Eduardo Castillo-Castañeda scite author profile

Eduardo Castillo-Castañeda

4Publications

84Citation Statements Received

86Citation Statements Given

How they've been cited

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Affiliations

Instituto Politécnico Nacional, Polytechnic University of Queretaro, Autonomous University of Queretaro

Publications

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NURSE-2 DoF Device for Arm Motion Guidance: Kinematic, Dynamic, and FEM Analysis

et al. 2020

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Patients with neurological or orthopedic lesions require assistance during therapies with repetitive movements. NURSE (cassiNo-qUeretaro uppeR-limb aSsistive dEvice) is an arm movement aid device for both right- and left-upper limb. The device has a big workspace to conduct physical therapy or training on individuals including kids and elderly individuals, of any age and size. This paper describes the mechanism design of NURSE and presents a numerical procedure for testing the mechanism feasibility that includes a kinematic, dynamic, and FEM (Finite Element Method) analysis. The kinematic demonstrated that a big workspace is available in the device to reproduce therapeutic movements. The dynamic analysis shows that commercial motors for low power consumption can achieve the needed displacement, acceleration, speed, and torque. Finite Element Method showed that the mechanism can afford the upper limb weight with light-bars for a tiny design. This work has led to the construction of a NURSE prototype with a light structure of 2.6 kg fitting into a box of 35 × 45 × 30 cm. The latter facilitates portability as well as rehabilitation at home with a proper follow-up. The prototype presented a repeatability of ±1.3 cm that has been considered satisfactory for a device having components manufactured with 3D rapid prototyping technology.

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Finding the Generalized Forces of a Series-Parallel Manipulator

Garcia-Murillo¹,

Gallardo-Alvarado

Castillo-Castañeda³

2013

International Journal of Advanced Robotic Systems

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In this work the kinematic and dynamic analyses of a robot manipulator whose topology consists of parallel kinematic structures with linear actuators are approached by means of the theory of screws and the principle of virtual work. The input/output equations of velocity and acceleration are obtained by applying screw theory. Then the generalized forces of the manipulator are determined combining screw theory and the principle of virtual work. Finally, a case study, whose numerical results are compared with simulations generated with the aid of specialized software, is included.

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Design of arm exercises for rehabilitation assistance

Chaparro-Rico

Cafolla

Castillo-Castañeda

et al. 2020

JER is an international, peer-reviewed journal that publishes f

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Experimental Characterization of NURSE, a Device for Arm Motion Guidance

Chaparro-Rico

Cafolla

Ceccarelli

et al. 2018

Journal of Healthcare Engineering

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This paper presents an experimental characterization of NURSE, a device for arm motion guidance. The laboratory setup and testing modes are presented to explain the experimental procedure. Two exercises for the upper limb exercise are used to test the NURSE behaviour, and successful results are presented. Trajectories and linear accelerations are tested when the device performs the two exercises without and with load. In addition, torque and power consumption are considered to check the NURSE behaviour.

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