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Renewable and sustainable energy production by many small and distributed producers is revolutionizing the energy landscape as we know it. Consumers produce energy, making them to prosumers in the smart grid. The interaction between prosumers and other entities in the grid and the optimal utilization of new smart grid components (electric cars, freezers, solar panels, etc.) are crucial for the success of the smart grid. The Power Trading Agent Competition is an open simulation platform that allows researchers to conduct low risk studies in this new energy market. In this work we present Maxon16, an autonomous energy broker and champion of the 2016's Power Trading Agent Competition. We present the strategies the broker used in the final round and evaluate the effectiveness of the strategies by analyzing the tournament's results.
This technical report is about the mission and the experience gained during the reconnaissance of an industrial hall with hazardous substances after a major fire in Berlin. During this operation, only UAVs and cameras were used to obtain information about the site and the building. First, a geo-referenced 3D model of the building was created in order to plan the entry into the hall. Subsequently, the UAVs were used to fly in the heavily damaged interior and take pictures from inside of the hall. A 360° camera mounted under the UAV was used to collect images of the surrounding area especially from sections that were difficult to fly into. Since the collected data set contained similar images as well as blurred images, it was cleaned from non-optimal images using visual SLAM, bundle adjustment and blur detection so that a 3D model and overviews could be calculated. It was shown that the emergency services were not able to extract the necessary information from the 3D model. Therefore, an interactive panorama viewer with links to other 360° images was implemented where the links to the other images depends on the semi dense point cloud and located camera positions of the visual SLAM algorithm so that the emergency forces could view the surroundings.
In this paper, we present a method for detecting objects of interest, including cars, humans, and fire, in aerial images captured by unmanned aerial vehicles (UAVs) usually during vegetation fires. To achieve this, we use artificial neural networks and create a dataset for supervised learning. We accomplish the assisted labeling of the dataset through the implementation of an object detection pipeline that combines classic image processing techniques with pretrained neural networks. In addition, we develop a data augmentation pipeline to augment the dataset with utomatically labeled images. Finally, we evaluate the performance of different neural networks.
This technical report is about the architecture and integration of very small commercial UAVs (< 40 cm diagonal) in indoor Search and Rescue missions. One UAV is manually controlled by only one single human operator delivering live video streams and image series for later 3D scene modelling and inspection. In order to assist the operator who has to simultaneously observe the environment and navigate through it we use multiple deep neural networks to provide guided autonomy, automatic object detection and classification and local 3D scene modelling. Our methods help to reduce the cognitive load of the operator. We describe a framework for quick integration of new methods from the field of Deep Learning, enabling for rapid evaluation in real scenarios, including the interaction of methods.
In the realm of digital situational awareness during disaster situations, accurate digital representations,
like 3D models, play an indispensable role. To ensure the
safety of rescue teams, robotic platforms are often deployed
to generate these models. In this paper, we introduce an
innovative approach that synergizes the capabilities of compact Unmaned Arial Vehicles (UAVs), smaller than 30 cm, equipped with 360° cameras and the advances of Neural Radiance Fields (NeRFs). A NeRF, a specialized neural network, can deduce a 3D representation of any scene using 2D images and then synthesize it from various angles upon request. This method is especially tailored for urban environments which have experienced significant destruction, where the structural integrity of buildings is compromised to the point of barring entry—commonly observed post-earthquakes and after severe fires. We have tested our approach through recent post-fire scenario, underlining the efficacy of NeRFs even in challenging outdoor environments characterized by water, snow, varying light conditions, and reflective surfaces.
Desert ants Cataglyphis spec. monitor inclination and distance covered through force-based sensing in their legs. To transfer this mechanism to legged robots, artificial neural networks are used to determine the inclination angle of an experimental ramp from the motor data of the legs of a commercial hexapod walking robot. It is possible to determine the inclination angle of the ramp based on the motor data of the robot legs read out during a run. The result is independent of the weight and orientation of the robot on the ramp and hence robust enough to serve as an independent odometer.
Biomechanische Untersuchungen zum Öffnungsmechanismus von verholzten Früchten der Gattung Hakea
(2023)
Die Arten H. sericea und H. salicifolia (Proteaceae) sind in Australien heimisch. Ihr natürlicher Lebensraum ist trocken und nährstoffarm, und sie sind regelmäßig Buschbränden ausgesetzt. Durch den Feuchtigkeitsverlust “schrumpft“ die Frucht und öffnet sich, wobei zwei Samen freigesetzt werden. Diese Arbeit vergleicht das Öffnungsverhalten von manipulierten Früchten, das Schwindmaß, die Öffnungskraft, den Elastizitätsmodul und die Druckfestigkeit der beiden Arten und untersucht den Einfluss verschiedener Gewebe auf die Öffnung. Es wird festgestellt, dass das Mesokarp hauptsächlich für das anisotrope Schwindverhalten verantwortlich ist.
Die Diskussion über den Umgang von Industriekultur, bzw. der Kultur der Arbeit wird bereits seit einigen Jahrzehnten geführt. Im Mittelpunkt stehen zum einen Auseinandersetzungen nach Abriss oder Erhalt industrieller Erzeugnisse und zum anderen konzeptionelle Entwürfe, die sich an den Polen eines industriekulturell puristischen oder marketingfixierten Freizeit-Verständnisses orientieren. Je nach Ausrichtung sollen die Konsequenzen für die Gestaltung eines angemessen oder tendenziell beliebigen Freizeitangebotes aufgezeigt werden.
Seit einigen Jahren sind aufgrund des Bedeutungsverlustes von christlicher Religion sowie sinkender Mitgliedszahlen zahlreiche Kirchen profaniert worden. Auch hier entsteht eine noch stärker emotional aufgeladene Diskussion darüber, welche Nachnutzung in einem reli-giös-normativen Verständnis, aber auch unter ökonomischen Vorzeichen möglich sein soll. Zu klären ist also, was als angemessen gilt und inwieweit die ursprüngliche Nutzung noch symbolhaft sichtbar bleiben kann und soll.
Das härteste Wettbewerbsumfeld ist die Natur. Ein hoher Selektionsdruck führt dort zu Organismen, die mit geringem Aufwand besser an die herrschenden Bedingungen angepasst sind, als die Wettbewerber. Die hierzu verwendeten Strategien zum Materialeinsatz sind sehr effizient und als Strukturoptimierung abstrahiert auch in der Technik anwendbar. In diesem Vortrag werden Optimierungsmethoden und Vorgehensweisen für einen effizienten Materialverbrauch vorgestellt und diskutiert.
Um die Wasserstofftechnik in Zukunft wirtschaftlich und damit kommerziell am Markt verfügbar werden zu lassen, sind heute noch immer große Forschungs- und Entwicklungsanstrengungen notwendig. Dabei erfordert die Entwicklung von optimierten Komponenten wie beispielsweise der Membran-Elektroden-Einheit (MEA – engl. Membrane Electrode Assembly) für Brennstoffzellen sowie Elektrolyseure reproduzierbare und homogene Prüfbedingungen. Für diesen Zweck ist ein Prüfsystem auf Basis eines von der Westfälischen Hochschule (WHS) patentierten modularen Stackkonzepts mit hydraulischer Verpressung entworfen und realisiert worden. Mit dem hier vorgestellten System ist es möglich, auf Einzelzellenbasis mehrere Proben zum gleichen Zeitpunkt unter identischen Umgebungsbedingungen auf ihre Charakteristik hin zu untersuchen.
Since the 1980’s, against the backdrop of global warming and the decline of conventional energy resources, low emission and renewable energy systems have gotten into the focus of politics as well as research and development. In order to decrease the emission of greenhouse gases Germany intents to generate 80% of its electrical energy from renewable and low emission sources by 2050. For low emission electricity generation hydrogen operated fuel cells are a potential solution. However, although fuel cell technology has been well known since the 19th century cost effective materials are needed to achieve a breakthrough in the market.
Proton Exchange Membrane Fuel Cells with Carbon Nanotubes as Electrode Material
At the Westphalian Energy Institute of the Wesphalian University of Applied Sciences one main focus is on the research of proton exchange membrane fuel cells (PEMFC). PEMFC membrane electrode assemblies (MEA) consist of a polymer membrane with electrolytic properties covered on both sides by a catalyst layer (CL) as well as a porous and electrical conductive gas diffusion layer (GDL).
For PEMFC carbon nanotubes (CNT) have ideal properties as electrode material concerning electrical conductivity, oxidation resistance and media transport. CNTs are suitable for the use as catalyst support material within the CL due to their large surface in comparison to conventional carbon supports. Furthermore, oxygen plasma treated CNTs show electrochemical activity referred to hydrogen adsorption and desorption, which has been shown by cyclic voltammetry in 0.5 M sulfuric acid solution. According to the PEMFCs anode a GDL coated with oxygen plasma activated CNTs has promising properties to significantly reduce catalyst content (e.g. platinum) of the anodic CL.
Kurzübersicht der aktuellen Projekte des Westfälischen Energieinstituts.
This paper describes a new concept and experiences of a distributed interdisciplinary learning programme for students across continents. The aim is to provide students with a truly Global Intercultural Project Experience (GIPE) by working together with peers from around the world, and solving real-life client’s problems. We have received seed-funding for four annual projects to engage students from Germany (Europe), Namibia (Africa), Indonesia (Asia), and Peru (Latin-America). In 2020, 30 students from four continents engaged in a one-semester distributed software development project for a Namibian client. Despite Covid-19 they successfully completed the project expressing deep appreciation for the learning opportunities overcoming challenges of working across wide-spread time zones, cultures, changing requirements, and various technical challenges. Considering the vast learning benefits, we suggest to incorporate such projects in all tertiary education curricula across the globe.
Competency-oriented exams offer a wide range of advantages, especially where the use and mastery of third-party applications and tools play an important role. Therefore, we developed a competency-oriented setup for both our programming classes and exams ensuring their constructive alignment.
Exams were moved to the computer lab and designed to test both conceptional skills as well as the use of state-of-the-art programming tools. At the peak of the COVID-19 pandemic, when exams had to be moved from lab to online, we needed to design an online setup for our practical programming exams preserving the competency-oriented approach and its constructive alignment as well as the validity, reliability and fairness of the exams. The key was to use the same online tools that have been introduced
for running lectures and practical classes offering almost the same learning experience as before the pandemic. However, to ensure the validity and fairness of the exams, some kind of online supervision needed to be implemented as technical solutions were found to be either unusable or not working
properly in our case. This paper discusses the driving factors, the resulting technical and organizational setup as well as students’ feedback and lessons learned for further improvements. Therefore, COVID-19 has not been able to ruin our competency-oriented programming exams.
This paper reveals various approaches undertaken over more than two decades of teaching undergraduate programming classes at different Higher Education Institutions, in order to improve student activation and participation in class and consequently teaching and learning effectiveness.
While new technologies and the ubiquity of smartphones and internet access has brought new tools to the classroom and opened new didactic approaches, lessons learned from this personal long-term study show that neither technology itself nor any single new and often hyped didactic approach ensured sustained improvement of student activation. Rather it needs an integrated yet open approach towards a participative learning space supported but not created by new tools, technology and innovative teaching methods.
This paper presents a pragmatic approach for stepwise introduction of peer assessment elements in undergraduate programming classes, discusses some lessons learned so far and directions for further work. Students are invited to challenge their peers with their own programming exercises to be submitted through Moodle and evaluated by other students according to a predefined rubric and supervised by teaching assistants. Preliminary results show an increased activation and motivation of students leading to a better performance in the final programming exams.
Hakea sericea und H. salicifolia sind strauch- bis baumförmige Arten der Familie Proteaceae. Ursprünglich aus Australien stammend, breiten sie sich zunehmend in Neuseeland, Portugal, Südspanien und Südafrika invasiv aus. In Portugal wurden beide Arten als Ziergewächs, Windschutz und Heckenpflanze eingeführt und verdrängen nun heimische Arten. Die erfolgreiche Etablierung der beiden Arten hängt mit der Ausbreitungsbiologie zusammen. Die Balgfrüchte zeigen eine ausgeprägte Serotinie und verbleiben oft über Jahre an der Mutterpflanze. Erst durch Waldbrände oder starke Austrocknung öffnen sich die Früchte und geben dabei zwei geflügelte Samen frei. Während der Öffnung deformieren sich die beiden Fruchthälften stark und reißen dabei zunächst über die Bauchnaht und anschließend über die Rückenseite auf. Dieses Öffnungsverhalten ist innerhalb der Proteaceae nur für die Gattung Hakea beschrieben und für Balgfrüchte, zu denen sie dennoch gezählt werden, ungewöhnlich. Die Bruchoberflächen der verschiedenen Gewebe zeigen dabei unterschiedliche Rauigkeiten. Die Gewebe der abaxialen Seite (Rückenseite) reißen dabei mit einer glatteren Bruchfläche als die Gewebe der adaxialen Seite (Bauchseite). In dieser Arbeit werden Rauheitsparameter der Bruchoberflächen auf zufälligen Profillinien mit einem Konfokalmikroskop für die verschiedene Gewebe der Oberflächen ermittelt. Das Propagieren des Risses durch die verschiedenen Gewebe wird anhand der Ausrichtung und Lage der Zellen in den beiden Seiten der Fruchthälften erläutert. Es wird diskutiert, inwieweit sich die unterschiedlich rauen Bruchoberflächen auf die Öffnung und die dafür nötigen Kräfte auswirken. Erste Ansätze zur Optimierung von technischen Sollbruchstellen werden vorgeschlagen.