Model synthesis of optical- and laser-electronic systems

Abstract

Principles of model synthesis of a generalized optical- and laser-electronic system (O&LES) are discussed on the basis of the structural theory of the optical- and laser- electronic systems (O&LESs). The model synthesis technique is developed in the framework of a connected graph of the system of object and theoretical models as a system of graph model windows. The purposes and problems of the synthesis are analyzed and graph hierarchy of the synthesis stages execution is established. It is found that the complete model synthesis is reduced to prescription of sequential- parallel graph transfers both within the windows and between them and consists of nine stages. The first seven stages are at the same time the stages of a generalized graph technique of designing optical- and laser-electronic devices (O&LEDs), which is design realization of the technique of the complete model synthesis of O&LES. It is shown that the model synthesis of a definite system can be reduced to graphic presentation of the system of graph model window realization prescribing stages of design, manufacture and experimental investigation of the objective-physical model of O&LES. Specific features of creating the system of graph model windows for a definite O&LED are investigated.