Daniel Oduro Boatey Nuamah

Geological Engineering

About

Dr. Daniel Oduro Boatey Nuamah is a trained geologist with specialization in Applied Geophysics. He holds a BSc and MPhil in Geology and a PhD in Earth Science from the University Of Miskolc, Hungary. His Research focuses on methods development for geophysical data processing, application of geostatistics to mineral exploration, structural interpretation from geophysical data and geochemical exploration.

Research Summary

(inferred from publications by AI)

The researcher has conducted extensive research across multiple domains, integrating advanced statistical and algorithmic techniques into geoscientific studies. Their work encompasses the application of inversion-based Fourier transformations in processing magnetic data for pole determination (Geophysical and Geoelectrical Methods), which involves enhancing the accuracy of geological mapping through robust algorithms. Additionally, they have focused on identifying heavy metal sources using multivariate statistical methods, contributing to geochemistry and geologic mapping. The researcher's research also delves into seismic performance analysis, employing probabilistic models to assess earthquake risks in specific geographical contexts. This integrated approach highlights their efforts to enhance the interpretability of complex geoscientific data across various fields: geophysical data processing, algorithm development for pole determination, statistical methods in geochemistry, and seismic hazard assessment.

Research Themes

All (7 Papers)

Physical Sciences (7 Papers)

All Papers

Inversion-based fourier transformation used in processing non-equidistantly measured magnetic data(2019)

Reduction to Pole of Non-Equidistantly Measured Magnetic Data Using an Inversion-Based Fourier Transformation Algorithm(2018)

Reduction to pole of non-equdistantly measured magnetic data using an inversion-based Fourier transformation algorithm(2018)

Legendre polynomial-based robust Fourier transformation and its use in reduction to the pole of magnetic data(2021)

Noise Suppression in Reduction to Pole of Magnetic Data(2018)

Heavy Metal Source Identification and Analysis Using Multivariate Statistical Methods in Soils from Akuse Area, South-Eastern Ghana(2017)

Deaggregation of Probabilistic Seismic Hazard for Designated Cities in Ghana(2023)

Collaboration Network

No collaborations found in the dataset.

About This Profile

This profile is generated from publicly available publication metadata and is intended for research discovery purposes. Themes, summaries, and trajectories are inferred computationally and may not capture the full scope of the lecturer's work. For authoritative information, please refer to the official KNUST profile.