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Dynamic verticalization
Ladický, Milan ; Čmiel, Vratislav (referee) ; Janoušek, Oto (advisor)
This bachelor thesis describes the design and construction of a tilt sensor of a dynamic verticalizer. The work contains a description of the verticalizer, sensing components and programmable boards, which are used to communicate with the computer and peripherals. The principle of connection between the verticalizer and the test application, the principle of sensing the patient's movements and the principle of EMG measurement are explained here.
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Dynamic verticalization
Ladický, Milan ; Čmiel, Vratislav (referee) ; Janoušek, Oto (advisor)
This bachelor thesis describes the design and construction of a tilt sensor of a dynamic verticalizer. The work contains a description of the verticalizer, sensing components and programmable boards, which are used to communicate with the computer and peripherals. The principle of connection between the verticalizer and the test application, the principle of sensing the patient's movements and the principle of EMG measurement is explained here.
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MEMS Technology for Tilt Sensing
Kopeček, Pavel ; Čížek, Martin (referee) ; Dlouhý, Jiří (advisor)
Recently we put more requirements on the equipment around us. And very often we need know, how hung angle-wise of equipment is. Measuring of tilt is very important and used for example in gaming consoles, mobile phone, medical purposes and other. Tilt is calculated per direction of gravity acceleration, it measures by accelerometers. Accelerometer is sensor, which exploit masses inertia to calculate of acceleration. Development put pressure to us and reason is miniaturizing of everything and there is possibility to use micro-electromechanical, so-called MEMS, accelerometers. At last time sensors made by MEMS technology replacing classical mechanic sensors, which is bigger, more power exacting and last time considerably more expensive. But parts makes by MEMS technology aren’t enough accurate for some applications. Despite it is by this principle manufactured much kinds of accelerometers with different technologies of manufacture and work on different principles. We try to compare two accelerometers from two competitive factories.
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Dynamic verticalization
Ladický, Milan ; Čmiel, Vratislav (referee) ; Janoušek, Oto (advisor)
This bachelor thesis describes the design and construction of a tilt sensor of a dynamic verticalizer. The work contains a description of the verticalizer, sensing components and programmable boards, which are used to communicate with the computer and peripherals. The principle of connection between the verticalizer and the test application, the principle of sensing the patient's movements and the principle of EMG measurement is explained here.
|
|
|
Dynamic verticalization
Ladický, Milan ; Čmiel, Vratislav (referee) ; Janoušek, Oto (advisor)
This bachelor thesis describes the design and construction of a tilt sensor of a dynamic verticalizer. The work contains a description of the verticalizer, sensing components and programmable boards, which are used to communicate with the computer and peripherals. The principle of connection between the verticalizer and the test application, the principle of sensing the patient's movements and the principle of EMG measurement are explained here.
|
|
|
MEMS Technology for Tilt Sensing
Kopeček, Pavel ; Čížek, Martin (referee) ; Dlouhý, Jiří (advisor)
Recently we put more requirements on the equipment around us. And very often we need know, how hung angle-wise of equipment is. Measuring of tilt is very important and used for example in gaming consoles, mobile phone, medical purposes and other. Tilt is calculated per direction of gravity acceleration, it measures by accelerometers. Accelerometer is sensor, which exploit masses inertia to calculate of acceleration. Development put pressure to us and reason is miniaturizing of everything and there is possibility to use micro-electromechanical, so-called MEMS, accelerometers. At last time sensors made by MEMS technology replacing classical mechanic sensors, which is bigger, more power exacting and last time considerably more expensive. But parts makes by MEMS technology aren’t enough accurate for some applications. Despite it is by this principle manufactured much kinds of accelerometers with different technologies of manufacture and work on different principles. We try to compare two accelerometers from two competitive factories.
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