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Actuator performance envelope through nonlinear test bedYoo, Jae Gu 28 August 2008 (has links)
Not available / text
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Study on Reinforced Soft Actuator for Exoskeleton ActuatorsUnknown Date (has links)
This thesis concerns the design, construction, control, and testing of soft robotic
actuators to be used in a soft robotic exoskeleton; the Boa Exoskeleton could be used for
joint rehabilitation including: wrist, elbow and possibly shoulder or any joint that requires
a soft body actuator to aid with bending movement. We detail the design, modeling and
fabrication of two types of actuators: Fiber-reinforced Actuator and PneuNet Actuator.
Fiber-Reinforced actuator was chosen for the exoskeleton due to its higher force. The
Fiber-Reinforced actuator molds were 3D printed, four models were made. Two materials
were used to fabricate the models: Dragon Skin 30A and Sort-A-Clear 40A. Two number
of windings: (n=40) and (n=25), actuators wrapped with carbon fiber. An air tank was used
to supply pressure. The actuators were studied at different pressures. Pressure-force
relation was studied, and a close to linear relationship was found. Boa Exoskeleton was
made for wrist. Electromyography (EMG) was used; Four EMG receptors were put around
the arm. EMG was utilized to actuate the Boa Exoskeleton and record the muscle
movement. Five tests were done on six human subjects to validate the Boa Exoskeleton. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection
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A biomorphic integrated-circuit implementation of muscular contractionHudson, Tina Ann 08 1900 (has links)
No description available.
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Design and development of new micro-force sensorsWei, Yu Zhang January 2017 (has links)
University of Macau / Faculty of Science and Technology / Department of Electromechanical Engineering
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Soft Robotics: Fiber Reinforced Soft Pneumatic Multidirectional Manipulators, Designing, Fabricating, and TestingUnknown Date (has links)
Traditional robots are made from hard materials like hard plastic or metal and consist of
regular rigid mechanical parts. Using those parts has some limitations, like limited
dexterity and lack of flexibility. Some of these limitations could be avoided through using
a compliant material, because it has higher flexibility and dexterity. It is also safer to be in
direct contact with humans. This thesis studies soft pneumatic manipulators (SPMs) that
move in multi degrees of freedom (MDOF), which makes them able to perform various
functions. The study will include designing, fabricating, and testing three different SPMs
with different taper angles -- 0^0, 1^0, and 2^0 -- to measure the effect of varying this geometry
on the achievable force by the end effector and the range of bending and elongation. Every
single SPM consists of three soft pneumatic chambers to reach unlimited points on its
workspace through implementing bending and elongating movements. There are a lot of
applications for this kind of soft actuators, like rehabilitation, underwater utilizes, and
robots for surgery and rescues. Most soft pneumatic actuators provide one kind of movement, for bending, twisting, or elongating. Combining more than one kind of
movement in one soft pneumatic actuator provides considerable contributions to the body
of research. The SPMs were controlled and tested to evaluate the achieved force and two
kinds of movement, bending and elongating range. The results of each module has been
compared with the others to determine which actuator has the best performance. Then a
force controller was created to maintain the desired force that was achieved by the end
effector. The results indicated that the optimal angle of the SPM was 2^0. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection
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Design and analysis of multifunctional actuators for assistive knee braces. / CUHK electronic theses & dissertations collectionJanuary 2010 (has links)
In this research, a novel magnetorheological (MR) fluids based multifunctional actuator for assistive knee braces is designed. To decrease the dimension of the actuation device while enhancing its perfonnances, a motor and MR fluids are integrated into a single device. With MR fluids, the actuator possesses multiple functions as motor, clutch, and brake while meeting the requirement of nonnal human motion as well. In this thesis, design details and operating principle of the actuator are illustrated, and possible configurations of the motor part and clutch/brake part are discussed. Finite element method is utilized to analyze the magnetic circuits, influence of pennanent magnet on MR fluids, and magnetic flux distribution. Different clutch/brake parts with various inner coils are compared and analyzed, followed by a design optimization to improve the output torque. Prototypes of the multifunctional actuator are fabricated and tested, and characteristics of each function are investigated. As the actuator has multiple functions, modeling is developed for different functions, and system identification is carried out to determine the parameters. Adaptive control is utilized to control the actuator for torque and speed tracking. A smart joint using such a multifunctional actuator is designed, and its prototype is fabricated and tested. Power consumptions of knee brace using the smart joint are investigated during normal walking cycle. The results show that the developed actuator and smart joint are promising to be used in assistive knee braces. / Guo, Hongtao. / Source: Dissertation Abstracts International, Volume: 73-03, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 154-158). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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Actuator design for a haptic displayTognetti, Lawrence Joseph 08 1900 (has links)
No description available.
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Implementation of arbitrary path constraints using dissipative passive haptic displaysSwanson, Davin Karl 05 1900 (has links)
No description available.
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MEMS micro-bridge actuator for potential application in optical switchingMichael, Aron, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW January 2007 (has links)
In this thesis, the development of a novel electro-thermally actuated bi-stable out-of-plane two way actuated buckled micro-bridge for a potential application in optical switching is presented. The actuator consists of a bridge supported by 'legs' and springs at its four corners. The springs and the bridge are made of a tri-layer structure comprising of 2.5??m thick low-stress PECVD oxide, 1??m thick high-stress PECVD oxide and 2??m thick heavily phosphorus doped silicon. The legs, on the other hand, are 2??m thick single layer heavily phosphorus doped silicon. Both legs and springs provide elastically constrained boundary conditions at the supporting ends, without of which important features of the micro-bridge actuator could not have been achieved. This microbridge actuator is designed, simulated using ANSYS, fabricated and tested. The results from the testing have shown a good agreement with analytical prediction and ANSYS simulation. The actuator demonstrated bi-stability, two-way actuation and 31??m out-of-plane movement between the two-states using low voltage drive. Buckled shape model, design method for bi-stability and thermo-mechanical model are developed and employed in the design of the micro-bridge. These models are compared with Finite Element (FE) based ANSYS simulation and measurements from the fabricated micro-bridge and have shown a good agreement. In order to demonstrate the potential application of this actuator to optical switching, ANSYS simulation studies have been performed on a micro-mirror integrated with the micro-bridge actuator. From these studies, the optimum micro-mirror size that is appropriate for the integration has been obtained. This optimal mirror size ensures the important features of the actuator. Mirror fabrication experiments in (110) wafer have been carried out to find out the appropriate compensation mask size for a given etch depth and the suitable wafer thickness that can be used to fabricate the integrated system.
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Design and fabrication of a MEMS magnetic bistable valveCreyts, Don Stafford IV 12 1900 (has links)
No description available.
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