Global ETD Search

91	Čtyřnohý kráčejicí robot / Four legged walking robot Veleba, Tomáš January 2008 (has links) The diploma paper deal with control problems of a four legged walking robot. They endeavour to establish and partly implement the walking and control algorithms. They are divided into six parts. Individual chassis types and their advantages and drawbacks are analysed in introduction. Next part describes mechanical design of the robot and also all realised electronics facilities. The third part describes in detail sensors that are used by the robot. Following part deals with description of robot's walking. It explains individual walking phases and analyses both static and dynamic stability. Next part contains description of the robot's software facility. The software facility of the control micro-controller and the algorithm that generates walking are explained in this part. It also describes software facility of control application in computer. Exploration of the possibilities for wireless control is carried out in the last part.
92	Hybridní řídicí systém pro quadrokoptéru / Hybrid Control System for Quadrocopter Sojka, Stanislav January 2013 (has links) This thesis deals with the design and theoretical description of the hybrid control system for quadrocopter. First, a mathematical model is presented, sensors needed for development and their principles. This work shows the system architecture design and scheme of communication channels between the blocks. Implementation section discusses specific uses of computing nodes/sensors and their settings. In this thesis there are illustrated messages sent between computing nodes and the control loop machine. It also describes how to test the sensors, measurement results and techniques for improvement.
93	Platforma pro vývoj tří-rotorové helikoptéry / Development of Platform for Three-Rotor Helicopter Votava, Martin January 2012 (has links) The goal of this master's thesis is design and built of platform for three-rotor helicopter development. The helicopter is also known as tricopter. Theoretical part describes principle of tricopter's flight and stabilization. There is also described basics inertial navigation system and sensors which are required for correct functionality. Practical part is dedicated to development of tricopter's frame, schematics diagram, communication between subsystems and stabilization system development. Flight stablization system is base on ATmega128A an using PID Controller. In the end is described testing of developed platform.
94	Accessibility and The Potential of Bio-Physiological Systems Measuring Human Magnetic Fields to Inform Technology Devices Revalee, Jason S. 25 July 2019 (has links) No description available. Design Human Computer Interaction Magneto Cardiography Magneto Encephalography Atomic Magnetometer for Biological Imag
95	Improved State Estimation for Miniature Air Vehicles Eldredge, Andrew Mark 02 August 2006 (has links) (PDF) Research in Unmanned Air Vehicles (UAV's) continues to push the limitations of size and weight. As technical advances have made UAV's smaller and less expensive, they have become more flexible and extensive in their roles. To continue using smaller and less expensive components while retaining and even enhancing performance requires more sophisticated processing of sensor data in order for the UAV to accurately determine its state and thereby allow the use of feedback in controlling the aircraft automatically. This work presents a three-stage state-estimation scheme for the class of UAV's know as Miniature Air Vehicles (MAV's). The first stage estimates pitch and roll, the second stage estimates heading, and the third stage produces a position estimate and an estimate of wind speed and direction. All three stages make use of the extended Kalman filter, a framework for using a system dynamic model to predict future states and to update the predictions using weighted sensor measurements as they become available, where the weighting is based on the relative uncertainty of the dynamic model and the sensors. Using the three-stage state esti-mation scheme, significant improvements in the estimation of pitch, roll and heading have been achieved in simulation and flight testing. Performance of the navigation (position and wind) stage is comparable to an existing baseline algorithms for position and wind, and shows additional promise for use in dead reckoning when GPS updates become unavailable. Mechanical Engineering
96	[pt] DESENVOLVIMENTO DE TRANSDUTORES MAGNÉTICOS EM MALHA FECHADA BASEADOS NO EFEITO DA MAGNETOIMPEDÂNCIA GIGANTE / [en] DEVELOPMENT OF CLOSED LOOP MAGNETIC TRANSDUCERS BASED ON GIANT MAGNETOIMPEDANCE EFFECT SALVADOR PACHECO 20 September 2021 (has links) [pt] Esta Tese tem por objetivo o desenvolvimento de um sistema destinado à medição de campo magnético com alta sensibilidade e resolução, baseado nas características de fase da impedância em sensores que apresentam o efeito GMI, e a otimização das características de desempenho por meio do uso de configurações em malha fechada. A metodologia empregada inicia com a avaliação experimental das características de fase da impedância de amostras de diferente estrutura e composição química, em função do campo magnético externo, a fim de selecionar aquelas com alta sensibilidade, baixa histerese e maior homogeneidade. Na sequência, são realizadas avaliações teórico-computacionais dos transdutores magnéticos em malha aberta e fechada (magnetômetro e gradiômetro). Da mesma forma, as principais características dos circuitos e controladores software dos transdutores desenvolvidos são detalhadas ao longo do texto. Por sua vez, as principais figuras de mérito dos protótipos desenvolvidos são detalhadamente analisadas, tais como: sensibilidade, linearidade, resposta em frequência, densidade espectral de ruído e resolução. As caracterizações e ensaios experimentais realizados evidenciaram o grande potencial dos transdutores GMI em malha fechada para a atenuação da interferência 1/f, aprimoramento da linearidade e ampliação da faixa de operação. O magnetômetro GMI em malha fechada apresentou sensibilidade em torno de 75,8 mV/microteslas, fundo de escala maior que mais ou menos 40 microteslas, banda de passagem de 45 Hz e resolução na banda de passagem de 27,74 nT. Por outro lado, o gradiômetro GMI em malha fechada desenvolvido apresentou sensibilidade em torno de 102 mV/microteslas, fundo de escala maior que mais ou menos 40 microteslas, banda de passagem de 30 Hz e resolução na banda de passagem de 28,41 nT. / [en] This Thesis aims to develop a system for magnetic field measurement with high sensitivity and resolution, based on the impedance phase characteristics of sensors that have the GMI effect and the performance characteristics optimization through closed-loop configurations. The methodology starts with the experimental evaluation of the phase characteristics of the impedance in samples of different chemical composition and structure as a function of the external magnetic field in order to select those with high sensitivity, low hysteresis, and higher homogeneity. Subsequently, theoretical-computational assessments of magnetic transducers in open and closed-loop (magnetometer and gradiometer) are carried out. Likewise, the main characteristics of the circuits and software controllers of the developed transducers are detailed throughout the text. In turn, the main figures of merit of the developed prototypes are analyzed in detail, such as sensitivity, linearity, frequency response, noise spectral density, and resolution. The characterizations and experimental tests carried out showed the great potential of GMI transducers in a closed-loop configuration for attenuation of interference 1/f, improving linearity and expanding the operating range. The closed-loop GMI magnetometer showed a sensitivity of around 75.8 mV/microteslas, a full-scale range greater than plus or minus 40 microteslas, a pass band of 45 Hz and a resolution in the pass band of 27.74 nT. On the other hand, the GMI closed-loop gradiometer developed had a sensitivity of around 102 mV/microteslas, a full scale greater than plus or minus 40 microteslas, a passband of 30 Hz and a resolution in the pass band of 28.41 nT. [pt] TRANSDUTOR MAGNETICO [pt] MALHA FECHADA [pt] ALTA SENSIBILIDADE [pt] GRADIOMETRO [pt] MAGNETOMETRO [pt] MAGNETOIMPEDANCIA GIGANTE [en] MAGNETIC TRANSDUCER [en] CLOSED-LOOP CONFIGURATION [en] HIGH SENSITIVITY [en] GRADIOMETER [en] MAGNETOMETER [en] GIANT MAGNETOIMPEDANCE
97	[en] PROPOSAL OF A PORTABLE MULTISENSOR BIOMEDICAL DEVICE FOR DETECTION OF FERROMAGNETIC FOREIGN BODIES / [pt] PROPOSTA DE DISPOSITIVO BIOMÉDICO MULTISENSOR PORTÁTIL PARA LOCALIZAÇÃO DE CORPOS ESTRANHOS FERROMAGNÉTICOS MELISSA CARVALHO COSTA 21 November 2022 (has links) [pt] Os procedimentos atuais de localização de corpos estranhos ferromagnéticos utilizados na prática clínica envolvem as técnicas de imageamento de radioscopia e radiografia, que apresentam diversas limitações e riscos. Assim, técnicas de localização baseadas em magnetômetros como SQUID, GMI e GMR têm sido desenvolvidas, com variados graus de complexidade e sucesso. Uma das principais dificuldades de ordem prática, além do custo e das dimensões do sistema de medição no caso do SQUID, que opera a temperaturas criogênicas, é a necessidade de o paciente estar posicionado em uma estrutura móvel de grandes dimensões que permita a determinação das coordenadas da posição bidimensional do mapeamento magnético. Por outro lado, as pequenas dimensões dos sensores GMR ou GMI possibilitam o desenvolvimento de um sistema de medição portátil que poderia integrar outros sensores que em conjunto viabilizem a determinação da posição espacial do sensor magnético em relação ao paciente. Esta dissertação de mestrado investiga técnicas de determinação da posição espacial de um dispositivo portátil, baseado em uma plataforma Raspberry Pi, integrando sensor GMR, câmera, sensores inerciais e um sensor de distância, visando ao futuro desenvolvimento de um protótipo de dispositivo médico portátil para localização de corpos estranhos ferromagnéticos. A pesquisa também investiga técnicas de resolução do problema inverso magnético em tempo real baseadas em filtros de Kalman e ajuste por mínimos quadrados, de modo a acelerar o procedimento diagnóstico na futura aplicação clínica do dispositivo. / [en] The current procedures for locating ferromagnetic foreign bodies used in the clinic involve radioscopy and radiography image techniques, which presents several limitations and risks. Thus, localization techniques based on magnetometers were developed as SQUID, GMI and GMR, with varying degrees of complexity and success. One of the main difficulties, in addition to the cost and dimensions of the system, in the case of the SQUID, which operates at cryogenic temperatures, is the need for the patient to be positioned in a large structure that allows flexibility in the configurations of the two-dimensional position of the magnetic mapping. On the other hand, the small dimensions of the GMR or GMI sensors allow the development of a portable measurement system that could integrate other sensors that together make it possible to determine the spatial position of the magnetic sensor in relation to the patient. This master s dissertation investigates techniques for determining the spatial position of a portable device, based on a Raspberry Pi platform, integrating GMR sensor, camera, inertial sensors and a distance sensor, aiming at the future development of a prototype of a portable medical device for localization of ferromagnetic foreign bodies. The research also investigates real-time inverse magnetic problem solving techniques based on Kalman filters and least squares adjustment, in order to accelerate the diagnostic procedure in the future clinical application of the device. [pt] METROLOGIA [pt] DISPOSITIVO MEDICO PORTATIL [pt] MAGNETOMETRO GMR [pt] CORPOS ESTRANHOS FERROMAGNETICOS [en] METROLOGY [en] PORTABLE MEDICAL DEVICE [en] GMR MAGNETOMETER [en] FERROMAGNETIC FOREIGN BODIES
98	[en] DESIGN OF A SYSTEM FOR DETECTION OF NONFERROMAGNETIC METALLIC FOREIGN BODIES BASED IN EDDY CURRENTS AND GMI MAGNETOMETER / [pt] PROJETO DE SISTEMA DE DETECÇÃO DE CORPOS ESTRANHOS METÁLICOS NÃO-FERROMAGNÉTICOS BASEADO EM EDDY CURRENTS E MAGNETÔMETRO GMI VINICIUS TOSTES SEIXAS 21 November 2022 (has links) [pt] Esta dissertação apresenta um projeto de sistema portátil de localização de corpos estranhos metálicos não ferromagnéticos por meio de mapeamento magnético. O sistema baseia-se na indução de correntes parasitas no corpo estranho por um estágio de excitação e na medição por um magnetômetro GMI comercial de elevada resolução (25 pT). A topologia do instrumento é baseada no desacoplamento dos estágios de excitação e medição, com uma configuração que produz linhas de campo magnético primário elevadas na região do corpo estranho e tênues na região do sensor. Esta característica supera as limitações de um instrumento previamente desenvolvido, permitindo aumentar o campo magnético primário de excitação sem saturar o magnetômetro. O projeto é baseado em simulações computacionais, considerando dois tipos de excitação e duas orientações para o eixo de sensibilidade do magnetômetro. Diretrizes internacionais para os limites de exposição à radiação não-ionizante, aspectos biometrológicos, construtivos e elétricos também foram levados em consideração no projeto. A análise de desempenho das configurações mais promissoras confirmou a viabilidade do instrumento de medição proposto, otimizando a operação linear do magnetômetro durante o procedimento de medição e contribuindo para a futura construção de um protótipo de sistema de medição completo, com características de desempenho e segurança asseguradas para a aplicação biomédica pretendida. / [en] This dissertation presents a portable system for the localization of nonferromagnetic foreign metal bodies by magnetic mapping. The system is based on the induction of eddy currents in the foreign body by an excitation stage and the measurement by a high resolution commercial GMI magnetometer (25 pT). The instrument topology is based on the decoupling of the stages of excitation and measurement, with a configuration that produces a high primary magnetic field in the foreign body region and a weak one in the sensor region. This feature surpasses the limitations of a previously developed instrument, allowing to increase the primary excitation magnetic field without saturating the magnetometer. The project is based on computational simulations, considering two types of excitation and two orientations for the magnetometer sensitivity axis. International guidelines for exposure limits to non-ionizing radiation, biometrological, constructive and electrical aspects were also taken into consideration in the project. The performance analysis of the most promising settings confirmed the viability of the proposed measurement instrument, optimizing the linear operation of the magnetometer during the measurement procedure and contributing to the future construction of a complete measurement system prototype, with performance and safety characteristics ensured for the intended biomedical application. [pt] METROLOGIA [pt] MAGNETOMETROS GMI [pt] CORRENTES PARASITAS [pt] CORPOS ESTRANHOS METALICOS [pt] DISPOSITIVO MEDICO PORTATIL [en] METROLOGY [en] GMI MAGNETOMETER [en] EDDY-CURRENTS [en] METALLIC FOREIGN BODIES [en] PORTABLE MEDICAL DEVICE
99	High-resolution near-shore geophysical survey using an Autonomous Underwater Vehicle (AUV) with integrated magnetometer and side-scan sonar Hrvoic, Doug January 2014 (has links) <p>Small, low cost Autonomous underwater vehicles (AUVs) provide ideal platforms for shallow water survey, as they are capable of unmanned navigation and can be programmed to acquire data at constant depth, or constant altitude above the seabed. AUVs can be deployed under most sea states and are unaffected by vessel motions that often degrade sonar and magnetometer data quality. The integration of sonar and magnetometer sensors on AUV’s is challenging, however, due to limited payload and strong magnetic fields produced by the vehicle motor.</p> <p>In this study, a Marine Magnetics Explorer Overhauser magnetometer was mated to a portable AUV (OceanServer Iver2) creating the first practical AUV- deployed magnetic survey system. To eliminate magnetic interference from the AUV, the magnetometer was tethered to the AUV with a 5 m tow cable, as determined by static and dynamic instrument testing. The results of the magnetic tests are presented, along with field data from a shallow water test area in Lake Ontario near Toronto, Canada. AUV-acquired magnetic survey data were compared directly with a conventional boat-towed magnetic survey of the same area. The AUV magnetic data were of superior quality despite being collected in rough weather conditions that would have made conventional survey impossible. The resulting high-resolution total magnetic intensity and analytic signal maps clearly identify several buried and surface ferrometallic targets that were verified in 500-kHz side- scan sonar imaging and visual inspection by divers.</p> / Master of Science (MSc) Autonomous underwater vehicle (AUV) Overhauser magnetometer magnetic survey side-scan sonar ferrometallic target detection Geology Geophysics and Seismology Ocean Engineering Robotics Geology
100	Měření vzdálenosti pomocí senzorů mobilního telefonu / Distance measurement using sensors of mobile phone Hubr, Ivo January 2013 (has links) Distance and the associated parameters can be measured by specific sensors mobile device. Introduction The work focuses on the description of the sensors and the effects on their accuracy. To measure the distance, there is a number of good practices, which were described and demonstrated the application implemented source code for the Android platform. The project works with a total of three sensors, namely accelerometer, magnetometer and camera. The main objective of this work is the definition and application of methods for measuring distance using the appropriate sensors.

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