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Physical Simulation in Virtual Reality
Grünseisen, Vojtěch ; Navrátil, Jan (referee) ; Pečiva, Jan (advisor)
This work describes using of SDL, OSG and ODE as tools in game development and how they can be integrated to work together. Theory about collision detection and its role in physics engine is also described. Used libraries are described as well. With this engine a game scene is created and driven. This scene contains bodies connected by ODE Joints. Scene content and application controls are meant to resemble first person shooter game style.
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Physical Simulation in Computer Games
Dočkal, Jiří ; Havel, Jiří (referee) ; Herout, Adam (advisor)
The thesis is concerned with modern game engines, focusing on physical simulation and particle systems. It offers usable architectures overview for a game engine development. The thesis provides characteristic to the most essential game engine's logical modules as scene graph, resource management or rendering. Today's tools used for physical simulation in games are also described. Main part of the thesis concentrates on design and implementation of its own C3D game engine which exploits capabilities of the NVIDIA PhysX physical engine. The thesis includes modern techniques rising from author's gained experience.
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Physical Simulation in Graphics Scene
Javorka, Marián ; Herout, Adam (referee) ; Pečiva, Jan (advisor)
This master's thesis deals with physical simulation of cars. Program is implemented in C++ using OpenSceneGraph and Bullet libraries, which are shortly introduced. The application is implemented as simple racing game for one or two players. Using a simple menu, the user can select a car and the weather, which dramatically affects the handling characteristics of vehicles. Setting weather to random is one of the options leading to a dynamic weather changes during the game. The application takes into account collisions among cars and collisions with the terrain and bars on a racing circuit.
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Collision Detection Library
Chlubna, Tomáš ; Španěl, Michal (referee) ; Polok, Lukáš (advisor)
This thesis deals with the problem of detecting collisions of nontrivial polygonal models in three-dimensional space. In general, there are methods describing how to mathematically express and calculate such collisions. However, such methods are usually unsuitable for usage in information technology due to the performance and memory requirements. It is also necessary to work with the discrete time that is not present in the real world. That brings the need to implement algorithms that are not only able to detect the collisions in a specific point in time, but also to predict them according to the available data about the movement of the objects in the scene. The solution uses game development and physics simulations techniques. Therefore, this works describes some optimization techniques as well as suitable scene representation formats and GPU rendering mechanisms.
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Real-Time Simulation Library in 3D Space
Benna, Tomáš ; Peringer, Petr (referee) ; Hrubý, Martin (advisor)
This thesis describes design and implementation of 3D space physical real-time simulation system as add-on to graphical engine. System contains processing of rigid solid simulation, collision detection and response, which are provided by physical laws. Document contains theoretical introduction of this course of study, design and implementation as multiplatform library and description of user interfaces. Output of this thesis, except library, is also example applications, which demonstrate functionality of designed simulation model.
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Simulation of Fluids Behavior in 2D
Pazdera, Vlastimil ; Pečiva, Jan (referee) ; Zemčík, Pavel (advisor)
This thesis deals with the simulation of fluids in 2D cut for mobile devices using technique Smoothed Particle Hydrodynamics implemented in game engine Unity. The resulting program is usable on mobile devices as a structural element of the games and interactive applications. With the parameters you can alter the properties of liquids for example viscosity. The work focuses on the greatest applicability in mobile applications and takes into account the requirements and limits of the devices to achieve the best visual and physical properties of the simulated liquid.
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Android Platform Physics Game
Boszczyk, Radek ; Pečiva, Jan (referee) ; Bartoň, Radek (advisor)
Android is the fastest growing and best selling operating system for mobile devices. This paper briefly describes the history of this system, its possibilities and application programming basics for this platform. It contains a short introduction to physics simulation used in computer games. The paper also includes a detailed description of design and implementation of a mobile game for Android system, based on physics simulation.
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Simple Game Using OpenGL
Čapek, Radovan ; Šiler, Ondřej (referee) ; Švub, Miroslav (advisor)
The work is focused on computer graphics and game developing. It describes physical model of a car behaviour and implements it in form of a racing game. The game loads 3ds models and includes many interesting visual techniques. Theoretical basics are discussed in the work. Besides the program itself, a tutorial describing how to programme this is also an output of the work.
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Physical Simulation in VR
Pacáková, Gabriela ; Milet, Tomáš (referee) ; Kobrtek, Jozef (advisor)
The main aim of this thesis is to introduce the reader to the theory and the implementation of a virtual reality application which uses HTC Vive headset and BulletPhysics engine. It describes the integration of BulletPhysics and OpenVR SDK with OpenGL. The result of this integration is a simple bowling game in VR that uses all the aforementioned resources and provides the user with an entertaining VR experience as well as a deeper understanding of computer graphics and VR principles.
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Simulation of Fluids in 2D
Pazdera, Vlastimil ; Polok, Lukáš (referee) ; Zemčík, Pavel (advisor)
This thesis deals with the simulation of fluids in 2D cut for mobile devices using technique Smoothed Particle Hydrodynamics implemented in game engine Unity. The resulting program is usable on mobile devices as a structural element of the games and interactive applications. With the parameters you can alter the properties of liquids for example viscosity. The work focuses on the greatest applicability in mobile applications and takes into account the requirements and limits of the devices to achieve the best visual and physical properties of the simulated liquid.
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