In this paper, a novel stochastic two-sided U-type assembly line balancing (STUALB) procedure, an algorithm based on the genetic algorithm and a heuristic priority rule-based procedure to solve STUALB problem are proposed. With this new proposed assembly line design, all advantages of both two-sided assembly lines and U-type assembly lines are combined. Due to the variability of the real-life conditions, stochastic task times are also considered in the study. The proposed approach aims to minimise the number of positions (i.e. the U-type assembly line length) as the primary objective and to minimise the number of stations (i.e. the number of operators) as a secondary objective for a given cycle time. An example problem is solved to illustra...
U-type assembly line is one of the important tools that may increase companies’ production efficienc...
Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes in pr...
none3Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes ...
In this paper, a novel stochastic two-sided U-type assembly line balancing (STUALB) procedure, an al...
The advantages of U-type lines are very well known in industry. They offer improved productivity and...
OZCAN, UGUR/0000-0001-8283-9579WOS: 000285413400005Mixed-model assembly lines are widely used to imp...
AbstractTwo-sided assembly lines are common industrial practice in the assembly of large-sized produ...
Assembly line designs in manufacturing commonly face the key problem of dividing the assembly tasks ...
An aim of sustainable development of the manufacturing industry is to reduce the idle time in the pr...
Two-sided assembly lines are often designed to produce large-sized products, such as automobiles, tr...
Purpose This paper aims to discuss the sequence-dependent forward setup time (FST) and backward setu...
AbstractAn assembly line (AL) is a typical manufacturing process consisting of various tasks in whic...
Assembly line rebalancing is a problem companies are frequently confronted with as continuous change...
In this paper, a new two-sided U-type assembly line balancing (TUALB) procedure and a new algorithm ...
U-type assembly line is one of the important tools that may increase companies’ production efficienc...
Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes in pr...
none3Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes ...
In this paper, a novel stochastic two-sided U-type assembly line balancing (STUALB) procedure, an al...
The advantages of U-type lines are very well known in industry. They offer improved productivity and...
OZCAN, UGUR/0000-0001-8283-9579WOS: 000285413400005Mixed-model assembly lines are widely used to imp...
AbstractTwo-sided assembly lines are common industrial practice in the assembly of large-sized produ...
Assembly line designs in manufacturing commonly face the key problem of dividing the assembly tasks ...
An aim of sustainable development of the manufacturing industry is to reduce the idle time in the pr...
Two-sided assembly lines are often designed to produce large-sized products, such as automobiles, tr...
Purpose This paper aims to discuss the sequence-dependent forward setup time (FST) and backward setu...
AbstractAn assembly line (AL) is a typical manufacturing process consisting of various tasks in whic...
Assembly line rebalancing is a problem companies are frequently confronted with as continuous change...
In this paper, a new two-sided U-type assembly line balancing (TUALB) procedure and a new algorithm ...
U-type assembly line is one of the important tools that may increase companies’ production efficienc...
Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes in pr...
none3Assembly line re-balancing is a problem frequently tackled by companies, as continuous changes ...