84年鼠女哪年财运最旺,857comvvv色九欧美激情|85PO_87国产精品欲av国产av资源

[1]郭悅,董鑫宇,蘇秀云,等.六自由度并聯(lián)機器人模擬中醫(yī)正骨手法復(fù)位簡單骨折的可行性研究[J].中醫(yī)正骨,2020,32(07):1-5.
 GUO Yue,DONG Xinyu,SU Xiuyun,et al.A feasibility study of simulated TCM bone-setting manipulative reduction using 6-degree of freedom parallel robot for treatment of simple fractures[J].The Journal of Traditional Chinese Orthopedics and Traumatology,2020,32(07):1-5.
點擊復(fù)制

六自由度并聯(lián)機器人模擬中醫(yī)正骨手法復(fù)位簡單骨折的可行性研究()
分享到:

《中醫(yī)正骨》[ISSN:1001-6015/CN:41-1162/R]

卷:
第32卷
期數(shù):
2020年07期
頁碼:
1-5
欄目:
基礎(chǔ)研究
出版日期:
2020-07-20

文章信息/Info

Title:
A feasibility study of simulated TCM bone-setting manipulative reduction using 6-degree of freedom parallel robot for treatment of simple fractures
作者:
郭悅1董鑫宇2蘇秀云1張海濤1康會坤1孫昊2陳建文1
1.國家康復(fù)輔具研究中心附屬康復(fù)醫(yī)院,北京 100176; 2.河北工業(yè)大學(xué),天津 300401
Author(s):
GUO Yue1DONG Xinyu2SU Xiuyun1ZHANG Haitao1KANG Huikun1SUN Hao2CHEN Jianwen1
1.The Affiliated Rehabilitation Hospital of National Research Center for Rehabilitation Technical Aids,Beijing 100176,China 2.Hebei University of Technology,Tianjin 300401,China
關(guān)鍵詞:
正骨手法 骨折 六自由度并聯(lián)機器人
Keywords:
bone setting manipulation fractures 6-degree of freedom parallel robot
摘要:
目的:探討六自由度并聯(lián)機器人模擬中醫(yī)正骨手法復(fù)位簡單骨折的可行性。方法:利用MATLAB軟件繪制六自由度并聯(lián)機器人的工作空間。將1個人體脛骨模型從中段切斷,模擬脛骨橫形骨折。通過計算機在測定的機器人工作空間范圍內(nèi)隨機生成100例脛骨橫形骨折的移位和成角數(shù)據(jù)。根據(jù)機器人的實際指標(biāo)采用MATLAB軟件對100例脛骨橫形骨折進行模擬復(fù)位,然后按照模擬的骨折移位、成角數(shù)據(jù)擺放脛骨骨折模型,脛骨骨折模型兩端采用直徑4.0 mm螺紋骨針分別固定在機器人的固定平臺和動平臺上,采用機器人對脛骨骨折模型進行復(fù)位。結(jié)果:六自由度并聯(lián)機器人的動平臺在正立位時的工作空間為高度300 mm、活動半徑250 mm的傘形區(qū)域。MATLAB軟件模擬復(fù)位的平均位移誤差為0.21 mm,平均成角誤差為0.02°; 機器人復(fù)位骨折的平均位移誤差為1.2 mm、平均成角誤差為1.3°,最大位移誤差為2.6 mm、最大成角誤差為2.1°。結(jié)論:六自由度并聯(lián)機器人的工作空間覆蓋范圍廣,復(fù)位簡單骨折精度高,應(yīng)用該機器人模擬中醫(yī)正骨手法復(fù)位簡單骨折具有較高的可行性。
Abstract:
Objective:To explore the feasibility of simulated TCM bone-setting manipulative reduction using 6-degree of freedom(DOF)parallel robot for treatment of simple fractures.Methods:The workspace of 6-DOF parallel robot was drawn by using MATLAB software.A human tibial model was selected and cut in half to simulate tibial transverse fracture.The displacement and angulation data of 100 transverse tibial fracture models were randomly generated by computer within the range of measured workspace of the 6-DOF parallel robot.The fracture reductions were simulated on 100 transverse tibial fracture models by using MATLAB software according to the actual indexes of 6-DOF parallel robot,and the tibial fracture models were placed according to the simulated displacement and angulation data.The opposite ends of tibial fracture models were fixed on the fixed platform and moving platform of the robot respectively with 4.0-mm diameter screw-thread spicules,and reductions were performed on the tibial fracture models by 6-DOF parallel robot.Results:The workspace of the moving platform of 6-DOF parallel robot in orthostatism was an umbrella-shaped area with 300 mm in height and 250 mm in moving radius.The mean deviation in displacement and angulation were 0.21 mm and 0.02 degrees respectively in simulating reduction by MATLAB software,and were 1.2 mm and 1.3 degrees respectively in simulating reduction by 6-DOF parallel robot.The maximum deviation in displacement and angulation were 2.6 mm and 2.1 degrees respectively in simulating reduction by 6-DOF parallel robot.Conclusion:The 6-DOF parallel robot covers wide area in the workspace and has a high accuracy in reduction of simple fractures.It is feasible for 6-DOF parallel robot to simulate TCM bone-setting manipulation in reduction of simple fractures.

參考文獻(xiàn)/References:

[1] 張尚盈,趙慧,韓俊偉.六自由度運動平臺實時控制的正/反解算法[J].機床與液壓,2003(3):133-135.
[2] 陳麗.Stewart平臺6-DOF并聯(lián)機器人完整動力學(xué)模型的建立[J].燕山大學(xué)學(xué)報,2004,28(3):228-232.
[3] GOSSELIN C.Determination of the workspace of 6-DOF parallel manipulators[J].Journal of Mechanical Design,1990,112(3):331-336.
[4] 吳生富,王洪波,黃真.并聯(lián)機器人工作空間的研究[J].機器人,1991,13(3):33-39.
[5] 王軍強.骨科手術(shù)機器人臨床應(yīng)用的優(yōu)勢和局限[J].中國醫(yī)刊,2016,51(10):1.
[6] SEIDE K,FASCHINGBAUER M,WENZL M E,et al.A hexapod robot external fixator for computer assisted fracture reduction and deformity correction[J].Int J Med Robot,2004,1(1):64-69.
[7] LI C,WANG T M,HU L,et al.A visual servo-based teleoperation robot system for closed diaphyseal fracture reduction[J].Proc Inst Mech Eng H,2015,229(9):629-637.
[8] 韓巍,王軍強,林鴻,等.主從式長骨骨折復(fù)位機器人的實驗研究[J].北京生物醫(yī)學(xué)工程,2015,34(1):12-17.
[9] WEI M,CHEN J,GUO Y E,et al.The computer-aided parallel external fixator for complex lower limb deformity correction[J].Int J Comput Assist Radiol Surg,2017,12(12):2107-2117.
[10] 顏景濤,陳建文,王現(xiàn)海.計算機輔助Taylor外固定架結(jié)合足部截骨治療成人嚴(yán)重馬蹄內(nèi)翻足[J].中國矯形外科雜志,2015,23(21):2003-2006.
[11] 陳建文,顏景濤,郭悅.計算機輔助外固定支架在復(fù)雜脛腓骨畸形截骨矯正術(shù)中的應(yīng)用[J].中華創(chuàng)傷骨科雜志,2015,17(7):589-593.
[12] 陳建文,顏景濤,郭悅.計算機輔助Taylor空間支架治療嚴(yán)重屈膝畸形的臨床研究[J].中國矯形外科雜志,2015,23(9):852-855.
[13] 陳建文,秦泗河,焦紹鋒,等.Ilizarov技術(shù)矯治兒童馬蹄內(nèi)翻足畸形[J].中華小兒外科雜志,2010,31(5):350-353.
[14] ZHANG X S,SUN H,CHEN J W,et al.Optimization of electronic prescription for parallel external fixator based on genetic algorithm[J].Springer International Publishing,2019,14(5):861-871.
[15] CHEN X H,SUN H,ZHANG H.A New method of simultaneous localization and mapping for mobile robots using acoustic landmarks[J].MDPI,2019,9(7):1-24.
[16] 孫昊,張習(xí)帥,陳建文,等.基于蟻群算法的骨外固定器處方優(yōu)化[J].儀器儀表學(xué)報,2018,39(10):232-240.

相似文獻(xiàn)/References:

[1]江濤,江林,史俊德,等.動氣針法在踝關(guān)節(jié)骨折術(shù)后中后期康復(fù)中的應(yīng)用[J].中醫(yī)正骨,2015,27(11):20.
 JIANG Tao,JIANG Lin,SHI Junde,et al.Application of Dongqi acupuncture(動氣針法)to postoperative rehabilitation in the middle-late period in patients with ankle joint fractures[J].The Journal of Traditional Chinese Orthopedics and Traumatology,2015,27(07):20.
[2]許兵,葉小雨,王蕭楓,等.小管徑經(jīng)皮椎體后凸成形術(shù)治療 骨質(zhì)疏松性椎體重度壓縮骨折[J].中醫(yī)正骨,2015,27(11):29.
[3]王 強.脛腓下聯(lián)合骨牽引配合手法整復(fù)小夾板外固定治療 兒童閉合移位性股骨干骨折[J].中醫(yī)正骨,2015,27(10):15.
[4]全先輝,萬春友,劉磊,等.Taylor空間支架外固定治療脛腓骨開放性骨折[J].中醫(yī)正骨,2015,27(10):30.
[5]袁偉,周曉莉.T形掌指骨微型鋼板內(nèi)固定治療鎖骨近端骨折[J].中醫(yī)正骨,2015,27(10):47.
[6]白晨平.微型鋼板內(nèi)固定治療掌指骨骨折[J].中醫(yī)正骨,2015,27(08):26.
[7]何 濤.帶尾孔髕骨針聯(lián)合纜索內(nèi)固定系統(tǒng)治療閉合性髕骨骨折[J].中醫(yī)正骨,2015,27(08):41.
[8]朱彥昭,申成春,蔣麗娜,等.早期手術(shù)修復(fù)踝關(guān)節(jié)骨折合并的三角韌帶完全斷裂[J].中醫(yī)正骨,2015,27(08):46.
[9]董正超,姚新苗.髕骨骨折的分型及內(nèi)固定治療進展[J].中醫(yī)正骨,2015,27(08):58.
[10]李時軍,丁文軍,劉立春.恥骨下支應(yīng)力性骨折1例[J].中醫(yī)正骨,2015,27(08):74.

備注/Memo

備注/Memo:
基金項目:北京市科技計劃課題(Z181100001718194) 通訊作者:陳建文 E-mail:[email protected]
更新日期/Last Update: 2020-07-20