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One of the problem while dealing walking mechanism of mobile service robot (MSR) is the problem of his mechanical organization and control. An example for the solution are locomotive organs of the animals. Biomechanics defines motion as a change of the system position in the space as well as the change of the position of its functional parts. Subsequently space and time -space features of the motion represent kinematical features. Power and time feature represents dynamic features of the moving material system. These signs and features can be used as effective tools for biomechanical analysis of the movement activities and characteristics of random walking body of MSR. Biomechanical model can be used especially by optimization of the construction and driving unit of the walking mechanism, while designing of its control and coordination of the movement of its functional sections. The article introduces authors' knowledge and experience from the use of biomechanical characteristics by the analysis and evaluation of walking service robots movement realization technique, as well as by the creation of the models simulating walk for the needs of the walking mechanism MSR construction.
Rocznik
Tom
Strony
101--106
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
autor
autor
autor
- Technical University Kosice, Faculty of Mechanical Engineering, B. Nemcovej 32, 042 01 Kosice, Slovakia tel.: +421-55-6022194, juraj.smrcek@tuke.sk
Bibliografia
- [1]Karnik L., Knoflićek R., Novak-Marcinćin J., Mobitni roboty, Opava, Marfy Slezsko Opava 2000.
- [2] Kotibal Z., Knoflićek R., Morfologicka analyza stavby prumyslovych robotu, Kosice, Yienala Kosice 2000.
- [3]Koniar M., Lesko M., Biomechanika, Bratislava, SPN Bratislava 1990.
- [4]Manling F., Soućasny stav a trendy v oMasti CAx techniky, WEB ćasopis: Poćitaćom podporene systemy v strojarstve, Zilina, august 2000.
- [5]Nehmzow U., Mobil Robotics: A Practical Introduction, London, Springer 2000.
- [6]Nemec M., Smrćek J., Navrh kraćajuceho podvozku mobilneho robota, Tech. sprava KR/DP 201/02, Kosice 2002.
- [7]Novak-Marcinćin J., Smrćek J., Biorobotika - teoria, principy, aplikacia v technickej praxi, Kosice, Academic Press alfa Kosice 1998.
- [8]Riberio M., Lima P., Kinematics Models of Mobile Robots, Lisboa, 1ST 2002.
- [9]Sandter B., Robotics, Design the Mechanisms for Automated Machinery, London, Academic Press London 1999.
- [10]Schraft R. D., Schnierer G., Seryiseroboter. Produkte, Szenarien, Yisionen, Berlin, Springer 1998
- [11]Skarupa J., Mostyn V., Metody a prostfedky navrhu prumystovych a servisnich robotu, Kosice, Kosice Yienala 2002.
- [12]Smrćek J., Patko A., Jurciśin J., Problematika servisnych robotov, studia principov a metodik ich aplikacie 1., II, Strojarstvoroć. 3, ć. 4/99 a 5/99, p. 72-74 a p. 20.
- [13]Smrćek J., Nemec M., Biomechanicke charakteristiky kraćajuceho ustrojenstva mobilnych servisnych robotov, in: Zbomik 1. medz. konf. Servisni robotika, Ostrava 2003, p. 21 (21/1 - 21/7).
- [14]Smrćek J., Patko A., Nemec M., Vyvojove konśtrukcie servisnych robotov a ich aplikacie, in: Zbomik 5. medz. konf. TRANSFER 2003, TnU Trenćin, Trenćin 2003, p. 387-392, ISBN 80-8075-001-7, EAN 9788080750015.
- [15]Smrćek J., Nemec M., Żidek K., Biomechanicke principy pri navrhovani kraćajucich servisnych robotov, in: Zbomik 7. medz. konf. ROBTEP 04 - Automatizacia / Robotika v teorii a praxi, V. Ruźbachy 2004.
- [16]Żidek K., Smrćek J, Petruska P., Simulacia pohybu doinej konćatiny ćloveka, Tech. sprava. KR / DP-185/00, Preśov 2000.
- [17]http://www.ipaslovakia.sk/slovak/ipamagazin/simulacia.
- [18]http://biomech.ftvs.cuni.cz/pbpk/kompendium/biomechanika.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPP1-0092-0009