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41	Compliant Behaviors for Remote Robotic Operations Pokharna, Rahul Kishor 25 January 2022 (has links) No description available. Computer Science Robotics Robots Technology Systems Design remote operations compliant behaviors accommodation control robotics robotic arm compliance PTWL RWE DTP force feedback large latencies
42	Design and Implementation of the SAX, a Robotic Measurement System for On-Chip Antennas at 140-325 GHz Pontusson, Magnus January 2018 (has links) There is currently a demand of mm‑wave on‑chip antennas to enable all kinds of new applications in several different areas. But the development requires, among other things, special equipment used during the measurement phase due to the small dimensions and the high frequencies. In this project a robotic measurement system, SAX (Single Arm eXtra), was designed and constructed at Micro and Nanosystems (MST) department at KTH Royal Institute of Technology (Sweden). The purpose of the SAX is to enable radiation pattern measurements of on‑chip antennas ( 140 GHz to 325 GHz ), whether the boresight is vertical or horizontal along with other requirements, by moving a converter with the measurement antenna around the antenna in question. Several alternative designs for the basic construction, both from other works and invented by the author, were analyzed based on the requirements for this project and other limitations. The chosen unique design, the SAX, is very compact and uses only one stepper motor. Several parts have been developed in this project to ensure the proper functionality of the SAX. That includes a main operator program, a motor input signal generating program, a motor input signal executing system, a security system, and a system for controlled rotation of the SAX. For the input signal to the motor two different algorithms to generate the time delays were developed and tested. They were adapted to make the motor manage the sweeps of an ever‑changing load with high inertia during acceleration and deceleration. One of them was developed to make the time delay array generation much more efficient albeit with larger approximation error. The SAX worked well and should be rather easy‑to‑use regarding the operation of the system, from the physical maneuvering to utilizing the sub‑systems to the running of the main operator program. It fulfilled the specific requirements by enable a cross pattern measurement from -60° to +60° both from above and from the side, adjustment of the radius between 15cm to 45cm , adjustment 10cm in height, to be rotated along the floor in steps of 1°, measurement steps of 1° with an accuracy of less than 0,5° (the largest error was measured to be ≤ 0,461°). However, some calibration work needs to be done before the optimal performance of the system is reached. As a verification of the operation of the system data from measurements of open‑ended waveguides was presented. / Det finns en efterfrågan på chipantenner för millimetervågor eftersom de kan möjliggöra allehanda produkter inom flera olika områden. Forskningen på dessa ställer dock bl.a. speciella krav på utrustning som används under testmätningsfasen p.g.a. de små dimensionerna och den höga frekvensen. I detta projekt har ett robotsystem, SAX (Single Arm eXtra), utformats och konstruerats på avdelningen för Mikro- och nanosystem på KTH. Syftet med SAX är att mäta högfrekventa chipantenner ( 140 GHz till 325 GHz ) genom att förflytta en frekvensomvandlare med tillhörande mätantenn i en cirkulär bana runt antennen ifråga, oavsett om den är riktad vertikalt eller horisontellt och givet andra kravspecifikationer. Flera designalternativ för den grundläggande konstruktionen, både från andras arbeten och framtagna av författaren själv, har analyserats utifrån kravspecifikation för detta projekt och andra begränsningar. Den valda unika designen, SAX, är väldigt kompakt och använder sig bara av en stegmotor. För att möjliggöra funktionen i den slutgiltiga produkten har flera delar tagits fram vilka inkluderar ett operatörsprogram, ett program för genererandet av motorstyrsignaler, ett program för motorstyrning, ett säkerhetssystem och ett rotationssystem för kontrollerad rotation av SAX. För genererandet av motorstyrsignaler i form av tidsfördröjda pulser framtogs två olika algoritmer. De ger anpassade accelerations- och retardationssignaler för att motorn ska klara av att förflytta en föränderlig last med stor tröghet. En av dessa framtogs med syfte att mycket effektivt generera pulstiderna om än med större approximationsfel. SAX fungerade tillfredsställande och torde vara ganska lättanvänd med tanke på vad systemet kräver av operatören, från att fysiskt manövrera systemet till att använda delsystemen till att använda operatörsprogrammet. Systemet uppfyllde de givna specifika kraven genom att möjliggöra mätningar i form av ett kryssmönster från -60° till +60° både ovanifrån och från sidan, radiejustering från 15cm till 45cm , höjdjustering över 10cm , rotation över golvet i steg om 1° , mätningar i steg om 1° med en noggrannhet på 0,5° (den största avvikelsen uppmättes till ≤ 0,461°). Vidare kalibrering behöver dock utföras för att utnyttja den fulla potentialen hos konstruktionen. För att verifiera funktionsdugligheten för systemet presenterades data från mätningar gjorda på öppna vågledare. Robotic measurement system robotic arm stepper motor control antenna measurement antenna radiation pattern mm-wave antenna mm-wave measurement on-wafer measurement far-field measurement Engineering and Technology Teknik och teknologier
43	Human-Robot Interaction : An Arm Gesture-Based Approach Venturi, Sai Siri Sree, Bojja, Poorna Teja January 2023 (has links) Industrial robotic arms have transformed the manufacturing environment by providing efficient and precise automation solutions. These sophisticated machines, powered by innovative technology, are capable of performing difficult tasks with speed and accuracy. The project described here is related to industrial robotics because it focuses on the creation of a gesture-controlled robotic arm. This project aims to build a robotic arm that can be controlled by gestures utilising MPU6050 sensors and flex sensors. By interpreting gestures acquired by strategically placed sensors, the robotic arm is designed to emulate human arm movements. The MPU6050 sensors are placed on the hand, near the elbow, and near the shoulder, allowing the system to capture the arm’s orientation and movement in real time. The gripper mechanism of the robotic arm is controlled by a flex sensor on the index finger. The central control unit is the Arduino UNO Rev3 SMD microcontroller, which is in charge of analyzing sensor input and translating it into matching robotic arm movements. The suggested system intends to provide a user-friendly and intuitive method for robotic arm control, with possible applications in a variety of domains such as industrial automation, medical support, and prosthetics. Arduino UNO Rev3 SMD board Flex Sensor Gesture-control Industrial Robotic arm MPU6050 sensors. Elektroteknik och elektronik
44	NAVIGO – Robô autônomo para navegação agrícola Silva, Daurimar Mendes da 26 August 2013 (has links) Made available in DSpace on 2017-07-21T14:19:42Z (GMT). No. of bitstreams: 1 Daurimar Mendes da Silva.pdf: 4676770 bytes, checksum: 205397680d88c57f767ce2df43f7b077 (MD5) Previous issue date: 2013-08-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In the future it will be essential to robotics in the agricultural environment, with great opportunity at this time to development new work and research, with the generation of patents, transforming knowledge into commercial products. The current technological advances allow the use of extremely minor processing architectures in relation to personal computers, giving us the ability to build new agricultural equipment using sensors (GPS, ultrasound, multispectral visible, infrared, images); changing paradigms and promoting the work at smaller scales can reach the leaf level through intelligent autonomous robots acting in the desired place, at the appropriate time, and navigating the appropriate path. Thus, the present study aimed to develop an autonomous agricultural robot (Field Robot) called NAVIGO, whose function is to traverse farmland collecting soil samples. To that end, we developed a mobile platform with a robotic arm using embedded computing system based on the Android mobile phone (Smartphone) and IOIO for Android controller. The system as a whole is intended to navigation in the role of information gatherer (soil amples). Results showed stable performance of the prototype allowing its use as a handy tool in performing the sampling of soils for agricultural areas for small and medium businesses. / No futuro será indispensável a robótica no ambiente agrícola, sendo grande oportunidade neste momento o desenvolvimento de novos trabalhos e pesquisas, com a geração de patentes, transformando os conhecimentos em produtos comerciais. Os avanços tecnológicos atuais permitem utilizar arquiteturas de processamento extremamente menores em relação aos computadores pessoais, que nos dão condições de construir novos equipamentos agrícolas utilizando sensores (GPS, ultrassom, multiespectral visível, infrared, imagens); modificando paradigmas e promovendo o trabalho em escalas menores podendo chegar ao nível foliar, através de robôs inteligentes autônomos atuando no lugar desejado, no momento apropriado, e navegando no trajeto adequado. Desta forma, o presente trabalho teve por objetivo o desenvolvimento de um robô agrícola autônomo (Field Robot), denominado NAVIGO, que tem por função percorrer talhões agricultáveis coletando amostras de solos. Para tanto, foi desenvolvido uma plataforma móvel com um braço robótico utilizando sistema computacional embarcado baseado no telefone móvel Android (Smartphone) e controlador IOIO para Android. O sistema como um todo tem por finalidade a navegação desempenhando a função de coletor de informações (amostras de solos). Os resultados obtidos demonstraram atuação estável do protótipo permitindo o seu uso como ferramenta útil na execução de coletas de amostras de solos para áreas agrícolas de pequeno e médio porte. agricultura de precisão Agrobot amostragem de solos automação agrícola braço robótico coletor de informações IOIO Android precision agriculture Agrobot soil sampling agricultural automation robotic arm scouting IOIO Android
45	Dielectric elastomer actuators in electro-responsive surfaces based on tunable wrinkling and the robotic arm for powerful and continuous movement Lin, I-Ting January 2019 (has links) Dielectric elastomer actuators (DEAs) have been used for artificial muscles for years. Recently the DEA-based deformable surfaces have demonstrated controllable microscale roughness, ease of operation, fast response, and possibilities for programmable control. DEA muscles used in bioinspired robotic arms for large deformation and strong force also become desirable for their efficiency, low manufacturing cost, high force-to-weight ratio, and noiseless operation. The DEA-based responsive surfaces in microscale roughness control, however, exhibit limited durability due to irreversible dielectric breakdown. Lowering device voltage to avoid this issue is hindered by an inadequate understanding of the electrically-induced wrinkling deformation as a function of the deformable dielectric film thickness. Also, the programmable control and geometric analysis of the structured surface deformation have not yet been fully explored. Current methods to generate anisotropic wrinkles rely on mechanical pre-loading such as stretching or bending, which complicates the fabrication and operation of the devices. With a fixed mechanical pre-loading, the device can only switch between the flat state and the preset wrinkling state. In this thesis, we overcome these shortcomings by demonstrating a simple method for fabricating fault-tolerant electro-responsive surfaces and for controlling surface wrinkling patterns. The DEA-based system can produce different reversible surface topographies (craters, irregular wrinkles, structured wrinkles) upon the geometrical design of electrode and application of voltage. It remains functional due to its ability to self-insulate breakdown faults even after multiple high voltage breakdowns, and the induced breakdown punctures can be used for amplification of local electric fields for wrinkle formation at lower applied voltages. We enhance fundamental understanding of the system by using different analytical models combined with numerical simulation to discuss the mechanism and critical conditions for wrinkle formation, and compare it with the experimental results from surface topography, critical field to induce wrinkles in films of different thickness, and wrinkling patterns quantitatively analysed by different disorder metrics. Based on the results, we demonstrate its wide applicability in adjustable transparency films, dynamic light-grating filter, molding for static surface patterns, and multi-stable mirror-diffusor-diffraction grating device. For DEAs used for macroscopic-scale deformation in robotic arms, the main issue that undermines the performance of DEA muscles is the trade-off between strong force and large displacement, which limits the durability and range of potential robotic and automation applications of DEA-driven devices. In this thesis, this challenge is tackled by using DEAs in loudspeaker configuration for independent scaling-up of force and displacement, developing a theoretical prediction to optimise the operation of such DEAs in bioinspired antagonistic system to maximise speed and power of the robotic arm, and designing a clutch-gear-shaft mechanical system collaborating with the muscles to decouple the displacement and output force. Therefore, the trade-off between force and displacement in traditional DEA muscles can be resolved. The mechanical system can also convert the short linear spurt to an unlimited rotary motion. Combining these advantages, continuous movement with high output force can be accomplished.
46	Uma contribuição ao desenvolvimento de manipuladores antropomorficos com enfase na utilização de musculos artificiais / A contribution to the development of anthropomorphic manipulators with emphasis in the use of artificial muscles Mendes, Eduardo Felippe Aguiar 26 February 2007 (has links) Orientadores: Helder Anibal Hermini, Paulo R. G. Kurka / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-10T05:53:08Z (GMT). No. of bitstreams: 1 Mendes_EduardoFelippeAguiar_M.pdf: 4299696 bytes, checksum: d73355f383b74bd0e49b3bc2473e5b6b (MD5) Previous issue date: 2007 / Resumo: Este trabalho visou o estudo de manipuladores à semelhança do membro superior humano. Após o estudo do membro superior humano e dos robôs antropomórficos disponíveis tanto na industria quanto no meio acadêmico, utilizaram-se teorias de modelagem geométrica, cinemática direta e cinemática inversa para realizar o modelo de um manipulador robótico antropomórfico. A partir desse modelo desenvolveu-se um software em LabVIEW de Cinemática Direta e Cinemática Inversa de operação em tempo real. Com a intenção de verificar os acionadores mais apropriados disponíveis atualmente, um estudo de músculos artificiais se seguiu, onde se observou a maior viabilidade do músculo artificial de SMA ativado eletricamente. Um protótipo de junta acionada por músculos artificiais foi desenvolvido e controlado via computador. Como resultado deste trabalho conclui-se que há ainda muito para ser desenvolvido na área de manipuladores antropomórficos, principalmente no que diz respeito aos músculos artificiais / Abstract: This work sought the study of manipulators to the similarity of the human superior member. After the study of human superior member, and of anthropomorphics robotics available in the industries and in the academic middle, it was used theories of geometric modelling, direct kinematics modelling and inverse kinematics modelling to make the model of a anthropomorphic robotic manipulator. With that model it grew a software in LabVIEW of real time Direct Kinematics and Inverse Kinematics. With the intention of verifying the available most appropriate actuators, a study of artificial muscles was proceeded, where the largest viability of the artificial muscle of SMA activated electrically was observed. A joint prototype actuated by artificial muscles was developed and controlled through computer. As a result of this work it is ended that there is still a lot to be developed in the area of anthropomorphic manipulators, mainly in what it concerns the artificial muscles / Mestrado / Mecanica dos Sólidos e Projeto Mecanico / Mestre em Engenharia Mecânica Manipuladores (Mecanismo) Robótica Robos Metal de memória de forma Músculos Braço mecanico Geometria cinemática Biomecânica Anthropomorphic manipulator Robotic arm Artificial muscle SMA Shape memory alloy Geometric modelling Direct kinematics modelling Inverse kinematics modelling
47	3D rekonstrukce scény pomocí Cliffordových algeber / 3D scene reconstruction using Clifford algebras Hrubý, Jan January 2018 (has links) Tato diplomová práce má za cíl seznámit čtenáře se stále ještě relativně novou a neznámou oblastí matematiky, s geometrickou algebrou. Nejdříve jsou uvedeny základní definice a poté jsou studovány vlastnosti obecné geometrické algebry. Další velká část textu se věnuje Konformní geometrické algebře, která je v současnosti jedna z nejvíce zkoumaných a aplikovaných geometrických algeber. Jsou popsány její algebraické a geometrické vlastnosti, konkrétně schopnost reprezentovat určité geometrické objekty jako vektory. Taktéž umožňuje počítat jejich průniky a konformní transformace. Další část textu je zaměřena na aplikace Konformní geometrické algebry, nejdříve k popisu kinematiky robotické ruky a poté v binokulárním viděni.
48	Autonomous Skills for Remote Robotic Assembly Haberbusch, Matthew Gavin 01 June 2020 (has links) No description available. Robotics Robots Computer Science Electrical Engineering Engineering robotic assembly autonomous skills virtual attractor natural admittance control force control admittance control autonomy ROS robot operating system remote robotic assembly robot robotics robotic arm robot control robotic skills
49	Design, analysis, and simulation of a humanoid robotic arm applied to catching Yesmunt, Garrett Scot January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / There have been many endeavors to design humanoid robots that have human characteristics such as dexterity, autonomy and intelligence. Humanoid robots are intended to cooperate with humans and perform useful work that humans can perform. The main advantage of humanoid robots over other machines is that they are flexible and multi-purpose. In this thesis, a human-like robotic arm is designed and used in a task which is typically performed by humans, namely, catching a ball. The robotic arm was designed to closely resemble a human arm, based on anthropometric studies. A rigid multibody dynamics software was used to create a virtual model of the robotic arm, perform experiments, and collect data. The inverse kinematics of the robotic arm was solved using a Newton-Raphson numerical method with a numerically calculated Jacobian. The system was validated by testing its ability to find a kinematic solution for the catch position and successfully catch the ball within the robot's workspace. The tests were conducted by throwing the ball such that its path intersects different target points within the robot's workspace. The method used for determining the catch location consists of finding the intersection of the ball's trajectory with a virtual catch plane. The hand orientation was set so that the normal vector to the palm of the hand is parallel to the trajectory of the ball at the intersection point and a vector perpendicular to this normal vector remains in a constant orientation during the catch. It was found that this catch orientation approach was reliable within a 0.35 x 0.4 meter window in the robot's workspace. For all tests within this window, the robotic arm successfully caught and dropped the ball in a bin. Also, for the tests within this window, the maximum position and orientation (Euler angle) tracking errors were 13.6 mm and 4.3 degrees, respectively. The average position and orientation tracking errors were 3.5 mm and 0.3 degrees, respectively. The work presented in this study can be applied to humanoid robots in industrial assembly lines and hazardous environment recovery tasks, amongst other applications. robot humanoid robotic catching ball catching robotic arm Androids -- Research Autonomy -- Research Intellect -- Research Biomimicry -- Research -- Methodology Robotics -- Human factors Robots -- Kinematics Automatic control Robots -- Programming Catching (Baseball) Mechatronics -- Computer simulation Autonomous robots Control theory -- Data processing Dynamics -- Data processing Dynamics -- Computer simulation
50	<b>Automation of the Quality Control Process with the use of robotics and a coordinate Measuring Machine</b> Alexander G Hoang (16677327) 02 August 2023 (has links) <p>The purpose of this research experiment was to explore and implement a cost-effective automation solution into a low volume production line for loading parts onto a coordinate measuring machine (CMM) for dimensional inspection. Quality control practices have historically been separated from production process by inspection routines being performed in a controlled lab. The system demonstrated the possibilities of an in-process automation of the quality control process that was feasible to be implemented for small and mid-sized manufacturing companies. The process involved an APSX horizontal injection mold machine dispensing parts onto the conveyor belt. The conveyor belt was controlled by a Phoenix Contact PLC and two line sensors that provided two stopping point for cooldown before inspection. A MyCobot 320-M5 robotic arm was used to select the part off the line and places it into a fixture on a Hexagon coordinate measuring machine (CMM).</p> Automation engineering Control engineering Manufacturing robotics Engineering design Systems engineering Flexible manufacturing systems Manufacturing safety and quality Quality control - Simulation methods coordinate measuring machine robotic arm application Automation and instrumentation PLC programming cobots Conveyor Automation Systems Conveyors Quality Control Considerations MSMEs PLC process

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