MAETEC: An Optimized MATLAB-Based Approach for Accurate and Efficient Terrain Correction in Complete Bouguer Anomaly.

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Bibliographic Details
Title:	MAETEC: An Optimized MATLAB-Based Approach for Accurate and Efficient Terrain Correction in Complete Bouguer Anomaly.
Alternate Title:	Optimizirani pristup temeljen na MATLAB-u za točnu i učinkovitu korekciju terena u potpunoj Bouguerovoj anomaliji.
Authors:	Arifianto, Indra^1,2 indra.arifianto@mail.ugm.ac.id, Nishijima, Jun¹, Wibowo, Rahmat Catur³
Source:	Rudarsko-Geološko-Naftni Zbornik. 2025, Vol. 40 Issue 5, p43-56. 14p.
Subject Terms:	Algorithms, Gravity anomalies, Parallel programming, Geothermal engineering, *Gravimetry
Reviews & Products:	MatLab (Computer software)
Abstract (English):	Terrain correction is important in generating accurate Complete Bouguer Anomaly (CBA) maps and is essential for gravity studies. Traditional methods for terrain correction can be time-consuming, and many computerized programs are computationally intensive. To address these challenges, we introduce MAETEC, an optimized algorithm MATLAB-based approach designed to enhance the efficiency and accuracy of terrain correction in CBA computations. MAETEC uses an effective algorithm and MATLAB's parallel computing capabilities to speed up the terrain correction process. Our approach integrates simple gravity equations, e.g. Nagy prism and its simplification techniques, zonation strategy, and parallel processing to significantly reduce computation time without compromising accuracy. Validation of MAETEC against other terrain correction software and methods demonstrates its effectiveness in producing precise CBA maps with reduced processing times. We illustrate the application of MAETEC through a case study in a geothermal exploration area and also for a regional gravity study. The results show a marked improvement in the efficiency of terrain correction compared to existing available software, e.g. GTeC, Oasis, and TCDEMF, making MAETEC a valuable gravity processing tool. Overall, MAETEC offers a fast, accurate, and user-friendly solution for terrain correction, facilitating the generation of high-quality CBA maps and advancing our understanding of subsurface geological structures. [ABSTRACT FROM AUTHOR]
Abstract (Croatian):	Korekcija terena važna je u generiranju točnih karata potpune Bouguerove anomalije (CBA) i nužna je za gravitacijska istraživanja. Tradicionalne metode za korekciju terena mogu biti dugotrajne, a mnogi računalni programi računski su zahtjevni. Kako bismo odgovorili na ove izazove, predstavljamo MAETEC, optimizirani algoritam zasnovan na MATLAB-u, dizajniran za poboljšanje učinkovitosti i točnosti korekcije terena u CBA izračunima. MAETEC primjenjuje učinkovit algoritam i MATLAB-ove mogućnosti paralelnoga računanja za ubrzavanje procesa korekcije terena. Naš pristup integrira jednostavne gravitacijske jednadžbe, npr. Nagyevu prizmu i njezine tehnike pojednostavnjenja, strategiju zoniranja i paralelnu obradu kako bi se znatno smanjilo vrijeme izračuna bez ugrožavanja točnosti. Validacija MAETEC-a u odnosu na drugi softver i metode za korekciju terena pokazuje njegovu učinkovitost u proizvodnji preciznih CBA karata sa smanjenim vremenom obrade. Prikazujemo primjenu MAETEC-a kroz studiju slučaja u području geotermalne eksploatacije, kao i za regionalno gravitacijsko istraživanje. Rezultati pokazuju znatno poboljšanje učinkovitosti korekcije terena u usporedbi s postojećim dostupnim softverom, npr. GTeC, Oasis i TCDEMF, što MAETEC čini vrijednim alatom za obradu gravitacijskih mjerenja. Općenito, MAETEC nudi brzo, točno i korisniku prilagođeno rješenje za korekciju terena, olakšavajući generiranje visokokvalitetnih CBA karata i unapređujući naše razumijevanje podzemnih geoloških struktura. [ABSTRACT FROM AUTHOR]
Database:	Energy & Power Source

Description
Abstract:	Terrain correction is important in generating accurate Complete Bouguer Anomaly (CBA) maps and is essential for gravity studies. Traditional methods for terrain correction can be time-consuming, and many computerized programs are computationally intensive. To address these challenges, we introduce MAETEC, an optimized algorithm MATLAB-based approach designed to enhance the efficiency and accuracy of terrain correction in CBA computations. MAETEC uses an effective algorithm and MATLAB's parallel computing capabilities to speed up the terrain correction process. Our approach integrates simple gravity equations, e.g. Nagy prism and its simplification techniques, zonation strategy, and parallel processing to significantly reduce computation time without compromising accuracy. Validation of MAETEC against other terrain correction software and methods demonstrates its effectiveness in producing precise CBA maps with reduced processing times. We illustrate the application of MAETEC through a case study in a geothermal exploration area and also for a regional gravity study. The results show a marked improvement in the efficiency of terrain correction compared to existing available software, e.g. GTeC, Oasis, and TCDEMF, making MAETEC a valuable gravity processing tool. Overall, MAETEC offers a fast, accurate, and user-friendly solution for terrain correction, facilitating the generation of high-quality CBA maps and advancing our understanding of subsurface geological structures. [ABSTRACT FROM AUTHOR]
ISSN:	03534529
DOI:	10.17794/rgn.2025.5.4