Preview

DEVELOPMENT OF CONTROL SYSTEM FOR PROGRESS OF CONSTRUCTION AND INSTALLATION WORKS BASED ON INTEGRATED APPLICATION OF Primavera P6 Professional R8.3.2 AND ArchiCAD 17.0.0 SOFTWARE PRODUCTS

https://doi.org/10.21122/2227-1031-2017-16-6-466-474

Abstract

The paper considers application and development of information technologies while carrying out project management in construction. Organizational and technological support of works throughout its life cycle exerts an influence on quality and efficiency of successful implementation of the construction project. In order to achieve the project goal it is necessary perfectly to organize and plan works, distribute roles and responsibilities of the project participants, regulate composition and content of the project documentation. While analyzing technical and economic indices of construction organization activity and management systems operating in these organizations, conclusion has been made that market experience in functioning of operational management systems has not been adequately applied in practice of domestic construction organizations. Thus, introduction of integrated management systems for quality, costs, time parameters pertaining to project construction, their resource support will contribute to improvement of economic situation of construction organizations. The solution consists in application of up-to-date information technologies, maximum implementation of computer systems and programs in the sphere of production, creation of application software. It has been shown that it is necessary to develop a software model that provides a possibility comprehensively to apply information technology tools for monitoring progress of construction and installation works, systematization of information technology application that allow to control key parameters of construction and installation works, improvement of system for providing actual information in project implementation process. An example of complex application of software products Primavera P6 Professional R8.3.2 and ArchiCAD 17.0.0 is given in the paper.

About the Authors

V. P. Grakhov
Kalashnikov Izhevsk State Technical University
Russian Federation


Yu. G. Kislyakova
Kalashnikov Izhevsk State Technical University
Russian Federation


U. F. Simakova
Kalashnikov Izhevsk State Technical University
Russian Federation


D. A. Mushakov
Kalashnikov Izhevsk State Technical University
Russian Federation


References

1. Goodwin G. C., Graebe S. F., Salgado M. E. (2000) Control System Design. New Jersey, Prentice Hall. 908.

2. Talapov V. V. (2013) BIM Implementation for Project Practice: Ten Main Theses. Available at: http://www.integralsib.ru/articles/vnedrenie_bim/vnedrenie_bim_v_proektnuy_praktiku. (Accessed 10 September 2017) (in Russian).

3. Shpudeiko K. I., Zelentsov L. B. (2013) Problems of Introduction of Information Technologies in Management of Construction Objects. Proceedings of the 5th International Students Electronic and Scientific Conference “Students’ Scientific Forum”, February 15 – March 31, 2013. Available at: http://www.scienceforum.ru/2013/42/4982. (Accessed 10 September 2017) (in Russian).

4. Ansoff I. (1979) Strategic Management. London, Palgrave Macmillan. DOI: 10.1007/978-1-349-02971-6.

5. Artemieva V. A., Bovtev S. V. (2011) Psychological Issues in Introduction of Methodology for Management of Construction Projects. Promyshlennoye i Grazhdanskoye Stroitelstvo = Industrial and Civil Engineering, (4), 24–25 (in Russian).

6. Leonovich S. N., Chernoivan V. N. (2015) Technology of Construction Production. Minsk, Belarusian National Technical University. 505 (in Russian). 7. Ankhimiuk V. L., Oleyko O. F., Mikheev N. N. (2002) Theory of Automatic Control. Moscow, Dizayn PRO Publ. 352 (in Russian).

7. Besekersky V. A., Popov E. P. (2003) Theory of Automatic Control Systems. Saint Petersburg, Professiya Publ. 747 (in Russian).

8. Grakhov V. P., Mokhnachev S. A., Ishtryakov A. Kh. (2015) Development of BIM-Design Systems as Element of Competitiveness. Sovremennye Problemy Nauki i Obrazovaniya = Modern Problems of Science and Education, (1–1). Available at: https://science-education.ru/ru/article/view?id=17950 (in Russian).

9. Gavrilov D. A. (2005) Control over Production on the Basis of MRP II Standard. Saint Petersburg, Piter Publ. 416 (in Russian).

10. Cappels Thomas M. (2004) Financially Focused Project Management. J. Ross Publishing, Inc. 312.

11. Selyutina L. G. (2014) Innovative Approach to Management of Investment Processes in the Sphere of Housing Stock Reproduction. Sovremennye Tekhnologii Upravleniya = Modern Management Technology, (11), 37–41 (in Russian).

12. Koltynyuk B. A. (2003) Investments. Saint Petersburg, Publishing House of Mikhailov V. A. 848 (in Russian).

13. Pobegailov O. A., Shemchuk A. V. (2013) Information Systems for Planning in Construction. Inzhenerny Vestnik Dona = Engineering Journal of Don, (3). Available at: http://ivdon.ru/ru/ma%20gazine/archive/n3y2013/1896 (Accessed 25 September 2017) (in Russian).

14. Drucker P. F. (2007) Business and Innovation. Moscow, Williams Publishing House. 432 (in Russian).

15. Balashov A. I., Rogova E. M., Tikhonova M. V., Tkachenko E. A. (2014) Project Management. Moscow, Urait Publishing House. 384 (in Russian).

16. Zarenkov V. A. (2006) Project Management. Moscow, Publishing House of Association of Educational Civil Engineering Institutions, Saint Petersburg State University of Architecture and Civil Engineering. 312 (in Russian).

17. Kemp S. (2004) Project Management. Demystified. McGraw-Hill. 354.

18. Gontareva I. V., Nizhegorodtsev R. M., Novikov D. A. (2013) Project Management. Moscow, Librokom Publ. 384 (in Russian).

19. Grakhov V. P., Mushakov D. A. (2015) Consistent Functions Primavera P6 Professional R8.3.2 and ArchiCAD 17.0.0 as Measuring Tool in the Process of Controlling Progress of Construction and Installation Works. Intellektualnye Systemy v Proizvodstve = Intelligent Systems in Manufacturing, (1), 95–98 (in Russian).


Review

For citations:


Grakhov V.P., Kislyakova Yu.G., Simakova U.F., Mushakov D.A. DEVELOPMENT OF CONTROL SYSTEM FOR PROGRESS OF CONSTRUCTION AND INSTALLATION WORKS BASED ON INTEGRATED APPLICATION OF Primavera P6 Professional R8.3.2 AND ArchiCAD 17.0.0 SOFTWARE PRODUCTS. Science & Technique. 2017;16(6):466-474. (In Russ.) https://doi.org/10.21122/2227-1031-2017-16-6-466-474

Views: 1297


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.


ISSN 2227-1031 (Print)
ISSN 2414-0392 (Online)