Life Cycle Supporting System for mission critical systems: Experience of Implementation
An approach to ensuring the quality of functioning of automated enterprise systems based on the concept of the ISO/IEC 15026 standard providing the necessary level of system integrity in its life cycle. The problem statement and methods suitable for solving the problem are considered.
The article considers the processes of progress in production and service sectors and answers the question how and thanks to what service sector of Russian economy left the productive one behind (concerning contribution in GDP of our country). The rates of development of service sector turned out to be so high firstly - as a reason of peculiarities of new Russian economy, which historically was built on the market principles and was developing in conditions of investment resources deficit, secondly - as a reason of system differences between «physical» goods and services as an object of sale. Nowadays Russia faces an unusual symbiosis: effective service companies, operating in hard competitive sphere with average profitability and non-affective from the point of management industrial companies, which thanks to monopolistic pricing have great profitability, providing profits of Russian budget and determining a macroeconomic situation.
The purpose of this article is to provide a mathematical model to numerically estimate the parameters of the life cycle of the technical documentation on high-tech enterprises. Methodology of constructing such a model based on the consideration of statistical regularities of the life cycle of technical documentation involved in different projects. It uses data from the knowledge base of the enterprise. This work has revealed the basic rules of constructing mathematical models of similar estimates of the parameters of the life cycle of technical documentation as a result. This article is focused on the duration as a parameter of the life cycle. The constructed model analysis is universal and applicable to almost any high technology enterprise, which has its own knowledge base. Sure thing that the task of evaluating the various parameters of the life cycle of the technical paper is very relevant. Managers often must be aware of the total material costs of the project with a specific set of technical documentation before it starts. The constructed model is based on statistical regularities that exist for various projects in the enterprise, separated in time, thereby allowing the manager to have an idea about the project before it starts.
This book presents nine case studies on small and medium-sized Russian innovative companies that received at different times financial support of the Foundation for Assistance to Small Innovative Enterprises in Science and Technology (FASIE). These case studies reveal 'live' experience in the setting up and development of innovative businesses in various fields: production of new products and materials, IT, industrial, scientific and medical devices, medical diagnostics. Various specific examples show the main problems faced by small innovative companies in raising financial backing for R&D and further commercialization and implementation of new products, technologies and services, as well as ways and means to address these problems in a different business environment. All case studies were elaborated on the basis of in-depth interviews with company executives within the framework of the project “Factory of cases”, completed by Higher School of Economics by commission from FASIE. The book also contains the review article, illustrating the specifics of innovative activity of small and medium-sized start-ups in Russia, and additionally provides brief analytical findings based on the results of the special study “Social profile of the modern russian innovative entrepreneur”, conducted by the Institute of Innovation Management in 2011. These collected articles are designed for innovative entrepreneurs and executives of small and medium-sized innovative companies, investors, managers and specialists of innovation support infrastructure.
The article deals with the general approach to the construction of a distributed system of circuit simulation as part of information support of the product life cycle. The implementation of these approaches is demonstrated on the example of the creation of one of the elements of the system. This work/article is an output of a research project implemented as part of the Basic Research Program at the National Research University Higher School of Economics (HSE).