Optimización de la estimación del Eje Finito de Rotación y su aplicación en cinemática cervical
Autor: | Portero López, Violeta Yolanda |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: | |
Zdroj: | RiuNet. Repositorio Institucional de la Universitat Politécnica de Valéncia instname |
Popis: | [ES] Optimización del cálculo mediante la comparación de diferentes metodologías y fórmulas, definición de parámetros óptimos para la recopilación de datos durante el registro del movimiento para minimizar el error en el cálculo de la posición y la orientación del Eje Finito de Rotación [EN] Although 6 DOF approach to analysis human movement is widely used among clinicians, it introduces problems in the reliability of the results due to the chosen reference dependence. The FHA approach solves this dependence problem since the parameters that describe its variability do not depends on the position and orientation in space relative to the chosen reference. However, it struggles with calculation error owing to the methodology used to obtain it. A rotating object simulation was performed in order to optimize the FHA estimation and find the algorithm with the least error prone. Single Value Decomposition was chosen as the most consistent method for FHA calculation after evaluating the error at different displacements. A head movement simulation performed in MATLAB was used to evaluate the effect of angle interval and adding noise on FHA error. The results of the simulation show proportional inversely between angle interval and FHA error, and a greater influence of orientation noise than position noise on FHA error. The optimisation of FHA estimations makes the FHA approach a method with less error prone which analyses with greater reliability human movement through the parameters that describe its dispersion. |
Databáze: | OpenAIRE |
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