Persistent inefficiencies in manufacturing output constrain industrial development in many emerging economies. A systematic, data-driven approach to yield forecasting is required to inform capital investment and process optimisation decisions within the sector. This report aims to methodologically evaluate production systems and develop a robust forecasting model to predict manufacturing yield trends, thereby providing a quantitative tool for performance improvement. A time-series analysis was conducted on aggregated national manufacturing output data. The core forecasting model employed is an ARIMA (1, 1, 1) process defined by Yₜ = + ₁ Yₓ-₁ + ₁ ₓ-₁ + ₜ, where parameters were estimated using maximum likelihood. Model diagnostics included checks for residual autocorrelation and stationarity. The model forecasts a moderate but sustained upward trajectory in aggregate manufacturing yield, with a projected increase of approximately 18% over the forecast horizon. Forecast uncertainty, represented by the 95% prediction interval, widens notably in later periods, indicating reduced confidence in long-term point estimates. The implemented time-series model provides a viable, evidence-based tool for anticipating yield trends, highlighting both potential gains and increasing uncertainty in longer-term projections. Manufacturing firms should integrate similar forecasting methodologies into their operational planning. Subsequent research should disaggregate the analysis by sub-sector to identify specific drivers of yield improvement. manufacturing yield, time-series forecasting, ARIMA modelling, industrial efficiency, production systems This work provides a novel application of a classical time-series methodology to a longitudinal national manufacturing dataset, demonstrating its utility for strategic planning within an industrialising context.
Asante et al. (Fri,) studied this question.