文件名称:flowshopmaximumnumber
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In many cases the functionality and performance of flow-shop production systems
depends heavily on the selection of a suitable sequence of orders. The main
objectives of order sequencing in production systems are minimization of set-up
times, continuous and optimal use of capacities, reliability of delivery,
minimization of stock and throughput time as well as avoidance of undue system
states. We are going to investigate this system based on maximum number of production
when we have q-step windows and compare it with condition that we have just one
window. So we compare these factors: throughput, average delay time and other
factors like completion time, service time, number of parts in buffer and so on.-In many cases the functionality and performance of flow-shop production systems
depends heavily on the selection of a suitable sequence of orders. The main
objectives of order sequencing in production systems are minimization of set-up
times, continuous and optimal use of capacities, reliability of delivery,
minimization of stock and throughput time as well as avoidance of undue system
states. We are going to investigate this system based on maximum number of production
when we have q-step windows and compare it with condition that we have just one
window. So we compare these factors: throughput, average delay time and other
factors like completion time, service time, number of parts in buffer and so on.
depends heavily on the selection of a suitable sequence of orders. The main
objectives of order sequencing in production systems are minimization of set-up
times, continuous and optimal use of capacities, reliability of delivery,
minimization of stock and throughput time as well as avoidance of undue system
states. We are going to investigate this system based on maximum number of production
when we have q-step windows and compare it with condition that we have just one
window. So we compare these factors: throughput, average delay time and other
factors like completion time, service time, number of parts in buffer and so on.-In many cases the functionality and performance of flow-shop production systems
depends heavily on the selection of a suitable sequence of orders. The main
objectives of order sequencing in production systems are minimization of set-up
times, continuous and optimal use of capacities, reliability of delivery,
minimization of stock and throughput time as well as avoidance of undue system
states. We are going to investigate this system based on maximum number of production
when we have q-step windows and compare it with condition that we have just one
window. So we compare these factors: throughput, average delay time and other
factors like completion time, service time, number of parts in buffer and so on.
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下载文件列表
simulation Results\Average_service_time.mat
..................\Average_service_time_q.mat
..................\buf_val.asv
..................\buf_val.m
..................\cycle_time.mat
..................\cycle_time_q.mat
..................\Delay_of_parts.mat
..................\Delay_of_parts_q.mat
..................\fff.asv
..................\figureSNDT.asv
..................\figureSNDT.m
..................\find_x.m
..................\number_of_parts_in_buffer.mat
..................\number_of_parts_in_buffer_q.mat
..................\ran_serv.m
..................\service_time.mat
..................\simulation.asv
..................\simulation.m
..................\T.mat
..................\Throughputs.mat
..................\Throughputs_q.mat
..................\T_q.mat
..................\windowsimulation.asv
..................\windowsimulation.m
simulation Results