DETECTION OF WEAK SUPERCONDUCTING GRAVIMETRIC SIGNALS WITH PRODUCT SPECTRUM OF WEIGHTED LSSA
Yin Hui ;and Wang Yanyan
School of Geodesy and Geomatics, Wuhan University, Wuhan 430079
Abstract Least Squares Spectral Analysis (LSSA) has been shown more suitable than Fourier analysis for analyzing time series with spikes, gaps, datum shrifts (offsets) and other disturbances in a variety of applications in geodesy and geophysics. To detect the weak superconducting gravimetric signals, a methodology of product spectrum based on weighted LSSA is presented,which can take consideration the correlations among the signals and highlight the potential spectra power of high resolution in the common figures as well as weaken or eliminate the power of noise. A data set of superconducting gravimeter observations at the Canada Superconducting Gravimeter Installation (CSGI) has been assembled for analysis to show its efficacy.
Key words :
weighted LSSA
product spectrum
superconducting gravimetric data
weak signals
noise
Received: 01 January 1900
Corresponding Authors:
Yin Hui
Cite this article:
Yin Hui,and Wang Yanyan. DETECTION OF WEAK SUPERCONDUCTING GRAVIMETRIC SIGNALS WITH PRODUCT SPECTRUM OF WEIGHTED LSSA[J]. , 2011, 31(4): 63-65.
Yin Hui,and Wang Yanyan. DETECTION OF WEAK SUPERCONDUCTING GRAVIMETRIC SIGNALS WITH PRODUCT SPECTRUM OF WEIGHTED LSSA[J]. jgg, 2011, 31(4): 63-65.
URL:
http://www.jgg09.com/EN/ OR http://www.jgg09.com/EN/Y2011/V31/I4/63
[1]
XUE Zhangfang,LIU Lilong,WU Haojian,ZHANG Zhi,LIU Ruiguo. GNSS-MR Snow Depth Inversion Based on CEEMDAN
[2]
DENG Mingwen,LI Xiaodong,ZHANG Sen,XU Xiaoming,MA Jian. Analysis of the Impact of COVID-19 Prevention and Control Measures on Earth Background Noise in Xinjiang
[3]
DING Wenxiu,LIAO Wulin,LI Yuan. Extraction of Lg-Wave from Seismic Background Noise
[4]
HE Rong,TAO Tingye, DING Xin,TAO Zhengguang. Analysis of Noise and Velocity Field in Coordinate Time Series of Anhui CORS
[5]
DING Lisha,MA Jiemei,QI Junwei,XIE Jianbo,LIAO Yifan,LU Zijin,YE Shishan,LAO Qian,LU Zhonghang. Discussion on Monitoring the Operating State of Seismic Station Observation System by Using Fractal Method of Background Noise
[6]
DAI Qing, FENG Wei, XU Huixi. Gaussian Sum Filter Considering Time-Varying Non-Gaussian Noise and Its Application in Navigation
[7]
XU Xiwen,ZHANG Zhiwei,LI Chenfeng,XI Ruijie. Research on Environmental Loading Impact on Noise Characteristics of GNSS Coordinate Time Series
[8]
TAO Guoqiang. Gross Error Detection and Noise Estimation of GNSS Coordinate Time Series Based on Singular Spectrum Analysis
[9]
AN Quan,ZHAO Yanhong,GUO Yanjie,LIU Yongmei. Analysis of Background Noise Characteristics of Cave Observation Stations of Inner Mongolia Seismic Network
[10]
LIU Minghui,LI Jiang,LIN Zhan,ZHU Xiaoyi,ZHOU Yinxing,CUI Rensheng,MA Shizhen. Evaluation of the Influence of Subway Electromagnetic Field on Very Broadband Seismometer Observations
[11]
.
[12]
.
[13]
.
[14]
XIE Jiangtao,LIN Liping,CHEN Liang. Ambient Noise Level of MS 7.0 Jiuzhaigou EarthquakeEmergency Mobile Stations
[15]
LI Hang,CHEN Xiaodong,XU Jianqiao,SUN Heping,ZHANG Miaomiao,HAN Yufei. Comparison of Noise Levels between Gravimeters and Co-Located Seismometers at the Seismic Frequency Band
