Abstract
Herein, we developed the first report on the chemical retrial queue and hybrid vacation process for the significant
Ullmann coupling for enhanced high-throughput reaction discovery. The problem of controlling the waiting time for
chemical retrials is addressed here. We incorporated the supplementary variables method (SVT) and generated the
steady-state probability generating function (PGF) for system size and orbit size. Important cases are outlined, and a
few key metrics are utilized to evaluate system performance. Additionally, the impact of changing certain system
parameters has also been analyzed via numerical examples. One particularly interesting aspect of this research is the
comparison of neuro-fuzzy technique results with validation results utilizing the "adaptive neuro-fuzzy inference
system" (ANFIS).
