目的应用表面肌电图对脑瘫患儿电刺激前后的肌电活动进行分析。
Objective To value the application of surface electromyography(sEMG)in assessing the functional electrical stimulation(FES)used in children with spastic diplegia.
本文在表面肌电模式识别中引入了特征优化环节,并讨论了其作用。
Feature optimization was introduced in the pattern recognition of surface electromyography and is presented in this paper, and its effects are discussed in detail.
目的以姿势观察和表面肌电分析相结合,分析造型作业体力负荷暴露特征。
Objective To analyze the physical load characteristics of moulding workers by combining posture observation and surface electromyography(sEMG).
采用可重复性好、受噪声影响小的电刺激方式诱发表面肌电信号(SEMG)。
Electrically evoked SEMG signals which are high repeatability and little influenced by noise were adopted in the experiment.
结论表面肌电生物反馈治疗对脑卒中偏瘫患者下肢运动功能的恢复有明显的促进作用。
Conclusion Surface electromyogram biofeedback stimulation training can facilitate to provide satisfactory rehabilitation effects for lower limb function of hemiplegic stroke patients.
综述了表面肌电在肢体主动活动和姿势诱发反射下肢体功能评估中的应用及研究进展。
This paper reviews the surface EMG's application and recent progress in assessing the limb function in active response and evoked postural response.
本文旨在通过分析肌肉在静动态收缩的过程中表面肌电特征参数的变化,研究肌电信号中的疲劳特征。
The purpose of this thesis is to analyze the characteristic parameters of sEMG during muscle static and dynamic contractions, and to study sEMG characteristics of muscle fatigue.
表面肌电的信号检测是一种无创电检测方法,其信号的检测分析在临床诊断、康复医学及运动医学中具有重要意义。
The detection on signal of EMG is a non-invasive method, which has great importance in clinical diagnosis, rehabilitation and sport medicine.
目的通过表面肌电探讨腰椎间盘突出症腰部肌肉和下肢肌肉失衡的可能依据,并试图建立一种检测下肢腓肠肌表面肌电信号的实验方法。
ObjectiveTo explore the reason of imbalance for the lumbar and lower limb muscles by observing sEMG; Trying to establish a method of detecting sEMG for gastrocnemius.
尿动力肌电测量中主要有两种电极:表面电极和针电极。
Two types of electrodes used in urodynamics: surface electrodes and concentric needle electrodes .
跳远起跳过程中,同一肌肉在缓冲期的表面积分肌电值大于蹬伸期的表面积分肌电值。
Long Jump during the same period in the buffer surface of muscle IEMG value is greater than kicking IEMG values of the surface.
跳远起跳过程中,同一肌肉在缓冲期的表面积分肌电值大于蹬伸期的表面积分肌电值。
Long Jump during the same period in the buffer surface of muscle IEMG value is greater than kicking IEMG values of the surface.
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