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Observator för frontlinjen på surfplatta / Target Based Forward ObserverBergstedt, Martin, Gillström, Tobias January 2017 (has links)
Detta projekt har utförts på Saab Dynamics. Projektets syfte var att utveckla en applikation, TBFO, för att rapportera information om hur missilen GLSDB ska slå till ett mål. TBFO är ämnat för att användas i närheten av målet och information skickas till planeringssystemet GLSDB MPS. Applikationen byggdes runt 3D-motorn Vricon och är anpassat för lättast möjliga användning med pekskärm. Huvuddelen av arbetet berörde utveckling av gränssnitt för pekskärm och utveckling av systemets applikationsprotokoll. Denna rapport redogör för framtagning av systemet samt de verktyg och metoder som användes. Rapporten fördjupar sig inom utveckling av applikationer anpassade för pekskärm. Slutsatsen som kan dras från resultatet av detta projekt är att idén om systemet som utvecklats är användbart för processen att planera angrepp med GLSDB MPS. / This project has been carried out at Saab Dynamics. The project's purpose was to develop an application, TBFO, for reporting information containing how the missile GLSDB would strike a target. TBFO is intended to be used in the proximity of the target and information is sent to the planning system GLSDB MPS. The application was built around the 3D engine from Vricon and is developed to fit for use of touch devices. The main part of the work concerns the development of user interface for touch input and the system’s application protocol. This report describes the processes of developing the system, including what tools and methods that have been used during development. The report also provides an in-depth look at processes used when developing applications for touch devices. The conclusion from the results of this project is that the idea of the described system is useful for the process of planning an assault with GLSDB MPS.
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Lokalizace pomocí aplikace určené pro platformu Java ME využívající GPS / GPS based Localization using the Java ME applicationFigurny, Radek January 2009 (has links)
The task of the Master's thesis has been to develop the MIDlet, which is able to receive data from an external GPS module via Bluetooth. Data are received in the NMEA 0183 format and are processed to extract longitude, latitude, elevation, velocity, number of visible satellites and measurement accuracy of longitude, latitude and elevation. Users have a possibility to save their actual location with a short description to the cell phone’s memory. The MIDlet is also able to save a user defined way-point and navigate to this way-point. The MIDlet itself was developed in the Netbeans IDE with a software development kit (SDK) made by Nokia company. This kit is designed for the Symbian OS s60 3rd edition FP1, which contains a s60 emulator and a s60 MIDlet for a direct compilation in the cell phone. The MIDlet is made of three main parts. The first part shows a longitude, latitude, elevation, velocity, longitude and latitude measurement accuracy, date and time. The second one shows a direction of north, latitude and longitude. The last one shows a direction to the selected way-point and a distance to this location. In theoretic part of the thesis there are described the GPS navigation system, Bluetooth system, geodetic system WGS 84 and programing language Java and its part Java ME.
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Mapování bezdrátových technologií v terénu s využitím GPS / Wireless Networks Outdoor Mapping with GPS LocalisationKabátek, Petr January 2007 (has links)
This thesis deals with the monitoring of wireless nets in terrain. The author will be browsing terrain and there will be extracted some information about accessible wireless nets. For parameters of wireless nets we consider for example the name of wireless net, signal strength, type of security etc. These parameters (of wireless nets and position) are going to be recorded and saved into the database. Using this database it will be possible to perform some further operations like generation maps of wireless networks or detection positions of access points, etc..
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Diferenciální GPS / Differential GPSMadron, Tomáš January 2009 (has links)
This master’s thesis is the design of the system of the differential GPS, creation of the software for basic wireless communication between 2 GPS receivers, and practical tests of the designed system. Parameters and characteristics of system were determined and they should inform us better about the appropriateness of the designed system for navigation of a mobile robot in outside conditions.
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Tvorba 3D modelu budovy s využitím laserového skenování / Creation of 3D model of building using laser scanningSabo, Stanislav January 2016 (has links)
The aim of this thesis is to scan the part of the interior and exterior of the Faculty of Electrical Engineering and Communication building using the FARO Focus3D X 130 scanner, and the creation of a 3D model in the WGS 84 system. Subsequently, methods, status and utilization research of this technology and point cloud processing software is provided. The collected data are processed in the SCENE. Three-dimensional model is designed using the Pointfuse and Microstation V8i programs. In the end, the registration accuracy of the scans and the resulting 3D model accuracy are evaluated.
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Ny generation av GPS-transponder / New Generation of GPS-transponderLind, Hampus, Flenéus, Lukas January 2016 (has links)
Detta projekt har utförts på uppdrag av Saab Dynamics. Syftet med projektet var att skapa ett system för att ersätta den befintliga utrustning som fanns för att simulera radar vid testning av vissa vapensystem. Systemet byggdes upp med hjälp av GPRS, GPS och transportprotokollen TCP och UDP. Huvuddelen av arbetet berörde GPS och GPRS. Denna rapport är en redogörelse för systemets framtagning och de verktyg och metoder som användes, samt en fördjupning i ämnena GPS, GPRS och deras olika protokoll. Rapporten tar även kort upp alternativa lösningar till datasamtal. Slutsatsen som kan dras utifrån resultatet av detta projekt är att systemet fungerar och kan vara användbart i framtiden efter vidareutveckling. / This project has been carried out on behalf of Saab Dynamics. The purpose of the project was to create a system to replace the existing equipment for simulating radar when testing certain weapon systems. The system was created using GPRS, GPS and the transport protocols TCP and UDP. GPS and GPRS were used the most. This report is a description of the system's design and the tools and methods used to create it, as well as an in depth look into the subjects of GPS, GPRS and their various protocols. The report also briefly discusses some alternative solutions that could have been used instead of data calls. The conclusion that can be drawn from the results of this project is that the system works and can be useful in the future with further development.
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