Logistic description of investment and construction management

Vestnik MGSU 1/2014
  • Sborshchikov Sergey Borisovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Professor, acting chair, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Lazareva Natal'ya Valer'evna - Moscow State University of Civil Engineering (MGSU) assistant, Department of Organization Technology and Management in Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 196-201

The article is devoted to the questions of defining dynamic behavior of investment and construction activity as a technical and economic system and its formalized description. It is offered to use the term "condition vector" as one of the main characteristics while describing investment and construction activity. Logistic interpretation of a sustainable development of investment and construction defines the concept of optimum trajectory, which considers various dependencies of its components (construction operations, their preparation, design, material, technique, personnel, information, investment, etc.). It is necessary to point out that this state is homeostatic, which means, the managing system must provide continuous monitoring of each system component of investment and construction activities in accordance with the sustainable development pathway. The concept of dynamic balance used in logistics is identical to the concept of homeostatic balance, which is accepted in system engineering. It is defined as a property of technical and economic system, which implies that its deviations from the development pathway lie within admissible values.

DOI: 10.22227/1997-0935.2014.1.196-201

References
  1. Sborshchikov S.B. Teoreticheskie zakonomernosti i osobennosti organizatsii vozdeystviy na investitsionno-stroitel'nuyu deyatel'nost' [Theoretical Patterns and Characteristics of the Impacts Organization on Investment and Construction Activity]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 4, pp.183—187.
  2. Zharov Ya.V. Uchet organizatsionnykh aspektov pri planirovanii stroitel'nogo proizvodstva v energetike [Accounting for the Organizational Aspects in the Process of Planning Building Operations in the Power Industry]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2013, no. 5, pp. 69—71.
  3. Sborshchikov S.B. Teoreticheskie osnovy formirovaniya novykh organizatsionnykh skhem realizatsii investitsionno-stroitel'nykh proektov v energeticheskom sektore na osnove integratsii printsipov inzhiniringa i logistiki [The Theoretical Basis of the Formation of New Organizational Schemes in Investment and Construction Projects in the Energy Sector Basing on the Integration of Engineering and Logistics Principles]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 1, pp. 146—150.
  4. Pobegaylov O. A., Shemchuk A.V. Sovremennye informatsionnye sistemy planirovaniya v stroitel'stve [Modern Information Systems of Planning in Construction]. Inzhenernyy vestnik Dona [Engineering Proceedings of Don]. 2012, no. 2, pp. 20—25.
  5. Song Y., Chua D.K.H. Modeling of Functional Construction Requirements for Constructability Analysis. Journal of Construction Engineering and Management. 2006, vol. 132, no. 12, pp.1314—1326.
  6. Aleksanin A.V. Kontseptsiya upravleniya stroitel'nykh otkhodov na baze kompleksnykh i informatsionnykh logisticheskikh tsentrov [The Concept of Construction Waste Management on the Basis of Complex and Informational Logistics Centers]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 7, pp. 132—136.
  7. Shevchenko V.S. Osobennosti upravleniya i motivatsii personala v usloviyakh innovatsionnoy deyatel'nosti stroitel'nogo predpriyatiya [Features of Staff Management and Motivation in Case of Innovation Activity in a Building Enterprise]. Novyy universitet. Seriya: ekonomika i pravo [New University. Series: Economics and Law]. 2012, no.12, pp. 39—42.
  8. A. Georges L. Romme, Endenburg G. Design: Construction Principles and Design Rules in the Case of Circular Design. Organization Science. 2006, March/April, vol. 17, no. 2, pp. 287—297.
  9. May R.C., Puffer S.M., McCarthy D.J. Transferring Management Knowledge to Russia: a Culturally Based Approach. Academy of Management. 2009, vol. 19, no. 2, pp. 24—35.
  10. Dossick C.S., Neff G. Messy Talk and Clean Technology: Communication, Problemsolving and Collaboration Using Building Information Modelling. Engineering Project Organization Journal. 2011, vol. 1, no. 2, ðð. 83—93. Online publication date: 1.07.2011.

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Occupational health and safety management system as a tool for ensuring safety of works in construction industry

Vestnik MGSU 7/2014
  • Nezhnikova Ekaterina Vladimirovna - Moscow State University of Civil Engineering (MGSU) Candidate of Economic Sciences, Associate Professor, Department of Economy and Management in Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (495) 287-49-19; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Aksenova Anastasiya Arkadievna - Institute Hydroproject; Moscow State University of Civil Engineering (MGSU) leading specialist, Department of Project Documentation Expertise, Institute Hydroproject; postgraduate student, Department of Economy and Management in Construction, Moscow State University of Civil Engineering, Institute Hydroproject; Moscow State University of Civil Engineering (MGSU), 2 Volokolamskoe shosse, Moscow, 125993, Russian Federation; 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 166-173

Construction as a branch of material production is among the industries most dangerous in the field of health protection and safety of works. The major features, which characterize the construction industry, are: high-altitude work, temporary nature of works, working with heavy cargo and irregular working hours. Large volumes and unique design of construction facilities, machines and equipment determine the risk of dangerous and harmful production factors. Neglect of safety rules and technological regulations, lack of supervision lead to accidents, injuries, loss of professional work capacity, chronic diseases and, as a consequence, the reduce of economic efficiency of the organizations of construction industry. Today specialists in the field of labour protection should solve the issues on improvement of technologies, increase of reliability of technical systems (equipment, machines, mechanisms, etc.), safety of life activity of workers, etc. A significant place in this complex of questions take solutions on protection of labours, environment protection, prevention and elimination of the consequences of emergency situations. The solution to these problems consists in providing the high quality elaborating projects of manufacture of works, including technological maps, projects of construction organization, which is achieved through the creation and effective functioning of the management system of occupational health and safety of labour. Particularly evident advantages of establishing occupational health and safety management system are: improvement of working conditions through establishing of management system of production risks; reduction of injuries, accidents, deaths in workplace; expansion of the market through the acquisition of competitive advantages due to the presence of the certificate on conformity to the international requirements OHSAS 18001 or ILO-OSH; achievement of positive economic effect due to reduction of costs associated with the occurrence of risk cases (occupational diseases, injuries, etc.).

DOI: 10.22227/1997-0935.2014.7.166-173

References
  1. Nezhnikova E.V., Aksenova A.A. O potrebnosti stroitel'noy otrasli v sistemakh menedzhmenta kachestva, ekologichnosti i bezopasnosti truda i vozmozhnostyakh ikh realizatsii [On the Need of the Construction Industry in Quality, Environmental Friendliness and Safety Management Systems and Opportunities of their Implementation]. Ekonomika i predprinimatel'stvo [Economics and entrepreneurship]. 2013, no. 11 (40), pp. 626—632.
  2. OHSAS 18002:2008. Occupational Health and Safety Management Systems. Guidelines for the Implementation of OHSAS 18001:2007.
  3. Lukmanova I.G. Kontseptual'naya model' sistemy upravleniya kachestvom na predpriyatiyakh stroitel'noy otrasli [Conceptual Model of the Quality Management System at Enterprises of the Construction Industry]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2001, no. 4, pð. 41—44.
  4. Nezhnikova E.V. Problemy sozdaniya i funktsionirovaniya sistem menedzhmenta kachestva [Problems of Creation and Functioning of Quality Management Systems]. Fundamental'nye issledovaniya [Fundamental Investigations]. 2013, no. 6, part 4, pp. 958—962.
  5. Gopal K. Kanji, Mike Asher. 100 Methods for Total Quality Management. SAGE Publications Ltd, 1996. 256 p.
  6. Lukmanova I.G., Nezhnikova E.V. Menedzhment sistem bezopasnosti i kachestva v stroitel'stve [Management of safety and quality systems in construction] Promyshlennoe I grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2010, no. 10, pp. 52—53.
  7. PAS 99:2006: Specification of Common Management System Requirements as a Framework for Integration. BSI, 31 August 2006, 24 p.
  8. Dmitruk V.I. Metodika otsenki proizvodstvennykh riskov [Methods of production risks assessment]. Spravochnik spetsialista po okhrane truda [Reference Book for Specialist on Labour Protection]. 2010, no. 3. Available at: http://www.trudohrana.ru/practice/risk/detail.php?ID=2443. Date of access: 04.05.2014.
  9. Kachalov V.A. Sistemy menedzhmenta na osnove ISO 9001:2008, ISO 14001:2004, OHSAS 18001:2007 i ILO-OSH 2001: Konspekt sistemnogo menedzhera [Management System Based on ISO 9001:2008, ISO 14001:2004, OHSAS 18001:2007 and ILO-OSH 2001: Workbook of System Manager]. In 2 volumes. Moscow, IzdAT Publ., 2009, vol. 2, 472 p.
  10. Smith Ricky, Bill Keeter. FRACAS. Failure Reporting, Analysis, Corrective Action System. Reliabilityweb.com Press, 2010, 123 p.
  11. Okes Duke. Root Cause Analysis: The Core of Problem Solving and Corrective Action. ASQ Quality Press, 2009, 200 p.
  12. Muchemu David. How to Design a World-class Corrective Action Preventive Action System for FDA-regulated Industries: a Handbook for Quality Engineers and Quality Managers. AuthorHouse, 2006, 104 p.
  13. Khaustov A.P., Redina M.M., Nedostup P., Silaev A. Problemy otsenok i upravleniya ekologicheskimi riskami na predpriyatiyakh TEK [Assessment and Management Problems of Environmental RIsks at the FEC Enterprises]. Energobezopasnost' v dokumentakh i faktakh [Energy Security in Documents and Facts]. 2005, no. 6. Available at: http://www.endf.ru/06_1.php. Date of access: 04.05.2014.
  14. Ericsson Quality Institute. Business Process Management. Ericsson, Gothenburg, Sweden, 1993, 134 p.
  15. Rallabandi Srinivasu, Satyanarayana Reddy G., Srikanth Reddy Rikkula. Utility of Quality Control Tools and Statistical Process Control to Improve the Productivity and Quality in an Industry. International Journal of Reviews in Computing. 2011, vol. 5. Available at: http://www.ijric.org/volumes/Vol5/3Vol5.pdf. Date of access: 04.05.2014.
  16. Standards and guidelines on labour statistics. ILO: The International Labour Organization. Available at: http://www.ilo.org/global/statistics-and-databases/standards-and-guidelines/lang--en/index.htm. Available at: 04.05.2014.

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