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http://hdl.handle.net/11531/15985
Título : | A survey of time-of-flight algorithms to determine bone positions in movement |
Autor : | Giannetti, Romano Fresno de Marcos, José Manuel Robles Muñoz, Guillermo |
Resumen : | In biomechanical applications where an ultrasound signal is used to determine the position of a specific organ or tissue, like for example a bone, a so-called A-mode ultrasonog- raphy is used. A ultrasonic pulse is generated by a transducer, injected in the tissue to be examined, and then the echoes are received and processed. Echoes are generated by changes in acoustic impedance in the medium, like for example a change of tissue from muscle to bone. To determine the position of the reflecting interface, the time-of-flight is measured and, utilizing well-know values for the transmission speed, the distance or depth is computed. If the localization device is to be designed to be small, wearable, and low-power, it is expected that the signal will be of worse quality with respect to traditional ultrasonography systems, especially under the point of view of signal-to-noise ratio. In these conditions, the reliability of the algorithm that implement the time-of-flight calculation is of paramount importance. In this paper, a simulated soft tissue bone interface (implemented with an ultrasound gel-pad) has been measured with intentionally low excitation signals and with the presence of imperfections similar to those expected in a physiological system. Several classic algorithms have been tested and benchmarked in this condition, and a new method with better reliability and repeatability is proposed. |
URI : | http://hdl.handle.net/11531/15985 |
Aparece en las colecciones: | Documentos de Trabajo |
Ficheros en este ítem:
Fichero | Descripción | Tamaño | Formato | |
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TOFAlgorithms_R1_v3.pdf | 1,68 MB | Adobe PDF | Visualizar/Abrir Request a copy |
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