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Human-machine collaboration – using computer vision
Sobotka, Pavel ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
The main task of this bachelor’s thesis is a realization of application for controlling the robotic arm through the Kinect device. Application is programmed in C# language using Microsoft Visual Studio 2017 integrated development environment. The first part of the thesis deals with the topics of collaborative robotics, computer vision and Kinect device from Microsoft. The second part is about the description of the implementation and testing of the application.
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Manipulace s objekty pomocí robotu Mitsubishi RV2AJ založená na analýze obrazu
Koutský, Filip
This Thesis deals with proposal, implementation and testing of a program for detection of objects to be manipulated and a program for control of robotic arm Melfa RV-2AJ manipulating with these objects. The Theoretical part describes selected algorithms for object detection using a Basler camera and introduces options for controlling the robotic arm Melfa RV-2AJ. The Practical part focuses on development and implementation of a program in the LabVIEW Development Environment for object detection using LabVIEW module NI Vision Acquisition Software and NI Vision Builder for Automated Inspection. Furthermore it describes the development of a program for control of robotic arm Melfa RV-2AJ with use of the LabVIEW module for Mitsubishi robot control called Imaging Lab. The program has been tested by a set of testing tasks and the test results subsequently used for suggestions for functionality improvements.
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Robotic hand control by myopotentials
Jablonská, Dominika ; Janoušek, Oto (referee) ; Bubník, Karel (advisor)
The thesis deals with the measurement of myopotecials and their using in controlling the robotic arm. First, it is theoretically described electromyographic signal, his scanning and subsequent processing. There is also described an arm which it is used here. The next aim of this project is paying attention scanning signal on human hands using Biopac system and signal processing in MATLAB with Robotic Toolbox. Also was created a computer model in the user interface GUI.
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Robotic arm control by PLC
Pleva, Damián ; Foukal, Roman (referee) ; Štohl, Radek (advisor)
The goals of this diploma thesis were to get acquainted with the model of the robotic arm Beta 6 from Merkur Company. Next design connections between control board and PLC from Rockwell Automation. Then design and realize Add-On instruction for movement in 3D space with appropriate visualization.
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Application for Controlling Robotic Arm Workcell
Sedlák, Radek ; Rozman, Jaroslav (referee) ; Luža, Radim (advisor)
This thesis deals with creating the application for remote controlling robotic arm workplace at FIT BUT. The application is developed in C/C++ using the Qt library. The thesis first summarizes the general methodology for the design and testing of user interfaces. The thesis also describes the procedure for application analysis, user interface design, implementation and testing of the application. In conclusion, the test results are evaluated and proposed further expansion of the application.
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Robotic Arm Mitshubishi Melfa 6 SL Control
Schindler, Petr ; Hanáček, Petr (referee) ; Zbořil, František (advisor)
This thesis is focused on the control of the robotic arm Mitsubishi Melfa 6 SL. It is a part of a bigger project, which goal is to build an online laboratory supporting the teaching of artificial intelligence. This document describes methods which can be used to control the arm, especially using personal computer. It also briefly describes the laboratory itself. The goal of this project was to create a set of routines, which can be used to control the robot using one's own software.
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Robotic Arm - Navigation by Using Axis 214 Camera
Skládanka, Josef ; Hanáček, Petr (referee) ; Zbořil, František (advisor)
This paper is focused on recognizing the position of a cube placed in the working area of the robotic arm Mitsubishi Melfa 6 SL, using digital image from Axis 214 cameras. It briefly describes few techniques which can be used for detecting the position of an object in the image. The main focus is laid on the implemented method, which detects and analyses gaps in the grid plotted in the robot's working area.
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Advanced Visual Telepresence System
Davídek, Daniel ; Kopečný, Lukáš (referee) ; Žalud, Luděk (advisor)
The introduction of this document presents some basic principles of visual telepresence with analysis of important aspects of the design. Afterwards there is a brief ovrewview of some of the applications of telepresence systems. Subsequently there is a description of the basic parameters and functions of the human visual perception system including the head motion parameters. This document examines the creation of telepresence apparatus through which is the user able to percieve visual stimuli accross distance. The device consist of camera with wide FOV positioned on the last link of the servo-motor chain with 3 DOF. Camera view is projected into scene in position read from actual motor posture. The scene is perceived through the HMD Oculus Rift (DK1, DK2) where the actual head-orientation read from the HMD inertial sensors is the entered end value for the rotation angles of the servomotors. A \csharp (WPF) program was developed for the controling and setting of motors which handles the byte communication through RS485-USB converter and also configures and starts the telepresence mode. The telepresence scene is drawn with help of SharpDX and SharpOVR - the \csharp wrappers of DirectX and LibOVR.
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