Left and right foot dynamic recognition method based on plantar pressure distribution information

A technology of plantar pressure and distribution information, applied in the fields of sports biomechanics, medical and health care, pattern recognition, and sensor technology, can solve the problems of inability to calculate step length, pace speed, step width, low recognition efficiency, and inability to calculate dynamic steps. State characteristic parameters and other issues, to achieve the effect of fast recognition speed, stable information, and good robustness

Active Publication Date: 2015-03-25
HEFEI INSTITUTES OF PHYSICAL SCIENCE - CHINESE ACAD OF SCI +1
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Problems solved by technology

The combination of the large-area flexible array pressure sensor and the left and right foot recognition algorithm can effectively avoid the following situations: (1) the situation that the step length, pace speed, and step w

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  • Left and right foot dynamic recognition method based on plantar pressure distribution information
  • Left and right foot dynamic recognition method based on plantar pressure distribution information
  • Left and right foot dynamic recognition method based on plantar pressure distribution information

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[0034] Example 1

[0035] The present invention aims at dynamic identification of left and right feet based on plantar pressure data acquired by a flexible array pressure sensor, and discloses a method for dynamic identification of left and right feet based on plantar pressure distribution information, including plantar pressure data filtering, plantar pressure data aggregation Class, single-step footprint image processing and dynamic recognition of left and right feet; the plantar pressure data filtering uses an improved IMF filter algorithm; plantar pressure data clustering analysis uses K-means clustering algorithm; single-step footprint image processing includes footprints Image bilinear interpolation amplification, median filtering, and morphological processing, etc.; dynamic recognition of left and right feet is based on the distribution of extreme values ​​of the fitted footprint contour curve and footprint width curve. The dynamic identification method of the left and ...

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Abstract

The invention discloses a left and right foot dynamic recognition method based on plantar pressure distribution information. The method includes the steps of plantar pressure data filtering, plantar pressure data clustering, single-step footprint image processing and left and right foot dynamic recognizing. An improved type IMF filtering algorithm is adopted for the plantar pressure data filtering. A K-means clustering algorithm is adopted for the analysis on the plantar pressure data clustering. The single-step footprint image processing includes the substeps of footprint image bilinear interpolation amplification, median filtering, morphological processing and the like. The left and right foot dynamic recognizing is achieved by conducting judgment on the basis of the extreme value distribution situations of fitted footprint profile curves and footprint width curves. By means of the method, plantar pressure data can be processed and analyzed in real time, and gait feature parameters in the walking process are calculated according to the starting and stopping time of each step of a footprint sequence. The method is simple, the recognition speed is high, the recognition accuracy is high, high robustness is achieved, and the method can be applied and popularized in hospitals, rehabilitation organizations and colleges, universities and research institutions working on related gait research.

Description

technical field [0001] The invention relates to the fields of sensor technology, sports biomechanics, medical care and sanitation, and pattern recognition, and in particular to a dynamic recognition method for left and right feet based on plantar pressure distribution information. Background technique [0002] Most plantar diseases are related to changes in the normal pressure distribution on the soles of the feet, and the two usually affect each other. Studies have shown that dynamic plantar pressure distribution information can enable us to discover abnormal gait, judge the status of the disease, and evaluate the effect of rehabilitation treatment of the disease. At present, researchers apply the information of plantar pressure distribution to clubfoot, early prediction, diagnosis and evaluation of treatment effects of various types of foot diseases, such as diabetic foot ulcers. In addition, in rehabilitation medicine, plantar pressure distribution information can also g...

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Application Information

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IPC IPC(8): A61B5/11
CPCA61B5/1038A61B5/112A61B5/1174
Inventor 杨先军温俊丽姚志明许胜强汪飞跃唐正周旭马祖长高秀影孙怡宁
Owner HEFEI INSTITUTES OF PHYSICAL SCIENCE - CHINESE ACAD OF SCI
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