Abstract: The object of the present article is information processes in asynchronous discrete event systems. Examples of such systems include organization-economical, production and computer-based systems. The subject of the research is the methodology of formalization and analysis of asynchronous discrete event systems based on integration of artificial intellect and behavioral discrete event modeling methods. As an example of a relevant topical area the authors of the present article view a section of flexible automated manufacturing systems (FMS - Flexible Manufacturing Systems). The methodological basis of the research involves the logic of predicates of the first and second order, formal description of abstract machines, artificial intellect models and Petri conceptual nets offered for the first time. The novelty of the research is caused by the fact that as a result of their research and based on their conceptual and behavioral model of an asynchronous discrete event system, the authors define formalized directly realizable specifications, for example, typical for further realization of the wireless network system running the flexible production process. The first part of the article demonstrates that semantic networks with events, role and causal connections between objects (scenario networks) may sufficiently present logical, structural and procedural paradigm of intelligent systems including the system of situational management. The authors have also formalized the process of building scenario models based on conceptual graphs which allows to use the aforesaid models as part of expert simulation models of the situation management system. They demonstrate that a conceptual presentation of scenarios allows a natural transfer towards building the knowledge bases based on the relational approach which improves the performance function that makes changes to the conceptual model and knowledge base (for example, when the topical area is changed). Demands for the knowledge base built on the basis of the conceptual graph may be formalized in the language of abstract machine networks which simplifies further design of a human-computer interface of the intelligence system based on famous languages like C++, C#, SQL, Visual Prolog, etc.