„Building Intelligent CI Systems: Reducing Build Overhead with Prediction, Dependency Analysis and Automated Repair“

Posted on 16. Juni 2026 by Katharina Werdinig

Presentation of the habilitation project

Friday, June 26, 2026 | 10:00 a.m. | Room: S.2.69 | University of Klagenfurt

Postdoc-Ass. DI Dr. Christian Macho

Department of Informatics Systems | University of Klagenfurt

Abstract: Continuous Integration (CI) has become an essential practice in modern software development, enabling rapid feedback through automated building and testing of software systems. However, projects grow in size and complexity. As a consequence, such CI pipelines increasingly suffer from high execution costs, dependency-related failures, and build breakages that require substantial developer effort to diagnose and repair. In this talk, I will present my research agenda on intelligent build engineering that combines prediction, validation, and automated repair techniques to improve the efficiency and reliability of software builds. First, I will discuss approaches for anticipating build outcomes and identifying skippable CI commits, leveraging both changes to source code and to build code, along with complexity measures, to enable more efficient CI utilization. Next, I will introduce my approaches for validating dependencies in build configurations and automatically detecting and repairing dependency conflicts, including approaches that leverage large language models to modify source code when configuration-level fixes are insufficient. Finally, I will explore the emerging role of AI agents in build maintenance. This includes evaluating whether large language models can replace traditional build log analyzers, as well as presenting agent-based approaches for diagnosing dependency-related failures and repairing such build breakages automatically. In summary, my research directions investigate how predictive analytics, dependency management, large language models, and autonomous agents may enable future CI systems that are faster, more resilient, and increasingly self-healing.

Bio: Dr. Christian Macho is a Postdoctoral Researcher (tenure-track) in the Software Engineering Research Group at the University of Klagenfurt, where he works on software evolution, program analysis, build systems, continuous integration, automated repair, and empirical studies in software engineering. He earned his MSc from the Technical University of Vienna and his PhD from the University of Klagenfurt, both with distinction. His work has contributed to understanding how software systems evolve and how development tools can more effectively support developers, particularly when building software projects. He has served on program committees for major software engineering conferences, was recognized as a top reviewer for the Journal of Systems and Software (JSS), and was a Distinguished Reviewer for the International Conference on Mining Software Repositories (MSR) 2025.

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From moving bits to moving minds: research at SINLab

Posted on 10. Juni 2026 by Katharina Werdinig

Wednesday, June 24, 2026 | 02:00 p.m. | Room: N.1.04 | University of Klagenfurt

Prof. Carsten Griwodz 

Networks and Distributed Systems | University of Oslo

MishMash role: Work Package Leader Group member

Abstract: This talk will introduce the research of SINLab, the Sustainable Immersive Networking Lab, at the University of Oslo. Our applications are diverse, and range from music making to working on assembly lines, and also our investigations range from the efficient parallelization of media-specific algorithms to quantitative user experiences. Through all of this, we explore how humans perceive audiovisual and tactile experiences. Our research questions are concerned with the disconnect between local environments and those that are remote in time and space. We answer questions like: „To which extent can Redirected Walking help you to experience unconstrained virtual worlds through natural movement?” and “How can we overcome the delay challenges when you act remotely in first person through a robot arm and hand?”. My talk will introduce these questions in some detail and give an overview of our findings so far.

Bio: Carsten Griwodz is a professor at the University of Oslo. He received his Diploma in Computer Science from the University of Paderborn, Germany, in 1993. He worked at the IBM European Networking Center in Heidelberg, Germany, before joining the Multimedia Communications Lab (KOM) at Darmstadt University of Technology, Germany. There, he obtained his doctoral degree in 2000 and joined the University of Oslo in the same year. He worked at Simula Research Laboratory from 2005 to 2018. He has been a member of ACM since 1996 and of IEEE since 2011. At the University of Oslo, he was previously group leader of “Networks and Distributed Systems” and, from 2020 to 2025, head of the section for Distributed Infrastructures and Security.

His research interest is the performance of interactive multimedia systems. He explores research advances in fields ranging from networks and operating systems to computer vision to understanding how humans reach the point of sufficient immersion. His goal is to understand how users can become sufficiently immersed in an experience depending on their goals and context. He belongs to the Sustainable Immersive Networking Lab, a diverse group of people who aim at the improvement of human experiences in immersive remote presence.  He is a work package leader of the AI Center „MishMash Centre for AI and Creativity”, the only Norwegian AI Center focussed on Creativity, leads MIRAGE (“Multimodal Immersive Interactions for Remote Education Across Geographically Distributed Sites”) and partner in DRIVE (“Brain-driven Remote Collaborative Physical Work”).

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Neural Network based Video Coding: Opportunities & Challenges

Posted on 29. Mai 2026 by Katharina Werdinig

Friday, June 12, 2026 | 10:00 a.m. | Room: V1.03 | University of Klagenfurt

Prof. Hui Yong Kim | Dept. of Computer Science and Engineering and Dept. of Artificial Intelligence | Kyung Hee University

Abstract: Up to now, video coding standards have been developed as a combinatory set of a large number of coding tools. Each tool was primarily based on signal-processing algorithms or experimental optimizations. Recently, a new paradigm called Learned Video Coding (LVC), a.k.a. Neural Network-based Video Coding (NNVC), has emerged. By exploiting the end-to-end training with a large number of video datasets, some representative models already outperform the latest video coding standard, VVC (Versatile Video Coding). In this talk, the LVC technology will be briefly outlined and then the opportunities and remaining challenges will be discussed.

Bio: Hui Yong Kim is a Professor in the School of Computing (Dept. of Computer Science and Engineering and Dept. of Artificial Intelligence) in Kyung Hee University, Yongin, Korea since Mar. 2020. He was also an Associate Professor in the Dept. of Electronics Engineering in Sookmyung Women’s University, Seoul, Korea. Prior to joining universities, he served as the Managing Director of Realistic Audio & Video Research Group of Electronics and Telecommunications Research Institute (ETRI), Daejeon, Korea from 2005 to 2019. From 2003 to 2005, he worked for AddPac Technology Co. Ltd. as the Multimedia Research Team Leader.

He received his BS, MS, and Ph.D degrees from Korea Advanced Institute of Science and Technology (KAIST) in 1994, 1998, and 2004, respectively. He was also an affiliate professor in University of Science and Technology (UST) and was a visiting scholar in the Media Communications Lab. at University of Southern California (USC), USA. He has published more than 70 papers on international journals and conferences, and holds more than 500 registered patents over the world. He has been an active technology contributor, editor, and ad-hoc group chair in developing several international standards including MPEG Multimedia Application Format (MAF), ITU-T/ISO/IEC JCT-VC High Efficiency Video Coding (HEVC) and JVET Versatile Video Coding (VVC). His current research focus is neural-network based visual data compression, including learned video compression, digital hologram compression and deep feature compression for machine vision.

SLIDES: https://de.slideshare.net/slideshow/neural-network-based-video-coding-innovations-standards-and-challenges-in-visual-media-compression/288070227

 

 

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Guest Lecture and Workshop by Immera

Posted on 27. April 2026 by Katharina Werdinig

We supported it!

On 16 April, Dr Felix Schniz (ITEC) organized a guest talk and workshop by Flavia Mazzanti and Manuel Bornell from Immerea (www.immerea.com). Supported by the FTF and co-organized by DI Dr. Martina Tritthart (Visuelle Kultur), the dual event introducedstudents of both programs alike to contemporary digital art in the era of VR technologies, computer graphics, and generative AI under an interdisciplinary, technology-oriented angle. While the guest talk focused on the recent art installations of Immerea, the workshop allowed participants to explore opportunities in the creation of arts via Blender and other common tools firsthand. Both events were well visited, highlighting the drawing power of cutting-edge technology research from a humanities, tech-interested perspective.

 

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Special Guest Talk & Workshop

Posted on 10. April 2026 by Katharina Werdinig

Thursday, April 16, 2026 | 11:45 a.m. | HS 10 (Mensa Building) | University of Klagenfurt

from  11.45 a.m. to 01.00 p.m., we kindly invite you to join us in HS 10 (Mensa building) for a very special guest talk.

The guest talk will continue in a special guest workshop, beginning at 02.00 p.m. and ending at around 06.30 p.m. at the Game Lab (B12a.2.2.1)

Flavia Mazzanti and Manuel Bonell | co-founders of Immerea

 

Talk: “Interdisciplinary Approaches in Artistic Practices”

Interactive media and experimental games increasingly emerge at the intersection of creative practice and technological development. As media artists and VR developers, our work is shaped by interdisciplinary collaborations that combine and experiment with elements from animation films, art installations, spatial environments, and immersive technologies. This talk presents our creative practice and reflects on interdisciplinary approaches and possibilities for artistic projects.

The speakers: Flavia Mazzanti and Manuel Bonell from Immerea (Immerea.com)

Flavia Mazzanti and Manuel Bonell are co-founders of Immerea, a Vienna-based indie studio dedicated to VR games and interactive installations. Their interdisciplinary practice explores new modes of perception and interaction in virtual and hybrid spaces, with a strong focus on artistic quality and level of experimentation Their work has been exhibited internationally at institutions and festivals including Ars Electronica (Linz), DIG Shibuya (Tokyo), KunstHaus Wien (Vienna), Kunsthaus Graz, FILE Festival (São Paulo), MESH Festival (Basel), DA Z – Digital Arts Festival Zurich, and ADAF – Athens Digital Arts Festival. Alongside their studio practice, they are both active as university lecturers, speakers, and co-organizers of XR Austria, Austria’s largest community for immersive technologies.

 

Workshop: “Aesthetics of Play: Visual Languages and their Influence in Video Games”

The workshop explores how aesthetics shape the identity, atmosphere, and narrative potential of video games. Through collaborative experimentation and visual research, participants will engage with references from games and art to develop their own aesthetic approaches. Starting from a shared scenario, the workshop opens a space to explore how visual choices can unfold into different worlds, narratives, and player experiences.

 

(picture: https://www.immerea.com/)

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Gastvortrag von Rudy Kuhn

Posted on 27. März 2026 by Katharina Werdinig

Canceled until further notice!
We will be happy to let you know of any new dates as soon as possible.

Die Fakultät für Technische Wissenschaften lädt Sie zum Gastvortrag mit anschließender Diskussion ein!

 

Dr. Rudy Kuhn | Lead Evangelist at Celonis

Abstract: Künstliche Intelligenz ist gerade überall. Sie verspricht Effizienz, Automatisierung und die nächste große Revolution. Aber hier ist die unbequeme Wahrheit: Die meisten Unternehmen wissen gar nicht, wie ihre Prozesse wirklich funktionieren. Und genau deshalb scheitert KI häufiger, als wir zugeben. Denn KI ist nur so gut wie die Prozesse, auf denen sie aufsetzt. Wenn diese intransparent, ineffizient oder schlicht falsch verstanden sind, automatisieren wir vor allem eines: Chaos.

Genau hier kommt Process Mining & Intelligence ins Spiel. Die von Prof. Dr. Wil van der Aalst entwickelte Technologie macht sichtbar, was tatsächlich passiert – nicht das, was wir glauben oder dokumentiert haben. Unternehmen weltweit nutzen Process Intelligence, um Transparenz zu schaffen, bessere Entscheidungen zu treffen und echten Mehrwert zu generieren. Die Firma Celonis aus München gilt als Marktführer in diesem Bereich. Rudy Kuhn, einer ihrer erfahrensten Experten für Process Intelligence, Automatisierung und KI, lebt seit einigen Jahren in unmittelbarer Nähe der Universität Klagenfurt und wird in seinem Vortrag zeigen, warum es keine Künstliche Intelligenz ohne Process Intelligence gibt – und was das konkret für die Zukunft von Unternehmen bedeutet.

Bio: Als Lead Evangelist bei Celonis inspiriert Rudy Kuhn Kunden, Partner und Analysten dazu, ihre Geschäftsabläufe unter dem Gesichtspunkt von Process Intelligence, Automatisierung und Orchestrierung neu zu gestalten. Mit über 25 Jahren Erfahrung in der Prozessoptimierung und -transformation sowie 16 Jahren tiefgreifender Beschäftigung mit Process Mining hat er seine Karriere darauf ausgerichtet, Unternehmen dabei zu unterstützen, das volle Potenzial ihrer durchgängigen Prozesse auszuschöpfen. Vom Aufbau des ersten E-Business-Beratungsteams von IBM in Deutschland über die Gründung von ProcessGold und die Einführung von Process Mining bei UiPath bis hin zu seiner aktuellen Rolle bei Celonis – Rudy stand und steht weiterhin an der Spitze der digitalen Transformation.

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Roland-Mittermeir-Preis 2025

Posted on 9. März 2026 by Katharina Werdinig

Ausschreibung 2026

Roland-Mittermeir-Preis 2025

 

Prämierung der besten Diplom- bzw. Masterarbeiten aller Studien der Technischen Fakultät an der Universität Klagenfurt

Der Förderverein Technische Fakultät an der Universität Klagenfurt schreibt die Prämierung der besten Diplom- bzw. Masterarbeiten aller Studien der Technischen Fakultät an der Universität Klagenfurt des laufenden Studienjahres aus.

Der Preis besteht aus einer Urkunde und einer Prämie in Höhe von

 

EUR 1.500,–

Die Jury ist ermächtigt den Preis gegebenenfalls zwischen mehreren Diplom- bzw. Masterarbeiten zu teilen. Antragsberechtigt sind Absolventinnen und Absolventen aller Studienrichtungen der Technischen Fakultät der Universität Klagenfurt, die Mitglied des Fördervereins sind (Beitrittserklärung hier!) und deren Diplom- bzw. Masterarbeit mit “Sehr Gut” beurteilt wurde. D.h. AbsolventInnen der folgenden Masterstudien: Informatik, Informationsmanagement, Informationstechnik, Artificial Intelligence and Cybersecurity, Game Studies and Engineering, Technische Mathematik bzw. Lehramtsstudien mit einem Unterrichtsfach der TEWI zugeordnet (sofern die Diplom- bzw. Masterarbeit einem dieser Unterrichtsfächer zugeordnet ist).

Dieses Jahr gibt es eine Neuerung: Es gibt einen Run-Up als 2. Platz, welcher mit € 500,00 belohnt wird.

Es werden nur Diplom- bzw. Masterarbeiten bewertet, die im Zeitraum vom 1. Januar 2025 bis zum 31. Dezember 2025 fertiggestellt wurden. Als Fertigstellungstermin gilt der Tag der Ausstellung des Gutachtens bzw. der Beurteilung (lt. ZEUS). Die Einreichfrist für die Verleihung des Preises endet am 30. April 2026.

 

Der Antrag ist beim Geschäftsführer Dr. Gerhard Leitner des Fördervereins Technische Fakultät an der Universität Klagenfurt unter office@ftf.or.at einzureichen und soll Folgendes beinhalten:

  • Diplom- bzw. Masterarbeit (in elektronischer Form als PDF-Datei).
  • Gutachten des Betreuers der Masterarbeit.
  • Allfällige Software (oder Verweise auf existierende Software).
  • Eine kurze Zusammenfassung (max. eine Seite), die so formuliert sein soll, dass sie auch für Nicht-ExpertInnen verständlich ist!

 

Beurteilungskriterien für die Zuerkennung des Preises sind strikt fachlich-qualitätsbezogen. Sie umfassen die Aspekte:

  • wissenschaftlicher Gehalt,
  • Innovationsgehalt und Umsetzbarkeit,
  • Klarheit der Darstellung und Qualität der Ausführung.

 

Die Zuerkennung des Preises erfolgt auf Grundlage eines Vorstandsbeschlusses durch eine Jury. Die Jury besteht i.a. aus:

  • dem Obmann des Förderverein Technische Fakultät an der Universität Klagenfurt (Vorsitz),
  • Vertreter:innen der TEWI-Institute der Universität Klagenfurt und
  • Vertreter:innen der institutionellen Mitglieder des Fördervereins der Technischen Fakultät der Universität Klagenfurt.

Der Geschäftsführer des Fördervereins der Technischen Fakultät der Universität Klagenfurt kann zu den Sitzungen der Jury als nicht stimmberechtigtes Mitglied beigezogen werden. Die Sitzungen der Jury sind geschlossen, und ihre Entscheidungen sind endgültig. Der Rechtsweg ist ausgeschlossen.

Die Preisverleihung findet üblicherweise im Rahmen einer TEWI-Veranstaltung statt.

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Video Coding for Video Streaming

Posted on 10. Dezember 2025 by Katharina Werdinig

Thursday, December 18, 2025 | 10:00 a.m. | Room: S.2.69 | University of Klagenfurt

Dr. Hadi Amirpourazarian | Department of Information Technology

Abstract: Video coding is the beating heart of multimedia communication, and despite decades of innovation, it remains a field full of challenges and opportunities. While much research continues to push codec-level efficiency, this talk shifts the perspective to video streaming: how smart decisions about encoding parameters can dramatically boost real-world delivery performance. We explore how content-adaptive bitrate ladders unlock substantial efficiency gains by tailoring encoding settings to each video’s unique characteristics, and how optimizing bitrate, resolution, and frame rate can balance conflicting goals such as visual quality, delivery cost, and energy consumption. We then dive into how these strategies can be brought to life in live streaming using powerful video-complexity analysis frameworks. Finally, we reveal how real-time quality measurement enables intelligent, responsive streaming systems that elevate video delivery and monitoring to a new level.

Bio: Hadi Amirpour is working on adaptive video streaming, image/video compression, QoE evaluation, 3D and immersive imaging, and machine-learning-based medical image analysis, with a focus on translating theory into next-generation multimedia systems. He has received multiple distinctions, including Best Paper Awards (PCS 2024, NAB 2025) and Grand Challenge wins at ICIP 2024 and VCIP 2025. He contributes to JPEG Pleno and MPEG standardization on light fields, point clouds, and immersive formats, and has co-chaired Qualinet Task Force 7 since 2021, advancing subjective and objective video quality assessment. He is an Associate Editor for IEEE TCSVT and holds key leadership roles such as TPC Co-Chair of VCIP 2025 and General Co-Chair of QoMEX 2026 and MMSP 2027. He is also active in organizing special sessions, workshops, and tutorials at major venues, including IEEE ICME, IEEE QoMEX, ACM Multimedia, VQEG, EUVIP, and ACM MobiSys.

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Successful GAME JAM!

Posted on 10. Dezember 2025 by Katharina Werdinig

 

Grafik: https://gamejam.aau.at/

 

On November 28, 2025, the 2nd Tech Edition of the Klagenfurt Game Jam – a 48-hour event of coding, designing, and game-making – took place at the University of Klagenfurt. With over 60 participants developing games around the theme Incomplete,” the game jam offered students a hands-on opportunity to apply and showcase their technical and creative skills. Again, our contribution helped to provide participants with food and drinks throughout the weekend. The results speak for themselves – they are available on itch.io!

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No Diversity, No Games: Why Inclusion in Video Games Is No Longer Optional

Posted on 13. November 2025 by Katharina Werdinig

TEWI Colloquium

Jack Gutmann | Freelance Real-Time VFX Artist | Tech Artist

Friday, November 28, 2025, at 09:00 a.m. @ S.2.69 | University of Klagenfurt

Abstract: Game development is at a creative standstill. We’re recycling systems, stories, and perspectives. Jack Gutmann, Syrian refugee and Real-Time VFX Artist/Generalist Artist, makes the case that diversity is not charity or branding — it’s survival. Jack shines a light on how the lack of marginalized voices isn’t just unjust, it’s making our games boring, repetitive, and financially fragile. This is not about being “nice.” This is about keeping games alive.

Short CV: Jack Gutmann is a Syrian refugee based in Austria and an award-winning game developer working across art, real-time VFX, game design, and gameplay programming. He is best known for Path Out, re-launched by UNHCR for educational purposes.

https://www.unhcr.org/de/path-out-eine-fluchtgeschichte-als-computerspiel

https://www.artstation.com/jack_gutmann

 

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