Abstract
Application of cybernetic technology of conceptual design of biomechatronic surgical robotics system (SRS) originated by systems theory is suggested in the paper. Traditional models of artificial intelligence and mathematics do not allow describing biomechatronic systems being designed on all its levels in one common formal basis, i.e. they do not give connected descriptions of the systems structure, the system as dynamic unit in its environment and the environment construction. To avoid this drawback, the technology of hierarchical and dynamic systems was chosen as a theoretical means for conceptual design and control tasks performing. Furthermore, in comparison with traditional methods the proposed technology gives the description of connected electronic, mechanical, biological, human-machine and computer subsystems of biomechatronic object in common formal basis. Theoretical basis of the coordination technology is briefly considered first. The example of the technology realization in conceptual design of SRS is presented after that in the paper.
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References
Moulianitis, V., Aspragathos, N., Dentsoras, A.: A model for concept evaluation in design – an application to mechatronic design of robot gripper. Mechatronics 14, 599–622 (2004)
Mesarovic, M., Macko, D., Takahara, Y.: Theory of Hierarchical Multilevel Systems. Academic Press, New York (1970)
Novikava, S., Mialtiuk, K., Gancharova, S., Kaliada, W.: Aed Construction and Technology in Design. In: 7th IFAC LSS Symposium, pp. 379–381. Pergamon, London (1995)
Novikava, S., Mialtiuk, K., et al.: Aed Theory in Hierarchical Knowledge Networks. Studies in Informatics and Control 6(1), 75–85 (1997)
Novikava, S., Miatliuk, K., et al.: Mathematical and Cybernetical Means of Aed Theory. In: IEEE Int. Conf. on Systems, Man, and Cybernetics, vol. 4, pp. 2874–2879 (1996)
Mialtiuk, K.: Coordination Processes of Geometric Design of Hierarchical Multilevel Systems. Machine Constructing and Exploitation 11, 163–178 (2003) (in Polish)
Novikava, S., Mialtiuk, K.: Hierarchical System of Natural Grammars and Process of Innovations Exchange in Polylingual Fields. Kybernetes 36(5/6), 736–748 (2007)
Miatliuk, K.: Coordination Technology in Design of Biologically Inspired Robot. Machine Dynamics Problems 33(3), 70–78 (2009)
Hudspeth, M.: Conceptual Design in Product Data Management. Design Engineering Technology News, Desktop Engineering (February 1, 2008)
French, M.J.: Conceptual Design for Engineers, 3rd edn. Springer (1999)
Mesarovič, M., Takahara, Y.: Abstract systems theory. Springer (1990)
Kim, Y.H., Minh, H.L.: A Laboratory-Level Surgical Robot System for Minimal Invasive Surgery Total Knee Arthroplasty. J. Precision Eng. and Manufacturing 12(2), 237–242 (2011)
Siciliano, B.: Kinematic Control of Redundant Robot Manipulators: A Tutorial. Journal of Intelligent and Robotic Systems 3(3), 201–212 (1990)
Multi Motion Controllers MMC Manual, Rockwell Samsung Automation Inc., Korea
Miatliuk, K., Kim, Y.H., Kim, K.: Motion Control Based on the Coordination Method of Hierarchical Systems. J. of Vibroengineering 11(3), 523–529 (2009)
Miatliuk, K., Siemieniako, F., Kim, Y.H., Kim, K.: Human Motion Design in Hierarchical Space. In: 16th ICSS Conference on Systems Science, Wroclaw, pp. 496–503 (2007)
Miatliuk, K., Kim, Y.H., Kim, K., Siemieniako, F.: Use of Hierarchical System Technology in Mechatronic design. Mechatronics 20(2), 335–339 (2010)
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Miatliuk, K., Kim, Y.H. (2014). Application of Hierarchical Systems Technology in Conceptual Design of Biomechatronic System. In: Swiątek, J., Grzech, A., Swiątek, P., Tomczak, J. (eds) Advances in Systems Science. Advances in Intelligent Systems and Computing, vol 240. Springer, Cham. https://doi.org/10.1007/978-3-319-01857-7_8
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DOI: https://doi.org/10.1007/978-3-319-01857-7_8
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