A new approach based on global optimization technique is applied to invert Self-Potential (SP) data which is a highly nonlinear inversion problem. This technique is called Memory-based Hybrid Dragonfly Algorithm (MHDA). This algorithm is proposed to balance out the high exploration behavior of Dragonfly Algorithm (DA), which causes a low convergence rate and often leads to the local optimum solution. MHDA was developed by adding internal memory and iterative level hybridization into DA which successfully balanced the exploration and exploitation behaviors of DA. In order to assess the performance of MHDA, it is firstly implemented to invert the single and multiple noises contaminated in synthetic SP data, which were caused by several simple...
An integrated approach to interpret Self-Potential (SP) anomalies based on spectral analysis and tom...
This dissertation presents data processing techniques relevant to the acquisition, modeling, and in...
Self-potential (SP) is a passive geophysical method that can be applied in a straightforward manner ...
The aim of this work is to investigate whether retrieving the model parameters of self-potential (SP...
A global optimization method based on a Genetic-Price hybrid Algorithm (GPA) is proposed for identif...
Self-Potential (SP) anomaly is naturally occurring potential differences due to electrochemical, ele...
Multiple self-potential (SP) anomalies are analyzed by using a Genetic-Price Algorithm (GPA), which ...
Self-Potential (SP) fields are natural fields that originate from various forcing mechanisms related...
The use of the Cuckoo Search Algorithm (CSA) is introduced for estimating the model parameters from ...
Three naturally inspired meta-heuristic algorithms-the genetic algorithm (GA), simulated annealing (...
In the last decades, an increasing number of global optimization algorithms has been proposed to sol...
The research activity developed for this thesis was focused on development, testing and application ...
Abstract. A new technique is presented for automatic inversion of SP anomalies due to a polarized in...
In the last few decades, the spectral analysis approach has been successfully applied for depth esti...
Recently, Normalized Full Gradient (NFG) method has widespread applications to natural potential fie...
An integrated approach to interpret Self-Potential (SP) anomalies based on spectral analysis and tom...
This dissertation presents data processing techniques relevant to the acquisition, modeling, and in...
Self-potential (SP) is a passive geophysical method that can be applied in a straightforward manner ...
The aim of this work is to investigate whether retrieving the model parameters of self-potential (SP...
A global optimization method based on a Genetic-Price hybrid Algorithm (GPA) is proposed for identif...
Self-Potential (SP) anomaly is naturally occurring potential differences due to electrochemical, ele...
Multiple self-potential (SP) anomalies are analyzed by using a Genetic-Price Algorithm (GPA), which ...
Self-Potential (SP) fields are natural fields that originate from various forcing mechanisms related...
The use of the Cuckoo Search Algorithm (CSA) is introduced for estimating the model parameters from ...
Three naturally inspired meta-heuristic algorithms-the genetic algorithm (GA), simulated annealing (...
In the last decades, an increasing number of global optimization algorithms has been proposed to sol...
The research activity developed for this thesis was focused on development, testing and application ...
Abstract. A new technique is presented for automatic inversion of SP anomalies due to a polarized in...
In the last few decades, the spectral analysis approach has been successfully applied for depth esti...
Recently, Normalized Full Gradient (NFG) method has widespread applications to natural potential fie...
An integrated approach to interpret Self-Potential (SP) anomalies based on spectral analysis and tom...
This dissertation presents data processing techniques relevant to the acquisition, modeling, and in...
Self-potential (SP) is a passive geophysical method that can be applied in a straightforward manner ...