Institut für Software & Systems Engineering

  1. Universität
  2. Fakultäten
  3. Fakultät für Angewandte Informatik
  4. Institut für Software & Systems Engineering
  5. Lehrstühle und Professuren
  6. Softwaretechnik
  7. Team
  8. Oliver Kosak

Dr. Oliver Kosak

Akademischer Rat a.Z.
Institut für Software & Systems Engineering
Telefon: +49 821 598 2177
Fax: +49 821 598 2175
E-Mail:
Raum: 3043 (N)
Adresse: Universitätsstraße 6a, 86159 Augsburg

Akademischer Lebenslauf

Akademischer Lebenslauf und Auszeichnungen

seit  2022 - Akademischer Rat a.Z.

        2022 - Kulturpreis Bayern in der Kategorie Wissenschaft

        2021 - Promotion zum Thema „Mission Programming for Flying Ensembles: Combining Planning with Self-Organization“

seit  2021 - Schwerpunktkoordinator im KI-Produktionsnetzwerk Augsburg (Selbstorganisierende Prozessroutenplanung)

seit  2014 - Wissenschaftlicher Mitarbeiter (Universität Augsburg)

        2014 - M.Sc. Informatik (Universität Augsburg)

        2012 - B.Sc. Informatik (Universität Augsburg)

 

Forschungsschwerpunkte

Hauptforschungsinteressen: 

  • Selbstorganisation und Selbstadaption von technischen Systemen

  • Automated Planning, Constraint Solving, Swarm Robotics

  • Multi-Agenten Systeme und Multi-Roboter Systeme

  • Selbstorganisierende Produktionsanlagen (Industrie 4.0)

 

Aktuelle Forschungsthemen

 

Bisherige Projekte, Demonstratoren, Messeauftritte und Berichterstattung:

 

Externe Links:

DIENSTE FÜR DIE WISSENSCHAFT

Organisationskommittee

  • SASO 2016 in Augsburg: Local Organization Committee Member

 

Gutachter für Journalartikel & Buchkapitel

  • Robotics and Autonomous Systems - Elsevier Journal 2019
  • Palydyn Journal of Behavioral Robotics - De Gruyter Journal 2018
  • Swarm and Evolutionary Computation - Elsevier Journal 2020    

Programmkommittee für Konferenzen & Symposien

  • The Eleventh International Conference on Adaptive and Self-Adaptive Systems and Applications - ADAPTIVE 2019 Conference
  • 12th IEEE International Conference on Self-Adaptive and Self-Organizing Systems (Part of FAS*2018 Conference) (Subreviewer)
  • The Tenth International Conference on Adaptive and Self-Adaptive Systems and Applications - ADAPTIVE 2018 Conference
  • 11th IEEE International Conference on Self-Adaptive and Self-Organizing Systems (Part of FAS*2017 Conference) (Subreviewer)
  • The Eighth International Conference on Adaptive and Self-Adaptive Systems and Applications - ADAPTIVE 2016 Conference (Subreviewer)
  • The Seventh International Conference on Adaptive and Self-Adaptive Systems and Applications - ADAPTIVE 2015 Conference (Subreviewer)

  • 9th International Symposium On Leveraging Applications of Formal Methods, Verification and Validation Track on    Rigorous Engineering of Collective Adaptive Systems

Programmkommittee für Workshops

  • 3rd Organic Computing Doctoral Dissertation Colloquium (OC-DDC'18)  (Subreviewer)

  • 2nd eCAS Workshop on Engineering Collective Adaptive Systems (ECAS 2017) (Co-located with SASO 2017 Conference)

  • 3rd Organic Computing Doctoral Dissertation Colloquium (OC-DDC'15) (Subreviewer)

LEHRE

Lehrveranstaltungen

 

Wiederkehrende Lehrveranstaltungen
  • Bachelor Vorlesung: Softwaretechnik (seit 2024, jeweils Wintersemester)
  • Bachelor Vorlesung: Selbstorganisierende, eingebettete Systeme (seit 2016, jeweils Sommersemester)
  • Master Vorlesung: Software Engineering (2021 - 2024, jeweils Wintersemester)
  • Master Vorlesung: Selbstorganisierende, adaptive Systeme (2015 - 2024, jeweils Wintersemester)
Sonstige Lehrveranstaltungen
  • Bachelor Seminar Software- und Systems Engineering (2024)
  • Bachelor Seminar Software- und Systems Engineering: Schwerpunkt: Schwerpunkt "Software Engineering für die Produktion der Zukunft" (2024)
  • Bachelor Seminar Software- und Systems Engineering (2023)
  • Bachelor Seminar Software- und Systems Engineering: Schwerpunkt: Schwerpunkt "Software Engineering für die Produktion der Zukunft" (2023)
  • Bachelor Seminar Software- und Systems Engineering: Schwerpunkt "Selbstorganisierende Produktion" (2022)
  • Bachelor Seminar Software- und Systems Engineering: Schwerpunkt Verteilte, dezentrale Systeme für Selbst-organisierende Systeme (2019)
  • Master Seminar Software- und Systems Engineering: Schwerpunkt Künstliche Intelligenz (2017)
  • Bachelor Seminar Software- und Systems Engineering: Schwerpunkt Mobile Robotik (2015)
  • Master Seminar Software- und Systems Engineering (2015)

 

 

Betreute Studentische Arbeiten

Masterarbeiten
  • Verknüpfung von globalen und lokalen Verfahren zurt Positionierung von Quadcoptern (2016)
  • Selbstorganisierte Ressourcenallokation für rekonfigurierbare Roboter Ensembles (2017)
  • A Self-Organization Approach for Robust Task Execution in Multipotent Systems (2019)
  • Kombination aus realen und simulierten Quadcoptern zur Ausführung von skalierbaren Schwarmalgorithmen als Mixed-Reality-Anwendung (2023)
  • A Self-Organziing Approach for Autonomous Failure Compensation in Flying Multi-Robot-Ensembles (2024)
Bachelorarbeiten
  • Implementierung von Selbstorganisationsmechanismen für die Ausführung von ScORe-Missionen in Multi-Robotersystemen (2018)
  • Implementierung einer autonomen Missionsplanung für Multi-Robotersysteme (2018)
  • Integration domänenspezifischer Sprachen in multipotente Systeme am Beispiel von Protelis (2019)
  • Adaption von Schwarmalgorithmen zum Einsatz in Multi-Roboter Systemen (2019)
  • Konzeption und Implementierung effizienter Ressorcenallokation mittel Greedy Algorithmen für Multipotente Systeme (2020)
  • Ein Leader-Election Ansatz für parallele Task-Allocation in Multipotenten Systemen (2021)
  • Synchronisation verteilter Daten zur dezentralen Planung mit Hierarchical Task Networks (2023)
  • ROS-basierte Simulation selbstorganisierender Produktionssysteme (2023)
Forschungs-, Praxis-, Projektmodul und Hilfskraftkoordination
  • mehr als 10 Forschungsmodule
  • mehr als 9 Projektmodule
  • mehr als 3 Praximodule
  • mehr als 13 Hilfskräfte

PUBLIKATIONEN

2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2013

2021

Jonas Wilfert, Niklas Paprotta, Oliver Kosak, Simon Stieber, Alexander Schiendorfer and Wolfgang Reif. 2021. A real-word realization of the AntNet routing algorithm with ActivityBots. In Esam El-Araby, Vana Kalogeraki, Danilo Pianini, Frédéric Lassabe, Barry Porter, Sona Ghahremani, Ingrid Nunes, Mohamed Bakhouya and Sven Tomforde (Ed.). 2021 IEEE International Conference on Autonomic Computing and Self-Organizing Systems Companion (ACSOS-C), DC, USA, 27 September - 1 October 2021. IEEE, Piscataway, NJ, 289-290. DOI: 10.1109/ACSOS-C52956.2021.00072
PDF | BibTeX | RIS | DOI

Martin Schörner, Constantin Wanninger, Alwin Hoffmann, Oliver Kosak and Wolfgang Reif. 2021. Architecture for emergency control of autonomous UAV ensembles. In 3rd International Workshop on Robotic Software Engineering (RoSE’21), co-located with ICSE 2021, Virtual, Madrid, Spain, May 23 – 29, 2021. IEEE, Piscataway, NJ, 41-46 DOI: 10.1109/RoSE52553.2021.00014
PDF | BibTeX | RIS | DOI

Joseph Hirsch, Martin Neumayer, Hella Ponsar, Oliver Kosak and Wolfgang Reif. 2021. Distributed constraint optimization for task allocation in self-adaptive manufacturing systems. In Esam El-Araby, Vana Kalogeraki, Danilo Pianini, Frédéric Lassabe, Barry Porter, Sona Ghahremani, Ingrid Nunes, Mohamed Bakhouya and Sven Tomforde (Ed.). 2021 IEEE International Conference on Autonomic Computing and Self-Organizing Systems Companion (ACSOS-C), 27 September - 1 October 2021, DC, USA. IEEE, Piscataway, NJ, 62-67. DOI: 10.1109/acsos-c52956.2021.00034
PDF | BibTeX | RIS | DOI

Oliver Kosak. 2021. Mission programming for flying ensembles: combining planning with self-organization. Dissertation, Universität Augsburg. .
PDF | BibTeX | RIS

Constantin Wanninger, Luca Alfano, Martin Schörner, Alwin Hoffmann, Oliver Kosak and Wolfgang Reif. 2021. Semantic plug and play: an architecture combining linked data and reconfigurable hardware. In Dick Bulterman, Atsushi Kitazawa, David Ostrowski, Phillip Sheu and Jeffrey Tsai (Ed.). 2021 IEEE 15th International Conference on Semantic Computing (ICSC), 27-29 January 2021, Laguna Hills, CA, USA, virtual event. IEEE, Piscataway, NJ, 203-206. DOI: 10.1109/icsc50631.2021.00043
PDF | BibTeX | RIS | DOI

2020

Joseph Hirsch, Martin Neumayer, Hella Ponsar, Oliver Kosak and Wolfgang Reif. 2020. Deadlock avoidance for multiple tasks in a self-organizing production cell. In Tarek El-Ghazari, Manish Parashar, Jan-Philipp Steghöfer (Eds.). 1st IEEE International Conference on Autonomic Computing and Self-Organizing Systems (ACSOS) 2020, 17-21 August 2020, Washington, DC, USA. IEEE, Piscataway, NJ, 178-187 DOI: 10.1109/ACSOS49614.2020.00040
PDF | BibTeX | RIS | DOI

Oliver Kosak, Lukas Huhn, Felix Bohn, Constantin Wanninger, Alwin Hoffmann and Wolfgang Reif. 2020. Maple-Swarm: programming collective behavior for ensembles by extending HTN-planning. Lecture Notes in Computer Science 12477, 507-524. DOI: 10.1007/978-3-030-61470-6_30
PDF | BibTeX | RIS | DOI

Martin Schörner, Constantin Wanninger, Alwin Hoffmann, Oliver Kosak, Hella Ponsar and Wolfgang Reif. 2020. Modeling and execution of coordinated missions in reconfigurable robot ensembles. In Davide Brugali, Jean-Claude Latombe, Phillip Sheu, Rouh-Mei Hu (Eds.). IEEE Robotic Computing IRC 2020 - The Fourth IEEE International Conference on Robotic Computing, 9-11 November 2020, Taichung, Taiwan. IEEE, Piscataway, NJ, 290-293 DOI: 10.1109/IRC.2020.00053
PDF | BibTeX | RIS | DOI

Oliver Kosak, Felix Bohn, Lennart Eing, Dennis Rall, Constantin Wanninger, Alwin Hoffmann and Wolfgang Reif. 2020. Swarm and collective capabilities for multipotent robot ensembles. Lecture Notes in Computer Science 12477, 525-540. DOI: 10.1007/978-3-030-61470-6_31
PDF | BibTeX | RIS | DOI

2019

Oliver Kosak, Felix Bohn, Felix Keller, Hella Ponsar and Wolfgang Reif. 2019. Ensemble programming for multipotent systems. In 4th eCAS Workshop on Engineering Collective Adaptive Systems, 2019, in conjunction with the the 13th IEEE International Conference on Self-Adaptive and Self-Organizing Systems (SASO 2019) and the 16th IEEE International Conference on Autonomic Computing (ICAC 2019), FAS*, Umeå, Sweden, 16 June 2019. IEEE, Piscataway, NJ, 104-109. DOI: 10.1109/FAS-W.2019.00037
PDF | BibTeX | RIS | DOI

Oliver Kosak, Constantin Wanninger, Alwin Hoffmann, Hella Ponsar and Wolfgang Reif. 2019. Multipotent systems: combining planning, self-organization, and reconfiguration in modular robot ensembles. Sensors 19, 1, 17. DOI: 10.3390/s19010017
PDF | BibTeX | RIS | DOI

2018

Oliver Kosak. 2018. Multipotent systems: a new paradigm for multi-robot applications. In Sven Tomforde and Bernhard Sick (Ed.). Organic Computing: Doctoral Dissertation Colloquium 2018. kassel university press, Kassel (Intelligent Embedded Systems ; 13), 125-142. DOI: 10.19211/KUP9783737606974
PDF | BibTeX | RIS | DOI | URL

Julian Hanke, Oliver Kosak, Alexander Schiendorfer and Wolfgang Reif. 2018. Self-organized resource allocation for reconfigurable robot ensembles. In Antonio Bucchiarone and Alberto Montresor (Ed.). 2018 IEEE 12th International Conference on Self-Adaptive and Self-Organizing Systems (SASO), 3-7 Sept. 2018, Trento, Italy. IEEE, Piscataway, NJ, 110-119. DOI: 10.1109/saso.2018.00022
PDF | BibTeX | RIS | DOI

Constantin Wanninger, Christian Eymüller, Alwin Hoffmann, Oliver Kosak and Wolfgang Reif. 2018. Synthesizing capabilities for collective adaptive systems from self-descriptive hardware devices bridging the reality gap. Lecture Notes in Computer Science 11246, 94-108. DOI: 10.1007/978-3-030-03424-5_7
PDF | BibTeX | RIS | DOI

2017

Oliver Kosak and Wolfgang Reif. 2017. Facilitating planning by using self-organization. In Christopher K. Frantz, Stefano Iannucci and Jeremy Pitt (Ed.). Doctoral Symposium on Foundations and Applications of Self-* Systems (FAS*W), in conjunction with SASO 2017 - 11th IEEE International Conference on Self-Adaptive and Self-Organizing Systems, University of Arizona, Tucson, AZ, 18-22 September 2017. IEEE, Piscataway, NJ, 371-374. DOI: 10.1109/FAS-W.2017.178
PDF | BibTeX | RIS | DOI

B. Wolf, Christian Chwala, Benjamin Fersch, J. Garvelmann, W. Junkermann, M. J. Zeeman, Andreas Angerer, B. Adler, Christoph Beck, C. Brosy, P. Brugger, S. Emeis, M. Dannenmann, F. De Roo, E. Diaz-Pines, E. Haas, M. Hagen, I. Hajnsek, Jucundus Jacobeit, Thomas Jagdhuber, N. Kalthoff, R. Kiese, Harald Kunstmann, Oliver Kosak, R. Krieg, C. Malchow, M. Mauder, R. Merz, C. Notarnicola, Andreas Philipp, Wolfgang Reif, S. Reineke, T. Rödiger, N. Ruehr, K. Schäfer, M. Schrön, A. Senatore, H. Shupe, I. Völksch, Constantin Wanninger, S. Zacharias and H. P. Schmid. 2017. The SCALEX campaign: scale-crossing land surface and boundary layer processes in the TERENO-preAlpine observatory. Bulletin of the American Meteorological Society 98, 6, 1217-1234. DOI: 10.1175/bams-d-15-00277.1
PDF | BibTeX | RIS | DOI

2016

Oliver Kosak, Constantin Wanninger, Andreas Angerer, Alwin Hoffmann, Andreas Schierl and Hella Seebach. 2016. Decentralized coordination of heterogeneous ensembles using Jadex. In SASO 2016: 10th IEEE International Conference on Self-Adaptive and Self-Organizing Systems, September 12-16, 2016, Augsburg, Germany.
PDF | BibTeX | RIS

Heiko Hamann, Yara Khaluf, Jean Botev, Mohammad Divband Soorati, Eliseo Ferrante, Oliver Kosak, Jean-Marc Montanier, Sanaz Mostaghim, Richard Redpath, Jon Timmis, Frank Veenstra, Mostafa Wahby and Aleš Zamuda. 2016. Hybrid societies: challenges and perspectives in the design of collective behavior in self-organizing systems. Frontiers in Robotics and AI 3, 14. DOI: 10.3389/frobt.2016.00014
PDF | BibTeX | RIS | DOI

Gerrit Anders, Florian Siefert, Alexander Schiendorfer, Hella Seebach, Jan-Philipp Steghöfer, Benedikt Eberhardinger, Oliver Kosak and Wolfgang Reif. 2016. Specification and design of trust-based open self-organising systems. In Wolfgang Reif, Gerrit Anders, Hella Seebach, Jan-Philipp Steghöfer, Elisabeth André, Jörg Hähner, Christian Müller-Schloer and Theo Ungerer (Ed.). Trustworthy Open Self-Organising Systems. Springer International, Cham (Autonomic Systems (ASYS)), 17-54. DOI: 10.1007/978-3-319-29201-4_2
BibTeX | RIS | DOI

Oliver Kosak, Constantin Wanninger, Andreas Angerer, Alwin Hoffmann, Alexander Schiendorfer and Hella Seebach. 2016. Towards self-organizing swarms of reconfigurable self-aware robots. In Sameh Elnikety, Peter R. Lewis and Christian Müller-Schloer (Ed.). 1st eCAS Workshop on Engineering Collective Adaptive Systems, September 12th, 2016, co-located with the 10th IEEE international conference on Self-Adaptive Self-Organizing Conference SASO 2016, University of Augsburg, Augsburg, Germany. IEEE, Piscataway, NJ, 204-209. DOI: 10.1109/FAS-W.2016.52
PDF | BibTeX | RIS | DOI

2015

Oliver Kosak. 2015. A decentralised swarm approach for mobile robot-systems. In Sven Tomforde and Bernhard Sick (Ed.). Organic Computing: Doctoral Dissertation Colloquium 2015. Kassel University Press, Kassel (Intelligent Embedded Systems ; 7), 53-62.
PDF | BibTeX | RIS | URL

Oliver Kosak, Gerrit Anders, Florian Siefert and Wolfgang Reif. 2015. An approach to robust resource allocation in large-scale systems of systems. In Jan-Philipp Steghöfer, Emma Hart and Gregory T. Sullivan (Ed.). 2015 IEEE 9th International Conference on Self-Adaptive and Self-Organizing Systems, 21-25 September 2015, Cambridge, MA, USA. IEEE, Piscataway, NJ, 1-10. DOI: 10.1109/saso.2015.8
PDF | BibTeX | RIS | DOI

2013

Gerrit Anders, Florian Siefert, Nizar Msadek, Rolf Kiefhaber, Oliver Kosak, Wolfgang Reif and Theo Ungerer. 2013. TEMAS - a Trust-Enabling Multi-Agent System for open environments. Reports / Technische Berichte der Fakultät für Angewandte Informatik der Universität Augsburg 2013-04. .
PDF | BibTeX | RIS
© Institut für Software & Systems Engineering

Institut für Software & Systems Engineering

Das Institut für Software & Systems Engineering, geleitet von Prof. Dr. Wolfgang Reif, ist eine wissenschaftliche Einrichtung in der Fakultät für Angewandte Informatik an der Universität Augsburg. Das Institut unterstützt sowohl Grundlagen- als auch angewandte Forschung in allen Bereichen der Software & Systems Engineering. In der Lehre ermöglicht es die weitere Entwicklung des relevanten Kursangebots von Fakultät und Universität.

Suche