions per month by limiting the amount of recorded data. - Earth Sciences
- ETH Zurich (ETHZ), Semester Project
| Parkinson’s disease is one of the most common neurodegenerative movement disorders affecting over 10 million people worldwide. Symptoms like impaired gait and postural instability can cause falls and highly impair patients’ mobility. The consequences of falls include fractures, hospital admissions, loss of independence, fear of falls, social isolation and early mortality. Falls are cited as one of the worst aspects of PD and unfortunately few efficacious interventions are available. - Engineering and Technology, Medical and Health Sciences
- Master Thesis, Semester Project
| The field of image restoration is continually evolving with the introduction of advanced deep learning models capable of tackling increasingly complex restoration tasks. The use of foundation models, which are pre-trained on diverse data before being fine-tuned for specific tasks, has demonstrated considerable promise in various domains of artificial intelligence. This proposal aims to develop a new foundation model for image restoration by incorporating the state-space model and enhancing it with text prompt capabilities. This approach will allow the model to perform targeted restorations based on descriptive textual prompts, significantly improving the precision and quality of the restoration process. - Computer Vision
- Collaboration, ETH for Development (ETH4D) (ETHZ), Master Thesis
| Scanning ion conductance microscopy (SICM) is the non-contact SPM technology to image live cells based on glass capillaries with a nanometric aperture. It applies a voltage and measures the ionic current flowing through the pipette above the sample in the buffer solution: the recorded current represents the feedback signal to measure the topography of the sample. In collaboration with Prof. Fantner at EPFL, this project aims to assemble a state of the art high-speed SICM to enable time-resolved live cell imaging. - Biomedical Engineering, Electrical and Electronic Engineering, Mechanical Engineering, Nanotechnology, Signal Processing
- Bachelor Thesis, Course Project, ETH Zurich (ETHZ), Lab Practice, Master Thesis, Summer School
| What about implantable self-powering devices to monitor biophysical signals at nanoscale? As a part of the interdisciplinary frontier between material science and new biomedical applications, being able to monitor biological or physical markers and signals, allows for a better treatment from both the diagnostic and healing point of view. Among them, biocompatible and non-intrusive wearable monitoring devices, which are so flexible to adhere perfectly to biological tissue, and even to cells like neurons, gain increasing interest. However, fabricating the devices and the electrodes at nano/microscale remains a challenge.
FluidFM is a force-controlled nanopipette, a versatile tool also for 2D patterning and 3D printing in liquid environment, opening the opportunity to manufacture the devices at the sub-micron scale.
We are going to create the devices and electrodes depositing conductive polymers with the FluidFM and then to perform the opportune characterization. - Electrical and Electronic Engineering, Materials Engineering, Medical and Health Sciences, Physics
- Master Thesis
| Pemphigus vulgaris (PV) is a unique group of autoimmune diseases. Researches have demonstrated that antibody-induced disruption of Dsg3 transadhesion initiates a signaling response in basal keratinocytes followed by loss of tissue integrity. The complexity of morphogenesis and tissue regeneration implies the existence of a transcellular communication network in which individual cells sense the environment and coordinate their biological activity in time and space.
To understand the fascinating ability of tissue self-organization, comprehensive study of biophysical properties (cell topography and bioelectricity) in combination with the analysis of biochemical networks (signaling pathways and genetic circuits) is required.
Together with the University of Bern and University of Lübeck, we aim to utilize the tools to study the topography and electrophysiology (cell potential, ion channel recording, localized ion detection, charges) of HPEK cells (human primary keratinocytes cells) to unravel the signaling pathways of the disease. We utilize optical imaging (fluorescence dyes) and biosensing tools (including the state of the art hs-SICM and electrical FluidFM setup) to study HPEK cells upon desmosome disruption.
- Biology, Biomedical Engineering, Chemistry, Electrical and Electronic Engineering, Interdisciplinary Engineering, Medical and Health Sciences
- Bachelor Thesis, Lab Practice, Master Thesis, Semester Project, Summer School
| Reinforcement learning (RL) can potentially solve complex problems in a purely data-driven manner. Still, the state-of-the-art in applying RL in robotics, relies heavily on high-fidelity simulators. While learning in simulation allows to circumvent sample complexity challenges that are common in model-free RL, even slight distribution shift ("sim-to-real gap") between simulation and the real system can cause these algorithms to easily fail. Recent advances in model-based reinforcement learning have led to superior sample efficiency, enabling online learning without a simulator. Nonetheless, learning online cannot cause any damage and should adhere to safety requirements (for obvious reasons). The proposed project aims to demonstrate how existing safe model-based RL methods can be used to solve the foregoing challenges. - Engineering and Technology
- Master Thesis
| Drying (e.g. Pasta drying) is the most energy intensive process step, sometimes taking up more than 50% of the total energy consumption of a plant. Superheated steam drying could present an energy efficient alternative to classical hot-air drying systems used today. This new technology could have a massive impact on the carbon-footprint and sustainability of food-drying; making it a highly future-oriented and potentially impactful innovation. - Interdisciplinary Engineering, Manufacturing Engineering, Mechanical and Industrial Engineering
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| The objective of this project is to create a comprehensive robotic platform capable of autonomously administering injections into the human eye. The project includes mechanical design, motion planning, and the implementation of a force control algorithm. - Mechanical and Industrial Engineering
- Bachelor Thesis, ETH Zurich (ETHZ), Master Thesis, Semester Project
| In this project, we propose a real-time sensorized hand-exoskeleton that combines the exosuit and the sensory feedback based on TENS systems. The integrated robotic system will be able to provide the user with assisted grasping force control via exo and with fine grip-force feedback. - Peripheral Nervous System, Rehabilitation Engineering, Therapies and Therapeutic Technology
- Master Thesis
| The project consists in assessing the degree to which our perception of natural texture is shaped by the mechanics of the skin. We have implemented an approach, developed by Ted Adelson at MIT (GelSight), that consists of fabricating a gel whose material properties match those of the skin and then imaging (using a laser profilometer) the pattern of deformation on the surface of the gel that is produced when pressed against the surface. We can then estimate how the skin would be deformed by any given texture using this approach and assess whether we can better predict from these patterns of skin deformation the responses of tactile nerve fibers to that texture and the perception thereof. - Biomedical Engineering, Central Nervous System, Sensory Systems
- Master Thesis
| Our aim is to create an autonomous racing system capable of swiftly learning optimal racing strategies and navigating tracks more effectively (faster) than traditional methods and human drivers using RL. - Intelligent Robotics
- Master Thesis, Semester Project
| Our previous studies has identified that the nature of signals recorded with electrodes implanted in the peripheral nervous system strongly depends on the type of electrode and the degree of activity inside the nerve. For this project your aim will be to further explore which dimension of a population activity a given type of electrode can identify. Based on the literature you will identify discharge patterns combination permitting to recreate the main different classes of bio-plausible population activity. You will also complete the existing hybrid model to integrate the main kinds of electrodes used with neural interfaces (use of Solidworks, Matlab, and Comsol).
You will then implement your bio-mimetic population activity in the full model and study each electrode’s dynamic selectivity. Your final goal would be to establish rules permitting to classify from the recording alone what “family” of activity is happening in the nerve.
- Biomedical Engineering, Electrical Engineering, Modeling and Simulation, Peripheral Nervous System
- Master Thesis
| This project aims at automatically learning problem-dependent uncertainty sets by exploiting available data on the uncertain parameters, hence surpassing the limitations of traditional methods such as robust and stochastic optimization approaches that assume the exact knowledge of the support set and of the probability distribution respectively. - Information, Computing and Communication Sciences, Optimisation, Systems Theory and Control
- Master Thesis, Semester Project
| Peripheral intraneural stimulation can provide tactile information to amputees. However, efforts are still necessary to identify encoding strategy eliciting percepts that are felt as both natural and effective for prosthesis control. Here we want to develop neural modulation strategies able to improve the naturalness and efficacy of stimulation to convey sensory information to trans-femoral amputees implanted with intraneural electrodes. - Electrical Engineering, Peripheral Nervous System, Rehabilitation Engineering, Sensory Systems
- Master Thesis
| Sensory feedback based on intracortical microstimulation has been shown to improve subjects’ ability to use brain-controlled bionic hands (Flesher et al., 2021). However, the resulting dexterity is still far from that of natural hands in able-bodied individuals. Efforts to sensitize bionic hands for amputees by electrical stimulation of the nerves have shown that sensory feedback that mimics natural tactile signals (so called biomimetic feedback (Okorokova et al., 2018; Saal and Bensmaia, 2015; Saal et al., 2017) evokes more natural and more intuitive sensations that better support interactions with objects than does non-biomimetic feedback. Despite these successes with amputees, biomimetic feedback has never been applied in the context brain-controlled bionic hands. - Biomedical Engineering, Central Nervous System, Electrical Engineering, Sensory Systems
- Master Thesis
| The somatosensory system is crucial to the formation and maintenance of coherent mental representations of our bodies. Traditional concepts of somatosensation have been shaped by the principles of somatotopic and hierarchical organization of the primary somatosensory cortex (S1). However, emerging psychophysical phenomena have been studied mostly with natural touch only that undergoes extensive processing along the tactile system, and it is unclear at which stages these phenomena arise. Intracortical microstimulation (ICMS) of S1 allows to directly evoke vivid touch sensations on the body, the properties of which can by systematically manipulated by varying the parameters of stimulation. In this work, we use ICMS of human S1 in three implanted participants to define cortical-body maps of the human hand and then to link these mental-body perception maps. - Biomedical Engineering, Central Nervous System, Sensory Systems
- Master Thesis
| Touch is a complex, multisensory perceptual process (de Haan and Dijkerman, 2020; de Lafuente and Romo, 2006; Graziano and Gross, 1993). In non-human primates (NHPs), multisensory input (e.g., visual, tactile) converges upon neurons in higher-order brain regions such as the posterior pari- etal cortex (PPC) where they are integrated into coherent representations (Graziano and Gross, 1993; Avillac et al., 2007; Graziano, 1999; Graziano, 2001; Graziano et al., 2000; Holmes and Spence, 2004; Hwang et al., 2014; Seelke et al., 2012; Sereno and Huang, 2014). Recent human neuroimaging studies suggest that the PPC is also recruited during touch cognition in the absence of actual tactile input (e.g., seen touch or imagined touch), supporting a notion that both higher- level touch processing and tactile cognition share a neural substrate (Chan and Baker, 2015; Lucas et al., 2015). To date, however, such a link has not been established at the single neuron level. - Biomedical Engineering, Central Nervous System, Sensory Systems
- Master Thesis
| Bühler, a leading industry manufacturer in Uzwil, is partnering with ETH Zürich's Feasibility Lab to offer a unique master thesis opportunity. Throughout your thesis, you'll work hand-in-hand with a team of like-minded peers, following the principles of cross-functional teamwork and agile project planning. You can explore your interests in AI/Machine Learning, Robotics, UX, Additive Manufacturing, Food Science and more and actively define your own project scope. - Digital Systems, Environmental Technologies, Industrial Biotechnology and Food Sciences, Interdisciplinary Engineering, Manufacturing Engineering, Mechanical and Industrial Engineering
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| While camera-based capture systems remain the gold standard for recording human motion, learning-based tracking systems based on sparse wearable sensors are gaining popularity. Most commonly, they use inertial sensors, whose propensity for drift and jitter have so far limited tracking accuracy. Ultra-wideband (UWB) is a radio technology that offers precise ranging capabilities and is integrated into modern smart devices such as iPhones and Apple AirTags. Our recent work, Ultra Inertial Poser, accepted by SIGGRAPH'24, has shown great potential to combine IMU with UWB sensors to constrain drift and jitter in inertial tracking via inter-sensor distances. As we are in the early stages of development, there is still significant room for improvement in the methodology. In this project, we aim to design a deep learning model to improve our dataset's human motion tracking results.
Note: This project will focus on developing a novel supervised learning-based method. We have a clean and synchronized dataset ready (UIP-DB) for training and testing alongside ground-truth tracking data for all joints. - Engineering and Technology, Information, Computing and Communication Sciences
- Master Thesis, Semester Project
| Evaluation of different inverter topologies and different modulation schemes using a multi-objective optimization procedure for a given target drive system. Optimization with respect to different objectives, e.g., efficiency, power density, costs. An existing toolchain provides a framework which can serve as a starting basis for your models and optimization algorithms. Analysis and validation of the design based on vehicle drive cycles. - Electrical Engineering
- Master Thesis
| This project aims to investigate different energy storage technologies for application in the railway sector. - Electrical Engineering
- Master Thesis, Semester Project
| This project aims to analyse the implementation of a smart grid starting from the traditional railway electric grid. - Electrical Engineering
- Master Thesis, Semester Project
| 3D hand pose forecasting is a new benchmark introduced by HoloAssist [1]. Existing action forecasting work mostly focuses on providing semantic labels of future actions and does not provide explicit 3D guidance on hand poses. Predicting 3D hand poses can be useful for various applications, and it can augment instructions and spatially guide users in different tasks. In this benchmark, we take 3 seconds inputs similar to other 3D body location forecasting literature and forecast the continuous 3D hand poses for the next 0.5, 1.0, and 1.5 seconds. The evaluation metric is the average of mean per joint position error over time in centimeters compared to ground truth. To have a proper evaluation metric that can help 3D action guidance, we remove the mistakes from the action sequences and only forecast 3D hand pose for the correct labels.
[1] Wang, X., Kwon, T., Rad, M., Pan, B., Chakraborty, I., Andrist, S., ... & Pollefeys, M. (2023). Holoassist: an egocentric human interaction dataset for interactive ai assistants in the real world. In Proceedings of the IEEE/CVF International Conference on Computer Vision (pp. 20270-20281). - Computer Vision, Virtual Reality and Related Simulation
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| Action recognition is an essential task in computer vision and has numerous applications in various fields, including robotics, surveillance, and healthcare. The recognition of actions involves the analysis of temporal and spatial information within a video sequence. Current state-of-the-art methods use 3D hand and object poses for action recognition, where the object's corners are commonly used for representation. However, this approach has limitations in accurately modeling the hand-object interaction. In [1], we show that leveraging hand-object contact-map representation helps improve action recognition. However, this representation can be learned implicitly for the task of action recognition.
[1] https://arxiv.org/pdf/2309.10001.pdf - Computer Vision, Virtual Reality and Related Simulation
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| The recent development of LLMs (Large Language Models), such as ChatGPT and Llama, opens up new possibilities for understanding procedural actions. In the past, action recognition was restricted to the classification of visual frames. However, with LLMs, the model can observe the whole action sequence in a more effective way and even predict the future actions [1]. In this project, students will explore how LLMs can improve action recognition in procedural tasks. Specifically, given a high-level procedural task (e.g., making coffee, copying a paper), students will use existing pretrained action recognition models to predict the top 5 actions for each clip and feed them into the LLMs to refine and correct the predicted actions. As a comparison, students will also establish a baseline using simple machine learning and statistical methods to correct actions.
[1] Palm: Predicting Actions through Language Models @ Ego4D Long-Term Action Anticipation Challenge 2023, CVPR'23 workshop
- Computer Vision, Text Processing
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| Reading text manuals to set up and manipulate devices takes a lot of time and is not intuitive when it comes to 3D instruction. Despite the advent of Mixed Reality (MR) devices, 3D instruction is still limited and expensive to set up. In this project, we will develop an app, an adaptive 3D hand guidance system that projects instructional 3D hand poses in MR devices with pre-recorded instructional videos using MR devices. - Computer Vision, Virtual Reality and Related Simulation
- ETH Zurich (ETHZ), Master Thesis, Semester Project
| After a neurological injury (such as stroke), many patients suffer from impairment of the hand and finger function. Clinical assessments aim to measure and quantify those impairments for a better understanding and to specifically target those deficits in rehabilitation. One aspect of hand function, that is not truly understood yet is finger individuation: the ability to move one finger independently of the others. In a previously developed assessment device, we use force sensors attached to a hand module to measure this dexterous skill. This individuation device measures finger flexion (pushing) over different force levels, but the individuation ability in extension (pulling) remains unknown. The aim of this project is to implement an extension assessment (by adapting the existing protocol) and compare as well as test it before its implementation into the clinical routine. - Biomedical Engineering, Clinical Sciences, Electrical and Electronic Engineering, Human Movement and Sports Science, Interdisciplinary Engineering, Mechanical and Industrial Engineering, Neurosciences, Other
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| After a neurological injury (such as stroke), many patients suffer from impairment of the hand and finger function. Clinical assessments aim to measure and quantify those impairments for a better understanding and to specifically target those deficits in rehabilitation. One aspect of hand function, that is not truly understood yet is finger individuation: the ability to move one finger independently of the others. In a previously developed assessment device, we use force sensors attached to a hand module to measure this dexterous skill. This individuation device measures finger flexion (pushing) over different force levels, using a simple user interface. But to facilitate the measurement process and increase comprehension for cognitively impaired patients, we need to improve the assessment visualization and execution. - Computer Software, Electrical and Electronic Engineering
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| After a neurological injury (such as stroke), many patients suffer from impairment of the hand and finger function. Clinical assessments aim to measure and quantify those impairments for a better understanding and to specifically target those deficits in rehabilitation. One aspect of hand function, that is not truly understood yet is finger individuation: the ability to move one finger independently of the others. In a previously developed assessment device, we use force sensors attached to a hand module to measure this dexterous skill. This individuation device will be used in a clinical setting to measure neurological patients. But before it can routinely be put into practice, its reliability (in a test-retest setting) and validity must be proven. - Biomedical Engineering, Clinical Sciences, Human Movement and Sports Science, Neurosciences, Other, Public Health and Health Services
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| Incorporating electro-adhesion pads on the artificial soft skin of a humanoid robotic hand to enhance its grasping ability in various scenarios. - Electrical and Electronic Engineering, Materials Engineering, Mechanical and Industrial Engineering, Physics
- Bachelor Thesis, Master Thesis, Semester Project
| In this semester project you will learn many state-of-the-art nano-fabrication techniques, such as mechanical exfoliation, van der Waals heterostructure assembly, glovebox, AFM, optical lithography, etc. - Electrical and Electronic Engineering, Optical Physics
- Semester Project
| The aim of this project is to fabricate electrically controllable 2D-material devices in novel combinations that have not still been comprehensively investigated and conduct optical and electrical
spectroscopic studies. - Electrical and Electronic Engineering, Optical Physics
- Master Thesis, Semester Project
| Borehole image logs serve as essential datasets for extracting a wide range of geological features. Traditionally, analysing these logs has involved a tedious labelling process by geological experts. Recently, machine learning has demonstrated remarkable capabilities in image processing. This project focuses on utilizing machine learning model to improve the efficiency and accuracy of detecting and classifying discontinuity features within borehole wall imagery. - Artificial Intelligence and Signal and Image Processing, Geology
- Bachelor Thesis, Master Thesis, Semester Project
| Researchers have started to explore data-driven physics simulations, particularly with Graph Neural Networks for rigid objects collisions. However, simulating rigid collisions among arbitrary shapes is notoriously difficult due to complex geometry and the strong non-linearity of the interactions. In this project, you will focus on the task of learning/simulating rigid objects dynamics with Graph
Neural Networks (GNNs), with the end-goal of predicting future or alternative trajectories for physical rigid objects in a scene. - Engineering and Technology, Information, Computing and Communication Sciences
- Master Thesis, Semester Project
| Understanding the dynamics of rigid object interactions is crucial in various fields, including robotics, computer graphics, and physics-based simulations. In this project, you will focus on the task of learning/simulating rigid objects dynamics from videos, with the end-goal of predicting future or alternative trajectories for the objects in the scene. - Engineering and Technology, Information, Computing and Communication Sciences
- Master Thesis, Semester Project
| A Master project starting in Spring 2023 is available in the group of Prof. Roland Riek, Laboratory for Physical Chemistry (D-CHAB). The student will build a 25 MHz Nuclear Magnetic Resonance (NMR) spectrometer. The spectrometer console will run on a compact board (SDR Lab, Red Pitaya) [1]. A permanent magnet will (10 x 10 x 10 cm3) generate a field of 0.6 T, corresponding to a 1H NMR frequency of 25 MHz. - Antenna Technology, Chemical Spectroscopy, Digital Systems, Electrical Engineering, Instruments and Techniques
- ETH Zurich (ETHZ), Internship, Master Thesis, Semester Project
| You will obtain functional constructs of living muscle tissue that can be implemented into robots as bio-actuators. The tissue will be realized via bioprinting or conventional biofabrication in 3D designs at the mm-to-cm scale. The deformation of the constructs will be achieved via electrical stimulation of contractile muscle cells, and integrated sensing elements will monitor the motion of the tissue constructs, improving functionality and autonomy. We will use granular hydrogels to develop sensing components to monitor the state of 3D organoids. - Biology, Composite Materials, Medical and Health Sciences
- Master Thesis, Semester Project
| For a carbon-neutral energy system, it is key to achieve a high electrification of heat and transport and, at the same time, a high increase in energy supply from photovoltaics. However, energy supply and demand have to match every minute, and for example, photovoltaic power does not produce energy in the hours when power for heat pumps is in the most demand.
As a result, flexible power supply technologies like gas turbines have gained attention as a potential solution to balance energy demand (or to be used in case of emergency) [1]. In the first case, a carbon capture process is necessary to fit the definition of “net-zero” if natural gas is used. Alternatively, other promising fuels are emerging to reduce environmental impacts while phasing out other fossil fuels e.g. green ammonia and green hydrogen. Furthermore, the recent energy crisis boosted research on multi-fuel turbines [2], including bio-fuels [3].
While literature already investigated different multi-fuel gas turbines from a techno-economic perspective, a comparative prospective environmental assessment remains untapped.
- Engineering and Technology
- Master Thesis
| SA/MA project to do the hardware design of a 12 kW multi-active bridge converter for wireless power transmission - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| SA/MA project to identify and evaluate real-time wireless communication methods to control multiple power electronic systems and electrical actuators. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| Ski touring provides a unique and immersive outdoor experience, but the ascent can impose a considerable amount of strain on the body, especially for novices, elderly, or people with disabilities. The objective of this master thesis is to redesign an existing concept and functional model of an electric ski touring device that supports hill ascents, aiming to enhance the ski touring experience for individuals with lower fitness levels by making it less physically demanding and more enjoyable. The current model must be optimized with respect to weight, function, energy consumption, and usability (donning/doffing). After successful fabrication and testing, first steps shall be performed to identify intellectual property and market needs, and finally plan the commercialization of the e-touring ski. - Engineering and Technology
- Master Thesis
| Mobility is typically self-optimized for a particular region to accommodate internal travel needs. However, as soon as one considers multiple, interacting regions (e.g., urban areas interacting with agglomerations, and agglomerations interacting with rural areas), important coordination issues occur, including scheduling mismatches, fleet allocations, and congestion peaks. In short, a mobility system composed of self-optimized mobility systems seems to often operate suboptimally.
In this project, we will investigate the idea of strategic interactions of future mobility stakeholders across heterogeneous regions, such as urban areas, agglomerations, and rural areas, leveraging techniques from network design, optimization, game theory, and policy making. - Automotive Engineering, Information, Computing and Communication Sciences, Mathematical Sciences, Mechanical and Industrial Engineering, Transport Engineering
- Master Thesis, Semester Project
| Conventional pharmaceutical and nutraceutical products (e.g., sport supplements) provide limited control over the release of bioactive ingredients (AIs) and poor absorption and bioavailability. To grant a proper therapeutic effect and athletic performance, common products need frequent intake at high dosages. This scenario is associated with an increased risk of short and long-term complications that can affect the performance of athletes as well as compromise the health long-term. Recently, novel techniques (e.g., 3D printing) and biomaterial formulation have become available for personalized sport supplements. The high versatility, flexibility, and increase absorption resulting from such products, open the way for increasing performance in sport but also for health benefits to generic people by target physiological characteristics and needs of specific groups. - Biomedical Engineering, Biotechnology, Chemical Engineering, Human Movement and Sports Science, Industrial Biotechnology and Food Sciences, Macromolecular Chemistry, Manufacturing Engineering, Materials Engineering, Medical Biochemistry and Clinical Chemistry, Medical Physiology, Pharmacology and Pharmaceutical Sciences
- Internship, Lab Practice, Master Thesis, Semester Project
| Gene therapies have the potential to enable the treatment of multiple currently incurable diseases, but delivery of these therapeutic molecules to the target tissue continues to present a major obstacle to their success and clinical translation. Our lab at Brigham and Women's Hospital has invented multiple novel drug delivery strategies, multiple of which have begun to be evaluated in human clinical trials. We are currently working to develop next-generation gene delivery platforms to accelerate the translation of these potentially transformative therapies to the clinic. - Biology, Chemistry, Materials Engineering, Pharmacology and Pharmaceutical Sciences
- Internship, Master Thesis
| In 2021, solar and wind power for the first time provided more than 10% of the world’s electricity [1]. This makes wind a major and strategic part of the mix to achieve the energy transition and a green economy. Despite broad public support for renewables in general, challenges in social acceptance for wind continue to occur regionally and locally. The opposition usually focuses on aspects such as wildlife safety, biodiversi-ty protection, noise, visibility and landscape impacts, and loss in property values [2, 3]. For the effective implementation of wind farms, it is crucial to understand and address these varying facets of social accept-ability. This study aims to assess the perspectives of residents living near wind farms across different Euro-pean regions, employing Multicriteria Satisfaction Analysis (MUSA) [4]. The objective is to devise region-specific strategies to enhance the acceptability of wind energy projects. Additionally, this research will ex-plore the relationship between socio-demographic and geographical characteristics of the residents and their acceptance of wind power, aiming to uncover underlying factors influencing the social acceptability of wind energy. - Engineering and Technology
- Master Thesis
| In this master thesis, the student will investigate different linear motor types and
topologies for the future 3km AlphaTube vacuum transport demonstrator, such as the
permanent magnet synchronous motor and the synchronous reluctance motor. - Electrical Engineering
- Master Thesis
| In this project, you will compare conventional LCL-filter design methods and analyze the impact of controllers on the design methods. Then, you will investigate a new design method of LCL filters when MPC is applied. - Electrical Engineering
- Master Thesis
| In this master thesis, the student will consider the expected power profile of a
hyperloop vehicle, and the models relative to the propulsion and levitation systems will be
extracted and compared with the corresponding one of high speed railway. After having
established the expected performance, the thesis will focus on which power system
architecture is most suitable of future Hyperloop systems. - Electrical Engineering
- Master Thesis
| In this project, you will first analyse an implemented quadratic program (QP) solver using Intel high-level-synthesis (HLS) tool and develop an optimization routine to compare the performance considering hardware resource constraints. - Electrical Engineering
- Master Thesis
| An alternative solar particle receiver (SPR) configuration is proposed, in which particles are falling inside a duct against a counter-current air flow. The aim of this work is to investigate the thermal performance of the receiver and to gain a better understanding of the physical phenomena taking place. - Fluidization and Fluid Mechanics, Heat and Mass Transfer Operations, Mechanical Engineering
- ETH Zurich (ETHZ), Master Thesis
| In this project, you will search the suitable current measurement methods and design the measurement system for strand current. You will validate your design with simulation tools like FEM. Finally you will implemented and test your design. - Electrical Engineering
- Master Thesis
| In this project, you will implement analytical switching loss models from literature in Matlab, simulate switching losses in LTspice, and compare them to the measurement results with an existing PCB. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| Development of a software tool which visualises the geometry of a basic switching cell based on geometrical parameters derived by converter optimisation procedures - Electrical Engineering
- Master Thesis, Semester Project
| Development of switching cell mechanical models in the X3D format based on geometrical parameters derived by converter optimisation procedures - Electrical Engineering
- Master Thesis, Semester Project
| In this project, you will extend an analytical SiC MOSFET switching loss model to GaN HEMTs in Matlab, simulate switching losses in LTspice, and compare them to the measurement results with an existing PCB. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| Use Inverse Reinforcement Learning (IRL) to learn reward functions from previous expert drone demonstrations. - Engineering and Technology, Intelligent Robotics
- Master Thesis, Semester Project
| In this project you will model the 3D geometry of litz wire by a mathematical algorithm. Furthermore, the current density distribution and the eddy current losses should be calculated for different termination strategies and for different litz wire geometries by FEM. The impact of improper terminations should be qualitatively/quantitatively analysed. - Electrical and Electronic Engineering
- Semester Project
| The project focuses on optimizing the compact Marx generator, which charges capacitors in parallel and discharges in series to produce high-voltage pulses. Through FEM simulations, the objective is to design capacitor arrangements that limit the electrical field, mitigating equipment failures, and extracting parasitic elements. - Electrical Engineering
- Master Thesis
| Explore the use of large vision language models to control a drone. - Engineering and Technology, Intelligent Robotics
- Master Thesis, Semester Project
| The goal of the project is to develop a system-level design for a particle accelerator. - Electrical Engineering
- Master Thesis, Semester Project
| Learn complex drone maneuvers from human feedback using Reinforcement Learning (RL). - Engineering and Technology, Intelligent Robotics
- Master Thesis, Semester Project
| In this project, you will conduct measurements of a bearingless spinfilter prototype with state-of-the-art equipment of the industry partner under different conditions. The measurement data will be processed to find the optimum operation point and you will conduct an error caluclation. - Fermentation, Biotechnology and Industrial Microbiology, Mechanical Engineering, Numerical Analysis
- Semester Project
| In this project, you will use the power device analyser to measure SiC MOSFET device characteristics at different temperatures. Then you will investigate the gate charge measurement, together with the gate resistance measurement using a Vector Network Analyser. - Electrical Engineering
- Semester Project
| The goal of the project is to develop a thermal model of a pulse transformer for a particle accelerator. - Electrical Engineering
- Master Thesis, Semester Project
| xxx - Electrical Engineering
- Master Thesis, Semester Project
| In this project, you will plan, design and commission an automatic System to purity BSA with bearingless motors for mixers, pumps and sensors from the industry partner. - Fermentation, Biotechnology and Industrial Microbiology, Mechanical Engineering
- Master Thesis, Semester Project
| xxx - Electrical Engineering
- Master Thesis
| In diesem Projekt wird zuerst das magnetische Ventil modelliert. Danach soll ein Regler für die effizientere Ansteuerung verwendet werden. - Control Engineering, Electrical Engineering, Mechanical Engineering
- Bachelor Thesis, Semester Project
| In this project, you will analyse conventional EMI-filter design methods and investigate the impact of MPC on the optimal filter design. Then, you will further compare other variables. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
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