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EASIMEN - Sandbox pro umělé bytosti v simulovaném prostředí
Hencz, Attila ; Neruda, Roman (advisor) ; Pilát, Martin (referee)
Title: EASIMEN - A sandbox for artificial creatures in simulated envi- ronment Author: Attila Hencz Department / Institute: Department of Theoretical Computer Sci- ence and Mathematical Logic Supervisor of the bachelor thesis: Mgr. Roman Neruda, CSc., Insti- tute of Computer Science of the ASCR,1 v.v.i.2 Supervisor's e-mail address: Roman.Neruda@mff.cuni.cz Abstract: The present work investigates the creation of a flexible near- universal simulation environment for artificial intelligence with embodi- ment and real-time simulation in mind. Also, a look is taken at the prob- lems associated with the functioning of such a systems and the methods that can be used in a simulation of this kind. The current implementation of the simulation environment (EASIMEN) is rather simplified and its purpose is the demonstration of the proposed design and architecture. Additionally, there are a couple of simplistic module implementations available for the underlying artificial intelligence architecture proposed by the author (BIAR). These modules are only mere showcases of certain aspects of the issues at hand, and serve as templates for the implemen- tation of more sophisticated modules in the future. Keywords: artificial intelligence, real-time simulation, 3D graphics, phys- ically simulated virtual environment, embodied...
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EASIMEN - Sandbox pro umělé bytosti v simulovaném prostředí
Hencz, Attila ; Neruda, Roman (advisor) ; Brom, Cyril (referee)
In the present work we investigate the creation of a exible nearuniversal simulation environment for arti cial intelligence with embodiment and real-time simulation in mind. We also take a look at the problematics associated with the functioning of such an systems and the methods that can be used in a simulation of this kind. The current implementation of the simulation environment is not a complete system, but rather more separate projects which are showcases of certain aspects of the problematics at hand.
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Planning systems in game level design and agent control
Tóth, Csaba ; Kadlec, Rudolf (advisor) ; Barták, Roman (referee)
Planners are well developed tools in computer science, but their role is rather limited in games. We decided to test the possibilities of writing such a game around them. Proving that freely available, general purpose planning systems are worthy alternatives to custom made solutions could open a new path to small developers and popularize a new kind of gameplay powered by these tools. We attempted to exploit planners in two roles, in the development, to partially automate the level design process; and in the gameplay as a decision making tool for the acting agents. Our program is a puzzle game, more precisely an anticipation game, where the player has to foresee the future actions of the acting agents, then discover the pitfalls where they are heading. Using this knowledge he can modify their environment and force them to a desired outcome. A part of our program is a generator of such game challenges. We came to a conclusion that within some limitations planners are capable of creating believable agent behavior and while not all decisions can be handed over to the planning systems, they can lighten the task of the level designer.
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EASIMEN - Sandbox pro umělé bytosti v simulovaném prostředí
Hencz, Attila ; Neruda, Roman (advisor) ; Pilát, Martin (referee)
Title: EASIMEN - A sandbox for artificial creatures in simulated envi- ronment Author: Attila Hencz Department / Institute: Department of Theoretical Computer Sci- ence and Mathematical Logic Supervisor of the bachelor thesis: Mgr. Roman Neruda, CSc., Insti- tute of Computer Science of the ASCR,1 v.v.i.2 Supervisor's e-mail address: Roman.Neruda@mff.cuni.cz Abstract: The present work investigates the creation of a flexible near- universal simulation environment for artificial intelligence with embodi- ment and real-time simulation in mind. Also, a look is taken at the prob- lems associated with the functioning of such a systems and the methods that can be used in a simulation of this kind. The current implementation of the simulation environment (EASIMEN) is rather simplified and its purpose is the demonstration of the proposed design and architecture. Additionally, there are a couple of simplistic module implementations available for the underlying artificial intelligence architecture proposed by the author (BIAR). These modules are only mere showcases of certain aspects of the issues at hand, and serve as templates for the implemen- tation of more sophisticated modules in the future. Keywords: artificial intelligence, real-time simulation, 3D graphics, phys- ically simulated virtual environment, embodied...
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EASIMEN - Sandbox pro umělé bytosti v simulovaném prostředí
Hencz, Attila ; Neruda, Roman (advisor) ; Brom, Cyril (referee)
In the present work we investigate the creation of a exible nearuniversal simulation environment for arti cial intelligence with embodiment and real-time simulation in mind. We also take a look at the problematics associated with the functioning of such an systems and the methods that can be used in a simulation of this kind. The current implementation of the simulation environment is not a complete system, but rather more separate projects which are showcases of certain aspects of the problematics at hand.
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