[1]高 敏,张一帆*,洪成雨,等.柔性传感器在足底压力测量系统中的应用[J].服装学报,2018,3(04):301-307.
 GAO Min,ZHANG Yifan*,HONG Chengyu,et al.Application of Flexible Sensors in the Plantar Pressure Measurement System[J].Journal of Clothing Research,2018,3(04):301-307.
点击复制

柔性传感器在足底压力测量系统中的应用()
分享到:

《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第3卷
期数:
2018年04期
页码:
301-307
栏目:
服装信息技术
出版日期:
2018-08-30

文章信息/Info

Title:
Application of Flexible Sensors in the Plantar Pressure Measurement System
作者:
高 敏1;  张一帆*1;  洪成雨2;  李毓陵1;  高卫东3
1.东华大学 纺织学院,上海 201620; 2.上海大学 土木工程系,上海 200444; 3.江南大学 纺织服装学院,江苏 无锡 214122
Author(s):
GAO Min1;  ZHANG Yifan*1;  HONG Chengyu2;  LI Yuling1;  GAO Weidong3
1.College of Textile,Donghua University,Shanghai 201620,China; 2.Department of Civil Engineering,Shanghai University,Shanghai 200444,China; 3.School of Textile and Clothing,Jiangnan University,Wuxi 214122,China
分类号:
TP 212
文献标志码:
A
摘要:
查阅国内外相关资料,对柔性传感器在足底压力测量系统中的应用进行总结。常见的足底压力测量系统主要有鞋式和平台式两种,分析影响这两种足底压力测量系统的影响因素和传感器在足底压力测量方面的性能,并对人体足底压力测量点和传感器测量区域进行讨论。研究发现传感器与压力的线性力学属性可以实现足底压力的实时测量,将传感器、Internet和GPRS模块有效结合的足底压力测量系统能够实现远程足部电子医疗诊断与监测。
Abstract:
This paper summarized the application of flexible sensors in the foot pressure measurement system by reviewing the relevant references at home and abroad. Common foot pressure measurement systems included shoes and flat benches. The study also analyzed the influencing factors of the two plantar pressure measurement systems,the performance of the sensor in the measurement of plantar pressure,and the measurement points and areas of human foot pressure. The results showed that real-time measurement of plantar pressure could be achieved by the linear mechanical properties of the sensor and pressure. The foot pressure measurement system that combines the sensor,Internet and GPRS modules could enable remote foot electronic medical diagnosis and monitoring.

参考文献/References:

[1] 钱鑫,苏萌,李风煜,等. 柔性可穿戴电子传感器研究进展[J]. 化学学报,2016,74(7): 565-575.
QIAN Xin,SU Meng,LI Fengyu,et al. Research progress of flexible wearable electronic sensors[J]. Acta Chimica Sinica,2016,74(7): 565-575.(in Chinese)
[2] RAZAK A H,ZAYEGH A,BEGG R K,et al. Foot plantar pressure measurement system: a review[J]. Sensors,2012,12(7): 9884-9912.
[3] BONATO P. Wearable sensors/systems and their impact on biomedical engineering[J]. IEEE Engineering in Medicine and Biology Magazine,2003,22(3): 18-20.
[4] MONTEIRO M,GABRIEL R,ARANHA J,et al. Influence of obesity and sarcopenic obesity on plantar pressure of postmenopausal women[J]. Clinical Biomechanics,2010,25(5): 461- 467.
[5] TEH E,TENG L F,RAJENDRA A U,et al. Static and frequency domain analysis of plantar pressure distribution in obese and non-obese subjects[J]. Journal of Bodywork and Movement Therapies,2006,10(2): 127-133.
[6] HESSERT M J,VYAS M,LEACH J,et al. Foot pressure distribution during walking in young and old adults[J]. Bmc Geriatrics,2005,5(1): 8.
[7] KELLIS E. Plantar pressure distribution during barefoot standing,walking and landing in preschool boys[J]. Gait and Posture,2001,14(2): 92-97.
[8] PERIYASAMY R,MISHRA A,ANAND S,et al. Preliminary investigation of foot pressure distribution variation in men and women adults while standing[J]. Foot,2011,21(3): 142-148.
[9] URRY S. Plantar pressure-measurement sensors[J]. Measurement Science and Technology,1999,10(1): 16.
[10] CAVANAGH P R,TAMMY M S. Nonsurgical strategies for healing and preventing recurrence of diabetic foot ulcers[J]. Foot and Ankle Clinics of North America,2006,11(4): 735-743.
[11] XU Y,WANG L,HE J,et al. Prevalence and control of diabetes in Chinese adults[J].Jama the Journal of the American Medical Asso,2013,310(9): 948-959.
[12] 袁刚,张木勋,张建华,等. 足底压力分布测量系统及临床应用[J]. 中国组织工程研究,2004,18(29): 22-25.
YUAN Gang,ZHANG Muxun,ZHANG Jianhua,et al. Measuring system for plantar pressure distribution and its clinical application[J]. Chinese Journal of Tissue Engineering Research,2004,18(29): 22-25.(in Chinese)
[13] 彭开怀. 基于嵌入式系统的足底压力分布检测仪[D]. 成都:电子科技大学,2015:6-9.
[14] BAMBERG S J,BENBASAT A Y,SCARBOROUGH D M,et al. Gait analysis using a shoe-integrated wireless sensor system[J]. IEEE Transactions on Information Technology in Biomedicine,2008,12(4): 413- 423.
[15] LEE N K S,GOONETILLEKE R S,CHEUNG Y S,et al. A flexible encapsulated MEMS pressure sensor system for biomechanical applications[J]. Microsystem Technologies,2001,7(2): 55- 62.
[16] MURPHY D F,BEYNNON B D,MICHELSON J D,et al. Efficacy of plantar loading parameters during gait in terms of reliability,variability,effect of gender and relationship between contact area and plantar pressure[J]. Foot and Ankle International,2005,26(2): 171-179.
[17] HILLS A P,HENNIG E M,MCDONALD M,et al. Plantar pressure differences between obese and non-obese adults: a biomechanical analysis[J]. International Journal of Obesity,2001,25(11): 1674-1679.
[18] BIRTANE M,TUNA H. The evaluation of plantar pressure distribution in obese and non-obese adults[J]. Clinical Biomechanics,2004,19(10): 1055-1059.
[19] BOSCH K,NAGEL A,WEIGEND L,et al. From "first" to "last" steps in life-pressure patterns of three generations[J]. Clinical Biomechanics,2009,24(8): 676.
[20] KO M,HUGHES L,LEWIS H. Walking speed and peak plantar pressure distribution during barefoot walking in persons with diabetes[J]. Physiotherapy Research International,2012,17(1): 29-35.
[21] TAYLOR A J,MENZ H B,KEENAN A M. The influence of walking speed on plantar pressure measurements using the two-step gait initiation protocol[J]. Foot,2004,14(1): 49-55.
[22] MAETZLER M,BOCHDANSKY T,ABBOUD R J. Normal pressure values and repeatability of the EmedST2 system[J]. Gait and Posture,2010,32(3): 391-394.
[23] BURNFIELD J M,FEW C D,MOHAMED O S,et al. The influence of walking speed and footwear on plantar pressures in older adults[J]. Clinical Biomechanics,2004,19(1): 78-84.
[24] CHUCKPAIWONG B,NUNLEY J A,MALL N A,et al. The effect of foot type on in-shoe plantar pressure during walking and running[J]. Gait and Posture,2008,28(3): 405- 411.
[25] SYED N,KARVANNAN H,MAIYA A G,et al. Plantar pressure distribution among asymptomatic individuals: a cross-sectional study[J]. Foot and Ankle Specialist,2012,5(2): 102-106.
[26] SCHIE C H M V,BOULTON A J M. The effect of arch height and body mass on plantar pressure[J]. Wounds A Compendium of Clinical Research and Practice,2000,12(4): 88-95.
[27] QUEEN R M,ABBEY A N,WIEGERINCK J I,et al. Effect of shoe type on plantar pressure: a gender compa- rison[J]. Gait and Posture,2010,31(1): 18-22.
[28] WIEGERINCK J I,BOYD J,YODER J C,et al. Differences in plantar loading between training shoes and racing flats at a self-selected running speed[J]. Gait and Posture,2009,29(3): 514-519.
[29] PUTTI A B,ARNOLD G P,ABBOUD R J. Foot pressure differences in men and women[J]. Foot and Ankle Surgery,2010,16(1): 21-24.
[30] PATAKY T C,CARAVAGGI P,SAVAGE R,et al. New insights into the plantar pressure correlates of walking speed using pedobarographic statistical parametric mapping(pSPM)[J]. Journal of Biomechanics,2008,41(9): 1987-1994.
[31] DRERUP B,SZCZEPANIAK A,WETZ H H. Plantar pressure reduction in step-to gait: a biomechanical investigation and clinical feasibility study[J]. Clinical Biomechanics,2008,23(8): 1073-1079.
[32] 王兰美,郭业民,潘志国. 人体足底压力分布研究与应用[J]. 机械制造与自动化,2005,34(1): 35-38.
WANG Lanmei,GUO Yemin,PAN Zhiguo. The study on plantar pressure distribution and its application[J]. Machine Manufacturing and Automation,2005,34(1): 35-38.(in Chinese)
[33] LUO Z P,BERGLUND L J,AN K N. Validation of F-Scan pressure sensor system: a technical note[J]. Journal of Rehabilitation Research and Development,1998,35(2): 186-191.
[34] BEEBY S P. MEMS mechanical sensors[J]. Sensor Review,2004,24(3): 319-320.
[35] SHU L,HUA T,WANG Y,et al. In-shoe plantar pressure measurement and analysis system based on fabric pressure sensing array[J]. IEEE Transactions on Information Technology in Biomedicine A Publication of the IEEE Engineering in Medicine and Biology Society,2010,14(3): 767-775.
[36] HEALY A,BURGESSWALKER P,NAEMI R,et al. Repea- tability of Walkin Sense in shoe pressure measurement system: a preliminary study[J]. Foot,2012,22(1): 35.
[37] CONG Y, ZHANG M. Measurement of in-shoe plantar triaxial stresses in high-heeled shoes[C]// International Conference on Biomedical Engineering and Informatics. New York:IEEE,2010:1760-1763.
[38] EDGAR S,SWYKA T,FULK G,et al. Wearable shoe-based device for rehabilitation of stroke patients[C]// International Conference of the IEEE Engineering in Medicine and Biology. New York:IEEE,2010:3772-3775.
[39] SALPAVAARA T,VERHO J,LEKKALA J,et al. Wireless insole sensor system for plantar force measurements during sport events[J]. XIX Imeko World Congress Fundamental and Applied Metrology Proceedings,2009,76(12): 6-11.
[40] HOLLECZEK T,RÜEGG A,HARMS H,et al. Textile pres- sure sensors for sports applications[J]. Sensors,2010,143(2): 732-737.
[41] SAITO M,NAKAJIMA K,TAKANO C,et al. An in-shoe device to measure plantar pressure during daily human activity[J]. Medical Engineering and Physics,2011,33(5): 638- 645.
[42] ZHANG Y F,HONG C Y,RAFIQUE A,et al. A fiber Bragg grating based sensing platform fabricated by fused deposition modeling process for plantar pressure measurement[J]. Measurement,2017,112(20): 74-79.
(责任编辑:张 雪,邢宝妹)

相似文献/References:

[1]金佳勤,于 淼*,王 侠,等.基于柔性传感技术的压力监测运动裤设计[J].服装学报,2022,7(03):202.
 JIN Jiaqin,YU Miao*,WANG Xia,et al.Design of Pressure Monitoring Sports Pants Based on Flexible Sensing Technology[J].Journal of Clothing Research,2022,7(04):202.

更新日期/Last Update: 2018-08-31