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2009 | Vol. 19, no. 1 | 81-92
Tytuł artykułu

Experimental investigations of human-operator as a pressure force regulator in man-hand tool system

Wybrane pełne teksty z tego czasopisma
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the paper the results of experimental investigations of system operator-handle-base have been presented. The aim of investigations was to record dynamical reactions of human operator volunteers participating in the experiments to a visual, suddenly appearing step signal. The main task of each operator was to track the signal as precisely as possible with a push force exerted on the immobile handle. The measurements were done on an especially designed stand. Time histories of step reference and forces realized by the operator were statistically elaborated and graphically presented.
Wydawca

Rocznik
Strony
81-92
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
autor
Bibliografia
  • [1] V. I. BABITSKY: Hand-held percussion machine as discrete non-linear coiwerter. J. ofSoundand Vibration, 214(1), (1998), 165-182.
  • [2] Z. BASISTA: Modelling and simulation of man-tool system. Scientific Notes. Mechanics. 83 Cracow University of Technology, Cracow, (2001), 21-30, (in Polish).
  • [3] Z. BASISTA: Imfluence of handle active vibration isolation on ergonomics of per-cussive tools. Scientific Notes. Mechanics. 60 Rzeszów University of Technology, Rzeszow, (2002), 19-26, (in Polish).
  • [4] Z. BASISTA: Modelling and simulation of man-tool system. PTSK, Cracow, 2004, ISBN 83-7242-3180, 27-34, (in Polish).
  • [5] Z. BASISTA and M. KSIĄŻEK: Estimation of comfort parameters of an active vibration isolation system of handle of percussive power tool. Proc.”INTER-NOIS’'2004”, Prague, (2004).
  • [6] Z. BASISTA: Simulation of experiment for researsch of the influence of vibro-isolation system on hand-tools managing quality. Folia Scientinarium Universitatis Technical Resoviensis, 222, Rzeszów, 2005, ISSN 0209-2689, 11-18, (in Polish).
  • [7] Z. BASISTA: Simulation investigation of an active vibration protection system of an operator of a hand-held percussive tool. Engineering Transactions, 54(3), (2006), 173-187.
  • [8] Z. BASISTA and M. KSIĄŻEK: Modelling of human-opeator and citeria of estimation of active vibration isolation system in hand-held percussive tools. Proc. 8th Conf. on Active Noise and Vibration Control Methods, Cracow-Krasiczyn, (2007).
  • [9] G. A. BEKEY: The human operator as a sampled data system. IEEE Trans. Human Factors in Electronics, HFE-3 (1962), 43-51.
  • [10] J. B. DAVIDSON and D.K. SCHMIDT: Modified pptimal control pilot model for computer-aided design and analysis. Technical Report TM-4384, NASA, 1992.
  • [11] E. V. GOLYSHEVA, V.I. BABITSKY and A.M.VEPRIK: Vibration protection for an operator of a hand-held percussion machinę. J. of Sound and Vibration. 11A (2004), 351-367.
  • [12] D. L. KLEINMAN, S. BARON and W.H. LEVISON: An optimal control model of human response-part I: Theory and validation. Automatka, 6 (1970), 357-369.
  • [13] D. L. KLEINMAN, S. BARON and W.H. LEVISON: An optimal control model of human response-part II: Prediction of human performance in complex task. Automatka, 6 (1970), 371-383.
  • [14] M. MARKIEWICZ: New methods of vibration attenuation influencing man and structures. Monograph 185. Cracow University of Technology, Cracow, (1995), (in Polish).
  • [15] D. T. MCRUER, D. GRAHAM, E.S. KRENDEL and W. REISENER JR.: Human pilot dynamics in compensatory systems. Technical Report TR-65-15, AFFDL, WPAFB,OH, 1965.
  • [16] D. T. MCRUER and H. R. JEX: A review of ąuasi-linear pilot models. IEEE Trans. on Human Factors in Electronics, HFE-8(3), (1967), 231-249.
  • [17] D. T. MCRUER and E. S. KRENDEL: Mathematical models of human pilot behavior. Tech. Rep. AG-188, AGARD, 1974.
  • [18] D. T. MCRUER: Human dynamics in man-machine systems. Automatka. 16 (1980), 237-253.
  • [19] A. MODJTAHEDZADEH andR.A. HESS: Model of driver steering control behavior for use in assessing vehicle handling ąualities. J. Dyn. Syst. Measur. Contr. Trans., ASME 115 (1993), 456-464.
  • [20] R. ODDO, T. LOYAU, P. E. BOILEAU and Y. CHAMPOUX: Design of a suspended handle to attenuate rock drill hand-arm vibration: model development and valida-tion. J. of Sound and Vibration, 275 (2004), 623-640.
  • [21] S. RAKHEJA and J.Z. Wu: A comparison of biodynamic models of the human hand-arm system for applications to hand-held power tools. /. of Sound and Vibration, 249(1), (2002), 55-82.
  • [22] W. B. ROUSE: Systems engineering models of human-machine interaction. North Holland, 1980, New York, Oxford, ISBN 0-444-00366-5.
  • [23] R. S. SHARP, D. CASANOVĄ and P. SYMONDS: A mathematical model for driver steering control, with design, tuning and performance results. Vehkle System Dynamics, 33 (2000), 289-326.
  • [24] T. B. SHERIDAN and W. FERRELL: Man-machine sytems. The MIT Press, Cambridge, 1974.
  • [25] T. B. SHERIDAN: Some musings on four ways humans couple: Implications for system design. IEEE Trans, on Systems, Man, and Cybernetics - Part A: Systems and Humans, 32(1), (2002), 5-9.
  • [26] R. SUTTON: Modelling human operators in control system design. Wiley, 1990.
  • [27] A. TUSTIN: The nature of the operator's response in manuał and its implications for controller design. J. ofthe Institution Elec. Engrs., Part IIA, 2 (1947), 190-202.
  • [28] L. R. YOUNG: On adaptive manuał control. IEEE Trans on Man-Machine Systems, MMS-10(4), (1969), 292-331.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BSW3-0061-0005
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