Impacts of a Robotic Arm on People with Upper-Limb Disabilities Due to Neuromuscular Disorder

Routhier, François; Lettre, Josiane; Bouffard, Jason; Archambault, Philippe; Lemay, Martin; Gélinas, Isabelle

doi:10.1097/jpo.0000000000000394

Cited by 2 publications

(3 citation statements)

References 65 publications

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“…As software intelligence is incorporated more into actuated assistive devices, it is important to understand usability preferences for when and how people may be soliciting assistance from those systems. Wheelchair-mounted Assistive Robotic Arms (ARMs) have the potential to enhance the independence of users with upper-limb impairments [1][2][3]. As ARM ownership becomes more common, it is important to understand the user's perspective on control and operation.…”

Section: Introductionmentioning

confidence: 99%

“…Manual control offers advantages, as current robotic arms are controlled through the power wheelchair input, benefiting individuals skilled in operating power wheelchairs. Additionally, operating ARMs has been shown to increase user independence [3], which users value [4] despite inherent challenges such as longer operation times due to frequent mode switching. For example, an expert Kinova ARM user interviewed by Bhattacharjee et al [5] noted that picking up a piece of fruit and bringing it to their mouth could take up to 45 min.…”

Section: Introductionmentioning

confidence: 99%

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Exploring Control Authority Preferences in Robotic Arm Assistance for Power Wheelchair Users

Styler,

Deng,

Simmons

et al. 2024

Actuators

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This paper uses mixed methods to explore the preliminary design of control authority preferences for an Assistive Robotic Manipulator (ARM). To familiarize users with an intelligent robotic arm, we perform two kitchen task iterations: one with user-initiated software autonomy (predefined autonomous actions) and one with manual control. Then, we introduce a third scenario, enabling users to choose between manual control and system delegation throughout the task. Results showed that, while manually switching modes and controlling the arm via joystick had a higher mental workload, participants still preferred full joystick control. Thematic analysis indicates manual control offered greater freedom and sense of accomplishment. Participants reacted positively to the idea of an interactive assistive system. Users did not want to ask the system to only assist, by taking over for certain actions, but also asked for situational feedback (e.g., ‘How close am I (the gripper)?’, ‘Is the lid centered over the jug?’). This speaks to a future assistive system that ensures the user feels like they drive the system for the entirety of the task and provides action collaboration in addition to more granular situational awareness feedback.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Exploring Control Authority Preferences in Robotic Arm Assistance for Power Wheelchair Users

Styler,

Deng,

Simmons

et al. 2024

Actuators

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show abstract

“…Several approaches have been developed, including the use of technology such as robotic arms to enhance upper limb function and performance in daily activities 12,13 . A robotic arm is a computer‐controlled device to perform a set of arm‐centered tasks and allows the arms to swivel from side to side 14,15 . The robot mechanism is propelled by gravitational and inertial forces.…”

Section: Introductionmentioning

confidence: 99%

Robotic arm use for upper limb rehabilitation after stroke: A systematic review and meta‐analysis

Lee

Saragih

Batubara

2023

The Kaohsiung J of Med Scie

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Several studies have reported the effects of robotic arms on improving upper limb function in patients with stroke. However, previous studies have reported inconsistent findings that may lead to incorrect applications of robotic arm use. Six databases were searched for relevant randomized controlled trials. Meta-analyses were performed for upper limb performance measures, including subgroup analysis of pooled upper limb rehabilitation data such as stroke stage and intervention delivery dose.Furthermore, the Cochrane risk-of-bias tool for randomized trials version 2 (RoB 2) and sensitivity analysis were used to assess methodology and determine publication bias. The final analysis included 18 studies. Robotic arms improved upper limb and hand function in patients with stroke. Subgroup analysis revealed that robotic arm interventions lasting 30-60 min per session significantly improved upper limb function. However, no significant improvement was observed in shoulder and elbow or wrist and hand movements. This review may help develop applicable rehabilitation robots and collaboration between clinicians.

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Impacts of a Robotic Arm on People with Upper-Limb Disabilities Due to Neuromuscular Disorder

Cited by 2 publications

References 65 publications

Exploring Control Authority Preferences in Robotic Arm Assistance for Power Wheelchair Users

Exploring Control Authority Preferences in Robotic Arm Assistance for Power Wheelchair Users

Robotic arm use for upper limb rehabilitation after stroke: A systematic review and meta‐analysis

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