Lower limb prosthesis: Optimization by lattice and four-bar polycentric knee

被引：1

作者：

Contreras-Tenorio, Enrique ^{[1
]}

Kardasch-Nava, Ilse ^{[1
]}

Gonzalez de Salceda, Shazer ^{[1
]}

Fuentes-Alvarez, Ruben ^{[1
,2
]}

Beltran Fernandez, Juan Alfonso ^{[3
]}

Rincon-Martinez, Karla ^{[1
]}

Alfaro-Ponce, Mariel ^{[1
]}

Matehuala-Moran, Ivan ^{[1
,2
]}

机构：

[1] Tecnol Monterrey, Sch Engn & Sci, Calle Puente 222, Tlalpan 14380, Cdmx, Mexico

[2] Inst Nacl Ciencias Med & Nutr Salvador, Biomed Engn Dept, Tlalpan 14080, Cdmx, Mexico

[3] Inst Politecn Nacl, Escuela Super Ingn Mecan & Elect, SEPI Zacatenco, Cdmx 14080, Mexico

来源：

2021 43RD ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE & BIOLOGY SOCIETY (EMBC) | 2021年

关键词：

Knee biomechanics; Lattice optimization; Lower-limb prosthesis;

D O I：

10.1109/EMBC46164.2021.9630785

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

Diabetes has brought several health problems; one of the most common is the amputation of the lower limb, for which the development of low-cost lower limb prostheses has taken on an important role to allow people with these injuries to continue independently with their lives. This paper proposes developing a transfemoral prosthesis for a 47-year-old patient with a weight of 100kg and a height of 1.80m. The approach shows the kinematic model of the four-bar mechanism of the knee, following the Denavith-Hartenberg method, and the calculation of the knee angle curve and the gait with the help of OpenSim. Consequently, it is shown the design of the parts of the prosthesis done in Autodesk Fusion 360 and their optimization by a lattice in Creo software. Finally, the stress simulations in Ansys with the materials previously selected in CES EduPack are presented.

引用

页码：4801 / 4807

页数：7

共 50 条

[1] Design of a four-bar transfemoral polycentric prosthesis using intelligent algorithms
Lopez-Suarez, Omar-Ismael
Martinez-Paredes, Jonathan
Fuerte-Hernandez, Ariel
Campos-Lopez, Juan-Pablo
Morales-Bonilla, Samuel
Altamirano-Olguin, Ivan
Taxilaga-Zetina, Oscar
Hernandez-Valencia, Gerardo
DYNA, 2019, 94 (01): : 11 - 11
[2] Design and optimization of exoskeleton structure of lower limb knee joint based on cross four-bar linkage
Gao, Moyao
Wang, Zhanli
Li, Shuang
Li, Jing
Pang, Zaixiang
Liu, Shuai
Duan, Zhifeng
AIP ADVANCES, 2021, 11 (06)
[3] Development of four-bar polycentric knee joint with stance-phase knee flexion
Santiphap Phoengsongkhro
Pairat Tangpornprasert
Pattarapol Yotnuengnit
Manunchaya Samala
Chanyaphan Virulsri
Scientific Reports, 13
[4] Development of four-bar polycentric knee joint with stance-phase knee flexion
Phoengsongkhro, Santiphap
Tangpornprasert, Pairat
Yotnuengnit, Pattarapol
Samala, Manunchaya
Virulsri, Chanyaphan
SCIENTIFIC REPORTS, 2023, 13 (01)
[5] A four-bar knee joint measurement walking system for prosthesis design
Zhang, Yibin
Cao, Wujing
Yu, Hongliu
Meng, Qiaoling
Lv, Jie
TECHNOLOGY AND HEALTH CARE, 2021, 29 (04) : 823 - 828
[6] FEM-based fatigue analysis on a four-bar polycentric knee of above-knee prostheses
Noorani, Mohammad-Reza Sayyed
Hoseini, Saman
INTERNATIONAL JOURNAL OF BIOMEDICAL ENGINEERING AND TECHNOLOGY, 2024, 44 (02) : 120 - 132
[7] COMPLIANCE FOR A CROSS FOUR-BAR KNEE JOINT
Hamon, A.
Aoustin, Y.
FIELD ROBOTICS, 2012, : 750 - 757
[8] The description of the human knee as four-bar linkage
Dathe, Henning
Gezzi, Riccardo
Fiedler, Christoph
Kubein-Meesenburg, Dietmar
Naezgerl, Hans
ACTA OF BIOENGINEERING AND BIOMECHANICS, 2016, 18 (04) : 107 - 115
[9] The research of the four-bar bionic active knee
Kim Ki Jun
Wu Chengdong
Wang Fei
Wen Shiguang
ADVANCED DESIGN TECHNOLOGY, PTS 1-3, 2011, 308-310 : 1988 - 1991
[10] Robotic Knee Prosthesis with Cycloidal Gear and Four-Bar Mechanism Optimized Using Particle Swarm Algorithm
Al Kouzbary, Mouaz
Al Kouzbary, Hamza
Liu, Jingjing
Khamis, Taha
Al-Hashimi, Zaina
Shasmin, Hanie Nadia
Arifin, Nooranida
Abu Osman, Noor Azuan
ACTUATORS, 2022, 11 (09)

← 1 2 3 4 5 →