Mathematical Model-Based Slope Stability Analysis for Sustainable Urban Infrastructure Planning
DOI:
https://doi.org/10.65310/nh16y873Keywords:
Slope Stability; Mathematical Models; Geotechnics; Urban Infrastructure; Sustainable Development.Abstract
Slope stability is a fundamental aspect in the planning and implementation of urban infrastructure projects. This study aims to examine the application of mathematical models in slope stability analysis to improve the reliability and efficiency of infrastructure planning. The research method used is a conceptual study based on a review of the latest literature related to analytical and numerical approaches, including the limit equilibrium method, finite element analysis, and other numerical methods. The results show that the integration of mathematical models with location-specific geotechnical parameters can increase the accuracy of safety factor predictions by up to 25% compared to conventional empirical methods. The implementation of this model has the potential to optimize slope reinforcement design and project cost efficiency by up to 20%. This study recommends the development of a real-time data-based integrative system to support sustainable infrastructure development.
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