直流电源激励下的电路高分辨力应变信号处理
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TN9117

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国家重点研发计划(2017YFC0110402)、天津市自然科学基金(18JCYBJC18800)项目资助


High resolution strain signal processing for the circuit under DC source excitation
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    摘要:

    针对应变信号测量中存在的噪声与直流漂移问题,在研究应变信号漂移特性的基础上,提出了一种适用的直流漂移消除方法,即根据信号的局部极值点进行分段,而后对各段进行多项式拟合;对漂移消除后的信号采用一维双边滤波进行降噪处理,提出了双边滤波最优参数的选择方法,并以信噪比为指标对双边滤波的降噪性能进行了评估。利用实验检验了提出方法的有效性,实验数据为微创外科手术机器人力传感器的应变信号。实验结果表明,经改进的分段多项式拟合方法有效去除了直流漂移;双边滤波方法不仅适用于信号的动态滤波,也保证了良好的滤波效果;使用本文提出的应变信号处理方法后,力传感器的分辨力优于2 g。

    Abstract:

    Aiming at the problems of noise and direct current (DC) drift in strain signal measurement, a suitable DC drift cancelation method is proposed based on studying the DC drift characteristics of strain signal. The signal is segmented according to local extremum points, and then polynomial fitting is performed on each segment. The onedimensional bilateral filtering is adopted to perform noise reduction processing for the drift cancelled signal, and the optimal parameter selection method of the bilateral filtering is proposed, and the denoising performance of the bilateral filtering is evaluated with signaltonoise ratio (SNR) as the index. The effectiveness of the proposed method was verified with experiment, in which the experiment data was the strain signal acquired from a force sensor in the minimally invasive surgery robot. Experiment results show that the improved piecewise polynomial fitting method effectively remove the DC drift of the strain signal, and the bilateral filtering method not only is suitable for the dynamic filtering of the signal, but also ensures excellent filtering effect. With the proposed strain signal processing method the resolution of the force sensor is better than 2 g.

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孙会娇,代煜,张建勋,姚斌.直流电源激励下的电路高分辨力应变信号处理[J].仪器仪表学报,2019,40(8):184-190

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  • 在线发布日期: 2022-02-22
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