P.V. Filatkin - Post-graduate Student, MIREA (Moscow); Head of Centre-7, Rosoboronstandart (Moscow). E-mail: pav7209@yandex.ru N.P. Esaulov - Dr. Sc. (Eng.), Professor, MIREA (Moscow). E-mail: esaulov@mirea.ru O.P. Alekseev - Deputy Head of Department, «National Research University «MPEI» (Moscow) N.V. Katakhova - Associate Professor, MIREA (Moscow). E-mail: katakhova@.mirea.ru

In the systems engineering under life cycling one understands the development of a system, product, service and sample project created by humans to meet their needs from an object concept to its existence cessation as a whole. In the course of its life, a system (sample) develops passing through certain stages. At each cycle stage, the appropriate systems of provision must be available and only in this case the results planned for this stage can be achieved. The transition to the next stage is possible only if all the results planned for the current stage have been attained. The choice and realization of specific forms and ways for life cycle stage passing are made by a radio electronic industrial enterprise on a basis of its technological, organizational, financial and other resources analysis as well as the nature and complexity of the system (product) in order to eliminate contradictions between the business policy strategy and the strategy of reducing security, ecological, social, technological and other risks. Both typical stages and possible solution choices for life cycle management in accordance with the basic standard ISO/IEC 15288 of the systems engineering on life cycle management have been characterized. The main typical life cycle stages - concept, development, production, operation, maintenance and withdrawal from circulation have been given. When modelling the life cycle its model can be built on any level of the hierarchical structure of the system or project. In this case, significant attention should be paid to the so-called operational performance of the architecture as well as the data architecture while organizing horizontal and vertical information interaction between the elements in the hierarchy of systems, projects and life cycles.

 

1. Federalnaja celevaja programma «Razvitie ehlektronnojj komponentnojj bazy i radioehlektroniki» na 2008−2015 gody, utverzhdennaja postanovleniem Pravitelstva Rossijjskojj Federacii ot 26 nojabrja 2007 g. № 809.
2. Esaulov M.N., Grishnjachaja E.K., Kashtankin A.M., Rodin A.V. Struktura informacionnojj sistemy predprijatija, integrirovannojj s zadachami i funkcijami kontrollinga // Naukoemkie tekhnologii. 2008. № 8. S. 50−56.
3. ISO/IEC 15288: 2008 «Systems and software engineering - System life cycle processes».
4. URL: http://www.iso.org/iso/catalogue_detail-csnumber=43564.
5. ISO/IEC26702:2007 Management of the Systems Engineering Process.
6. URL:http://www.iso.org/iso/iso_catalogue/catalogue_tc/catalogue_detail.htm-csnumber=43693.
7. ISO/IEC TR 24748-1:2010 «Systems and software engineering - Life cycle management-Partl: Guide for life cycle management». URL: http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm? csnumber=50502.
8. ISO/IEC TR 24774: 2010 «Systems and software engineering - Life cycle management-Guidelines for process description» 
9. URL: http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm? csnumber=53815.