Department of Mathematics and Statistics, School of Natural Sciences and Mathematics, Chinhoyi University of Technology, 78 Magamba Way, Off Chirundu Road, Chinhoyi, Zimbabwe.
World Journal of Advanced Engineering Technology and Sciences, 2025, 17(03), 350–356
Article DOI: 10.30574/wjaets.2025.17.3.1561
Received 06 November 2025; revised on 16 December 2025; accepted on 18 December 2025
This study develops and tests a MATLAB program for neutralising systems with upper triangular coefficient matrices. Augmented matrices for systems of linear equations are reduced to produce a neutral (identity matrix) left hand side, at which point the right hand side has the solutions for the system. A strategy for minimal error is pursued, where elimination operations must be completed in one step for each number. The strategy was expressed in pseudocode, a flowchart developed, and then the program was coded in MATLAB. The program was tested for four sample augmented matrices of varying sizes. The results demonstrated that the program was 100% accurate. The technique can be applied to any square matrix system, since any square matrix can be expressed as an upper triangular matrix. The automation of matrix operations and achievement of 100% accuracy allows for the use of the program for very large data sets, extending the potential for research with accurate finding.
Upper Triangular Matrix; MATLAB Programing; Algorithm; Source Code
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Henry Samambgwa and Thomas Musora. Automating Upper Triangular Matrix Neutralisation for Minimal Error. World Journal of Advanced Engineering Technology and Sciences, 2025, 17(03), 350-356. Article DOI: https://doi.org/10.30574/wjaets.2025.17.3.1561.