4.6 Article

Artificial Neural Network Detects Hip Muscle Forces as Determinant for Harmonic Walking in People after Stroke

Journal

SENSORS
Volume 22, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/s22041374

Keywords

artificial intelligence; gait analysis; gait; golden ratio; quadriceps; iliopsoas

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Many recent studies have shown that the harmony of physiological walking depends on the proportions between the phases of the gait cycle. The gait cycle assumes a fractal structure when the proportion is close to the golden ratio. In stroke patients, this harmony is disrupted, and it is unclear which factor is associated with the ratios between gait phases. Using an artificial neural network, researchers found that the gait ratio is associated with walking speed, stride length, and hip muscle forces.
Many recent studies have highlighted that the harmony of physiological walking is based on a specific proportion between the durations of the phases of the gait cycle. When this proportion is close to the so-called golden ratio (about 1.618), the gait cycle assumes an autosimilar fractal structure. In stroke patients this harmony is altered, but it is unclear which factor is associated with the ratios between gait phases because these relationships are probably not linear. We used an artificial neural network to determine the weights associable to each factor for determining the ratio between gait phases and hence the harmony of walking. As expected, the gait ratio obtained as the ratio between stride duration and stance duration was found to be associated with walking speed and stride length, but also with hip muscle forces. These muscles could be important for exploiting the recovery of energy typical of the pendular mechanism of walking. Our study also highlighted that the results of an artificial neural network should be associated with a reliability analysis, being a non-deterministic approach. A good level of reliability was found for the findings of our study.

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