Approximation methods for the analysis of a multicomponent, multiproduct assemble-to-order system

Using a wide range of demand distributions and parameter settings, we examine the performance of an easily computable order-quantity approximation for a class of continuous-review inventory systems under a compound-renewal demand process. The approximation is derived by using some asymptotic results

The combined use of the time moment and Pu& qproxiniation methods (in time spc4ce and frequency domain description), c~xqkl with three powerful dominant poke selection criteria, is introduced ,for the purpose of upplicution to high-order MIMO linenr time-invuriant stute-space or(qinal .s.rstern mode

RL constants in eq. (6), dimensionless Reynolds number, dimensionless u superficial velocity, m s-' Wi Weissenberg number, dimensionless Greek letters ,' shear rate, s-l E voidage of static mixer assembly, dimensionless T shear stress, Pa =11 -\*22 primary normal stress difference, Pa P density of l

Based on a new global variational formulation, a spectral element approximation of the incompressible Navier-Stokes/Euler coupled problem gives rise to a global discrete saddle problem. The classical Uzawa algorithm decouples the original saddle problem into two positive definite symmetric systems.