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                       Bovenzi, M., F. Rui, C. Negro, F. D’Agostin, G. Angotzi, S. Bianchi, L. Bramanti, et al.: “An Epidemiological
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                       Brinkley, J. W., L. J. Specker, and S. E. Mosher: “Development of Acceleration Exposure Limits for Advanced
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                         Escape, North Atlantic Treaty Organization, Neuilly sur Seine, France, 1990.
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                         5-19-59E, National Aeronautics and Space Administration, Washington, D.C., 1959.
                       Fairley, T. E., and M. J., Griffin: “The Apparent Mass of the Seated Human Body: Vertical Vibration,”
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                       Gomez, M. A., and A. M. Nahum: “Biomechanics of Bone,” Chap. 10 in Nahum, A. M., and J. W. Melvin (eds.),
                         Accidental Injury—Biomechanics and Prevention, 2d ed., Springer-Verlag, New York, 2002.
                       Griffin, M. J.: Handbook of Human Vibration, Academic Press, London, 1990.
                       Griffin, M. J.: “The Validation of Biodynamic Models,” Clinical Biomechanics, Supplement 1, 16:S81 (2001).
                       Haut, R. C.: “Biomechanics of Soft Tissue,” Chap. 11 in Nahum, A. M., and J. W. Melvin (eds.): Accidental
                         Injury—Biomechanics and Prevention, 2d ed. Springer-Verlag, New York, 2002.
                       Hearon, B. F., J. A. Raddin, Jr., and J. W. Brinkley: “Evidence for the Utilization of Dynamic Preload in Impact
                         Injury Prevention,” in  AGARD-CP-322:  Impact Injury Caused by Linear  Acceleration: Mechanisms,
                         Prevention and Cost, North Atlantic Treaty Organization, Neuilly sur Seine, France, 1982.
                       ISO 2631-1, Mechanical Vibration and Shock—Evaluation of Human Exposure to Whole Body Vibration—Part 1:
                         General Requirements, 2d ed., International Organization for Standardization, Geneva, 1997.
                       ISO 2631-5, Mechanical Vibration and Shock—Evaluation of Human Exposure to Whole Body Vibration—Part 5:
                         Method for Evaluation of  Vibration Containing Multiple Shocks, International Organization for
                         Standardization, Geneva, 2004.
                       ISO 5349-1,  Mechanical Vibration—Measurement and Evaluation of Human Exposure to Hand-Transmitted
                         Vibration—Part 1: General Guidelines, International Organization for Standardization, Geneva, 2001.
                       ISO 5349-2,  Mechanical Vibration—Measurement and Evaluation of Human Exposure to Hand-Transmitted
                         Vibration—Part 2: Practical Guidance for Measurement at the Workplace, International Organization for
                         Standardization, Geneva, 2001.
                       ISO 5982, Mechanical Vibration and Shock—Range of Idealized Values to Characterize Seated Body Biodynamic
                         Response under Vertical Vibration, International Organization for Standardization, Geneva, 2001.
                       ISO 7096,  Earth Moving Machinery—Operator Seat—Measurement of  Transmitted  Vibration, International
                         Organization for Standardization, Geneva, 1982.
                       ISO 8041,  Human Response to  Vibration—Measuring Instrumentation, International Organization for
                         Standardization, Geneva, 2005.
                       ISO 10068, Mechanical Vibration and Shock—Free Mechanical Impedance of the Human Hand-Arm System at
                         the Driving-Point, International Organization for Standardization, Geneva, 1998.
                       ISO 10819,  Mechanical  Vibration and Shock—Hand-Arm  Vibration—Method for the Measurement and
                         Evaluation of the Vibration Transmissibility of Gloves at the Palm of the Hand, International Organization
                         for Standardization, Geneva, 1997.