TY - THES A1 - Marterer, Verena T1 - A Characterisation of Motives and Barriers to Taking up Academic Study in the Field of Electrical Engineering N2 - The problem description comes to the fore when the wide-ranging subject area of electrical engineering is combined and analyzed with different types of schools. It is becoming increasingly rare for elementary school children to come to grips with technology in the sense of recognizing functional interrelationships and understanding modes of action in the context of technical-practical confrontation. The picture at secondary schools is also rather sobering. Here, a strong focus on facts and knowledge and too little emphasis on modeling, application and problem solving lead to insufficient results in the cognitive area. In addition, a massive shortage of engineers and specialists with a technical and scientific orientation has been predicted for years and is being increasingly observed. The motivation of students in traditional lectures is decreasing and in general there is a decline of university students in technical subjects. These problems are not only known throughout Germany, but also internationally. Especially in developing countries, additional problems make technical education more difficult, regardless of the type of school. Therefore, this master thesis is evaluated in South Africa in order to consider as many influencing factors as possible. "Learning is experience. Everything else is simply information." - Methods and concepts developed in the thesis build upon this quote of Albert Einstein. Teaching methods are elaborated and applied for three different age groups and school types, depending on known influencing factors. The aim of this thesis is not to produce further findings in the sense of basic research, but to show ways in which the current situation can be steered in a different direction. It has been shown that technology lessons in elementary/secondary schools inspire interest in technical professions in the field of electrical engineering. Furthermore, the combination of frontal teaching, for a necessary theoretical background, together with student-active, action-oriented teaching shows advantages in terms of learning efficiency and an increase in performance levels for all three age groups. However, it could also be observed that factors such as social background, family influence and gender have partial effects on the promotion and education in the field of electrical engineering. Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:898-opus4-62550 CY - Regensburg ER - TY - THES A1 - Marterer, Verena T1 - Simulation der elektromagnetischen Eigenschaften von gestricktem Stoff N2 - Periodische Strukturen besitzen eine Reihe interessanter Eigenschaften, die sie unter anderem für den Einsatz im Bereich der Hochfrequenz- und Mikrowellentechnik attraktiv erscheinen lassen. In der vorliegenden Arbeit steht insbesondere deren Anwendung beim Entwurf gestrickter Stoffe, die auf metallischen Fäden basieren, im Vordergrund. Es wird in diesem Zusammenhang zunächst die vollständige Modellierung der Struktur unter Verwendung von 3D-Elementen in repräsentativen Elementarzellen durchgeführt. Innerhalb der Designumgebung von CST Studio Suite kann das analytische Elementarmodell von Leaf und Glaskin für die Einfaden-Maschenware implementiert werden. Abhängig von den variablen Faktoren beim Stricken bewegen sich die Kantenlängen der hier betrachteten Einheitszelle in der Größenordnung von 1 cm bis 2 cm. Bei der Analyse der elektromagnetischen Eigenschaften unter Verwendung eines Frequenzbereichslösers können somit die Streuparameter für Reflexion und Transmission in einem Frequenzbereich von 13 GHz bis 30 GHz ermittelt werden. Aus den 1D-Simulationsergebnissen werden Frequenzen sichtbar, bei denen Resonanzphänomene auftreten. Die polarisationsabhängigen Strukturen weisen Abschirmwirkungen von 30 dB und mehr auf. Da das Resonanzverhalten mit den Oberflächenströmen in Verbindung steht, wird die Oberflächenstromverteilung zeitgleich mit dem elektrischen Feld untersucht. Weiterhin wird den Wechselwirkungen zwischen den veränderlichen Strickparametern und den elektromagnetischen Spezifikationen wie Resonanzfrequenz, Bandbreite oder Güte Aufmerksamkeit geschenkt. Es wird deutlich, dass Optimierungsroutinen die Möglichkeit nahelegen, frequenzselektive gestrickte Strukturen für diverse Anwendungen maßzuschneidern. Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:898-opus4-57605 CY - Regensburg ER - TY - THES A1 - Schön, Matthias T1 - Implementation and Evaluation of the ESPRIT Algorithm for DoA Estimation on an FPGA-based SDR Platform N2 - Environmental sensing using smart antennas and antenna arrays is a broad field with many applications in different areas. This thesis is part of the initial stage of a longer research project at the OTH Regensburg, with the goal of enhancing the antenna-array-based sensing capabilities of base stations. Existing technologies that utilize radio waves, such as radar, often require the generation of special signals to scan the environment. This project aims to utilize the existing mobile communication traffic instead, making the benefits of sensing capabilities available to a wider range of applications. Many of the array processing methods require high computational power and are used in environments with real-time constraints. Therefore, the use of field-programmable gate arrays (FPGAs) for hardware acceleration of these methods will be investigated, evaluating which methods are suitable for implementation on FPGAs. The focus in this thesis lies on the Estimation of Signal Parameters Via Rotational Invariance Techniques (ESPRIT) method for direction of arrival (DoA) estimation, as it is a popular and highly accurate method that does not rely on calibration. The accelerator is implemented for the RFSoC4x2 software-defined radio (SDR), using Vitis High-Level Synthesis (HLS) for implementation of the algorithm itself, Vivado for the hardware configuration, and Python Productivity on Zynq (PYNQ) for drivers and application code. Simulations for evaluation and verification, as well as test data generation, are implemented in Julia, using a custom array signal processing package. A measurement setup is used to collect experimental data for simulation and evaluation of the performance of the implemented ESPRIT. It is shown that the underlying assumption of equal subarrays does not hold for the array used for the measurements. This causes the estimates to be erroneous and can only be addressed by employing other algorithms that allow for the required calibration. KW - Field programmable gate array KW - Digitale Signalverarbeitung KW - Array signal processing KW - Direction-of-arrival estimation Y1 - 2025 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:898-opus4-86883 CY - Regensburg ER -