a comparison between the horizontal gradient of analytic signal method and the analytic signal-euler deconvolution combined method using synthetic data in interpretation of magnetic geological structures

Authors

مجتبی رشوند

دانشجوی کارشناسی ارشد، گروه فیزیک زمین، موسسه ژئوفیزیک دانشگاه تهران، ایران بهروز اسکوئی

استادیار، گروه فیزیک زمین، موسسه ژئوفیزیک دانشگاه تهران، ایران

abstract

the analytic signal method is a semiautomatic method for estimating the location of causative bodies in magnetic and gravity methods. the application of analytic signal for interpretation of two dimensional (2d) structures was introduced by nabighian (1972). the analytic signal is defined as a complex function in which the real and imaginary parts are a pair of hilbert transforms. in other words, the analytic signal is a combination of horizontal and vertical gradients of potential field. analytic signal is a symmetric function with amplitude sensitive to parameters of the source. in case of 2d structures, the amplitude of the analytic signal is independent of the directional parameters such as inclination, declination and strike angle (nabighian, 1972; atchuta et al., 1981; roest et al., 1992). the depth of 2d structures can be estimated using the width of the analytic signal or the ratio of the analytic signal to its higher derivatives (hsu et al., 1996; roest et al., 1992). source’s parameters of a dyke such as width, dip, strike, magnetization and depth can be estimated by analytic signal method (bastani & pedersen, 2001). the nth-order enhanced analytic signal is defined as the analytic signal of the nth-order vertical derivative of the potential field. an automated method for estimating the depth, horizontal location and shape of 2d magnetic structures is the horizontal gradient of analytic signal method. this method is capable of interpreting low quality data because of using the first and second order derivatives of potential field in the main equations. the method of analytic signal estimates the horizontal location of the source by approximating the maximum amplitude of the signal; hence noise can affect the estimations. on the other hand, by using the horizontal gradient of analytic signal expressions, all of the source’s parameters could be approximated simultaneously. in this method, equations of the analytic signal, euler enhanced analytic signal and horizontal gradient of analytic signal are combined to derive a linear equation. using the first order analytic signal, horizontal gradient of analytic signal and linear inversion method, the depth and horizontal location of 2d magnetic bodies are obtained. the location estimation is independent of the shape of the causative bodies. the causative body’s geometry is estimated as a structural index by applying the least squares method. data selection for solving the equations or width of windows is based on data quality. the optimum size is defined somehow to detect a signal specific anomaly and also variations of the anomaly in one window. in this study, in order to solve the equations of the horizontal gradient of analytic signal method, the data greater than twenty percent of maximum amplitude of the analytic signal were used. the analytic signal-euler deconvolution combined method is an automated method to estimate depth and shape of the sources. this method is used to interpret 2d & 3d magnetic and gravity data. after substituting the appropriate derivatives of the euler’s homogeneous equation in the equation of the analytic signal, major independent equations which are used to estimate the depth and shape of causative bodies, are derived. the horizontal location of causative bodies is estimated by euler method or locating the maximum amplitude of the analytic signal. in this study, the accuracy and efficiency of each of the mentioned methods in interpretation of magnetic anomalies are evaluated. methods were tested for different synthetic datasets provided by forward modeling. 2d magnetic models placed at different depths and random noise added for some models. derivatives were calculated in frequency domain by using fourier transform techniques. in this technique, bell-shapedness effect appears at the edges of the profiles. this effect could be corrected by linearly expanding the profiles. upward continuation filter was applied on some synthetic data to decrease the noise level. in this paper, the applicability of the horizontal gradient of analytic signal method and the analytic signal-euler combined method were tested. both methods estimate the parameters of the causative bodies without any prior information. in both methods, there is not any explicit dependence on directional parameters (e.g. magnetization) in the main equations; hence, as the results show, estimations were not affected by remanent magnetization. the results also show accurate estimations of the horizontal gradient of analytic signal method for shape and horizontal location and efficient estimations of the analytic signal-euler deconvolution combined method for depth.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

combination of analytic signal and euler deconvolution methods for interpretation of 2-d magnetic data

an_eul is a new automatic method for simultaneous approximation of location, depth, and structural index (geometry) of magnetic sources. in the 2d case analytic signal is defined as a conjugate function whose imaginary part is the hilbert transform of its real part. since the first vertical derivative of the magnetic field is the hilbert transform of its horizontal derivative, vertical and hori...

full text

depth and body type estimation of the magnetic anomalies using analytic signal and euler deconvolution.

a variety of semiautomatic methods, based on the use of derivatives of the magnetic anomalies, have been developed for the determination of both of the causative source parameters such as locations of boundaries and depths. one of these techniques is the method of the analytic signal for magnetic anomalies, which was initially used in its complex function form and makes use of the properties of...

full text

interpretation of aeromagnetic data in the khorramabad region using improved integrated analytic signal and euler

in this paper, an improved method (improved an-eul) is presented. this method is based on the combination of the analytical signal and the euler deconvolution method. two important parameters such as location and approximate geometry of a magnetic source can be obtained using the conventional an-eul method. altitude of ground and height in upward continuation has been considered for depth deter...

full text

buckling of viscoelastic composite plates using the finite strip method

در سال های اخیر، تقاضای استفاده از تئوری خطی ویسکوالاستیسیته بیشتر شده است. با افزایش استفاده از کامپوزیت های پیشرفته در صنایع هوایی و همچنین استفاده روزافزون از مواد پلیمری، اهمیت روش های دقیق طراحی و تحلیل چنین ساختارهایی بیشتر شده است. این مواد جدید از خودشان رفتارهای مکانیکی ارائه می دهند که با تئوری های الاستیسیته و ویسکوزیته، نمی توان آن ها را توصیف کرد. این مواد، خواص ویسکوالاستیک دارند....

combined analytic signal and euler method (an-eul) for depth estimation of gravity anomalies

the method expressed by salem and ravat. (2003) for depth estimation of magnetic sources is used on gravity anomalies for the first time. the depth of some rectangular prisms as synthetic models are estimated through the method. the gravity effect of these models is also considered with a relatively high value of random noise. a field example is also included and the depth of the main anomaly h...

full text

analytic signal method to estimate the magnetic source parameters of 2d structures

the analytic signal method is usually used to interpret the magnetic and gravity anomalies. the main advantage of using analytic signal method in interpretation of magnetic source parameters from magnetic anomalies is that the amplitude dip of the analytic signal is independent of directional parameters like magnetization and the dip of the source. using the coefficient of the amplitude to esti...

full text

My Resources

Save resource for easier access later


Journal title:
فیزیک زمین و فضا

جلد ۳۸، شماره ۴، صفحات ۱۰۵-۱۱۶

Keywords
the analytic signal method is a semiautomatic method for estimating the location of causative bodies in magnetic and gravity methods. the application of analytic signal for interpretation of two dimensional (2d) structures was introduced by nabighian (1972). the analytic signal is defined as a complex function in which the real and imaginary parts are a pair of hilbert transforms. in other words the analytic signal is a combination of horizontal and vertical gradients of potential field. analytic signal is a symmetric function with amplitude sensitive to parameters of the source. in case of 2d structures the amplitude of the analytic signal is independent of the directional parameters such as inclination declination and strike angle (nabighian 1972; atchuta et al. 1981; roest et al. 1992). the depth of 2d structures can be estimated using the width of the analytic signal or the ratio of the analytic signal to its higher derivatives (hsu et al. 1996; roest et al. 1992). source’s parameters of a dyke such as width dip strike magnetization and depth can be estimated by analytic signal method (bastani & pedersen 2001). the nth order enhanced analytic signal is defined as the analytic signal of the nth order vertical derivative of the potential field. an automated method for estimating the depth horizontal location and shape of 2d magnetic structures is the horizontal gradient of analytic signal method. this method is capable of interpreting low quality data because of using the first and second order derivatives of potential field in the main equations. the method of analytic signal estimates the horizontal location of the source by approximating the maximum amplitude of the signal; hence noise can affect the estimations. on the other hand by using the horizontal gradient of analytic signal expressions all of the source’s parameters could be approximated simultaneously. in this method equations of the analytic signal euler enhanced analytic signal and horizontal gradient of analytic signal are combined to derive a linear equation. using the first order analytic signal horizontal gradient of analytic signal and linear inversion method the depth and horizontal location of 2d magnetic bodies are obtained. the location estimation is independent of the shape of the causative bodies. the causative body’s geometry is estimated as a structural index by applying the least squares method. data selection for solving the equations or width of windows is based on data quality. the optimum size is defined somehow to detect a signal specific anomaly and also variations of the anomaly in one window. in this study in order to solve the equations of the horizontal gradient of analytic signal method the data greater than twenty percent of maximum amplitude of the analytic signal were used. the analytic signal euler deconvolution combined method is an automated method to estimate depth and shape of the sources. this method is used to interpret 2d & 3d magnetic and gravity data. after substituting the appropriate derivatives of the euler’s homogeneous equation in the equation of the analytic signal major independent equations which are used to estimate the depth and shape of causative bodies are derived. the horizontal location of causative bodies is estimated by euler method or locating the maximum amplitude of the analytic signal. in this study the accuracy and efficiency of each of the mentioned methods in interpretation of magnetic anomalies are evaluated. methods were tested for different synthetic datasets provided by forward modeling. 2d magnetic models placed at different depths and random noise added for some models. derivatives were calculated in frequency domain by using fourier transform techniques. in this technique bell shapedness effect appears at the edges of the profiles. this effect could be corrected by linearly expanding the profiles. upward continuation filter was applied on some synthetic data to decrease the noise level. in this paper the applicability of the horizontal gradient of analytic signal method and the analytic signal euler combined method were tested. both methods estimate the parameters of the causative bodies without any prior information. in both methods there is not any explicit dependence on directional parameters (e.g. magnetization) in the main equations; hence as the results show estimations were not affected by remanent magnetization. the results also show accurate estimations of the horizontal gradient of analytic signal method for shape and horizontal location and efficient estimations of the analytic signal euler deconvolution combined method for depth.

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023