METHOD AND DEVICE FOR THE RECOGNITION OF THE POSITION OR MOVEMENT OF A DEVICE OR A PERSON
First Claim
1. Method for the recognition of the position or movement of a device or a person, comprising the following steps:
- providing first and second sets of sensors (1, 2, 5, 6, 12, 13, 14, 15) on or close to the device or person;
measuring, during a learning phase, the readings recorded by the sensors and applying first predefined decisional rules at least to the measurements taken by the first set of sensors to classify each event identified using the measurements of all or part of the sensors into a position or movement category;
creating a learning base, during the learning phase, identifying for all or part of said events their pre-established classification and the characteristics from the measurements of the second set of sensors;
defining second decisional rules based on the leaming base permitting an event to be classified based on measurements taken by the second set of sensors;
removing the first set of sensors (1, 6, 12, 13) and only keeping the second set of sensors (2, 5, 14, 15) on the device or the person; and
classifying the position or the movement of the device or person, in a recognition phase, by applying the second decisional rules to the measurements made by the second set of sensors.
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Abstract
This method uses two sets of sensors to estimate certain characteristics of the movement of a device or a person or states, especially postures, they adopt. A first, abundant, set of sensors (1) is removed after a learning phase where it records with certainty the states obtained by interpreting first decisional rules. The measurements of a second set of sensors (2), much more restricted than the first, are correlated to the states reached during the learning period by second decisional rules automatically obtained by supplying a classifier. They are then interpreted to determine the new states reached by the wearer just by means of the second sensors. The results are good in spite of the low number of second sensors, thanks to the accuracy of the second decisional rules.
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Citations
10 Claims
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1. Method for the recognition of the position or movement of a device or a person, comprising the following steps:
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providing first and second sets of sensors (1, 2, 5, 6, 12, 13, 14, 15) on or close to the device or person; measuring, during a learning phase, the readings recorded by the sensors and applying first predefined decisional rules at least to the measurements taken by the first set of sensors to classify each event identified using the measurements of all or part of the sensors into a position or movement category; creating a learning base, during the learning phase, identifying for all or part of said events their pre-established classification and the characteristics from the measurements of the second set of sensors; defining second decisional rules based on the leaming base permitting an event to be classified based on measurements taken by the second set of sensors; removing the first set of sensors (1, 6, 12, 13) and only keeping the second set of sensors (2, 5, 14, 15) on the device or the person; and classifying the position or the movement of the device or person, in a recognition phase, by applying the second decisional rules to the measurements made by the second set of sensors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. Device for the application of a method for the recognition of a position or movement of an object or a person, comprising following steps:
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providing first and second sets of sensors (1, 2, 5, 6, 12, 13, 14, 15) on or close to the object or person; measuring, during a learning phase, the readings recorded by the sensors and applying first predefined decisional rules at least to the measurements taken by the first set of sensors to classify each event identified using the measurements of all or part of the sensors into a position or movement category; creating a learning base, during the learning phase, identifying for all or part of said events their pre-established classification and the characteristics from the measurements of the second set of sensors; defining second decisional rules based on the learning base permitting an event to be classified based on measurements taken by the second set of sensors; removing the first set of sensors (1, 6, 12, 13) and only keeping the second set of sensors (2, 5, 14, 15) on the object or the person; and classifying the position or the movement of the object or person, in a recognition phase, by applying the second decisional rules to the measurements made by the second set of sensors, characterised in that it comprises the first set of sensors and the second set of sensors, and means of processing the measurements provided by the sensors containing a learning base and an adjustable classifier.
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Specification