地震监测预警要求高质量台站波形数据记录,而测震台站设备的异常运行导致波形异常时有发生,影响了台站数据质量。面对数量骤增的预警台站,仅依靠人工浏览波形方式难以及时发现波形异常台站,无法保证观测数据质量。以山西预警台网基准站、基本站及一般站实时记录的波形数据为基础,采用概率功率谱密度(PPSD)计算方法,实现对预警台站地噪声水平的计算,同时利用PDF图对比分析部分台站正常与异常波形特点。结果表明:地震计能有效记录较宽频带内的台基噪声;加速度计能记录大于0.1 Hz的台基噪声;烈度计仅记录自噪声,无法有效记录台基噪声。分析认为,可利用该方法检验台站仪器的运行状态,以便及时发现异常台站,进而实现对台站波形数据的质量监控。
Seismic monitoring and early warning require high-quality waveform data. However, the abnormal operation of the equipment in the seismic station leads to the abnormal waveform from time to time, which affects the data quality of the station. In the face of the sudden increase in the number of stations, it is difficult to detect abnormal waveforms in time by manually waveform browsing, and the observation data quality cannot be guaranteed. Based on the real-time waveform data recorded by the base stations, basic stations, and general stations of the Shanxi earthquake early warning station network, the probabilistic power spectral density (PPSD) method is used to calculate the ground noise level of the early warning stations, and the normal and abnormal waveform characteristics of some stations are compared and analyzed by PDF diagram. The results show that the seismometer can record the ground noise in the wide band effectively. The accelerometer can record the base noise greater than 0.1 Hz. The intensity meter only records the self-noise and cannot record the ground noise effectively. The analysis shows that this method can be used to check the operating state of the station instrument to detect the abnormal station in time, and then realize the quality monitoring of the station waveform data.
2024,45(2): 134-142 收稿日期:2023-11-20
DOI:10.3969/j.issn.1003-3246.2024.02.017
基金项目:山西省地震局青年科研项目(项目编号:SBK-2317)
作者简介:丁大业(1985—),男,工程师,主要从事测震台网运维及数据质量监控工作。E-mail:ding0001@126.com
*通讯作者:宫卓宏(1993—),男,工程师,主要从事测震台网运维及数据质量监控工作。E-mail:onzeros@mail.ustc.edu.cn
参考文献:
包文超,赵铁锁,申影,等. 内蒙古地震预警台站异常数据检测与分析[J]. 高原地震,2023,35(2):50-55.
陈建涛,谢剑波,吕仲杭,等. 基于PPSD方法的广东阳江小孔径井下型地震监测台阵环境地噪声计算与分析[J]. 华北地震科学,2019,37(2):21-29.
丁大业,董春丽,宫卓宏,等. 山西地震预警新建基准站数据质量评估[J]. 山西地震,2023,(2):15-22.
胡宝慧,张浩,教智博,等.地震台站噪声水平和台网监测能力自动化程序的实现[J]. 防灾减灾学报,2022,38(3):42-47.
刘旭宙,秦满忠,郭晓,等. 用噪声概率密度函数对比地震计观测性能[C]//2018年中国地球科学联合学术年会.北京:中国和平音像电子出版社,2018:1 072-1075.
王俊,徐戈,孙业君. 江苏省区域地表背景噪声特性的分析[J]. 地震研究,2009,32(2):155-161.
徐嘉隽,廖诗荣,张红才,等. 福建测震台网观测数据质量检测软件研究[J]. 华南地震,2010,30(4):97-104.
杨千里,郝春月,田鑫. 新疆和田台阵PSD与PDF分析[J]. 地球物理学报,2019,62(7):2 591-2 606.
Beyreuther M, Barsch R, Krischer L, et al. ObsPy: a python toolbox for seismology[J]. Seismological Research Letters, 2010, 81(3): 530-533.
McNamara D E, Buland R P. Ambient Noise Levels in the Continental United States [J]. Bulletin of the Seismological Society of America, 2004, 94(4): 1 517-1 527.
Sleeman R, Vila J. Towards an automated Quality Control Manager for the Virtual European Broadband Seismograph Network (VEBSN)[J]. Orfeus Electronic Newsletter, 2007, 7(1): 5-11.
