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Freitag, 3. Juni 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Tobias Haßberg
Titel Development of an Active Learning Approach for One Class Classifi cation using Bayesian Uncertainty
Vortragstyp Masterarbeit
Betreuer(in) Bela Böhnke
Vortragsmodus in Präsenz
Kurzfassung In One-Class classification, the classifier decides if points belong to a specific class. In this thesis, we propose an One-Class classification approach, suitable for active learning, that models for each point, a prediction range in which the model assumes the points state to be. The proposed classifier uses a Gaussian process. We use the Gaussian processes prediction range to derive a certainty measure, that considers the available labeled points for stating its certainty. We compared this approach against baseline classifiers and show the correlation between the classifier's uncertainty and misclassification ratio.

Freitag, 24. Juni 2022, 11:30 Uhr

Ort: MS Teams
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Kevin Werber
Titel Assessing Word Similarity Metrics For Traceability Link Recovery
Vortragstyp Bachelorarbeit
Betreuer(in) Jan Keim
Vortragsmodus online
Kurzfassung The software development process usually involves different artifacts that each describe different parts of the whole software system. Traceability Link Recovery is a technique that aids the development process by establishing relationships between related parts from different artifacts. Artifacts that are expressed in natural language are more difficult for machines to understand and therefore pose a challenge to this link recovery process. A common approach to link elements from different artifacts is to identify similar words using word similarity measures. ArDoCo is a tool that uses word similarity measures to recover trace links between natural language software architecture documentation and formal architectural models. This thesis assesses the effect of different word similarity measures on ArDoCo. The measures are evaluated using multiple case studies. Precision, recall, and encountered challenges for the different measures are reported as part of the evaluation.

Freitag, 24. Juni 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Tobias Hombücher
Titel Generalized Monte Carlo Dependency Estimation and Anytime Supervised Filter Feature Selection
Vortragstyp Masterarbeit
Betreuer(in) Edouard Fouché
Vortragsmodus online
Kurzfassung Dependency estimation is an important problem in statistics and is applied frequently in data science. As modern datasets can be very large, dependency estimators should be efficient and leverage as much information from data as possible. Traditional bivariate and multivariate dependency estimators are only capable to estimate dependency between two or n one-dimensional datasets, respectively. In this thesis, we are interested in how to develop estimators that can estimate the dependency between n multidimensional datasets, which we call "generalized dependency estimators".

We extend the recently introduced methodology of Monte Carlo Dependency Estimation (MCDE), an effective and efficient traditional multivariate dependency estimator. We introduce Generalized Monte Carlo Dependency Estimation (gMCDE) and focus in particular on the highly relevant subproblem of generalized dependency estimation, known as canonical dependency estimation, which aims to estimate the dependency between two multidimensional datasets. We demonstrate the practical relevance of Canonical Monte Carlo Dependency Estimation (cMCDE) by applying it to feature selection, introducing two methodologies for anytime supervised filter feature selection, Canonical Monte Carlo Feature Selection (cMCFS) and Canonical Multi Armed Bandit Feature Selection (cMABFS). cMCFS directly applies the methodology of cMCDE to feature selection, while cMABFS treats the feature selection problem as a multi armed bandit problem, which utilizes cMCDE to determine relevant features.

Vortragende(r) Jonas Zoll
Titel Injection Molding Simulation based on Graph Neural Networks (GNNs)
Vortragstyp Bachelorarbeit
Betreuer(in) Daniel Ebi
Vortragsmodus in Präsenz
Kurzfassung Numerical filling simulations are an important tool for the development of injection molding parts. Existing simulations rely on numerical solvers based on the finite element method. These solvers are reliable and precise, but very computationally expensive even on simple part geometries.

In this thesis, we aim to develop a faster injection molding simulation based on Graph Neural Networks (GNNs) as a surrogate model. Our approach learns a simulation as a composition of three functions: an encoder, a processor and a decoder. The encoder takes in a graph representation of a 3D geometry of an injection molding part and returns a numeric embedding of each node in the graph. The processor updates the embeddings of each node multiple times based on its neighbors. The decoder then decodes the final embeddings of each node into physically meaningful variables, say, the fill state of the node. Our model can predict the progression of the flow front during a time step with a fixed size. To simulate a full mold filling process, our model is applied sequentially until the entire mold is filled. Our architecture is applicable to any kind of material, geometry and injection process parameters. We evaluate our architecture by its accuracy and runtime when predicting node properties. We also evaluate our models transfer learning ability on a real world injection molding part.

Vortragende(r) Mingzhe Tao
Titel Meta-learning for Encoder Selection
Vortragstyp Proposal
Betreuer(in) Federico Matteucci
Vortragsmodus in Präsenz
Kurzfassung In the real world, mixed-type data is commonly used, which means it contains both categorical and numerical data. However, most algorithms can only learn from numerical data. This makes the selection of encoder becoming very important. In this presentation, I will present an approach by using ideas from meta-learning to predict the performance from the meta-features and encoders.

Freitag, 1. Juli 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Anne-Kathrin Hermann
Titel Bewertung der Qualität von Low-Code-Programmen für Datenfluss-Beschreibungen
Vortragstyp Bachelorarbeit
Betreuer(in) Thomas Kühn
Vortragsmodus in Präsenz
Kurzfassung Das Messen der Qualität von Datenfluss-Low-Code-Programmen und auch das Erstellen qualitativ hochwertiger Programme ist schwer. Es entstehen viele Programme mit Anzeichen für schlechte Qualität, die zwar Ergebnisse liefern, aber schlecht wartbar und unverständlich sind. Im Laufe dieser Arbeit wurde die Übertragbarkeit, von klassischen Codemetriken und Graphmetriken überprüft und durchgeführt, um zu evaluieren, welche Metriken sich für die Messung der Qualität von Low-Code-Programmen eignen?
Vortragende(r) Quang Dao
Titel Coreference Resolution for Software Architecture Documentation
Vortragstyp Bachelorarbeit
Betreuer(in) Jan Keim
Vortragsmodus in Präsenz
Kurzfassung In software engineering, software architecture documentation plays an important role. It contains many essential information regarding reasoning and design decisions. Therefore, many activities are proposed to deal with documentation for various reasons, e.g., extract- ing information or keeping different forms of documentation consistent. These activities often involve automatic processing of documentation, for example traceability link recovery (TLR). However, there can be problems for automatic processing when coreferences are present in documentation. A coreference occurs when two or more mentions refer to the same entity. These mentions can be different and create ambiguities, for example when there are pronouns. To overcome this problem, this thesis proposes two contributions to resolve coreferences in software architecture documentation.

The first contribution is to explore the performance of existing coreference resolution models for software architecture documentation. The second is to divide coreference resolution into many more specific type of resolutions, like pronoun resolution, abbreviation resolution, etc.

Freitag, 22. Juli 2022, 11:30 Uhr

Ort: MS Teams
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Philipp Uhrich
Titel Empirical Identification of Performance Influences of Configuration Options in High-Performance Applications
Vortragstyp Masterarbeit
Betreuer(in) Larissa Schmid
Vortragsmodus online
Kurzfassung Many modern high-performance applications are highly-configurable software systems that provide hundreds or even thousands of configuration options. System administrators or application users need to understand all these options and their impacts on the software performance to choose suitable configuration values. To understand the influence of configuration options on the run-time characteristics of a software system, users can use performance prediction models, but building performance prediction models for highly-configurable high-performance applications is expensive. However, not all configuration options, which a software system offers, are performance-relevant. Removing these performance-irrelevant configuration options from the modeling process can reduce the construction cost. In this thesis, we explore and analyze two different approaches to empirically identify configuration options that are not performance-relevant and can be removed from the performance prediction model. The first approach reuses existing performance modeling methods to create much cheaper prediction models by using fewer samples and then analyzing the models to identify performance-irrelevant configuration options. The second approach uses white-box knowledge acquired through dynamic taint analysis to systematically construct the minimal number of required experiments to detect performance-irrelevant configuration options. In the evaluation with a case study, we show that the first approach identifies performance-irrelevant configuration options but also produces misclassifications. The second approach did not perform to our expectations. Further improvement is necessary.

Freitag, 12. August 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Maximilian Georg
Titel A Comparative Analysis of Data-Efficient Dependency Estimators
Vortragstyp Bachelorarbeit
Betreuer(in) Bela Böhnke
Vortragsmodus online
Kurzfassung Dependency estimation is a significant part of knowledge

discovery and allows strategic decisions based on this information. Many dependency estimation algorithms require a large amount of data for a good estimation. But data can be expensive, as an example experiments in material sciences, consume material and take time and energy. As we have the challenge of expensive data collection, algorithms need to be data efficient. But there is a trade-off between the amount of data and the quality of the estimation. With a lack of data comes an uncertainty of the estimation. However, the algorithms do not always quantify this uncertainty. As a result, we do not know if we can rely on the estimation or if we need more data for an accurate estimation. In this bachelor’s thesis we compare different state-of-the-art dependency estimation algorithms using a list of criteria addressing the above-mentioned challenges. We partly developed the criteria our self as well as took them from relevant publications. Many of the existing criteria where only formulated qualitative, part of this thesis is to make these criteria measurable quantitative, where possible, and come up with a systematic approach of comparison for the rest. We also conduct a quantitative analysis of the dependency estimation algorithms by experiment on well-established and representative data sets that performed well in the qualitative analysis.

Freitag, 19. August 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Sönke Jendral
Titel Refining Domain Knowledge for Domain Knowledge Guided Machine Learning
Vortragstyp Bachelorarbeit
Betreuer(in) Pawel Bielski
Vortragsmodus online
Kurzfassung Advances in computational power have led to increased in interest in machine learning techniques. Sophisticated approaches now solve various prediction problems in the domain of healthcare. Traditionally, machine learning techniques integrate domain knowledge implicitly, by statistically extracting dependencies from their input data. Novel approaches instead integrate domain knowledge from taxonomies as an external component.

However, these approaches assume the existence of high quality domain knowledge and do not acknowledge issues stemming from low quality domain knowledge. It is thus unclear what low quality domain knowledge in the context of Domain Knowledge Guided Machine Learning looks like and what its causes are. Further it is not clearly understood what the impact of low quality domain knowledge on the machine learning task is and what steps can be taken to improve the quality in this context.

In this Thesis we describe low quality domain knowledge and show examples of such knowledge in the context of a sequential prediction task. We further propose methods for identifying low quality domain knowledge in the context of Domain Knowledge Guided Machine Learning and suggest approaches for improving the quality of domain knowledge in this context.

Vortragende(r) Elizaveta Danilova
Titel Wichtigkeit von Merkmalen für die Klassifikation von SAT-Instanzen (Abschlusspräsentation)
Vortragstyp Bachelorarbeit
Betreuer(in) Jakob Bach
Vortragsmodus in Präsenz
Kurzfassung Das SAT-Problem ist ein zentrales Problem der theoretischen Informatik. Wegen seiner NP-Schwere sind Forscher insbesondere an effizienten Lösungsverfahren dafür interessiert. Die Kenntnis der Familie einer Instanz kann zur Problemlösung beitragen. In unserer Arbeit haben wir untersucht, wie SAT-Instanzen durch maschinelles Lernen effizient klassifiziert werden können und welche Verfahren sich am besten dazu eignen. Außerdem betrachteten wir, welche Merkmale die Instanzen am eindeutigsten charakterisieren und wie sich die Anzahl der verwendeten Merkmale auf das Klassifikationsergebnis auswirkt. Letztlich untersuchten wir, welche Familien vermehrt fehlklassifiziert werden und was die Gründe dafür sind.

Freitag, 26. August 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Manuel Müllerschön
Titel Deriving Twitter Based Time Series Data for Correlation Analysis
Vortragstyp Bachelorarbeit
Betreuer(in) Fabian Richter
Vortragsmodus in Präsenz
Kurzfassung Twitter has been identified as a relevant data source for modelling purposes in the last decade. In this work, our goal was to model the conversational dynamics of inflation development in Germany through Twitter Data Mining. To accomplish this, we summarized and compared Twitter data mining techniques for time series data from pertinent research. Then, we constructed five models for generating time series from topic-related tweets and user profiles of the last 15 years. Evaluating the models, we observed that several approaches like modelling for user impact or adjusting for automated twitter accounts show promise. Yet, in the scenario of modelling inflation expectation dynamics, these more complex models could not contribute to a higher correlation between German CPI and the resulting time series compared to a baseline approach.

Freitag, 2. September 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Benjamin Jochum
Titel Surrogate models for crystal plasticity - predicting stress, strain and dislocation density over time
Vortragstyp Proposal
Betreuer(in) Daniel Betsche
Vortragsmodus in Präsenz
Kurzfassung When engineers design structures, prior knowledge of how they will react to external forces is crucial. Applied forces introduce stress, leading to dislocations of individual molecules that ultimately may cause material failure, like cracks, if the internal strain of the material exceeds a certain threshold. We can observe this by applying increasing physical forces to a structure and measure the stress, strain and the dislocation density curves.

Finite Elemente Analysis (FEM) enables the simulation of a material deforming under external forces, but it comes with very high computational costs. This makes it unfeasible to conduct a large number of simulations with varying parameters. In this thesis, we use neural network based sequence models to build a data-driven surrogate model that predicts stress, strain and dislocation density curves produced by an FEM-simulation based on the simulation’s input parameters.

Freitag, 9. September 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Moritz Teichner
Titel Standardized Real-World Change Detection Data Defense
Vortragstyp Bachelorarbeit
Betreuer(in) Florian Kalinke
Vortragsmodus in Präsenz
Kurzfassung The reliable detection of change points is a fundamental task when analyzing data across many fields, e.g., in finance, bioinformatics, and medicine.

To define “change points”, we assume that there is a distribution, which may change over time, generating the data we observe. A change point then is a change in this underlying distribution, i.e., the distribution coming before a change point is different from the distribution coming after. The principled way to compare distributions, and thus to find change points, is to employ statistical tests.

While change point detection is an unsupervised problem in practice, i.e., the data is unlabeled, the development and evaluation of data analysis algorithms requires labeled data. Only a few labeled real-world data sets are publicly available, and many of them are either too small or have ambiguous labels. Further issues are that reusing data sets may lead to overfitting, and preprocessing may manipulate results. To address these issues, Burg et al. publish 37 data sets annotated by data scientists and ML researchers and assess 14 change detection algorithms on them. Yet, there remain concerns due to the fact that these are labeled by hand: Can humans correctly identify changes according to the definition, and can they be consistent in doing so?

Mittwoch, 21. September 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Martin Wittlinger
Titel Identification and refactoring of bad smells in model-based analyses
Vortragstyp Masterarbeit
Betreuer(in) Sandro Koch
Vortragsmodus in Präsenz
Kurzfassung In der modernen Softwareentwicklung sind modellbasierte Analysen weit verbreitet. Software-Metriken wie die Vorhersage der Cache-Nutzung haben heute ein breites Anwendungsspektrum. Diese Analysen bedürfen ebenso wie traditionelle objektorientierte Programme der Pflege. Bad Smells und ihre Auswirkungen in objektorientiertem Quellcode sind gründlich erforscht worden. Dies fehlt bei der modellbasierten Analyse. Wir haben uns mit objektorientierten Bad Smells beschäftigt und nach ähnlichen Problemen in der modellbasierten Analyse gesucht. Schlechte Gerüche in der Analyse sind ein Faktor, der zur Qualität der Analysesoftware beiträgt. Eine geringere Qualität erschwert den Entwicklungsprozess der Analyse. Wir haben zehn neue Bad Smells entdeckt. Wir haben Algorithmen zur Identifizierung und zum Refaktorisieren für sie entwickelt. Wir stellen Implementierungen der Identifizierungsalgorithmen zur Verfügung und bewerten sie an- hand realer Software. Wir haben versucht, Bad Smells in bestehender Analysesoftware wie Camunda zu erkennen. Wir haben diese Bad Smells in den vorhandenen Analysen gefunden.

Freitag, 14. Oktober 2022, 10:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Thomas Frank
Titel Benchmarking Tabular Data Synthesis Pipelines for Mixed Data
Vortragstyp Bachelorarbeit
Betreuer(in) Federico Matteucci
Vortragsmodus in Präsenz
Kurzfassung In machine learning, simpler, interpretable models require significantly more training data than complex, opaque models to achieve reliable results. This is a problem when gathering data is a challenging, expensive or time-consuming task. Data synthesis is a useful approach for mitigating these problems.


An essential aspect of tabular data is its heterogeneous structure, as it often comes in ``mixed data´´, i.e., it contains both categorical and numerical attributes. Most machine learning methods require the data to be purely numerical. The usual way to deal with this is a categorical encoding.


In this thesis, we evaluate a proposed tabular data synthesis pipeline consisting of a categorical encoding, followed by data synthesis and an optional relabeling of the synthetic data by a complex model. This synthetic data is then used to train a simple model. The performance of the simple model is used to quantify the quality of the generated data. We surveyed the current state of research in categorical encoding and tabular data synthesis

Freitag, 14. Oktober 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Pascal Krieg
Titel Preventing Code Insertion Attacks on Token-Based Software Plagiarism Detectors
Vortragstyp Bachelorarbeit
Betreuer(in) Timur Sağlam
Vortragsmodus in Präsenz
Kurzfassung Some students tasked with mandatory programming assignments lack the time or dedication to solve the assignment themselves. Instead, they plagiarize a peer’s solution by slightly modifying the code. However, there exist numerous tools that assist in detecting these kinds of plagiarism. These tools can be used by instructors to identify plagiarized programs. The most used type of plagiarism detection tools is token-based plagiarism detectors. They are resilient against many types of obfuscation attacks, such as renaming variables or whitespace modifications. However, they are susceptible to inserting lines of code that do not affect the program flow or result.

The current working assumption was that the successful obfuscation of plagiarism takes more effort and skill than solving the assignment itself. This assumption was broken by automated plagiarism generators, which exploit this weakness. This work aims to develop mechanisms against code insertions that can be directly integrated into existing token-based plagiarism detectors. For this, we first develop mechanisms to negate the negative effect of many types of code insertion. Then we implement these mechanisms prototypically into a state-of-the-art plagiarism detector. We evaluate our implementation by running it on a dataset consisting of real student submissions and automatically generated plagiarism. We show that with our mechanisms, the similarity rating of automatically generated plagiarism increases drastically. Consequently, the plagiarism generator we use fails to create usable plagiarisms.

Freitag, 21. Oktober 2022, 11:30 Uhr

Ort: MS Teams
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Philipp Klaus
Titel Entity Linking für Softwarearchitekturdokumentation
Vortragstyp Bachelorarbeit
Betreuer(in) Jan Keim
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung
Vortragende(r) Raoul Teichmann
Titel Entwicklung einer Entwurfszeit-DSL zur Formalisierung von Runtime Adaptationsstrategien für SAS zum Zweck der Strategie-Optimierung
Vortragstyp Bachelorarbeit
Betreuer(in) Martina Rapp
Vortragsmodus online
Kurzfassung Softwaresysteme der heutigen Zeit werden zunehmend komplexer und unterliegen immer

mehr variierenden Bedingungen. Dadurch gewinnen selbst-adaptive Systeme an Bedeutung, da diese sich neuen Bedingungen dynamisch anpassen können, indem sie Veränderungen an sich selbst vornehmen. Domänenspezifische Modellierungssprachen (DSL) zur Formalisierung von Adaptionsstrategien stellen ein wichtiges Mittel dar, um den Entwurf von Rückkopplungsschleifen selbst-adaptiver Softwaresysteme zu modellieren und zu optimieren. Hiermit soll eine Bachelorarbeit vorgeschlagen werden, die sich mit der Fragestellung befasst, wie eine Optimierung von Adaptionsstrategien in einer DSL zur Entwurfszeit beschrieben werden kann.

Donnerstag, 10. November 2022, 10:00 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Denis Priss
Titel A Mobility Case Study Framework for Validating Uncertainty Impact Analyses regarding Confidentiality
Vortragstyp Bachelorarbeit
Betreuer(in) Sebastian Hahner
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung
Vortragende(r) Yakup Evli
Titel A Mobility Case Study for Attack Propagation Analyses
Vortragstyp Bachelorarbeit
Betreuer(in) Maximilian Walter
Vortragsmodus online
Kurzfassung Kurzfassung
Vortragende(r) Tizian Bitschi
Titel Uncertainty-aware Confidentiality Analysis Using Architectural Variations
Vortragstyp Bachelorarbeit
Betreuer(in) Sebastian Hahner
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung

Freitag, 11. November 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Laura Traub
Titel Kopplung statischer Architekturanalysen und musterbasierten Quelltextanalysen in der Domäne der Softwaresicherheit
Vortragstyp Bachelorarbeit
Betreuer(in) Frederik Reiche
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung
Vortragende(r) Kathrin Leonie Schmidt
Titel Modellierung von Annahmen in Softwarearchitekturen
Vortragstyp Bachelorarbeit
Betreuer(in) Sophie Corallo
Vortragsmodus in Präsenz
Kurzfassung Folgt
Vortragende(r) Tim Lachenicht
Titel Vergleich verschiedener Sprachmodelle für den Einsatz in automatisierter Rückverfolgbarkeitsanalyse
Vortragstyp Bachelorarbeit
Betreuer(in) Tobias Hey
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung

Freitag, 2. Dezember 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Tim Schmack
Titel Combining Architectural Analyses based on Attacker Models
Vortragstyp Bachelorarbeit
Betreuer(in) Frederik Reiche
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung
Vortragende(r) Elias Kia
Titel Implementation von Feedbackmechanismen in Onlinekursen am Bespiel Masterstudy LMS
Vortragstyp Bachelorarbeit
Betreuer(in) Kai Marquardt
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung

Freitag, 16. Dezember 2022, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Michael Hirsch
Titel Performance-Modellierung des Mechanik-Lösermoduls in der Multi-Physik-Anwendung Pace3D
Vortragstyp Bachelorarbeit
Betreuer(in) Larissa Schmid
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung

Freitag, 13. Januar 2023, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Felix Pieper
Titel Beyond Similarity - Dimensions of Semantics and How to Detect them
Vortragstyp Masterarbeit
Betreuer(in) Sophie Corallo
Vortragsmodus in Präsenz
Kurzfassung Folgt
Vortragende(r) Nikita Nesterov
Titel Sicherheitsbewertung des Standards International Data Spaces im Kontext des Eclipse Dataspace Connectors
Vortragstyp Bachelorarbeit
Betreuer(in) Jan Wittler
Vortragsmodus in Präsenz
Kurzfassung folgt

Freitag, 3. März 2023, 11:30 Uhr

Ort: Raum 348 (Gebäude 50.34)
Webkonferenz: {{{Webkonferenzraum}}}

Vortragende(r) Janek Speit
Titel Automated Classification of Design Decision in Software Architecture Documentation
Vortragstyp Masterarbeit
Betreuer(in) Jan Keim
Vortragsmodus in Präsenz
Kurzfassung Kurzfassung