Research on Human Impact Acceleration Dynamic Response and Injury: Some Statistical Aspects of Modeling PDF Download
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Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 23
Book Description
The report describes an ongoing research investigation of statistical aspects underlying development of mathematical models of human impact acceleration dynamic response and injury. Particular attention is paid to the requirements and constraints imposed on human accelerator runs.
Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 23
Book Description
The report describes an ongoing research investigation of statistical aspects underlying development of mathematical models of human impact acceleration dynamic response and injury. Particular attention is paid to the requirements and constraints imposed on human accelerator runs.
Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 28
Book Description
Statistical impact acceleration injury prediction models are developed for the head/neck segment from data obtained during 68 -G sub x accelerator runs. These runs involved subhuman primates (Rhesus monkeys) with securely restrained torso and unrestrained head. The data was collected by the Naval Biodynamics Laboratory (NBDL) as part of its research effort on acceleration impact injury prevention. Three classes of prediction models are constructed, one based on sled profile variables, another based on head dynamic response variables only, and the third comprised of the combined set of independent variables. The model predictions are compared with the observed results to evaluate performance. (Author).
Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 9
Book Description
The report summarizes a research investigation of mathematical methods and statistical techniques associated with construction and validation of a mathematical model capable of accurately predicting human injury from dynamic forces produced by impact acceleration. (Author).
Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 35
Book Description
This report considers the application of an impact acceleration injury prediction model to observed data from a set of twenty-eight -G sub x accelerator runs involving subhuman primates (Rhesus monkeys) with securely restrained torso and unrestrained head. The data was collected by the Naval Aerospace Medical Research Laboratory (NAMRL) Detachment as part of its research effort on acceleration impact injury prevention. Using a common data base, two different models were constructed, one based on sled profile variables and the other based on head dynamic response variables. Although the latter model provided a reasonable fit given the small size of the data set, the other model (based on sled profile variables) resulted in a much better fit. Possible explanations for this seemingly anomalous result are listed and additional accelerator runs are suggested. (Author).
Author: Dennis E. Smith Publisher: ISBN: Category : Languages : en Pages : 31
Book Description
This report describes a statistical approach to development of a human impact acceleration injury prediction model based on experimental data obtained from human analogs. Also discussed in the use of preinjury criteria to provide more accurate estimates of model parameters. (Author).
Author: Dennis E. Smith
Author: Dennis E. Smith
Author: 
Author: Dennis E. Smith
Author: Technology Reports Centre (Great Britain)
Author: Dennis E. Smith
Author: Dennis E. Smith
Author: Dennis E. Smith
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Author: W. King
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