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Remote Access to Mobile Devices
Bobula, Vladimír ; Rychlý, Marek (referee) ; Burget, Radek (advisor)
This thesis deals with remote access to mobile devices with the Android system and their remote control possibilities. The aim was to create the interface for mobile devices remote control by remote desktop and also for changing mobile device's settings remotely. I focused on the utility of remote control for assistance in mobile devices usage. The solution was to create an application with the control interface, then application being controlled, and the server enabling communication between them. The server has been created with use of the Node.js technology. Socket.io library has been used for enabling communication between applications in real time. The remote desktop utilizes sending of screenshots and its clicks coordinates. These clicks on the remote device are executed by hidden API. Remote settings change uses API of Android SDK. It has been managed to develop the system that enable the control of the Android device and also to change its settings, both remotely.
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Teleoperation Interface for a Semi-Autonomous Vehicle Using Virtual Reality
Revický, Peter ; Kapinus, Michal (referee) ; Rozman, Jaroslav (advisor)
The goal of this work is to come up with user interface in virtual reality for vehicle robot teleoperation that is equipped with cameras, Velodyne laser distance meter and localization system. The user interface is designed with generally accepted methods for creation of user interfaces in virtual reality. This work also deals with the problem of sickness from VR. The user interface is implemented in Unity3D game engine. The HTC Vive Pro virtual reality kit was used during implementation and testing.
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Teleoperation Interface for a Semi-Autonomous Vehicle Using Virtual Reality
Revický, Peter ; Kapinus, Michal (referee) ; Rozman, Jaroslav (advisor)
The goal of this work is to come up with user interface in virtual reality for vehicle robot teleoperation that is equipped with cameras, Velodyne laser distance meter and localization system. The user interface is designed with generally accepted methods for creation of user interfaces in virtual reality. This work also deals with the problem of sickness from VR. The user interface is implemented in Unity3D game engine. The HTC Vive Pro virtual reality kit was used during implementation and testing.
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Remote Access to Mobile Devices
Bobula, Vladimír ; Rychlý, Marek (referee) ; Burget, Radek (advisor)
This thesis deals with remote access to mobile devices with the Android system and their remote control possibilities. The aim was to create the interface for mobile devices remote control by remote desktop and also for changing mobile device's settings remotely. I focused on the utility of remote control for assistance in mobile devices usage. The solution was to create an application with the control interface, then application being controlled, and the server enabling communication between them. The server has been created with use of the Node.js technology. Socket.io library has been used for enabling communication between applications in real time. The remote desktop utilizes sending of screenshots and its clicks coordinates. These clicks on the remote device are executed by hidden API. Remote settings change uses API of Android SDK. It has been managed to develop the system that enable the control of the Android device and also to change its settings, both remotely.
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