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Fast moving objects are defined as objects that move over significant distances over exposure time of a single image or video frame. Thus, they look significantly blurred. Detection, tracking, and deblurring of such objects have been studied in recent years. However, there are still no methods for robust retrieval of such objects in large image collections. - Computer Graphics, Computer Vision, Image Processing, Neural Networks, Genetic Alogrithms and Fuzzy Logic, Pattern Recognition
- Master Thesis
| Accurate non-invasive assessment modalities that incorporate both scapular motion and its morphology are currently unavailable, presenting a clear need for sustainable clinical application. To address this need, the Laboratory for Movement Biomechanics (LMB) utilizes a unique optical 4D scanning system (SLOT) to estimate the underlying anatomical structures using non-invasive structured light to produce high-quality images of the human skin surface, both statically and dynamically. By utilizing the clear cutaneous surface contours surrounding the scapula, the application of this technology to the shoulder joint could allow a novel non-invasive and dynamic approach for estimating scapular kinematics that overcomes the challenges associated with soft-tissue artifacts. The key challenge in the development of this approach is the precise identification and tracking of relevant scapula landmarks, as well as soft tissue artifacts, all of which are expected to affect the accuracy of the SLOT-measured kinematics. - Engineering and Technology, Information, Computing and Communication Sciences
- Master Thesis
| Structural color is a fascinating method employed in nature to achieve vibrant hues. Examples abound, from Iridescent opals to the delicate hues of butterfly wings, and the shimmering scales of beetles1 (Figure 1 a-c). Unlike conventional pigments, structurally colored materials boost resilience against photobleaching and can be easily designed to circumvent environmental and chemical hazards. This characteristic renders them an attractive sustainable alternative for various photonic applications.2,3 Renowned for their ultralow thermal conductivity and open pore structure, Aerogels find widespread use scenarios in thermal insulation, catalysis, environmental remediation, and optics.4 Among these applications, currently, thermal insulation stands out prominently, and an aerogel with intrinsic structural color holds the promise for sustainable and smart coloring endeavors. - Composite Materials, Control Engineering
- Master Thesis
| See attached pdf - Economics, Engineering and Technology, Mathematical Sciences, Policy and Political Science
- Bachelor Thesis, Master Thesis
| modeling such a circuit to simulate the pulse waveform we generate. This investigation could outline the parameters that affect the parameters we are interested in, like peak voltage, pulse rise rate, pulse duration, etc - Electrical Engineering
- Master Thesis
| In a thesis project for Frenetic you would be working on magnetic modeling in the field of power electronics. Projects could include enhancing core loss models using an AI-enhanced database, or improving magnetic component design processes through AI/ML algorithms. - Electrical Engineering
- Master Thesis, Semester Project
| In this master thesis, the student will investigate the strategy for the switching of long primary motor segments, the transient effects caused by it, possible mitigation measures (i.e. filters) and propose a hardware setup for the final configuration. - Electrical Engineering
- 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
| xxx - Electrical Engineering
- Semester Project
| 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
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