It is difficult to imagine an enterprise, company, firm, an education organizations or organizations of health which does not deal with information systems. The openness and flexibility of the information systems provide a flexible and effective management. So it is necessary to adapt information system to new conditions being changed and to team up with other systems, with simulation system, for example. So it is possible change business processes, to execute their reengineering and to anticipate the conse-quences of any event and to take into account the different risks.
The functional model of the subsystem holding the business game of the competence based business games studio software suite is regarded. Use case diagram is employed to build the model.
The aim of the project is development of approach to implementation of the transformations of models described with different modeling languages. Multimodel approach is actually the standard of the model driven development of information systems with use of different methodological approaches. However, when development and the analysis of models are executed with different tools, there are problems associated with need of model transformations upon transition from a solution of some tasks to others. Transformations are carried out "with losses", the automatic generated models demand "manual" completion, approval. It is offered to minimize losses with means based on using ontology integrating descriptions of modeling languages and domain models. The transformation includes the stages which are consistently realized with transformation tools of the DSM platform. The main result of this stage is the description of ontology and the general scheme of approach implementation.
The problem of search pertinence increasing with a low time-complexity is one of the major research issues in Computer Science. Semantic search as an alternative solution to this problem has a high time complexity. This paper discusses the use of agent-based approach to reduce the time complexity of constructing semantic indexes used for searching.
It is proposed to distinguish between the traditional, so-called, weak, artificial intelligence (AI) and strong artificial intelligence, or artificial general intelligence (AGI). The latter is not considered as the evolutionary stage of the development of AI, but something else related to the construction of an informal and non-causal phenomenological space, as a kind of opposite to AI. AGI is determined by inverse problems solving on topologies, using analogies of quantum physics and optics, connecting aspects of relativistic theory. It is noted that the AGI continual power is tens of orders of magnitude greater than the AI power, however, for its release, special integration of the both, and direct inclusion of human in the process is required. Already, elements of AGI are helping to accelerate the collective creative process many times over.
The approach to information system development with domain specific languages is described. DSL-toolkit allows extending business process description languages by risks description tools.
The paper suggests a formalized business game description technique, based on the information about company’s business process. The technique include sequential building of a model set that enables to acquire business game execution scenario.
The technology of development of flexible systems for monitoring energy is presented. User is provided with means for connecting the sensors of power consumption devices, creating their own dashboards.