STAGING PROBLEM OF A DUAL DELIVERY PICK-AND-PLACE MACHINE IN PRINTED-CIRCUIT CARD ASSEMBLY
成果类型:
Article
署名作者:
AHMADI, RH; KOUVELIS, P
署名单位:
Duke University
刊物名称:
OPERATIONS RESEARCH
ISSN/ISSBN:
0030-364X
DOI:
10.1287/opre.42.1.81
发表日期:
1994
页码:
81-91
关键词:
production/scheduling
PICK-AND-PLACE MACHINE
ELECTRONIC ASSEMBLY
programming
integer
Lagrangian relaxation
摘要:
This paper addresses a material staging problem arising from a dual delivery pick-and-place machine that is used for the assembly of printed circuit boards where components are attached using 'surface mount technology.'' The staging problem of such machines involves allocation of component feeders to its two-feeder carriers along with the corresponding sets of vacuum nozzles to dispense the components. The usual managerial objective for the staging problem is minimization of the total time required to populate the circuit boards, i.e., the pick-and-place machines cycle time. For the dual delivery pick-and-place machines this implies minimization of the workload imbalance between the two carriers and reduction of the number of vacuum nozzle changes required. In this paper, we develop algorithms to optimally solve the single and multiple product staging problem for the above managerial objectives.