A Stochastic Formulation of the Disassembly Line Balancing Problem
Texte intégral
Figure
Documents relatifs
This work proposes a novel hybrid algorithm that combines operational matrices and polynomial chaos to quantify uncertainties in linear fractional order systems with random
Using the separator algebra inside a paver will allow us to get an inner and an outer approximation of the solution set in a much simpler way than using any other interval approach..
There is a good quantity of works about inventory analysis through simulation: Meherez and Ben-Arieh [20] studied a model with stochastic demand and their
(1998), that the service level is a direct trade off between various cost factors (typically holding vs. cost of stock out). Other would argue that it is determined by
Table 7 shows the number of instances with the minimum calculation time required to obtain a proved optimal solution ( Best − time ) when both models guarantee the optimal solution
On the other hand, an irreducible basis for isotropic sixth and eighth order tensors having the minor symmetries 2 and a closed-form so- lution of higher order inhomogeneity
One of the first contributions to solve the train scheduling or timetabling problems was made by Szpigel [20], he modelled the single track train scheduling problem as a job
Motivated by the desire to bridge the gap between the microscopic description of price formation (agent-based modeling) and the stochastic differ- ential equations approach