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staff:kuzmic [2022-02-16 11:16] kuzmic [Publikationen (Publications)] |
staff:kuzmic [2024-05-08 20:02] (current) kuzmic [Publikationen (Publications)] |
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{{ :staff:foto_jurij_kuzmic.jpg?nolink&130|}} | {{ :staff:foto_jurij_kuzmic.jpg?nolink&130|}} | ||
- | ==== Jurij Kuzmic ==== | + | ==== Dr. Jurij Kuzmic ==== |
| Room: | OH14 / 233 | | | Room: | OH14 / 233 | | ||
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===== Forschungsinteressen (Research interests) ===== | ===== Forschungsinteressen (Research interests) ===== | ||
* Internet der Dinge (IoT) - Kommunikation zwischen autonomen Fahrzeugen | * Internet der Dinge (IoT) - Kommunikation zwischen autonomen Fahrzeugen | ||
- | * Autonomes Fahren (AD) - Rettungsgassenbildung, Bilderkennung, Bildverarbeitung, Simulationen mit Unity 3D | + | * Autonomes Fahren (AD) - Rettungsgassenbildung auf Autobahnen, Bilderkennung, Bildverarbeitung, Simulationen mit Unity 3D |
- | * Künstliche Intelligenz (AI), Computer Vision (CV) - Spurerkennung, Objekterkennung | + | * Computer Vision (CV) - Spurerkennung, Objekterkennung, Distanzmessungen in 2D-Bildern |
* Software Entwicklung für Hardware mit limitierten Ressourcen für Low-Power-IoT-Geräte | * Software Entwicklung für Hardware mit limitierten Ressourcen für Low-Power-IoT-Geräte | ||
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* [[https://www.scitepress.org/PublicationsDetail.aspx?ID=BKnBZfyhNP4=&t=1 | Comparison between Filtered Canny Edge Detector and Convolutional Neural Network for Real Time Lane Detection in a Unity 3D Simulator (2021)]] | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=BKnBZfyhNP4=&t=1 | Comparison between Filtered Canny Edge Detector and Convolutional Neural Network for Real Time Lane Detection in a Unity 3D Simulator (2021)]] | ||
* [[https://link.springer.com/chapter/10.1007/978-3-030-72914-1_21 | A Fusion of Deep and Shallow Learning to Predict Genres Based on Instrument and Timbre Features (2021)]] | * [[https://link.springer.com/chapter/10.1007/978-3-030-72914-1_21 | A Fusion of Deep and Shallow Learning to Predict Genres Based on Instrument and Timbre Features (2021)]] | ||
- | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=0uxF06kH1Tk=&t=1 | Object Detection with TensorFlow on Hardware with Limited Resources for Low-power IoT Devices (2022)]] | + | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=F4TOBNSlJ88=&t=1 | Object Detection with TensorFlow on Hardware with Limited Resources for Low-power IoT Devices (2021)]] |
+ | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=NSZXOf8qvd4=&t=1 | Real-Time Object Detection with Intel NCS2 on Hardware with Limited Resources for Low-power IoT Devices (2022)]] | ||
+ | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=NxXqeuSliVE=&t=1 | Real-time Distance Measurement in a 2D Image on Hardware with Limited Resources for Low-power IoT Devices (Radar Control System) (2022)]] | ||
+ | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=wJkdfp+632Y=&t=1 | Suppression of Background Noise in Speech Signals with Artificial Neural Networks, Exemplarily Applied to Keyboard Sounds (2022)]] | ||
+ | * [[https://www.scitepress.org/PublicationsDetail.aspx?ID=rjGqx+ehcNk%3d&t=1 | Emergency Corridor Building on Multi-Lane Motorways with Autonomous Model Cars (2024)]] | ||
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* Datenstrukturen, Algorithmen und Programmierung 1 (DAP 1) | * Datenstrukturen, Algorithmen und Programmierung 1 (DAP 1) | ||
- | * **Wintersemester 2021/22 (Online)** | + | * **Wintersemester 2021/22** |
* Einführung in die Programmierung (EidP) | * Einführung in die Programmierung (EidP) | ||
+ | |||
+ | * **Sommersemester 2022** | ||
+ | * Datenstrukturen, Algorithmen und Programmierung 1 (DAP 1) | ||
+ | |||
+ | * **Wintersemester 2022/23** | ||
+ | * Einführung in die Programmierung (EidP) | ||
+ | |||
+ | * **Sommersemester 2023** | ||
+ | * Datenstrukturen, Algorithmen und Programmierung 1 (DAP 1) | ||
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* Unterdrückung von Hintergrundgeräuschen in Sprachsignalen mit künstlichen neuronalen Netzen am Beispiel von Tastaturgeräuschen | * Unterdrückung von Hintergrundgeräuschen in Sprachsignalen mit künstlichen neuronalen Netzen am Beispiel von Tastaturgeräuschen | ||
* Systematische Reward-Studie beim Reinforcement Learning eines Agenten in einer Avoid & Collect Umwelt. | * Systematische Reward-Studie beim Reinforcement Learning eines Agenten in einer Avoid & Collect Umwelt. | ||
+ | * Auswirkung verschiedener Reward-Werte auf das Agentenverhalten in einer Avoid & Collect Umwelt. | ||
+ | * Ein lernender Baulogistikassistent für prozedural generierte Baupläne. | ||
+ | * Comparison between Artificial Neural Networks and Traditional Classifiers for the Suppression of Background Noise. | ||
+ | * Prototypische Implementierung einer sicheren V2V-Kommunikation. |