Wu, Chwan-Hwa.
John Z. Wu mechanical engineer at NIOSH
Wu, Chwan-Hwa, 1957-
VIAF ID: 6705769 (Personal)
Permalink: http://viaf.org/viaf/6705769
Preferred Forms
- 100 0 _ ‡a John Z. Wu ‡c mechanical engineer at NIOSH
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- 100 1 _ ‡a Wu, Chwan-Hwa
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- 100 1 _ ‡a Wu, Chwan-Hwa
- 100 1 _ ‡a Wu, Chwan-Hwa
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- 100 1 _ ‡a Wu, Chwan-Hwa ‡d 1957-
- 100 1 _ ‡a Wu, Chwan-Hwa ‡d 1957-
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4xx's: Alternate Name Forms (11)
5xx's: Related Names (5)
- 510 2 _ ‡a Auburn University
- 510 2 _ ‡a Auburn University ‡e Affiliation
- 510 2 _ ‡a CRC Press
- 510 2 _ ‡a National Institute for Occupational Safety and Health. Health Effects Laboratory Division
- 510 2 _ ‡a West Virginia University. Department of Continuing Education
Works
Title | Sources |
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Basic engineering circuit analysis, c1999: | |
Emerging multimedia computer communication technologies, 1998: | |
An evaluation of the methods for deriving representative frequency response functions of the human whole-body system | |
Fall prevention and protection for scissor lifts | |
Finite element analysis of the anchorage forces of mast climbers | |
Finite element implementation of a model for finite deformable, biphasic biological tissues with transversely isotropic statistically distributed fibers | |
Finite element modeling of fingertip under dynamic loading | |
Finite element simulations of the head-brain responses to the top impacts of a construction helmet: effects of the neck and body mass | |
Free vibration of a fingertip: finite element analysis | |
Frequency-dependent effects of vibration on physiological systems: experiments with animals and other human surrogates | |
Frequency weighting derived from power absorption of fingers–hand–arm system under zh-axis vibration | |
Fusing imperfect experimental data for risk assessment of musculoskeletal disorders in construction using canonical polyadic decomposition | |
HELD's hand-transmitted vibration program - from R&D to practice | |
How to compare alternative vibration measures with acceleration measures | |
How to determine the permeability for cement infiltration of osteoporotic cancellous bone | |
Identification of genes involved in the assembly and biosynthesis of the N-linked flagellin glycan in the archaeon, Methanococcus maripaludis. | |
Identifying potentially risky phases leading to knee musculoskeletal disorders during shingle installation operations | |
An improved finite element model to simulate the brain acceleration due to a front impact | |
An improved finite element modeling of the cerebrospinal fluid layer in the head impact analysis | |
Introduction to computer networks and cybersecurity | |
Investigation of the 3-D vibration transmissibility on the human hand-arm system using a 3-D scanning laser vibrometer | |
An investigation of the relationship between vibration-induced white finger and power absorption | |
An investigation on the dynamic stability of scissor lift | |
An investigation on the relationship between grip, push, and contact forces applied to a tool handle | |
Joint loading of the thumb while operating a mechanical pipette - and inverse dynamic analysis | |
Kinematic performance of a six degree-of-freedom hand model (6DHand) for use in occupational biomechanics | |
Kneeling trunk kinematics during simulated sloped roof shingle installation | |
Mathematical modeling of in vivo isometric force response of skeletal muscle due to duty cycle | |
Measurements of grip strength applied to cylindrical handles and the effect of gloves | |
Modeling of biomechanics of two-point discrimination tests of fingertip | |
Modeling of force response of fingertips in keyboard strikes | |
Modeling of the biodynamic responses distributed at the fingers and palm of the hand in three orthogonal directions | |
Modeling of the muscle/tendon excursions in an index finger using the comercial software Anybody | |
Modeling the finger joint moments in a hand at the maximal isometric grip: the effects of friction | |
The musculoskeletal loading profile of the thumb during pipetting based on tendon displacement | |
A new approach to characterize grip force applied to a cylindrical handle | |
A new biodynamic approach to predict the vibration transmissibility of a glove | |
Nonlinear and viscoelastic characteristics of skin under compression: experiment and analysis | |
A novel rat-tail model for studying human finger vibration health effects | |
A novel technique quantifying phalangeal cylinder reaction forces during gripping | |
A novel theory: ellipse of grip force | |
On-the-hand measurement methods for assessing effectiveness of anti-vibration gloves | |
The 'PDA Nail' traumatic nail dystrophy in habitual users of personal digital assistants | |
A practical model of the muscle/tendon moment arms in a thumb | |
Proceedings of the first American conference on human vibration, June 5-7, 2006, Morgantown, West Virginia | |
A proposed theory on biodynamic frequency weighting for hand-transmitted vibration exposure | |
The relationships between hand coupling force and vibration biodynamic responses of the hand-arm system. | |
Response to Dr. K. Miller (Re: Most recent results in the biomechanics of the brain) | |
A review of hand-arm vibration studies conducted by US NIOSH since 2000 | |
Scissor lift safety - an initiative to model static stability | |
Shock absorption performance of construction helmets under repeated top impacts | |
A simulating analysis of the effects of increased joint stiffness on muscle loading in a thumb | |
Simulating the swelling and deformation behaviour in soft tissues using a convective thermal analogy | |
Simulation of mechanical responses of fingertip to dynamic loading | |
Simultaneous determination of the nonlinear elastic properties of skin and subcutaneous tissue in unconfined compression tests | |
The stimulus location and static compression affect the biodynamic interaction between the fingertip and probe in the vibrotactile test: 3D finite element simulations | |
Theoretical foundation, methods, and criteria for calibrating human vibration models using frequency response functions | |
Theoretical relationship between vibration transmissibility and driving-point response functions of the human body | |
The velocity of stretch-shortening cycles during a chronic exposure affects muscle performance differentially with age | |
Vibration energy transmitted from a simulated tool handle to human fingers and the palm of the hand | |
Vibrations transmitted from human hands to upper arm, shoulder, back, neck, and head |