Identyfikatory
Warianty tytułu
Set of feasibile assembly plans of large - size marine structures
Języki publikacji
Abstrakty
The aim of the article is presenting a mathematical model of the assembly process of large-size marine structures. Numerical encoding approach of essential features of the structure and welding methods is proposed. The model takes into account information about the geometry of the connections between elements and their orientation in space during the assembly process. Welding processes are characterized by positions range of their application. The assembly process is shown as a matrix form. Assembly planning is based on the allocation of welding processes into stages and the selection of welding method and assembly position for each stage. It is shown that a lot of such plans can be generated and many of them are unacceptable. Space of feasible plans is defined by set of constraints. These conditions verify that the assembly plan performs a task of welding of all joints and whether it is feasible for particular methods. The methods for calculating the impact of all conditions . an accurate deterministic and randomized approximate are proposed. It is shown that assumed conditions dramatically reduce the set of assembly plans. Moreover, the method of including additional conditions into the model according to the connections making sequence is presented. Sample calculations are shown in two examples . first that is extremely simplified, allowing for a full deterministic analysis of the problem, and a second that is more complex, requiring a partial approximate approach. The article indicates the possibility of using the optimization of the assembly plan. Furthermore, the set of applicable criteria is proposed.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
17--25
Opis fizyczny
Bibliogr. 11 poz.
Twórcy
autor
- Katedra Konstrukcji, Mechaniki i Technologii Okrętów Wydział Techniki Morskiej i Transportu Zachodniopomorski Uniwersytet Technologiczny w Szczecinie
Bibliografia
- [1] Arregi, B., Granados, S., Hascoet, J.Y., Hamilton, K., Alonso, M., Ares, E.: Automatic welding systems for large ship hulls, .4th Manufacturing Engineering Society International Conference, AIP Conference Proceedings. 2012, Volume 1431, pp. 951-958
- [2] Barnu. B., Knosala R.: Minimalizacja kosztów wytwarzania w fazie projektowania, .Zarządzanie Przedsiębiorstwem., nr 2/2007, s. 2-13.
- [3] Chi Z., Jun S.: Intelligentized Work-Preparation For Ship Hull Construction With Optimized Assembly Planning System, [w:] Conference Proceedings -IEEE International Conference on Systems, Man and Cybernetics 2010, pp. 2740-2744.
- [4] Cho K.-K., Lee S.-H., Chung D.-S.: An automatic process-planning system for block assembly in shipbuilding, .Annals of the CIRP., vol. 45/1/1996, pp. 41-44.
- [5] Cho K.-K., Sun J.-G., Oh J.-S.: An automated welding operation planning system for block assembly in shipbuilding, .Int. J. Production Economics. 1999, no. 60-61, pp. 203-209.
- [6] EN ISO 6947:2011, Welding and allied processes. Welding positions.
- [7] Feelders A., Daniels H., Holsheimer M.: Methodological and practical aspects of data mining, Information & Management. 2000, no. 37, pp. 271-281.
- [8] Kolodner J. L.: An Introduction to Case-Based Reasoning, .Artificial Intelligence Review. 6/1992, pp. 3-34.
- [9] Lee, S., Yu, J., Kim, E., Choi, W., Lim, R., Kim, H., Heo, J.: Steel-yard planning support system: Optimizing the steel-yard planning and performance evaluation with simulation, [w:] International Conference on Control, Automation and Systems 2012, pp. 605-609.
- [10] Pokojski J.: Personal Knowledge Management in Engineering Design . Issues, Concepts and Applications, [w:] Coordination of Collaborative Engineering . State of the Art and Future Challenges, 5th International Workshop on Challenges in Collaborative Engineering (CCE«07), April 11-13, 2007 in Cracow, Poland P-120 (2007). Gesellschaft für Informatik, Bonn 2007, pp. 9-20.
- [11] Seo Y., Sheen D., Kim T.: Block assembly planning in shipbuilding using case-based reasoning, .Expert Systems with Applications. 2007, 32, pp. 245-253.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-969df3da-c6b6-49b5-908b-a91588554524