徐明伟等：基于心率监测的建筑工人生理疲劳分析 ·765· [12]Dai W T,Zhao X R,Zou Z F,et al.Analysis of working pos- sors and their placements for analyzing construction worker's tures and exertions in construction industry by OWAS method. trunk posture in laboratory conditions.Appl Ergon,2017,65: 0 ccup Health,2014,30(1):36 424 (戴文涛，赵晓蓉，邹志方，等.某地男性建筑工人作业姿势 [18]Thayer JF,Yamamoto SS,Brosschot J F.The relationship of 与用力度的V0WAS分析.职业与健康，2014,30(1)：36) autonomic imbalance,heart rate variability and cardiovascular [13]Nadadur G,Raschke U,Parkinson M B.A quantile-based an- disease risk factors.Int J Cardiol,2010,141 (2):122 thropometry synthesis technique for global user populations.IntJ [19]Cai Q M.Study on methods of evaluating physical fatigue accord- Ind Ergon,2016,53:167 ing to dynamic heart rate.Chin Ergon,1999,5(1):27 [14]Giles D,Draper N.Neil W.Validity of the polar V800 heart rate (蔡启明.以动态心率为指标的体力疲劳的评价方法研究 monitor to measure RR intervals at rest.Eur J Appl Physiol, 人类工效学，1999,5(1)：27) 2016,116(3):563 [20]Duan T H,Li X G,Li N L,et al.Experimental design of physi- [15]Liao B.Gao H.Chen N.Methods for classifying intensity of cal strength evaluation based on relatively integrated heart rate physical labor based on relative heart rate.I Saf Sci Technol, Res Explor Lab,2014,33(8):29 2013,9(4):166 (段天宏，李贤功，李乃梁，等.基于相对综合心率的体力劳 (廖斌，高慧，陈泞.基于相对心率的体力劳动强度评价方 动强度评价试验设计.试验室研究与探索，2014,33(8)： 法.中国安全生产科学技术，2013,9(4)：166) 29) [16]Kleiger RE,Stein PK,Bigger JT.Heart rate variability:meas- 21]Cai B,Dai K R.Evaluation on central and peripheral origin of urement and clinical utility.Ann Noninvasive Electrocardiol, muscle fatigue.J Med Biomech,2015,30(2):192 2005,10(1):88 (蔡斌，戴尅戎.评估肌肉疲劳的中枢和外周起源.医用生 [17]Lee W,Seto E,Lin K Y,et al.An evaluation of wearable sen- 物力学，2015,30(2)：192)徐明伟等: 基于心率监测的建筑工人生理疲劳分析 ［12］ Dai W T，Zhao X Ｒ，Zou Z F，et al． Analysis of working pos￾tures and exertions in construction industry by OWAS method． Occup Health，2014，30( 1) : 36 ( 戴文涛，赵晓蓉，邹志方，等． 某地男性建筑工人作业姿势 与用力度的 VOWAS 分析． 职业与健康，2014，30( 1) : 36) ［13］ Nadadur G，Ｒaschke U，Parkinson M B． A quantile-based an￾thropometry synthesis technique for global user populations． Int J Ind Ergon，2016，53: 167 ［14］ Giles D，Draper N，Neil W． Validity of the polar V800 heart rate monitor to measure ＲＲ intervals at rest． Eur J Appl Physiol， 2016，116( 3) : 563 ［15］ Liao B，Gao H，Chen N． Methods for classifying intensity of physical labor based on relative heart rate． J Saf Sci Technol， 2013，9( 4) : 166 ( 廖斌，高慧，陈泞． 基于相对心率的体力劳动强度评价方 法． 中国安全生产科学技术，2013，9( 4) : 166) ［16］ Kleiger Ｒ E，Stein P K，Bigger J T． Heart rate variability: meas￾urement and clinical utility． Ann Noninvasive Electrocardiol， 2005，10( 1) : 88 ［17］ Lee W，Seto E，Lin K Y，et al． An evaluation of wearable sen￾sors and their placements for analyzing construction worker's trunk posture in laboratory conditions． Appl Ergon，2017，65: 424 ［18］ Thayer J F，Yamamoto S S，Brosschot J F． The relationship of autonomic imbalance，heart rate variability and cardiovascular disease risk factors． Int J Cardiol，2010，141( 2) : 122 ［19］ Cai Q M． Study on methods of evaluating physical fatigue accord￾ing to dynamic heart rate． Chin Ergon，1999，5( 1) : 27 ( 蔡启明． 以动态心率为指标的体力疲劳的评价方法研究． 人类工效学，1999，5( 1) : 27) ［20］ Duan T H，Li X G，Li N L，et al． Experimental design of physi￾cal strength evaluation based on relatively integrated heart rate． Ｒes Explor Lab，2014，33( 8) : 29 ( 段天宏，李贤功，李乃梁，等． 基于相对综合心率的体力劳 动强度评价试验设计． 试验室研究与探索，2014，33 ( 8) : 29) ［21］ Cai B，Dai K Ｒ． Evaluation on central and peripheral origin of muscle fatigue． J Med Biomech，2015，30( 2) : 192 ( 蔡斌，戴尅戎． 评估肌肉疲劳的中枢和外周起源． 医用生 物力学，2015，30( 2) : 192) · 567 ·