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31	Wireless Model-Controlled Robotic Arm via IoT : Controlling a robotic arm with a model arm via the Internet of Things / Trådlös modellkontrollerad robotarm via IoT : Styrning av en robotarm med en modell-arm via Internet ofthings Druschke, Mattis, Voigt, Karl January 2022 (has links) As the Internet of Things (IoT) is revolutionising and digitalising industry and the need for remote connectivity is increasing, there is an opportunity for new solutions for remotely controlled industrial equipment. One possible way of controlling industrial robot arms is by using a universal model arm input device of a different scale. The question this can lead to is, how a wireless IoT solution for a model-controlled robot arm can perform. This thesis realises this concept with a working demonstrator consisting of a model arm and a robot arm, connected through a third party IoT service. Tests, measuring the precision of the replicated motion and the time delay are used to evaluate the performance. The results lead to the conclusion, that the envisioned concept has merit, but is restricted by limitations such as the transmission interval of the used IoT service. Further, the conclusions and accomplishments of this thesis could serve as a basis for additional research on this method of remotely controlling industrial equipment. / Sakernas internet (IoT) revolutionerar och digitaliserar industrin, samtidigt som behovet av fjärranslutning ökar. Detta öppnar möjligheter till nya lösningar för fjärrstyrd industriell utrustning. Ett sätt att styra industrirobotar är att använda en universell modellarm i annan skala än robotarmen. Detta leder till frågan hur en trådlös IoT-lösning för en modellstyrd robotarm kan fungera. I detta projekt förverkligas konceptet med hjälp av en prototyp som består av en modellarm och en robotarm. Dessa är anslutna via en IoT-tjänst från en tredje part. Prestandan och precisionen av den återskapade rörelsen och tidsfördröjningen utvärderas genom tester. Slutsatsen dras att konceptet har fördelar, men begränsas av bland annat överföringsintervallet på grund av den valda IoT-tjänsten. Slutsatserna och resultaten från projektet skulle kunna användas för ytterligare forskning kring denna metod av fjärrstyrning. IoT robotic arm mechatronics Raspberry Pi microcontroller IoT robotarm mekatronik Raspberry Pi mikrokontroller Engineering and Technology Teknik och teknologier
32	Passive Haptic Robotic Arm Design Yilmaz, Serter 01 October 2010 (has links) (PDF) The implant surgery replaces missing tooth to regain functionality and look of the normal tooth after dental operation. Improper placement of implant increases recuperation periods and reduces functionality. The aim of this thesis is to design a passive haptic robotic arm to guide dentist during the implant surgery. In this thesis, the optimum design of the 6R passive haptic robotic arm is achieved. The methodology used in optimization problem involves minimization of end-effector side parasitic forces/torques while maximizing transparency of the haptic device. The transparency of haptic device is defined as realism of forces generated by device in real world compared to forces in virtual world. The multivariable objective function including dynamic equations of 6R robotic arm is derived and the constraints are determined using kinematic equations. The optimization problem is solved using SQP and GA. The link lengths and other relevant parameters along with the location of tool path are optimized. The end-effector parasitic torques/forces are significantly minimized. The results of two optimization techniques have proven to be nearly the same, thus a global optimum solution has been found in the search space. Main contribution of this study is to take spatial nonlinear dynamics into consideration to reduce parasitic torques. Also, a mechanical brake is designed as a passive actuator. The mechanical brake includes a cone based braking system actuated by DC motor. Three different prototypes are manufactured to test performance of the mechanical brake. The final design indicates that the mechanical brake can be used as passive actuators.
33	Robust nonlinear observer for a non-collocated flexible motion system Waqar, Mohsin 01 April 2008 (has links) Robustness of the closed-loop system has repercussions on both stability and performance, making the study of robustness very important. Fundamentally, the performance and stability of closed-loop systems utilizing state-feedback are tied to that of the observers. The primary goal of this thesis is to develop a robust nonlinear observer and closely examine the usefulness of the observer in the presence of non-collocation and parametric uncertainty and as an integral component in closed-loop control. The usefulness of the observer being investigated depends on robustness, accuracy, computational burden, tunability, ease of design, and ease of implementation on an actual flexible motion system. The design and subsequent integration of the Kalman filter, an optimal observer, into a closed-loop system is well known and systematic. However, there are shortcomings of the Kalman filter in the presence of model uncertainty which are highlighted in this work. Simulation studies are conducted using the Simulation Module in National Instruments LabVIEW 8.5 and experiments are conducted on a physical system consisting of a single flexible link with non-collocation of actuators and sensors using LabVIEW Real Time 8.5. Simulations serve as a means to analyze the performance of the optimal observer and the robust observer by analyzing their dynamic behavior as well as that of the closed-loop system with each observer in place. The focus of experiments is on investigating implementation of the robust observer, including initialization and tuning of observer design parameters off-line and on-line. Simulations verify the robustness properties of the sliding mode observer while experiments show that the robust observer can be implemented at fast control rates and that replacing the Kalman filter with a robust observer has direct ramifications on closed-loop performance. State estimation Non-minimum phase Flexible robotic arm Sliding mode control Sliding mode observer Kalman filter Optimal estimator Control theory Manipulators (Mechanism) Feedback control systems
34	Utilização de matrizes no estudo de orientação e posição de um braço robótico por meio das coordenadas de Denavit-Hartenberg. / Use of matrices in the study of orientation and position of a robotic arm by Denavit-Hartenberg coordinates Costa, Carlos Gomides da 08 August 2014 (has links) Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2015-01-27T14:34:02Z No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação - Carlos Gomides da Costa - 2014.pdf: 5662268 bytes, checksum: 9c271f8544a1ec02f89c341d68f33801 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2015-01-28T12:36:28Z (GMT) No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação - Carlos Gomides da Costa - 2014.pdf: 5662268 bytes, checksum: 9c271f8544a1ec02f89c341d68f33801 (MD5) / Made available in DSpace on 2015-01-28T12:36:28Z (GMT). No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação - Carlos Gomides da Costa - 2014.pdf: 5662268 bytes, checksum: 9c271f8544a1ec02f89c341d68f33801 (MD5) Previous issue date: 2014-08-08 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / This work have as the main objective present one a different way to teach the subject matrix multiplication, a way in a ludic form, applied, that can transform the teaching more pleasureable and motivate for the high scholl students, because for many this issue has no practical applications, which for many reasons is the lack of interest in learning such content. The tool used to attract as students so as teachers was the utilization of Kit LEGO® Mindstorms NXT 2.0 for the construction of the robotic arm, or robotic manipulator, that which for this propose, has three rotational joints. The LEGO kit was choosen due its easy interaction with children and adolescents, and to encourage the construction of knowledge stimulating the solution of problems that may arise during the process of building robotic arm.The application of content takes place in obtaining the four parameters Denavit-Hartenberg and those obtained after the placement of reference systems, where three of these parameters are constants obtained by measurement at robotic arm and the fourth parameter is variable dependent on the intended movement or the final position which is to be determined. / O presente trabalho tem como principal objetivo apresentar mais uma opção de ensinar o assunto multiplicação de matrizes, de uma forma mais lúdica, aplicada, que pode tornar o ensino mais prazeroso e atrativo para alunos do ensino médio, pois para muitos esse assunto não tem aplicações práticas, o que para outros é motivo da falta de interesse em aprender tal conteúdo. A ferramenta apresentada com o intuito de atrair tanto alunos quanto professores, foi o Kit LEGO® Mindstorms NXT 2.0, que possibilitou a construção do braço robótico ou manipulador robótico, que nesse trabalho foi apresentado com três juntas do tipo rotacionais. A escolha desse Kit LEGO® é justificada pela sua facilidade de interação com crianças e adolescentes, além de estimular a construção do aprendizado pois, estimula a solução de problemas que possam aparecer durante o processo de construção do braço robótico. A aplicação do conteúdo se dá na obtenção dos quatro parâmetros de Denavit-Hartenberg que são obtidos após a colocação dos sistemas de referência, onde três desses parâmetros são definidos a partir de medições feitas no braço robótico e o quarto parâmetro é variável dependente do movimento pretendido ou a posição final que se queira determinar. Multiplicação de matrizes LEGO® Mindstorms Denavit-Hartenberg Braço robótico Juntas rotacionais Matrix multiplication LEGO® Mindstorms Denavit e Hartenberg Robotic arm Rotational joints CIENCIAS EXATAS E DA TERRA::MATEMATICA
35	MISIROOT: A ROBOTIC MINIMUM INVASION IN SITU IMAGING SYSTEM FOR PLANT ROOT PHENOTYPING Zhihang Song (8764215) 28 April 2020 (has links) <p>Plant root phenotyping technologies play an important role in breeding, plant protection, and other plant science research projects. The root phenotyping customers urgently need technologies that are low-cost, in situ, non-destructive to the roots, and suitable for the natural soil environment. Many recently developed root phenotyping methods such as minirhizotron, CT, and MRI scanners have their unique advantages in observing plant roots, but they also have disadvantages and cannot meet all the critical requirements simultaneously. The study in this paper focuses on the development of a new plant root phenotyping robot that is minimally invasive to plants and working in situ inside natural soil, called “MISIRoot”. The MISIRoot system (patent pending) mainly consists of an industrial-level robotic arm, a mini-size camera with lighting set, a plant pot holding platform, and the image processing software for root recognition and feature extraction. MISIRoot can take high-resolution color images of the roots in soil with minimal disturbance to the root and reconstruct the plant roots’ three-dimensional (3D) structure at an accuracy of 0.1 mm. In a test assay, well-watered and drought-stressed groups of corn plants were measured by MISIRoot at V3, V4, and V5 stages. The system successfully acquired the RGB color images of the roots and extracted the 3D points cloud data which showed the locations of the detected roots in the soil. The plants measured by MISIRoot and plants not measured (controls) were carefully compared with Purdue’s Lilly 13-4 Hyperspectral Imaging Facility (reference). No significant differences were found between the two groups of plants at different growth stages. Therefore, it was concluded that MISIRoot measurements had no significant disturbance to the corn plant’s growth.</p> Agricultural Engineering Plant root phenotyping root imaging 3D point cloud minimally invasive root measurement low-cost root phenotyping robotic arm application
36	Robotická ruka / Robotic hand Pizúr, Lukáš January 2019 (has links) The aim of this work is to design a robotic hand, which will be controlled by wireless Wi-Fi, will be equipped with a camera and for easier operation will be designed control glove. The first part of the thesis is a theoretical analysis, various variants of sensors are described, which can be used for motion detection, each drive units and their control. Next chapters are focused on used electronic modules and microcontrollers. The second part is practical and is focused on the mechanical design of a five-finger robotic hand and fixing to a robotic arm. Also described is the control electronics of the entire robotic hand and the programmed firmware. Next, the design and implementation of the control glove is described. The last chapter describes the programmed application for the Android operating system.
37	Řízení 6-ti osého manipulátoru / 6 Axis Manipulator Control Semrád, Michal January 2014 (has links) This master thesis discusses about designing and realization of a control system for a 6-axis robotic arm. The controlling system consist in a microcontroller LPC1756 with its firmware implemented under the Real-time operating system FreeRTOS and GUI application, running on a PC. The Microcontroller communicates with the PC through a serial line via SLIP protocol. Theoretically, it will deal with an explanation of the important terms, and describes the used robotic arm and its controlling unit. The practical part describes kinematics problems solving, firmware’s realization and GUI application.
38	Řízení robotické ruky pomocí PLC / Robotic arm control by PLC Pleva, Damián January 2016 (has links) The goals of this diploma thesis were to get acquainted with the model of the robotic arm Beta 6 from Merkur Company. Next design connections between control board and PLC from Rockwell Automation. Then design and realize Add-On instruction for movement in 3D space with appropriate visualization.
39	Přípravek pro robotickou ruku / Tool for robotic arm Provazník, Tomáš January 2013 (has links) The diploma thesis deals with the design of a fixture for a robotic arm used for manipulating noise and heat insulators employed in the automotive industry. The main objective is the design and the selection of components to meet the requirements imposed on the product. Further, design and control calculations of the components with operational information are reviewed. In the last chapter the thickness, the draft and the radius analysis of the molding with a description of the measurement is stated. Finally, the mechanical properties of the fixture frame were checked by the finite element method.
40	An Autonomous Intelligent Robotic Wheelchair to Assist People in Need: Standing-up, Turning-around and Sitting-down Papadakis Ktistakis, Iosif January 2018 (has links) No description available. Computer Engineering Computer Science Mechanical Engineering Robotics Assistive Robotics Wheelchairs Human Machine Interaction Speech Recognition Pose Estimation Active Participation System Integration Prototype Robotic Arm Decision Making

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