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Purpose: This article presents the concept of an interactive rehabilitation equipment designed for children under 3 years of age with dysfunction of the lower limbs. Through the use of interactive play-boards and games not only will the children learn faster, but the whole process of rehabilitation will be really fun. Furthermore, the device can be connected to a computer or a special synoptic screen mounted on a special rack. Thanks to an interactive combination of the function of movement rehabilitation with mental stimulation of a child it will be possible to support the development of cognitive functions, cause-effect thinking, stimulation of the senses and to improve coordination and spatial orientation of the young patient. Design/methodology/approach: The novelty of the station is combination of the traditional cycle-therapy with the Glenn Doman improvement method, or with music therapy, depending on the degree of disability of a child. Findings: Combination of the traditional cycle-therapy with music therapy or Glenn Doman’s method in rehabilitation of small patients will help to maximize the children’s activity and their involvement, which at this stage of development is possible only by giving rehabilitation exercises an attractive form of plays and games. Research limitations/implications: FMEA is a very important method which should be employed in companies fPractical implications: The researches from the broadly understood biomechanics that are carried out shall lead to a construction of a rehabilitation device designed for children under the age of three. The proposed device should be very effective in the rehabilitation process, even for the youngest children, and due to its relatively simple modular construction and the possibility of cooperation with many plays and games, it should also be a market success by contributing to the effective rehabilitation of the considerable population of children who require such rehabilitation. Originality/value: The device being developed will include all the most important factors that may affect the physical structure of children and their psyche, which can directly affect the improvement of their health.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
45--50
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
autor
- Institute of Engineering Processes Automation and Integrated Manufacturing Systems, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
- Institute of Engineering Processes Automation and Integrated Manufacturing Systems, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
Bibliografia
- [1] Z. Engel, J. Kowal, Vibro-accoustic processes control, AGH Press, Cracow, 1995 (in Polish).
- [2] S. Michałowski, Active systems in machines construction, Monograph 171, Cracow University of Technology Press, Cracow, 1994 (in Polish).
- [3] A. Buchacz, J. Świder (Eds.), Computer support CAD CAM. Support for construction of systems reducing vibration and machine noise, WNT, Warsaw, 2001 (in Polish).
- [4] D. Guidaa, F. Nilvetti, C.M. Pappalardo, Parameter identification of a full-car model for active suspension design, Journal of Achievements in Materials and Manufacturing Engineering 40/2 (2010) 138-148.
- [5] E. Świtoński, A. Mężyk, W. Klein, Application of smart materials in vibration control systems, Journal of Achievements in Materials and Manufacturing Engineering 24/1 (2007) 291-296.
- [6] K. Białas, A. Buchacz, T. Dzitkowski, Synthesis of vibrating active mechanical systems with dumping in view of polar graphs and structural numbers, Monograph 230, Silesian University of Technology Press, Gliwice, 2009 (in Polish).
- [7] K. Białas, Computer-aided synthesis and analysis of discrete mechanical systems, Journal of Achievements in Materials and Manufacturing Engineering 38/2 (2010) 171-178.
- [8] A. Buchacz, K. Żurek, Reverse task of active mechanical systems depicted in form of graphs and structural numbers, Monograph 81, Silesian University of Technology Press, Gliwice, 2005 (in Polish).
- [9] A. Buchacz, Investigation of flexibly vibrating subsystem of mechatronic system, Journal of Achievements in Materials and Manufacturing Engineering 34/1 (2009) 55-62.
- [10] K. Białas, Reverse task of passive and active mechanical system in torsional vibrations, Journal of Achievements in Materials and Manufacturing Engineering 35/2 (2009) 129-137.
- [11] K. Białas, Polar graphs and structural numbers in synthesis of active and passive mechanical systems, Journal of Achievements in Materials and Manufacturing Engineering 30/1 (2008) 43-50.
- [12] K. Białas, Graphs and structural numbers in analysis and synthesis of mechanical systems, Journal of Achievements in Materials and Manufacturing Engineering 29/2 (2008) 151-154.
- [13] A. Buchacz, A. Dymarek T. Dzitkowski, Design and examining sensitivity of continuous and discrete-continuous mechanical systems with required frequency spectrum represented by graphs and structural numbers, Monograph 88, Silesian University of Technology Press, Gliwice, 2005 (in Polish).
- [14] A. Buchacz, The expansion of the synthesized structures of mechanical discrete systems represented by polar graphs, Journal of Materials Processing Technology 164-165 (2005) 1277-1280.
- [15] A. Buchacz, Dynamical flexibility of discretecontinuous vibrating mechatronic system, Journal of Achievements in Materials and Manufacturing Engineering 28/2 (2008) 159-166.
- [16] A. Buchacz, Exact and approximate analysis of mechanical and mechatronic systems, Journal of Achievements in Materials and Manufacturing Engineering 33/1 (2009) 47-52.
- [17] G. Wszołek, Modelling of mechanical systems vibrations by utilisation of GRAFSIM software, Journal of Materials Processing Technology 164-165 (2005) 1466-1471.
- [18] S. Żółkiewski, Analysis of complex damped longitudinally vibrating systems in transportation, Journal of Achievements in Materials and Manufacturing Engineering 36/2 (2009) 176-183.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-27a5d7a0-b32c-4682-a453-a62640fa937f