Toward Controllable Hydraulic Coupling of Joints in a Wearable Robot

Treadway, Emma; Gan, Zhenyu; Remy, C. David

doi:10.1109/tro.2018.2799597

Cited by 15 publications

(12 citation statements)

References 24 publications

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“…In a digital hydraulic cobot [14], a set of cylinders with face areas collected into a diagonal matrix A are connected to N joints. The nature of the connection and the moment arms between the cylinders and the joints q are encoded in the Jacobian matrix J 1 (q).…”

Section: B Application To Digital Hydraulicsmentioning

confidence: 99%

“…A discretely variable passive robotic device has the ability to physically constrain motion in certain directions determined by the settings of the device's transmission(s), selecting transmission ratios from among a finite available set. We have previously proposed digital hydraulic transmissions [14] as a method for realizing discretely variable passive robotic devices. Digital hydraulic devices use hydrostatic transmissions in which multiple cylinders span each joint.…”

Section: Introductionmentioning

confidence: 99%

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Vector Field Control Methods for Discretely Variable Passive Robotic Devices

Treadway

Gillespie

2021

IEEE Trans. Robot.

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Passive transmission-based robotic devices are capable of providing motion guidance while ensuring user safety and engagement. To circumvent some of the drawbacks associated with steering continuously variable transmissions based on rolling contacts, we are exploring a class of discretely variable devices, based on brakes and hydrostatic transmissions. Previously available control methods for discretely variable devices were built on velocity fields and only developed to stabilize a 1D target manifold. For n-DOF devices, methods to stabilize target manifolds of dimension 1 to n-1 are of interest. In this paper we contribute constraint field methods that stabilize n-1 dimensional target manifolds while leaving the orthogonal subspace free to the control of the operator. We also contribute force-modulated SDOF velocity fields, which add between 1 and n-2 virtual DOF to the motion of devices whose physical constraints leave one DOF. Control performance is demonstrated in simulation for 3DOF devices capable of imposing 1D or 2D constraints and in experiment for 2DOF devices imposing 1D constraints. Our experimental apparatus features digital hydraulic transmissions that are easily configured for n-dimensional space and capable of imposing constraints of any dimension, thus motivating the contributed methods.

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Section: B Application To Digital Hydraulicsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Vector Field Control Methods for Discretely Variable Passive Robotic Devices

Treadway

Gillespie

2021

IEEE Trans. Robot.

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“…Some of these selected studies focused on exoskeleton assisted therapy versus conventional therapy method [8,22,50,51,57,[71][72][73]. Another studies looked at the effects of the individual robotic device on upper limb rehabilitation following stroke [35,43,46,48,49,58,60,62,63]. Two studies compared the bilateral training method with unilateral training using exoskeleton device [54,55].…”

Section: M Echanical Designmentioning

confidence: 99%

“…The robotic systems used for upper limb rehabilitation can be studied based on their mechanical structure, control system, and clinical applications. The mechanical configuration [8,[19][20][21][22][23][24][25][26][27]and control systems [28][29][30][31][32][33][34][35][36] have been reviewed previously. A detailed insight on various end effector based system and their application in stroke rehabilitation have also been carried out [37].…”

mentioning

confidence: 99%

Upper limb rehabilitation using robotic exoskeleton systems: a systematic review

Rehmat

Zuo

Meng

et al. 2018

Int J Intell Robot Appl

109

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“…Current bimanual therapy relies heavily on specific training devices [20,21]. These devices are based on passive mechanics, in which the system is driven by forces generated by the patient [22][23][24] or by active robotics [25,26] to provide symmetric repetitive motion patterns for arm movement. These devices are, however, unsuitable for investigating the biological mechanisms underlying bimanual motion training because they can only provide simple bimanual motions [27].…”

Section: Introductionmentioning

confidence: 99%

Influence of bimanual exercise on muscle activation in post-stroke patients

Itkonen

Costa²,

Yamasaki³

et al. 2019

Robomech J

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Brain damage due to stroke often leaves survivors with lateral functional motor deficits. Bimanual rehabilitation of the paretic arm is an active field of research aimed at restoring normal functionality by making use of the complex neural bindings that exist between the arms. In search of an effective rehabilitation method, we introduced a group of poststroke rehabilitation patients to a set of bimanual motion tasks with inter-manual coupling and phasing. The surface EMG profiles of the patients were compared in order to understand the effect of the motion conditions. The paretic arms of the patients were more strongly affected by the task conditions compared with the non-paretic arms. These results suggest that in-phase motion may activate neural circuits that trigger recovery. Coupling also had an effect on behavior, but the response of patients was divided between those whom coupling helped or hindered. which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

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Toward Controllable Hydraulic Coupling of Joints in a Wearable Robot

Cited by 15 publications

References 24 publications

Vector Field Control Methods for Discretely Variable Passive Robotic Devices

Vector Field Control Methods for Discretely Variable Passive Robotic Devices

Upper limb rehabilitation using robotic exoskeleton systems: a systematic review

Influence of bimanual exercise on muscle activation in post-stroke patients

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