References

  1. Alexandre Albore, David Doose, Christophe Grand, Charles Lesire & Augustin Manecy (2021): Skill-Based Architecture Development for Online Mission Reconfiguration and Failure Management. In: 3rd IEEE/ACM International Workshop on Robotics Software Engineering, RoSE@ICSE 2021, Madrid, Spain, June 2, 2021. IEEE, pp. 47–54, doi:10.1109/RoSE52553.2021.00015.
  2. Stefan-Octavian Bezrucav, Gerard Canal, Michael Cashmore & Burkhard Corves (2021): An action interface manager for ROSPlan. In: 9th ICAPS Workshop on Planning and Robotics (PlanRob), pp. 1751–1756, doi:10.5281/zenodo.5348002.
  3. Gerard Canal, Michael Cashmore, Senka Krivi\'c, Guillem Alenyà, Daniele Magazzeni & Carme Torras (2019): Probabilistic planning for robotics with ROSPlan. In: Annual Conference Towards Autonomous Robotic Systems. Springer, pp. 236–250, doi:10.1007/978-3-030-23807-0_20.
  4. Bob Carpenter, Andrew Gelman, Matthew D Hoffman, Daniel Lee, Ben Goodrich, Michael Betancourt, Marcus Brubaker, Jiqiang Guo, Peter Li & Allen Riddell (2017): Stan: A probabilistic programming language. Journal of statistical software 76(1), doi:10.18637/jss.v076.i01.
  5. Michael Cashmore, Maria Fox, Derek Long, Daniele Magazzeni, Bram Ridder, Arnau Carrera, Narcis Palomeras, Natalia Hurtos & Marc Carreras (2015): Rosplan: Planning in the robot operating system. In: Twenty-Fifth International Conference on Automated Planning and Scheduling, pp. 1751–1756, doi:10.2478/CAIT-2012-0018.
  6. Mohammed Diab, Mihai Pomarlan, Daniel Beßler, Aliakbar Akbari, Jan Rosell, John A. Bateman & Michael Beetz (2020): SkillMaN - A skill-based robotic manipulation framework based on perception and reasoning. Robotics Auton. Syst. 134, pp. 103653, doi:10.1016/j.robot.2020.103653.
  7. Franka Emika (2021): Franka Emika Panda cobot. Available at https://www.franka.de/robot-system/.
  8. Richard E Fikes & Nils J Nilsson (1971): STRIPS: A new approach to the application of theorem proving to problem solving. Artificial intelligence 2(3-4), pp. 189–208, doi:10.1016/0004-3702(71)90010-5.
  9. Maria Fox & Derek Long (2003): PDDL2.1: An extension to PDDL for expressing temporal planning domains. Journal of artificial intelligence research 20, pp. 61–124, doi:10.48550/arXiv.1106.4561.
  10. Hong Ge, Kai Xu & Zoubin Ghahramani (2018): Turing: a language for flexible probabilistic inference. In: International conference on artificial intelligence and statistics. PMLR, pp. 1682–1690, doi:10.17863/CAM.42246.
  11. Zoubin Ghahramani (1997): Learning dynamic Bayesian networks. In: International School on Neural Networks, Initiated by IIASS and EMFCSC. Springer, pp. 168–197, doi:10.1007/BFb0053999.
  12. Malik Ghallab, Dana S. Nau & Paolo Traverso (2016): Automated Planning and Acting. Cambridge University Press, doi:10.1017/CBO9781139583923.
  13. Félix Ingrand & Malik Ghallab (2017): Deliberation for autonomous robots: A survey. Artif. Intell. 247, pp. 10–44, doi:10.1016/j.artint.2014.11.003.
  14. Charles Lesire, David Doose & Christophe Grand (2020): Formalization of robot skills with descriptive and operational models. In: 2020 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). IEEE, pp. 7227–7232, doi:10.1109/IROS45743.2020.9340698.
  15. Anthony Mallet, Cédric Pasteur, Matthieu Herrb, Séverin Lemaignan & François Felix Ingrand (2010): GenoM3: Building middleware-independent robotic components. In: IEEE International Conference on Robotics and Automation, ICRA 2010, Anchorage, Alaska, USA, 3-7 May 2010. IEEE, pp. 4627–4632, doi:10.1109/ROBOT.2010.5509539.
  16. Eitan Marder-Eppstein (2021): ROS Move-Base. Available at http://wiki.ros.org/move_base.
  17. Tim Niemueller, Till Hofmann & Gerhard Lakemeyer (2019): Goal reasoning in the CLIPS Executive for integrated planning and execution. In: Proceedings of the International Conference on Automated Planning and Scheduling 29, pp. 754–763.
  18. Nils J Nilsson (1984): Shakey the robot. Institute for Software Technology.
  19. Morgan Quigley, Ken Conley, Brian Gerkey, Josh Faust, Tully Foote, Jeremy Leibs, Rob Wheeler & Andrew Y Ng (2009): ROS: an open-source Robot Operating System. In: ICRA workshop on open source software 3.2. Kobe, Japan, pp. 5.
  20. ROBOTIS: TurtleBot3 e-Manual. Available at https://emanual.robotis.com/docs/en/platform/turtlebot3/overview/.
  21. Francesco Rovida, Matthew Crosby, Dirk Holz, Athanasios S Polydoros, Bjarne Großmann, Ronald Petrick & Volker Krüger (2017): SkiROS—a skill-based robot control platform on top of ROS. In: Robot operating system (ROS). Springer, pp. 121–160, doi:10.1007/978-3-319-54927-9_4.
  22. Scott Sanner (2010): Implements a parser, simulator, and client/server evaluation architecture for the relational dynamic influence diagram language (RDDL). Https://github.com/ssanner/rddlsim.
  23. Scott Sanner (2010): Relational dynamic influence diagram language (RDDL): Language description. Unpublished ms. Australian National University 32, pp. 27.
  24. David Silver & Joel Veness (2010): Monte-Carlo planning in large POMDPs. In: Advances in neural information processing systems, pp. 2164–2172.
  25. Adhiraj Somani, Nan Ye, David Hsu & Wee Sun Lee (2013): DESPOT: Online POMDP planning with regularization. Advances in neural information processing systems 26.
  26. Dan R. Suissa (2022): A short AOS overview video. Available at https://www.youtube.com/watch?v=8pqZADVBLPM.
  27. David Hsu Wee Sun Lee Hanna Kurniawati (2008): SARSOP: Efficient Point-Based POMDP Planning by Approximating Optimally Reachable Belief Spaces. In: Proceedings of Robotics: Science and Systems IV, Zurich, Switzerland, pp. 5427–5433, doi:10.15607/RSS.2008.IV.009.
  28. Or Wertheim (2010): An experiment comparing the generative model sampling rate of RDDLSim's generic code vs. the AOS's domain-specific auto-generated code.. Https://github.com/ssanner/rddlsim.
  29. Or Wertheim (2021): Armadillo experiment, detailed description. Available at https://github.com/orhaimwerthaim/AOS-experiments/tree/main/armadillo_pick.
  30. Or Wertheim (2021): ROSPlan PDDL experiment. Available at https://github.com/orhaimwerthaim/AOS-OtherSystems-ROSPlanExperimentPDDL/.
  31. Or Wertheim (2022): AOS Armadillo robot experiment video. Available at https://youtu.be/10sTQ8a_N6c.
  32. Or Wertheim (2022): The AOS experiments documentation files. Available at https://github.com/orhaimwerthaim/AOS-experiments.
  33. Or Wertheim (2022): The AOS Franka Emika Panda CoBot robot experiment video. Available at https://www.youtube.com/watch?v=-2qN4WXdvj4.
  34. Or Wertheim (2022): The AOS Panda CoBot experiment video: the robot sometimes loses due to an inaccurate opponent model.. Available at https://www.youtube.com/watch?v=R4dBrP7SLe8.
  35. Håkan LS Younes & Michael L Littman (2004): PPDDL1. 0: An extension to PDDL for expressing planning domains with probabilistic effects. Techn. Rep. CMU-CS-04-162 2, pp. 99.
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