In this thread all special talks in our CogSys colloq will be announced.
Colloquium Topics in SS 2024
Re: Collouium Topics in SS 2024
Zeit: 15.04.2024 - 12:00 - 13:00
Ort: WE5/05.013 und Teams
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Re: Collouium Topics in SS 2024
Time: 11.04.2024 - 17:00-18:00
Where: WE5/05.013 and Teams
Anti-unification is a method for symbolically generalizing formal expression. It was
introduced independently by Plotkin and Reynolds as an operation for inductive infer-
encing. Though conceptually simple, it is an effective tool for abstraction and templat-
ing. Since the seminal work, the number of applications has grown tremendously with
uses in program analysis, program repair, library compression, automated reasoning, and
beyond. With the growth of applications, there has been an effort to strengthen the the-
oretical foundations of the subject. In this talk, we introduce anti-unification, overview
the existing applications, and discuss recent theoretical results concerning equational and
high-order anti-unification.
TEAMS:
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Besprechungs-ID: 361 014 049 591
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Re: Collouium Topics in SS 2024
Annabel Lindner (FAU), Doktorandin in der Informatik-Didaktik
Titel:
How to Deal with Transformative Topics in Computer Science Education: An Analysis Based on the Topic of Artificial Intelligence
Ort: WE5/05.013 und Teams
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Meeting ID: 354 320 751 078
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Re: Collouium Topics in SS 2024
Lukas Gernlein
Titel:
Towards Explainable and Interactive Machine Learning for Multi-Label Classification
Ort: WE5/05.013 und Teams
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Meeting ID: 354 320 751 078
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Re: Collouium Topics in SS 2024
Leonhard Kestel, Masterarbeitszwischenpräsentation
Titel:
Tree Vitality Classification from Image Data - A Comparison of Multipectral Index Scores and Deep Learning Approaches
Ort: WE5/05.013 und Teams
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Meeting ID: 354 320 751 078
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Re: Colloquium Topics in SS 2024
Dear all,
you are cordially invited to join the master's thesis defense of Maren Stümke: Identifying and Overcoming Student’s Misconceptions in Chemistry: An Intelligent Tutoring System to Teach Chemical Equations with Worked-out Analogical Examples
Location: WE5/05.013 (CogSys-Lab), non-hybrid
Abstract:
Intelligent Tutoring Systems (ITS) aim to provide students with comparable instructional advantages to that of a human tutor by responding to individual needs and providing immediate feedback. Originally dating back to the 1980s, they have proven useful in different academic and educational contexts, especially in STEM-related domains (VanLehn, 2011). However, an ITS helping students to understand the underlying system of building and solving chemical formulae is lacking although many students struggle with these concepts (Taskin and Bernholt, 2012). Consequently, this Master Thesis provides the implementation and some first testing of an ITS for chemical formulae, especially redox reactions. It follows the classic architecture of an ITS with a background knowledge comprising the rules of deriving equations, a student module identifying errors or misconceptions in students’ answers, a simple interface, and a feedback module where structurally analogous examples are selected. We chose analogies as a feedback method as they enable students to not only solve the example at hand but also grasp the underlying schemata. This is essential to truly understand chemical formulae. The ITS was tested in a qualitative evaluation study and proved to be processing reliably and being reasonably easy to understand.
Re: Colloquium Topics in SS 2024
Titel: The Interplay of Emotions and Convincingness in Argument Mining for NLP
Zeit: DELAYED UNTIL BEGIN OF WS24/25
Ort: WE5/05.013 und Teams
Re: Colloquium Topics in SS 2024
Titel: Inductive Learning of System-level Process Behaviour Explanations - A Hybrid Machine Learning Approach for Process Mining
use case and to improve our understanding of system-level process behavior. By focusing on system-level behaviors and separating the data into those that are affected by them and those that are not, we avoid the problems that inductive logic programming for process mining usually faces in the need for negative examples. Our methodology is validated through application to synthetic and real event data, demonstrating the potential of integrating Semantic Web technologies with process mining to improve the accuracy and semantic expressivity of event logs. Initial results indicate that our approach can be used to represent process data and apply existing SemanticWeb technologies to learn partial DECLARE models, although further work is needed, particularly when it comes to reducing the complexity.
Zeit: 15.07.2024 - 14:00-15:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 391 029 280 150
Kennung: vBqYbQ
Re: Colloquium Topics in SS 2024
Titel: Erklärbare Fehlerklassifikation in der bildbasierten industriellen Qualitätskontrolle: Anwendung von CNNs und Identifikation von Klassenprototypen für die Entwicklung von Statoren.
Ausgangssituation: In der Abteilung EA-343 der BMW Group soll eine Künstliche Intelligenz (KI) zur Fehlerdetektion bei der Entwicklung von Elektromotor-Komponenten eingeführt werden. Als Pilotkomponente wird der Stator verwendet. Ziel ist es, die automatisierte Erkennung von Produktionsfehlern durch ein Convolutional Neural Network (CNN) zu testen.
Problem: Fehler wie Blasen oder Risse im Stator können während der Produktion oder in den Testzyklen auftreten und sind manuell schwer zu erkennen. Diese Fehler beeinträchtigen die Produktqualität erheblich. Ein CNN-Modell soll entwickelt werden, um diese Fehler zuverlässig zu identifizieren und zu klassifizieren, um die Produktqualität zu verbessern.
Methode: In der ersten Stufe wird mit Hilfe eines trainierten CNN-Modells entschieden, ob ein Fehler vorliegt. In der zweiten Stufe wird die Art des Fehlers bestimmt. Um die Qualität der Fehlererkennung mittels CNN zu verbessern, werden Methoden der erklärbaren KI (xAI) zur Analyse und Verbesserung des Modells eingesetzt.
Erwartete Ergebnisse und Nutzen: Die automatisierte Fehlererkennung durch CNN soll Ingenieuren in der Entwicklungsphase helfen, Fehler frühzeitig zu identifizieren und zu klassifizieren. Durch den Einsatz von xAI wird die Vertrauenswürdigkeit der Ergebnisse erhöht, sodass Ingenieure fundierte Entscheidungen zur Verbesserung von Design und Prozessen treffen können.
Zeit: 10.07.2024 - 15:00-16:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 360 811 900 514
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Re: Colloquium Topics in SS 2024
Vortrag von: Barbara Blank (MA Verteidigung)
Titel: Umsetzung von NLP-Methoden für ein Intelligentes Tutorsystem
zur Konzeptvermittlung mittels sokratischem Dialog – Erschließung des
Themenfelds heimische Bäume für die Grundschule
Abstract:
Diese Arbeit beschreibt Schritt für Schritt, wie ein intelligentes tutorielles System in Form eines Chatbots mit der Domäne “Bäume des heimischen Waldes” unter Verwendung von Dialogflow erstellt und in eine Webpage integriert werden kann. Die Beschreibung erfolgt beispielhaft anhand von Einzelteilen des Chatbots. Die Gesamtheit aller verknüpften Einzelteile wird durch die Präsentation des vollständigen Entscheidungsbaumes veranschaulicht. Die Domäne des Chatbots umfasst den Themenbereich “Bäume des heimischen Waldes”. Da der Chatbot mit Menschen kommunizieren soll, ist er zur Verarbeitung menschlicher Sprache mittels NLP-Methoden fähig. Hierbei liegt der Fokus auf der Verarbeitung kindlicher Sprachmuster, da der Chatbot für den Einsatz in der Grundschule konzipiert ist. Der Konversationsstruktur des Chatbots liegt der sokratische Dialog als Methode des Unterrichtsgesprächs zu Grunde. Die Arbeit beinhaltet außerdem eine empirische Evaluation des Chatbots, der in der Grundschule bereits zum Einsatz gekommen ist.
Zeit: 22.07.2024 - 10:00-11:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 339 620 858 802
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Re: Colloquium Topics in SS 2024
Dear all,
From now on, I (Felix Haase) will be doing the management of the colloquium. If you have any questions about it, please reach me at felix.haase@uni-bamberg.de.
Please note that the default Teams Meeting details for the colloquium have changed due to organisational reasons.
These are the new details (also available in the Course overview):
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Meeting ID: 323 348 325 661
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Re: Colloquium Topics in SS 2024
Vortrag von: Johannes Langer (MA Verteidigung)
Titel: A Neuro-symbolic Single-path Approach for Solving Raven’s Progressive Matrices
Abstract:
The ability to reason in abstract domains is a key component of human intelligence, and is tested in common intelligence tests such as Raven’s Progressive Matrices (RPM). In this work, I explore a Neuro-symbolic architecture for solving RPM problems with the goal of combining state of the art computer vision models with the ability to learn programs from only a few examples provided by Inductive Logic Programming. It aims to segment relevant parts of raw images, create disentangled representations of the image parts using a Variational Autoencoder, and learn the relational structure of the problem from these representations using ILP. The only labels required are the masks of relevant objects for the training of the instance segmentation module, which makes it easily transferable to adjacent domains. While a complete integration of the proposed system was not possible at this time, I am able to show promising results for each of the submodules.
Zeit: 26.08.2024 - 14:00-15:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 363 042 262 931
Kennung: ZwLiHL
Re: Colloquium Topics in SS 2024
Vortrag von: Satyam Pant (MA Verteidigung)
Titel: Model Revision for Images Based on Near-Misses and Near-Hits Explanation-Guided Augmentation
Abstract:
The growing reliance on artificial intelligence (AI) in critical real-world applications, such as healthcare diagnostics and industrial quality control, demands models with high predictive accuracy and reliability. However, developing such models is often hindered by the limited availability of high-quality labeled data and class imbalances, leading to challenges in achieving robust predictions, particularly for minority classes. To address these issues, this work introduces ExTRe (Explanation Guided Training Revision), a novel approach that enhances model performance through interactive, explanation-driven revision. ExTRe involves human experts correcting misclassified instances and examining near hits and near misses, thereby refining the model’s decision boundaries. The corrected labels are used to augment the training data, guiding targeted model improvements. The method was evaluated on two binary image classification tasks: a subset of MNIST (distinguishing between digits 3 and 8) and a real-world welding seams dataset (classified as good or bad). For the welding dataset, ExTRe improved the baseline accuracy from 73% (ROC AUC of 0.81) to 95% (ROC AUC of 0.92). Similarly, for MNIST, ExTRe increased the baseline accuracy from 93% (ROC AUC of 0.99) to 99% with a perfect ROC AUC of 1.00. Precision, recall, and F1-score also showed notable improvements. This study demonstrates that ExTRe provides a cost-effective method for refining model decision boundaries, particularly in data-scarce environments, while enhancing model interpretability. These results validate ExTRe’s effectiveness and lay the groundwork for future advancements in AI-driven model revision techniques.
Zeit: 16.09.2024 - 11:00-12:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 328 690 820 420
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Re: Colloquium Topics in SS 2024
Vortrag von: Leonhard Kestel (MA Verteidigung)
Titel: Tree-Vitality Classification from Image Data
A Comparison of Multispectral Indices and Deep Learning Approaches
Abstract:
Zeit: 26.09.2024 - 14:00-15:00
Ort: WE5/05.013 und Teams
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Besprechungs-ID: 381 678 919 927
Kennung: 3yXC8S