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Metal detector for industrial use
Stehno, Rostislav ; Friedl, Martin (referee) ; Szabó, Zoltán (advisor)
The goal of this project is explore and study the ways of metal detecting and create a metal detector for industrial use. During a project development, the device size and user easy interface were the basic requirement. As a visual device was chosen LCD touch display, which is very important as a user-friendly interface. For math calculations and right function of device will be implemented microcontroller from Atmel corporation. As a data storage will be used a flash memory with 16MB of size. When the device were inventing, a lot of methods were studied and the impulse detect method were chosen which is the most perspective way of metal detecting. Device will communicate with PC trough a USB port. The device will have a battery which allows device to run for a few hours. The prototype of PCB were developed. Few mistakes has been discovered, while the device were constructed, but they were solved successfully.
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Metal detector for industrial use
Stehno, Rostislav ; Hrabina, Jan (referee) ; Szabó, Zoltán (advisor)
The goal of this project is explore and study the ways of metal detecting and create a metal detector for industrial use. When the device were inventing, a lot of methods were studied and the impulse detect method were chosen as the most perspective way of metal detecting, thanks to a huge electronics parts possibilities. After experiences with preceding device was necessary to redesign it. Main target of this thesis is to increase the computing power of detector. For this purpose will device need a new microcontroller. Device will communicate with PC trough a USB port. The device will have a battery which allows device to run for a few hours. Processing of measured data will be make even with DFT which will lead to better analyze of mass and type of conductor under device.
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PI Metal Detector Using DSP Processing
Betlach, Radomír ; Čmiel, Vratislav (referee) ; Šebesta, Jiří (advisor)
The subject of Bachelor‘s thesis is design of pulse-induction metal detector. The detector is designed to operate with already-known principle of detection, yet at an innovative concept. In design will be used new technologies and procedures. In the thesis is described design of the general conception and components of the detector. The arguments for utilization separate procedures are discussed, as well as their advantages, eventually general impact of parameters of wiring against final properties of the detector. In design of wiring solution should be considered the following signal processing by DSP. Another subject of this thesis is to apply mentioned theory in practise and create a working sample of metal detector.
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Mobile Application for Treasure Hunters
Skaličan, Robin ; Škarvada, Libor (referee) ; Hynek, Jiří (advisor)
The goal of this bachelor's thesis was the design and implementation of a mobile application for devices with the Android operating system. The application intends to simplify the work of findings documentation for searchers with a metal detector. The goal is also to provide an easier way for further communication with archaeologists about the findings. A request was created to extend the thesis assignment by a web application on meetings with archaeologists. The web application displays the recorded data from the mobile application and simplifies any further communication with the data author. This data is stored in the Firebase Realtime Database. The mobile application implements a map view using the Leaflet library and functions based on user requirements. Java and JavaScript programming languages were used for most of the implementation. The result of my work is composed of two applications working with the shared database.
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Mobile Application for Treasure Hunters
Skaličan, Robin ; Škarvada, Libor (referee) ; Hynek, Jiří (advisor)
The goal of this bachelor's thesis was the design and implementation of a mobile application for devices with the Android operating system. The application intends to simplify the work of findings documentation for searchers with a metal detector. The goal is also to provide an easier way for further communication with archaeologists about the findings. A request was created to extend the thesis assignment by a web application on meetings with archaeologists. The web application displays the recorded data from the mobile application and simplifies any further communication with the data author. This data is stored in the Firebase Realtime Database. The mobile application implements a map view using the Leaflet library and functions based on user requirements. Java and JavaScript programming languages were used for most of the implementation. The result of my work is composed of two applications working with the shared database.
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Overview of resources for non-destructive research underwater
Bohadlo, Antonin ; Vondrášek, David (advisor) ; Dvorský, Jaroslav (referee)
Title: Overview of resources for non-destructive research underwater. Objectives: The aim of the bachelor thesis is to define and compare the use of individual devices used for searching objects under the water based on the study of professional literature. Methods: The thesis is realized as an overview study analyzing available literature dealing with underwater research. Both literary and internet sources were used to obtain relevant resources. Results: The result is an evaluation of devices for searching underwater objects for their intended use and the object they are looking for. Keywords: Diving, metal detector, magnetometer, sonar, sediment sonar
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Metal detector for industrial use
Stehno, Rostislav ; Friedl, Martin (referee) ; Szabó, Zoltán (advisor)
The goal of this project is explore and study the ways of metal detecting and create a metal detector for industrial use. During a project development, the device size and user easy interface were the basic requirement. As a visual device was chosen LCD touch display, which is very important as a user-friendly interface. For math calculations and right function of device will be implemented microcontroller from Atmel corporation. As a data storage will be used a flash memory with 16MB of size. When the device were inventing, a lot of methods were studied and the impulse detect method were chosen which is the most perspective way of metal detecting. Device will communicate with PC trough a USB port. The device will have a battery which allows device to run for a few hours. The prototype of PCB were developed. Few mistakes has been discovered, while the device were constructed, but they were solved successfully.
|
|
|
PI Metal Detector Using DSP Processing
Betlach, Radomír ; Čmiel, Vratislav (referee) ; Šebesta, Jiří (advisor)
The subject of Bachelor‘s thesis is design of pulse-induction metal detector. The detector is designed to operate with already-known principle of detection, yet at an innovative concept. In design will be used new technologies and procedures. In the thesis is described design of the general conception and components of the detector. The arguments for utilization separate procedures are discussed, as well as their advantages, eventually general impact of parameters of wiring against final properties of the detector. In design of wiring solution should be considered the following signal processing by DSP. Another subject of this thesis is to apply mentioned theory in practise and create a working sample of metal detector.
|
|
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Metal detector for industrial use
Stehno, Rostislav ; Hrabina, Jan (referee) ; Szabó, Zoltán (advisor)
The goal of this project is explore and study the ways of metal detecting and create a metal detector for industrial use. When the device were inventing, a lot of methods were studied and the impulse detect method were chosen as the most perspective way of metal detecting, thanks to a huge electronics parts possibilities. After experiences with preceding device was necessary to redesign it. Main target of this thesis is to increase the computing power of detector. For this purpose will device need a new microcontroller. Device will communicate with PC trough a USB port. The device will have a battery which allows device to run for a few hours. Processing of measured data will be make even with DFT which will lead to better analyze of mass and type of conductor under device.
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