Design and development of a robotic self-transfer device for wheelchair users

Krishnan, R. Hari; Pugazhenthi, S.

doi:10.1108/jet-12-2016-0025

Cited by 14 publications

(10 citation statements)

References 10 publications

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“…Навантаження прикладали до тіла Th ІХ хребця та суглобових поверхонь його остистих виростків. Величина навантаження складала 350 Н, що відповідає вазі верхній частини тіла [19]. По дистальній поверхні диска L модель мала жорстке закріплення (рис.…”

Section: матеріал і методиunclassified

Mathematical Modeling of Variants of Transpedicular Fixation at the Thoracolumbar Junction After Тhхіі Vertebrectomy During Trunk Backward Bending

Nekhlopochyn¹,

Verbov²,

Cheshuk³

et al. 2023

OTP

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Fractures at the thoracolumbar junction are the most common traumatic spinal injuries. Advances in instrumentation for vertebral body replacement have significantly improved surgical techniques.However, the biomechanical characteristics of stabilizing surgeries have been insufficiently studied. Objective. To investigate the stressstrain state (SSS) of a mathematical finite element model of the humanthoracolumbar spine during trunk backward bending after ТhХІІ vertebra resection, considering different transpedicular fixation options. Methods. A mathematical finite element model of the humanthoracolumbar spine — ThIX‒LV vertebrae — was developed. The ТhХІІ vertebra was removed, and an interbody support and transpedicularsystem with 8 screws were implanted to simulate the postsurgical state after a ТhХІІ burst fracture with wide laminectomy, facetectomy, and corpectomy. The influence of transpedicular screw length and the presence of cross-links on the SSS of the model wasexamined. Results. The use of bicortical screws reduced stress levels in the bone elements of the model, except in the regions around the screws in the lumbar vertebrae, when compared to short screws.Installing cross-links decreased stress levels at all control points compared to models without cross-links. Specifically, in the presence of cross-links, the SSS values at the entry points of the short screwsinto the vertebral bodies of ThX, ThXI, LI, and LII were 2.3, 1.8, 1.2, and 5.0MPa, respectively, compared to 2.7, 2.0, 1.5, and 6.1 MPa in the models without cross-links. In the case of bicortical screwswithout cross-links, the stress values at the screw entry points into the pedicles of the corresponding vertebrae were 2.9, 1.5, 8.2, and 11.2 MPa, respectively, compared to 2.7, 1.5, 7.5, and 10.2 MPa in the models with cross-links. Conclusions. When the trunk is tilted backward, the use of cross-links reduces stress levels at all control points in the models, regardless of the screw length used. Bicortical transpedicular screws increase stress levels on the screws themselves and in the lumbar vertebral bodies surrounding them.

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Section: матеріал і методиunclassified

Mathematical Modeling of Variants of Transpedicular Fixation at the Thoracolumbar Junction After Тhхіі Vertebrectomy During Trunk Backward Bending

Nekhlopochyn¹,

Verbov²,

Cheshuk³

et al. 2023

OTP

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show abstract

“…Few articles focused on the impact on people. R. Hari Krishnan has developed a robotic selftransfer device [21] that allows wheelchair users to transfer themselves from the wheelchair to the toilet. However, there is no consideration for elderly users, it is very important for the elderly to have caregivers around when using automatic devices.…”

Section: Related Workmentioning

confidence: 99%

Hip Lift Transfer Assistive System for Reducing Burden on Caregiver’s Waist

Shino

2021

Sensors

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In Japan, the aging population is expected to increase the number of elderly people in the future. The purpose of this study was to develop a hip lift transfer assistive system to improve the QOL of elderly living and to prevent back pain for caregivers. We extracted the impediment factor and the necessary scene for the assistance, decided on the transfer process from the wheelchair in the toilet, and considered the reduction method of the burden based on the quantitative evaluation of the caregiver’s lumbar burden and developed the device. Then we proposed the algorithm of the system by grasping the behavior and lumbar burden characteristics at the time of using the hip lift transfer assistive system by the developed device in which the proposed support algorithm of standing seating assistance operation is implemented in the actual use environment. Through the assistive movement evaluation experiment and the actual operation in the toilet, we have verified that the use of this device can reduce the caregivers’ lumbar burden below the standard value (3400 N) and have proved the effectiveness of the proposed transfer assistive system.

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“…Traditional omnidirectional wheels with zero curvature radius were developed in the 20th century, such as the Mecanum/Swedish wheel (Xin et al , 2019; Labakhua et al , 2018) of Mecanum company. Although the omnidirectional wheel (Chugo et al , 2009; Krishnan and Pugazhenthi, 2017) can move flexibly, its passive roll is so complex that it is prone to wear-out failure under heavy payload and the uncertainty of the system increases when crossing obstacles. Traditional heavy payload vehicles (Sun et al , 2020; Link, 2021) mainly adopt traditional wheels, which have more than three axles and a relatively larger wheelbase.…”

Section: Introductionmentioning

confidence: 99%

Design and performance analysis of an adaptive omnidirectional wheel for heavy payload robot

Du²,

Yu³

et al. 2022

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Purpose With the development of automation technology, the accuracy, bearing capacity and self-adaptation requirements of wheeled mobile robots are more and more demanding under various complex conditions, which will urge designers such shortcomings as the low accuracy, poor flexibility and weak obstacle crossing ability of traditional heavy haul vehicles and improve the wear resistance and bearing capacity of traditional omnidirectional wheels. Design/methodology/approach The optimal configuration for heavy payload transportation is obtained by building sliding friction consumption model of traditional wheels with different driving types based on Hertz tangential contact theory. The heavy payload omnidirectional wheel with a double-wheel steering and a coupled differential wheel driving is designed with the optimal configuration. The wheel consists of a differential gear train unit and a nonindependent suspension unit. Kinematics model of the wheel is established and relative parameters are optimized. Findings The prototype experiments show that the wheel has higher motion accuracy and environment adaptability. The results are consistent with the theoretical calculation, which show that the accuracy is more than 50% higher than that of differential prototype. The motion stability and the accuracy of the coupled differential omnidirectional wheel are better than those of the traditional omnidirectional wheels during the moving and obstacle crossing process under complex conditions, which verifies the correctness and advantages of the design. Originality/value Aiming at the specific application of heavy payload omnidirectional transportation, a new omnidirectional mobile mechanism with a two-wheel coupling drive structure and an adaptive mechanism is proposed. The simulation and experimental results show that it can realize the high-precision heavy-load omnidirectional movement, the effective contact with the ground and improve the adaptability to the rugged ground. It is flexible, simple and modular and can be widely applied to transportation, exploration, detection and other related industrial fields.

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Design and development of a robotic self-transfer device for wheelchair users

Cited by 14 publications

References 10 publications

Mathematical Modeling of Variants of Transpedicular Fixation at the Thoracolumbar Junction After Тhхіі Vertebrectomy During Trunk Backward Bending

Mathematical Modeling of Variants of Transpedicular Fixation at the Thoracolumbar Junction After Тhхіі Vertebrectomy During Trunk Backward Bending

Hip Lift Transfer Assistive System for Reducing Burden on Caregiver’s Waist

Design and performance analysis of an adaptive omnidirectional wheel for heavy payload robot

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