2d Inverse Modeling of the Gravity Field Due to a Chromite Deposit Using the Marquardt’s Algorithm and Forced Neural Network

Eshaghzadeh, Ata; Sahebari, Sanaz Seyedi; Dehghanpour, Alireza

doi:10.19111/bulletinofmre.589224

Bulletin of the Mineral Research and Exploration

2019

DOI: 10.19111/bulletinofmre.589224

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2d Inverse Modeling of the Gravity Field Due to a Chromite Deposit Using the Marquardt’s Algorithm and Forced Neural Network

Ata Eshaghzadeh

Sanaz Seyedi Sahebari²,

Alireza Dehghanpour

Abstract: In this paper, two modeling method are employed. First, a method based on the Marquardt's algorithm is presented to invert the gravity anomaly due to a finite vertical cylinder source. The inversion outputs are the depth to top and bottom, and radius parameters. Second, Forced Neural Networks (FNN) for interpreting the gravity field as try to fit the computed gravity in accordance with the estimated subsurface density distribution to the observed gravity. To evaluate the ability of the methods, those are emplo… Show more

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Cited by 2 publications

References 32 publications

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Magnetic inversion modeling of subsurface geologic structures for mineral deposits mapping in southeastern Nigeria

Abraham¹,

Usman²,

CHIMA³

et al. 2023

Bull.Min.Res.Exp.

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Magnetic inversion techniques have been implemented to infer the extension and geometry of magnetic structures and also evaluate its influence on mineralization within Abakaliki and its environs, southeastern Nigeria. The modeling approach considers the techniques of three-dimensional (3D) magnetic data inversion, Euler deconvolution, analytic signal inversion, Enhanced Local Wavenumber (ELW) Technique and Particle Swarm Optimization (PSO) to estimate source parameters and compare results. Model solutions were interpreted to represent possible geologic units with varying trends, housing mineralization within the study region. Results from inversion computation over some active mine locations show subsurface bodies with magnetic susceptibilities >0.00188 SI. Model results also show structural sources with almost 5.5 km depth extension, stretching 18 km in the EW direction at Ngbo – Ekerigwe location. This could imply significant mineral deposits at the location. Inversion of both magnetic anomaly and analytical signal enabled derivation of the actual subsurface structures in the region, with most of the structures appearing as dykes with depths ranging from 0.2 – 1.8 km at most of the mining sites. Location and depths of some of the modeled intrusions have been corroborated with the active on-site mines. The delineation of mineralization structures by this study would guide systematic exploration in the region.

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Magnetic inversion modeling of subsurface geologic structures for mineral deposits mapping in southeastern Nigeria

Abraham¹,

Usman²,

CHIMA³

et al. 2023

Bull.Min.Res.Exp.

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Multivariable Modified Teaching Learning Based Optimization (MM-TLBO) Algorithm for Inverse Modeling of Residual Gravity Anomaly Generated by Simple Geometric Shapes

Eshaghzadeh

Hajian

2020

JEEG

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This paper presents an improved nature-based algorithm, namely multivariable modified teaching learning based optimization (MM-TLBO) algorithm, as in an iterative process can estimates the best values for the model parameters in a multi-objective problem. The algorithm works in two computational phases: the teacher phase and the learner phase. The major purpose of the MM-TLBO algorithm is to improve the value of the learners and thus, improving the value of the model parameters which leads to the optimal solution. The variables of each learner (model) are the radius ( R), depth ( h), shape factor ( q), density contrast ( ρ) and axis location ( x0) parameters. We apply MM-TLBO and TLBO methods for the residual gravity anomalies caused by the buried masses with a simple geometry such as spheres, horizontal and vertical cylinders. The efficiency of these methods are also tested by noise corruption synthetic data, as the acceptable results were obtained. The obtained results indicate the better performance the MM-TLBO algorithm than the TLBO algorithm. We have utilized the MM-TLBO for the interpretation of the six residual gravity anomaly profiles from Iran, USA, Sweden and Senegal. The advantage of the MM-TLBO inversion is that it can estimates the best solutions very fast without falling into local minimum and reaches to a premature convergence. The considered primary population for the synthetic and real gravity data are thirty and fifty models. The results show which this method is able to achieve the optimal responses even if a small population of learners had been considered.

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2d Inverse Modeling of the Gravity Field Due to a Chromite Deposit Using the Marquardt’s Algorithm and Forced Neural Network

Cited by 2 publications

References 32 publications

Magnetic inversion modeling of subsurface geologic structures for mineral deposits mapping in southeastern Nigeria

Magnetic inversion modeling of subsurface geologic structures for mineral deposits mapping in southeastern Nigeria

Multivariable Modified Teaching Learning Based Optimization (MM-TLBO) Algorithm for Inverse Modeling of Residual Gravity Anomaly Generated by Simple Geometric Shapes

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