Fabrication Sensation And Control Of Fluidic Elastomer Actuators And Their Application Towards Hand Orthotics And Prosthetics

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Fabrication, Sensation and Control of Fluidic Elastomer Actuators and Their Application Towards Hand Orthotics and Prosthetics

Author : Huichan Zhao
Publisher :
ISBN 13 :
Total Pages : 306 pages
Book Rating : 4.:/5 (1 download)

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Book Synopsis Fabrication, Sensation and Control of Fluidic Elastomer Actuators and Their Application Towards Hand Orthotics and Prosthetics by : Huichan Zhao

Download or read book Fabrication, Sensation and Control of Fluidic Elastomer Actuators and Their Application Towards Hand Orthotics and Prosthetics written by Huichan Zhao and published by . This book was released on 2017 with total page 306 pages. Available in PDF, EPUB and Kindle. Book excerpt: Due to their continuous and natural motion, fluidic elastomer actuators (FEAs) have shown potential in a range of robotic applications including prosthetics and orthotics. Despite their advantages and rapid developments, robots using these actuators still have several challenging issues to be addressed. First, the reliable production of low cost and complex actuators that can apply high forces is necessary, yet none of existing fabrication methods are both easy to implement and of high force output. Next, compliant or stretchable sensors that can be embedded into their bodies for sophisticated functions are required, however, many of these sensors suffer from hysteresis, fabrication complexity, chemical safety and environmental instability, and material incompatibility with soft actuators. Finally, feedback control for FEAs is necessary to achieve better performance, but most soft robots are still “open-loop”. In this dissertation, I intend to help solve the above issues and drive the applications of soft robotics towards hand orthotics and prosthetics. First, I adapt rotational casting as a new manufacturing method for soft actuators. I present a cuboid soft actuator that can generate a force of >25 N at its tip, a near ten-fold increase over similar actuators previously reported. Next, I propose a soft orthotic finger with position control enabled via embedded optical fiber. I monitor both the static and dynamic states via the optical sensor and achieve the prescribed curvatures accurately and with stability by a gain-scheduled proportional-integral-derivative controller. Then I develop the soft orthotic fingers into a low-cost, closed-loop controlled, soft orthotic glove that can be worn by a typical human hand and helpful for grasping light objects, while also providing finger position control. I achieve motion control with inexpensive, binary pneumatic switches controlled by a simple finite-state-machine. Finally, I report the first use of stretchable optical waveguides for strain sensing in a soft prosthetic hand. These optoelectronic strain sensors are easy to fabricate, chemically inert, and demonstrate low hysteresis and high precision in their output signals. I use the optoelectronically innervated prosthetic hand to conduct various active sensation experiments inspired by the capabilities of a real hand.

Methodology for Designing and Manufacturing Complex Biologically Inspired Soft Robotic Fluidic Actuators

Author : Elliot Thompson-Bean
Publisher :
ISBN 13 :
Total Pages : 144 pages
Book Rating : 4.:/5 (961 download)

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Book Synopsis Methodology for Designing and Manufacturing Complex Biologically Inspired Soft Robotic Fluidic Actuators by : Elliot Thompson-Bean

Download or read book Methodology for Designing and Manufacturing Complex Biologically Inspired Soft Robotic Fluidic Actuators written by Elliot Thompson-Bean and published by . This book was released on 2016 with total page 144 pages. Available in PDF, EPUB and Kindle. Book excerpt: A novel methodology for the design and manufacture of complex biologically inspired soft robotic fluidic actuators is presented. The methodology is applied to the design and manufacture of a prosthetic for the hand. This methodology is significant as it removes the need to perform complex ad hoc and in depth analysis of biological or soft robotic motions, when designing soft robots. This methodology provides a significant step towards developing more robust and complex, biologically inspired soft robots, with considerably improved performance. Real human hands are scanned to produce a 3D model of a finger, and pneumatic networks are implemented within it, to produce a biomimetic bending motion. The finger is then partitioned into material sections, and a genetic algorithm based optimization, using finite element analysis, is employed to discover the optimal material for each section. This is based on two biomimetic performance criteria. Two sets of optimizations using two material sets are performed. Promising optimized material arrangements are fabricated using two techniques to validate the optimization routine, and the fabricated and simulated results are compared. The optimization is successful in producing biomimetic soft robotic fingers, and fabrication of the fingers is possible. Limitations and paths for development are discussed. This methodology can be applied to other fluidic soft robotic devices. A study from the University of Auckland School of Psychology into the perception of soft robots is also assisted. Two soft robotic prosthetic fingers and one rigid prosthetic finger are fabricated, as well as a testing rig, to aid in the carrying out of experiments. The results reveal that stiffer soft robotic materials similar to SmoothSil 940, are better suited for the fabrication of fluidic soft robots, which are intended for applications involving interactions with human beings via touch, such as prosthetics. This project is funded by the New Zealand Artificial Limb Service. Thus, the end user of the prosthetic device is considered throughout the work, as both the physical and social and emotional features of a prosthetic for the hand, are addressed.

Soft Actuators

Author : Kinji Asaka
Publisher : Springer
ISBN 13 : 4431547673
Total Pages : 492 pages
Book Rating : 4.4/5 (315 download)

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Book Synopsis Soft Actuators by : Kinji Asaka

Download or read book Soft Actuators written by Kinji Asaka and published by Springer. This book was released on 2014-11-17 with total page 492 pages. Available in PDF, EPUB and Kindle. Book excerpt: The subject of this book is the current comprehensive research and development of soft actuators, and encompasses interdisciplinary studies of materials science, mechanics, electronics, robotics and bioscience. As an example, the book includes current research on actuators based on biomaterials to provide future perspectives for artificial muscle technology. Readers can obtain detailed, useful information about materials, methods of synthesis, fabrication and measurements. The topics covered here not only promote further research and development of soft actuators but also lead the way to their utilization and industrialization. One outstanding feature of the book is that it contains many color figures, diagrams and photographs clearly describing the mechanism, apparatus and motion of soft actuators. The chapter on modeling is conducive to more extensive design work in materials and devices and is especially useful in the development of practical applications. Readers can acquire the newest technology and information about the basic science and practical applications of flexible, lightweight and noiseless soft actuators, which are quite unlike conventional mechanical engines and electric motors. The new ideas offered in this volume will provide inspiration and encouragement to researchers and developers as they explore new fields of applications for soft actuators.

Fabrication, Modeling, and Control of Dielectric Elastomer Actuator

Author : Zhihang Ye
Publisher :
ISBN 13 :
Total Pages : 100 pages
Book Rating : 4.:/5 (14 download)

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Book Synopsis Fabrication, Modeling, and Control of Dielectric Elastomer Actuator by : Zhihang Ye

Download or read book Fabrication, Modeling, and Control of Dielectric Elastomer Actuator written by Zhihang Ye and published by . This book was released on 2017 with total page 100 pages. Available in PDF, EPUB and Kindle. Book excerpt: Dielectric elastomer (DE) is an important kind of electro active polymer. Its softness and unique movement generating mechanism make people recognize it as artificial muscle. Existing studies focusing on it have revealed many important properties of this soft material. Fundamental researches show the working principle of how DE material can convert electrical energy and mechanical energy bi-directionally. Various actuators, devices, and robots are also developed to show the great potential of DE material in future applications. However, DE material’s nonlinear visco-elasticity and uncommon configuration in applications pose significant challenge in the developing of practical DE applications. Starting from the very basics of DE material, the working principle, modeling work, and famous applications are reviewed. Based on these fundamental knowledge of DE material, fabrications of two types of DE actuators are attempted, which demonstrate and verify the promising usage of DE material in future’s soft actuator and robotic applications. DE material’s movement generating mechanism also gives the capability of self-sensing. Software methods, including polynomial fitting and artificial neural network, are used to realize the self-sensing function in DE actuator. Different applications of DE actuators are attempted. A DE diaphragm actuator for human pulse tracking purpose is designed, fabricated, and tested. Experimental results show it can convert human pulse data into compliant vibration with good accuracy, which shows it has great potential in future’s medical applications. By patterning the diaphragm actuator’s electrode, a new type of 2-DoF maneuverable lase manipulator is created. The manipulator is capable of tracking 2-DoF angular reference with soft and gearless structure. It is expected that this new type laser manipulator can be used in laser servo system under special environment.

Shape Memory Alloy Actuators

Author : Mohammad H. Elahinia
Publisher : John Wiley & Sons
ISBN 13 : 1118426924
Total Pages : 304 pages
Book Rating : 4.1/5 (184 download)

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Book Synopsis Shape Memory Alloy Actuators by : Mohammad H. Elahinia

Download or read book Shape Memory Alloy Actuators written by Mohammad H. Elahinia and published by John Wiley & Sons. This book was released on 2015-11-25 with total page 304 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a systematic approach to realizing NiTi shape memory alloy actuation, and is aimed at science and engineering students who would like to develop a better understanding of the behaviors of SMAs, and learn to design, simulate, control, and fabricate these actuators in a systematic approach. Several innovative biomedical applications of SMAs are discussed. These include orthopedic, rehabilitation, assistive, cardiovascular, and surgery devices and tools. To this end unique actuation mechanisms are discussed. These include antagonistic bi-stable shape memory-superelastic actuation, shape memory spring actuation, and multi axial tension-torsion actuation. These actuation mechanisms open new possibilities for creating adaptive structures and biomedical devices by using SMAs.

Bioinspired Liquid Crystal Elastomer (LCE) Based Soft Actuators with Multimodal Actuation

Author : Qiguang He
Publisher :
ISBN 13 :
Total Pages : 141 pages
Book Rating : 4.:/5 (124 download)

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Book Synopsis Bioinspired Liquid Crystal Elastomer (LCE) Based Soft Actuators with Multimodal Actuation by : Qiguang He

Download or read book Bioinspired Liquid Crystal Elastomer (LCE) Based Soft Actuators with Multimodal Actuation written by Qiguang He and published by . This book was released on 2021 with total page 141 pages. Available in PDF, EPUB and Kindle. Book excerpt: Inspired by the biology, soft robots have drawn tremendous attention due to its large and continuous deformation, friendly human-machine interaction, large number of degrees of freedom (DOFs), capability of absorbing energy. They have been explored in broad applications ranging from dexterous soft gripper to the novel assistive devices. In the recent decade, numerous soft actuating materials and deformable structures have been developed to construct soft robots, including hydrogels, shape memory polymers (SMPs), dielectric elastomer actuators (DEAs), fluid elastomer actuators (FEAs) and magnetic actuators. However, those materials and structures have well-known limitations such as slow actuation speed, irreversibility, high voltage input and bulky controlling systems. Liquid crystal elastomers (LCEs), as newly emerging soft actuating materials, exhibit large and reversible deformation and versatile actuation modes. Based on the molecular structure, LCE can be viewed as a combination of liquid crystal molecules and polymer networks. When the LCE is heated above the critical temperature, it can generate large deformation because of the nematic-isotropic phase transition. However, in terms of the practical use of LCE, a few challenges exist such as lack of programmable operation and slow responsive speed for LCEs, which need to be addressed. In this dissertation, we first integrate flexible heating wire into LCE tube, forming electrically controlled soft tubular actuator. By selectively applying low electrical voltage, this soft tubular actuator can exhibit multiple actuation modes, such as different directional bending and homogeneous contraction. The LCE soft tubular actuator can also be integrated to construct untethered robot that can execute multiple functionalities. To address the slow responsive speed of LCE based soft actuator, we embed microfluidic channel into LCE, forming vascular LCE soft actuator. Through alternatively injecting hot and cold fluid into its internal fluidic channel, the vascular LCE soft actuator can generate fast actuation as well as recovery. In addition, by introducing the disulfide bonds into the LCE materials, the newly obtained vascular LCE based soft actuator has shown repairability and recyclability. Finally, we use electrospinning technique to fabricate LCE microfiber that can be actuated by NIR light. We demonstrate that the electrospun LCE fiber can be easily integrated to micro-robotic system and machine as artificial muscle fiber.

Additive Manufacturing of Compliant Mechanisms and Stretchable Sensors for Sensation, Grasping, and Locomotion in Soft Robotic Systems

Download Additive Manufacturing of Compliant Mechanisms and Stretchable Sensors for Sensation, Grasping, and Locomotion in Soft Robotic Systems PDF Online Free

Author : Kevin W. O'Brien
Publisher :
ISBN 13 :
Total Pages : 118 pages
Book Rating : 4.:/5 (124 download)

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Book Synopsis Additive Manufacturing of Compliant Mechanisms and Stretchable Sensors for Sensation, Grasping, and Locomotion in Soft Robotic Systems by : Kevin W. O'Brien

Download or read book Additive Manufacturing of Compliant Mechanisms and Stretchable Sensors for Sensation, Grasping, and Locomotion in Soft Robotic Systems written by Kevin W. O'Brien and published by . This book was released on 2020 with total page 118 pages. Available in PDF, EPUB and Kindle. Book excerpt: Soft robotic systems are inherently safe for human interaction and are able to perform useful tasks such as grasping or locomotion. Reliably producing the complex, monolithic, 3D structures necessary in these systems remains a challenge due to limitations in the available manufacturing methods. Historically, these systems have been made with molding, casting, stamping, and other techniques. Unfortunately, these methods are largely limited to 2D and thus inhibit the robots' potential complexity. Recent advances in 3D printing of elastomers and other low-modulus materials has enabled us to manufacture soft structures that were not obtainable just 5 years ago. Taking advantage of this leap in manufacturing capability, my work explores the improvements to soft actuators, sensors, and integrated robotic systems afforded by 3D printing. In the realm of soft actuators, I first describe the development of an entirely 3D printed continuously variable transmission which increases the output force of tendon-driven actuators by up to 3X without negatively impacting its unloaded speed. Additionally, I describe the development and characterization of a soft limb which uses tendon-routing variations to achieve complex motions and improved stiffness profiles. Further, I describe the development of haptic sensors by directly printing them using Direct Ink Writing, and by printing their structure for integration with off-the-shelf and molded components. Finally, I discuss the integration of these soft sensors and actuators in the development of two 3D-printed soft robotic systems: i) a hand which uses its reflexes to catch a ball and crush a can, ii) a crawling robot which demonstrates improved locomotion due to complex tendon routing schemes, and iii) an optoelectronically innervated soft prosthetic hand which can detect softness and shape.

Smart Actuator and Sensor Technologies

Author : Kam K Leang
Publisher : Butterworth-Heinemann
ISBN 13 : 9780128094556
Total Pages : 0 pages
Book Rating : 4.0/5 (945 download)

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Book Synopsis Smart Actuator and Sensor Technologies by : Kam K Leang

Download or read book Smart Actuator and Sensor Technologies written by Kam K Leang and published by Butterworth-Heinemann. This book was released on 2029-11-15 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Smart Actuator and Sensor Technologies: Design, Modeling, Fabrication, and Control for Mechatronic Systems focuses on design, modeling, fabrication, and control of smart actuator technologies, such as piezoelectric actuators, electroactive polymer actuators, and a host of other "smart” material based actuators, including shape memory alloys, magnetostrictive materials and others. This book covers important technical aspects so that engineers, scientists, and designers can utilize the information in their work. As emerging mechatronic systems, such as precision positioning system, soft robots, biomedical devices and aerospace system are exploring the use of smart actuators, this book provides complete coverage of the popular technologies. Covers the important technical aspects of design, modeling, fabrication and control of smart actuator technologies Written by two experts in the field of smart actuators, each contributing their expert knowledge“/li> Presents a reference text where readers can enhance their understanding through further reading of listed, credible publications

Fabrication of Soft Robotic Actuators by Using Injection Molding Technology

Author : Wanying Li
Publisher :
ISBN 13 :
Total Pages : 114 pages
Book Rating : 4.:/5 (14 download)

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Book Synopsis Fabrication of Soft Robotic Actuators by Using Injection Molding Technology by : Wanying Li

Download or read book Fabrication of Soft Robotic Actuators by Using Injection Molding Technology written by Wanying Li and published by . This book was released on 2017 with total page 114 pages. Available in PDF, EPUB and Kindle. Book excerpt: Compared with conventional rigid robots, soft robots composed of intrinsically soft materials are featured with compliance independent of their shapes, good adaptability under different environments, and safer interaction with human. High fabrication cost of actuators incurred by convention fabrication methods is one of the main challenges to commercialize soft robots. To reduce the fabrication cost of actuators, injection molding is adopted. Injection molded pneumatic bending actuators composed of elastomer bladder wrapped with patterned strain-limiting sleeve can achieve bending motion. The highest fingertip forces generated by nylon mesh sleeve actuators and hybrid fabric sleeve actuators are 6.9 N and 6.1 N respectively. A prosthetic hand composed of hybrid fabric actuators can hold and lift items. The hand is capable of handling delicate items without causing damages. A modified two-shot injection molding procedure can be a potential fabrication method of PneuNets actuators.

Smart Materials Actuators

Author : Seung-Bok Choi
Publisher :
ISBN 13 : 9781634825740
Total Pages : 318 pages
Book Rating : 4.8/5 (257 download)

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Book Synopsis Smart Materials Actuators by : Seung-Bok Choi

Download or read book Smart Materials Actuators written by Seung-Bok Choi and published by . This book was released on 2015 with total page 318 pages. Available in PDF, EPUB and Kindle. Book excerpt: In the last two decades, a great effort has been directed towards the development of new smart materials actuators and their corresponding application devices and systems. Currently, some smart materials actuators are commercially applied for several technologies including automotive technology, but some of the smart materials actuators are still far from meeting strict practical requirements such as reliability, cost-effectiveness and robustness against unexpected environment conditions. Therefore, it is timely and appropriate to present recent research on smart materials actuators in terms of material characterization and advanced application systems in a single book. This book describes smart materials actuator technology from materials characterizations to device or system applications. The smart materials introduced in this book include magnetorehological fluid (MRF), magnetorheological elastomer (MRE), electrorheological fluid (ERF), piezoelectric material (PM), shape memory ally (SMA), dielectric elastomer (DE) and ionic polymer (IP). Both physical and chemical characterizations of each smart material are described in details in terms of actuating aspect. In addition, several application devices utilizing each smart material are introduced to provide practical controllability as a potential candidate for new actuators. The application devices introduced in this book include MRF damper for automotive suspension, PM unimorph pump for micro-hydraulic system, MRE flexible structure for vibration control, IP biomimetic micro-robot and SMA civil structure and damper system for vibration attenuation.

3D Printing of Liquid Crystal Elastomer Actuators

Author : Arda Kotikian
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.5/5 (346 download)

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Book Synopsis 3D Printing of Liquid Crystal Elastomer Actuators by : Arda Kotikian

Download or read book 3D Printing of Liquid Crystal Elastomer Actuators written by Arda Kotikian and published by . This book was released on 2021 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Soft robotics offer advantages over their rigid counterparts due to the intrinsic softness of their consisting materials, soft robotic matter. When equipped with programmable shape morphing and controllable function, soft robotics are best qualified for interaction with delicate objects, exploration of unknown terrains, and large, impact-resistant deformations. Towards this goal, new materials and fabrication methods are needed to create actuators with programmable shape- morphing behavior akin to human muscles. Liquid crystal elastomers (LCEs) are soft materials comprised of anisotropic liquid crystal mesogen molecules, which when aligned, give rise to reversible contraction with high energy density when heated above their nematic-to-isotropic transition temperature (TNI). However, the ability to produce LCE actuators with programmed director alignment in arbitrary, bulk forms is a grand challenge. The focus of my Ph.D. thesis is to create programmable LCE actuators through the integration of design, synthesis, and multi-material 3D printing methods. Towards this goal, solvent-free, oligomeric LCE inks were synthesized that incorporate rigid mesogens along their backbone as well as photopolymerizable groups at the chain ends. By varying the molecular composition of these oligomeric species, LCE inks with the appropriate viscoelastic response were designed for high operating temperature-direct ink writing (HOT-DIW), an extrusion-based 3D printing method. By tailoring polymer backbone and crosslinking chemistries of our LCE inks, their TNI could be varied from 92°C to 127°C after printing and UV cross-linking, and enable custom thermal response. We further demonstrated that patterned LCEs with programmed director alignment along the print path were produced when printing in the nematic phase. These 3D LCEs exhibit large reversible contractility and high specific energy density. Our integrated approach allows for prescribed LCE alignment in arbitrary geometric motifs. Building on this seminal advance, we created untethered soft robotic matter that repeatedly shape-morphs and self-propels in response to thermal stimuli through passive control. Specifically, we designed and printed active LCE hinges with orthogonal director alignment that interconnect rigid polymeric tiles. These hinges can be programmed as mountain or valley folds to produce reversible active origami structures. Moreover, in a single structure, we programmed hinges made of LCEs with disparate TNI to enable sequential folding and demonstrated untethered, reversible sequential folding in soft, active origami for the first time. We further demonstrated a self- compacting prism with a modular geometric locking mechanism capable of sequential folding with three temperature-specific, stable configurations. To enable the informed design of untethered robotic matter, LCE hinge bending angle and torque can be prescribed by geometry and LCE chemistry. We then exploited their exemplary performance by programming LCE hinges into the "rollbot", an exemplar self-propelling structure with passive control. Specifically, we designed a pentagonal prism with low TNI LCE hinges and propellers with high TNI LCE hinges, informed by our torque and bending angle characterization, enabling reversible reconfiguration and self- propulsion across a heated surface. To expand upon these capabilities, ewe developed a novel method of 3D printing aligned LCE filaments with embedded, coaxial liquid metal by co-extrusion of LCE and liquid metal through a core-shell nozzle. Our innervated LCE (iLCE) fibers are electrothermally heated well above TNI with programmable and predictable heat generation through the core of the filament, which resulted in large, prescriptible contractile strains akin to those of our neat 3D printed LCEs. The iLCE fibers enable self-sensing of actuation through the resulting change of resistance with respect to actuation strain, where a change of resistance is directly predictable from strain. Moreover, our iLCEs exhibited reliable reversible actuation and considerable work output, which combined with self-sensing capabilities allows for closed loop control. Specifically, our actuators automatically reach target resistance and strain values rapidly and repeatedly despite large bias load perturbations. As a final demonstration, we patterned iLCEs with a spiral printpath to demonstrate programmable 3D shape morphing. Analogous to iLCE fibers, these spiral iLCEs were electrothermally heated, exhibited self-sensing, and were regulated with closed loop control. In summary, we have developed a new platform for creating soft robotic matter through the design, synthesis, and assembly of LCE inks, which can be seamlessly integrated with structural, sensing, and functional materials. Our platform may be harnessed for applications including soft robotics, reconfigurable electronics, adaptable structures, and well beyond.

An Exploration of Modality Matched Mechanotactile Feedback Via a Soft Actuator for Use in Prosthetic Devices

Author : Erich P. Meinig
Publisher :
ISBN 13 :
Total Pages : 61 pages
Book Rating : 4.:/5 (113 download)

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Book Synopsis An Exploration of Modality Matched Mechanotactile Feedback Via a Soft Actuator for Use in Prosthetic Devices by : Erich P. Meinig

Download or read book An Exploration of Modality Matched Mechanotactile Feedback Via a Soft Actuator for Use in Prosthetic Devices written by Erich P. Meinig and published by . This book was released on 2019 with total page 61 pages. Available in PDF, EPUB and Kindle. Book excerpt: The loss of a hand is often a profoundly traumatic experience and can often mean the interruption of the closed-loop feedback system within the brain that is responsible for motor control of the hand and the sensory feedback from the hand. The loss of sensory feedback can significantly affect the quality of life of persons with amputations and current prostheses do not provide any sort of sensory feedback and thus users must rely on visual feedback for basic grasping tasks. This excessive dependence on visual feedback often leads to reduced embodiment of the prosthesis for users, reduced dexterity, and an overall diminished satisfaction with the prosthetic device, which can ultimately lead to device abandonment. This thesis examines whether a soft actuator made out of elastomer can be used as a way to passively transmit mechanotactile pressure noninvasively and details the design process of the actuator and a model prosthetic hand and a model gripper that incorporates the actuator. A human study was also designed to evaluate the efficiency of the feedback system and whether the feedback system facilitates learning a stable internal model of the gripper force control.

Mechatronic Hands

Author : Paul H. Chappell
Publisher : IET
ISBN 13 : 1785611542
Total Pages : 188 pages
Book Rating : 4.7/5 (856 download)

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Book Synopsis Mechatronic Hands by : Paul H. Chappell

Download or read book Mechatronic Hands written by Paul H. Chappell and published by IET. This book was released on 2016-06-06 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book describes the technical design characteristics of the main components that go into forming an artificial hand, whether it is a simple design that does not have a natural appearance, or a more complicated design where there are multiple movements of the fingers and thumb. Mechanical components obviously form the structure of any hand, while there are some lesser known ideas that need to be explored such as how to process a slip signal.

Large Deformable Soft Actuators Using Dielectric Elastomer and Origami Inspired Structures

Author : JangHo Park
Publisher :
ISBN 13 :
Total Pages : 254 pages
Book Rating : 4.:/5 (117 download)

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Book Synopsis Large Deformable Soft Actuators Using Dielectric Elastomer and Origami Inspired Structures by : JangHo Park

Download or read book Large Deformable Soft Actuators Using Dielectric Elastomer and Origami Inspired Structures written by JangHo Park and published by . This book was released on 2019 with total page 254 pages. Available in PDF, EPUB and Kindle. Book excerpt: "There have been significant developments in the field of robotics. Significant development consists of new configurations, control mechanisms, and actuators based upon its applications. Despite significant improvements in modern robotics, the biologically inspired robots has taken the center stage. Inspired by nature, biologically inspired robots are called ‘soft robots’. Within these robots lies a secret ingredient: the actuator. Soft robotic development has been driven by the idea of developing actuators that are like human muscle and are known as ‘artificial muscle’. Among different materials suitable for the development of artificial muscle, the dielectric elastomer actuator (DEA) is capable of large deformation by applying an electric field. Theoretical formulation for DEA was performed based upon the constitutive hyperelastic models and was validated by using finite element method (FEM) using ABAQUS. For FEM, multistep analysis was performed to apply pre-stretch to the membrane before applying actuation voltage. Based on the validation of DEA, different configurations of DEA were investigated. Helical dielectric elastomer actuator and origami dielectric elastomer actuator were investigated using theoretical modeling. Comparisons were made with FEM to validate the model. This study focus on the theoretical and FEM analysis of strain within the different configuration of DEA and how the actuation strain of the dielectric elastomer can be translated into contraction and/or bending of the actuator."--Abstract.

Characteristics of Dielectric Elastomers and Fabrication of Dielectric Elastomer Actuators for Artificial Muscle Applications

Author : William Lai
Publisher :
ISBN 13 :
Total Pages : 40 pages
Book Rating : 4.:/5 (748 download)

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Book Synopsis Characteristics of Dielectric Elastomers and Fabrication of Dielectric Elastomer Actuators for Artificial Muscle Applications by : William Lai

Download or read book Characteristics of Dielectric Elastomers and Fabrication of Dielectric Elastomer Actuators for Artificial Muscle Applications written by William Lai and published by . This book was released on 2011 with total page 40 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Modeling, Processing, and Characterization of Dielectric Elastomer Actuators and Sensors

Author : Kevin Kadooka
Publisher :
ISBN 13 :
Total Pages : 136 pages
Book Rating : 4.:/5 (11 download)

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Book Synopsis Modeling, Processing, and Characterization of Dielectric Elastomer Actuators and Sensors by : Kevin Kadooka

Download or read book Modeling, Processing, and Characterization of Dielectric Elastomer Actuators and Sensors written by Kevin Kadooka and published by . This book was released on 2017 with total page 136 pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past two decades, electroactive polymers (EAP) have been studied as a material for soft actuator and sensor systems. Dielectric elastomers (DE) are an EAP material which relies on the electrostatic force produced on compliant electrodes to produce deformation. In the converse sense, DE sensors can be used by measuring the electrical energy or impedance change produced under deformation. The two key limitations barring DE from commercial use are high driving voltage, and low output force. The scope of this work is as follows: to improve upon these two limitations by processing of actuators by a pneumatic dispenser, by adding tactile sensing and variable stiffness properties to the actuators, and developing a mechanical model to predict the actuator behavior. This work focuses specifically on the unimorph dielectric elastomer actuator (DEA), which consists of a DE laminate which contracts in the thickness direction and expands in-plane under applied voltage, and is constrained on one face by a passive material, resulting in bending of the structure. The first part of the work is devoted to fabrication, modeling, and characterization of multilayer unimorph DEA. Fabrication is done using two schemes – the first is a conventional one, using commercially available DE films, and the second is a novel method using a robotic dispenser system. The latter technique has two objectives. The first is to reduce the thickness of the DE layers to reduce driving voltage, since the DE deformation is proportional to the square of the applied electric field which itself is inversely proportional to electrode separation. The second is to deposit higher-performance DE materials, in this case, PVDF terpolymer, which exhibits large actuation stresses because of its high dielectric constant and relatively high Young’s modulus. Using the dispenser, DE layers with 10 μm thick layers are repeatably produced, requiring actuation voltages one order of magnitude less than conventional thick DE films. Standard deviation of displacement and blocking force do not exceed 10% and 15% of the mean after 2 minutes of deformation, respectively. Elastic and viscoelastic models are developed for multilayer unimorph DEA consisting of flat and curved geometries. Both models were validated in comparison with experimental data with the latter shown to agree with the experimental data to within one standard deviation of the mean for majority of the deformation. The second section demonstrates the novel use of electrolaminates to create variable stiffness DEA (VSDEA). Variable stiffness structures are of particular interest for soft actuators, because they allow switching between a low stiffness, high displacement mode and a high stiffness mode with large holding force. One device is demonstrated by simply utilizing the passive layer of a DEA as part of an electrolaminate, allowing for four-fold increase in bending rigidity. Another device is demonstrated consisting of a bundle of parallel DEA with electrostatic chucking features to modulate shear strength of the interfaces. This device exhibits a 39-fold increase in stiffness, and a claw actuator using these actuators is capable of lifting an object 17 times its own weight. The final part of this work investigates two novel tactile sensors based on dielectric elastomers (DES). The first uses a dome-shaped protrusion to redistribute tactile forces onto an array of four capacitive sensors. The change in capacitance of the four sensors is used to measure and discriminate the force components of the impinging force. An array of these dome DES are fabricated using the dispenser system, and the ability to differentiate between normal and shear forces was demonstrated, as well as its proximity sensing ability. The tactile sensor array is also shown integrated as the passive layer of a DEA, providing tactile and proximity sensing capability to the actuator. The second tactile sensor features high resolution and scalability, and is built in to a medical assistive device coined the “artery mapper” and is used to determine the location of a target artery for arterial line placement. It is demonstrated locating an artery on a test subject, possible due to its force resolution on the order of 2.8 kPa.

Novel Dielectric Elastomer Actuator Configurations and Devices for Soft Robotic and Wearable Applications

Author : Roshan Joseph Plamthottam
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (137 download)

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Book Synopsis Novel Dielectric Elastomer Actuator Configurations and Devices for Soft Robotic and Wearable Applications by : Roshan Joseph Plamthottam

Download or read book Novel Dielectric Elastomer Actuator Configurations and Devices for Soft Robotic and Wearable Applications written by Roshan Joseph Plamthottam and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Soft robotic devices require highly stretchable and flexible materials to ensure that they can conform to delicate objects and work safely alongside humans. As a result, new flexible actuation technologies must be developed so that soft robotic platforms can achieve their desired function. Dielectric elastomer actuators are an emerging actuator technology that possesses high energy density in a lightweight package. However, since these actuators utilize a thin, soft elastomer film, they are particularly delicate and depending on their configuration, do not efficiently outcouple their outputted mechanical energy. Rigid frames, metallic springs, and other mechanisms have been used in the past to improve the performance of these actuators in various configurations, but these highly stiff components are not ideal for soft robotic applications. Novel strategies can be implemented to mitigate these issues. In this work, we highlight new strategies to create novel dielectric elastomer actuator configurations with high power density, large strokes, and high force output. First, we discuss the development of a core-free rolled dielectric elastomer. We then discuss a flexible DEA-based fluidic pump that can output high flowrates and withstand large pressures for its small size. Finally, we detail a novel mechanism to control the deformation direction of DEAs, and leverage this mechanism to create a patch-like haptic interface for virtual reality applications.