Analysis for Materials Handling Management: An Introduction |
From inside the book
Results 1-3 of 25
Page 138
... loading and unload- ing effects resulting from the fact that either the loading time , the unloading time , or both are not equal to the cycle time . 2. Absorb random fluctuations in the loading rate and the un- loading rate , including ...
... loading and unload- ing effects resulting from the fact that either the loading time , the unloading time , or both are not equal to the cycle time . 2. Absorb random fluctuations in the loading rate and the un- loading rate , including ...
Page 142
... loading and unloading rates about those values which are used for designing the working capacity . These fluctuations may , of course , include complete shutdown of either of the stations . There are at least two ways in which to meet ...
... loading and unloading rates about those values which are used for designing the working capacity . These fluctuations may , of course , include complete shutdown of either of the stations . There are at least two ways in which to meet ...
Page 149
An Introduction William Thomas Morris. mixed . We suppose that each loading station operates at mean rate and each unloading station operates with mean rate μ . We suppose further that these mean rates are stable in the long run , so ...
An Introduction William Thomas Morris. mixed . We suppose that each loading station operates at mean rate and each unloading station operates with mean rate μ . We suppose further that these mean rates are stable in the long run , so ...
Contents
CHAPTER PAGE | 1 |
APPROACHES TO MATERIALS HANDLING PROBLEMS | 12 |
FIXED SCHEDULE SYSTEMS | 24 |
Copyright | |
7 other sections not shown
Other editions - View all
Common terms and phrases
a₁ analytic assume assumptions average B₁ basic berth C₁ C₂ capacity confidence interval consider conveyor cost d₁ D₂ delay departure dispatcher effect equations example experiment Figure fixed schedule fleet fork lift trucks function furnace given hour idle in-process inventory increase loaded spaces loading and unloading loading attempts loading rate loading station materials handling management materials handling problems materials handling system mean arrival rate mean number mean rate mean service rate Monte Carlo method moved negative exponential normally distributed number of customers number of trucks number of units number of vehicles output plant Poisson distribution possible probability distribution production system proportion random variable requests for movement result sample scheduling period service time distribution simulation stage standard deviation steady state model storage suggests Suppose Table terminal tion unloading rates waiting line analysis αι βι λ μ λε ро