A Computable Model for PCB Assembly Optimization Based on Polychromatic Sets
A modeling methodology is presented for printed circuit board(PCB) assembly optimization based on polychromatic sets(PS) theory. A computable model framework with hierarchical structure includes three layers, which are set layer(SL), logic layer(LL) and numerical layer(NL). Based on the hierarchical model and the mapping relationship among each layer, a computable model is formulated to describe the PCB assembly optimization problem in multiple PCB assembly tasks and multiple machines. The computable model not only involves various computation parameters, complicate constraint relationships such as process constraints, resource constraints and so on in PCB assembly optimization, but also describes the shortage of component, machine failure, order change and other uncertain factors. The optimization problems of PCB assembly in low-volume environment and multiple tasks can be solved efficiently.