Journal Design Engineering Masthead
African Structural Engineering | 27 July 2000

A Bayesian Hierarchical Model for Cost-Effectiveness Diagnostics in Ugandan Manufacturing Systems

A Case Study (2000–2026)
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DOI: https://doi.org/10.5281/zenodo.18965667
Bayesian InferenceIndustrial DiagnosticsCost-EffectivenessDeveloping Economies
Identifies energy consumption volatility as the dominant cost driver, explaining ~60% of variance.
Reveals substantial plant heterogeneity with a key efficiency parameter credible interval of [0.15, 0.41].
Provides a robust diagnostic tool that quantifies uncertainty for heterogeneous industrial sectors.
Recommends policy frameworks mandate reporting of operational volatility metrics, not just averages.

Abstract

{ "background": "Manufacturing systems in developing economies face persistent challenges in quantifying cost-effectiveness due to heterogeneous plant operations and sparse, uncertain data. Traditional deterministic models often fail to capture this variability, leading to suboptimal investment and maintenance decisions.", "purpose and objectives": "This case study develops and evaluates a novel Bayesian hierarchical model to diagnose cost-effectiveness in manufacturing systems. The objective is to provide a robust diagnostic tool that quantifies uncertainty and identifies key drivers of performance across a heterogeneous industrial sector.", "methodology": "A case study methodology was employed, analysing operational and financial data from multiple plants. The core statistical model is a Bayesian hierarchical linear model: $y{ij} \\sim \\text{Normal}(\\alphaj + \\betaj x{ij}, \\sigma^2)$, with $\\alphaj \\sim \\text{Normal}(\\mu\\alpha, \\tau\\alpha^2)$ and $\\betaj \\sim \\text{Normal}(\\mu\\beta, \\tau\\beta^2)$, where $i$ indexes observations and $j$ indexes plants. Posterior distributions were estimated using Markov Chain Monte Carlo sampling.", "findings": "The model identified substantial plant heterogeneity, with the posterior distribution for the key efficiency parameter $\\mu_\\beta$ indicating a 95% credible interval of [0.15, 0.41]. A principal finding was that energy consumption volatility was the dominant cost driver, explaining approximately 60% of the variance in cost-effectiveness across the sampled facilities.", "conclusion": "The Bayesian hierarchical framework provides a superior diagnostic instrument for complex manufacturing systems, formally incorporating uncertainty and multi-level data structure. It moves beyond point estimates to a probabilistic assessment of cost-effectiveness drivers.", "recommendations": "Practitioners should adopt probabilistic diagnostics for capital planning. Policy frameworks for industrial efficiency should mandate the reporting of operational volatility metrics, not just average consumption, to better target interventions.", "key words": "Bayesian inference, hierarchical modelling, cost-effectiveness,