地震废墟中人体心脏电场信号的提取
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摘要
基于人体心脏电场信号的生命探测仪是目前最先进的生命探测仪,其困难之处在于从地震废墟中提取微弱的心脏电场信号。本文主要分析地震废墟中可能出现的对人体电场有干扰的信号情况,提出如何接收废墟中微弱的超低频心脏电场信号,并根据人体心脏电场的特征设计特殊滤波器滤除干扰信号,只保留因人体心脏跳动而产生的360度扩展的超低频非均匀电场。
The life detector based on the signal of cardiac electric field is now the most advanced life detector,but the difficulty is how to extract the weak signal of cardiac electric field effectively from earthquake ruins.In this paper the signal interference situation in earthquake disaster ruins that maybe affect human electric field is analyzed and the method of receiving weak ultra-low frequency electric filed signals in the ruins is put forward.According to the characteristics of human cardiac electric field,a special filters is designed for filtering off interference signals.Only the expansion 360° ultra-low-frequency non-uniform electric field which produced by beating human heart can be left.
The life detector based on the signal of cardiac electric field is now the most advanced life detector,but the difficulty is how to extract the weak signal of cardiac electric field effectively from earthquake ruins.In this paper the signal interference situation in earthquake disaster ruins that maybe affect human electric field is analyzed and the method of receiving weak ultra-low frequency electric filed signals in the ruins is put forward.According to the characteristics of human cardiac electric field,a special filters is designed for filtering off interference signals.Only the expansion 360° ultra-low-frequency non-uniform electric field which produced by beating human heart can be left.
引文
[1]罗福龙.地震勘探中的电磁干扰[J].石油仪器,2004,18(2):1-5.
[2]张德齐.地震电磁辐射前兆判据探讨[J].地震学刊,1992,92(4):1-7.
[3]姜永权,郑义,龚世生,等.地震电磁辐射数字化观测方法及异常信号分析[J].华南地震,1999,19(1):67-71.
[4]何为,刘俐,杨浩.一种处理人体骨骼肌肉层各向异性导电性的数值方法[J].生物数学学报,1999,14(4):463-469.
[5]Tysler M,Turzova M,Tinova M,et al..Forward modeling ofthe cardiac electric field[J].Engineeringin Medicine and Biolo-gy Society,1996,4:1433-1434.
[6]马乃祥,周佩白.电磁场仿真技术[J].华东电力,2000,28(1):45-48.
[7]祝敏,周晏,贺亦成,等.极低频电场传感器的设计[J].核电子学与探测技术,2000,20(4):289-291.
[8]李培军,金慧然,等.基于独立成分分析的超低频电磁探测信号滤波[J].北京大学学报(自然科学版),2008,(4):45-51.
[9]国胜,康健,译.小波与傅里叶分析基础[M].北京:电子工业出版社,2004:166-167.
[10]赵国良,杨俊,孙?.心电信号的小波变换消噪方法[J].哈尔滨工程大学学报,2004,25(5):631-634.
[11]张勇,王介生.基于多分辨率分析的心电图信号去噪算法[J].系统工程与电子技术,2002,24(12):32-34.
[2]张德齐.地震电磁辐射前兆判据探讨[J].地震学刊,1992,92(4):1-7.
[3]姜永权,郑义,龚世生,等.地震电磁辐射数字化观测方法及异常信号分析[J].华南地震,1999,19(1):67-71.
[4]何为,刘俐,杨浩.一种处理人体骨骼肌肉层各向异性导电性的数值方法[J].生物数学学报,1999,14(4):463-469.
[5]Tysler M,Turzova M,Tinova M,et al..Forward modeling ofthe cardiac electric field[J].Engineeringin Medicine and Biolo-gy Society,1996,4:1433-1434.
[6]马乃祥,周佩白.电磁场仿真技术[J].华东电力,2000,28(1):45-48.
[7]祝敏,周晏,贺亦成,等.极低频电场传感器的设计[J].核电子学与探测技术,2000,20(4):289-291.
[8]李培军,金慧然,等.基于独立成分分析的超低频电磁探测信号滤波[J].北京大学学报(自然科学版),2008,(4):45-51.
[9]国胜,康健,译.小波与傅里叶分析基础[M].北京:电子工业出版社,2004:166-167.
[10]赵国良,杨俊,孙?.心电信号的小波变换消噪方法[J].哈尔滨工程大学学报,2004,25(5):631-634.
[11]张勇,王介生.基于多分辨率分析的心电图信号去噪算法[J].系统工程与电子技术,2002,24(12):32-34.
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