Transducer Unit, Device Arrangement and a Method Utilizing the Device Arrangement for Creating and Presenting an Estimate of Bone Mass Development
First Claim
4-1. The method according to claim 1, characterized in that a graph is formed of the gathered numbers of occurrence (N), with the acceleration classes as the argument and the relative numbers of occurrence of the acceleration level classes as the function, and that the area between two acceleration levels defined by the graph of the function is determined and that the area determined is compared to the corresponding area obtained from measurements of the normal population, and that the result of the comparison is used to draw up a forecast of the development of the bone mass of one part of the skeletal structure of the exercising person (19).
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Accused Products
Abstract
The invention relates to a method and device arrangement for determining and presenting the change of bone mass caused by accelerations having an impact on the body and representing the amount and intensity of exercise. The device arrangement according to the invention includes a transducer unit, a data transfer medium, a server and a database connected to it. The invention also relates to a transducer unit used in the device arrangement and a method utilizing the device arrangement for measuring and analyzing the intensity, amount and effectiveness of the exercise.
42 Citations
16 Claims
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4-1. The method according to claim 1, characterized in that a graph is formed of the gathered numbers of occurrence (N), with the acceleration classes as the argument and the relative numbers of occurrence of the acceleration level classes as the function, and that the area between two acceleration levels defined by the graph of the function is determined and that the area determined is compared to the corresponding area obtained from measurements of the normal population, and that the result of the comparison is used to draw up a forecast of the development of the bone mass of one part of the skeletal structure of the exercising person (19).
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6. A transducer unit for use (11) in forecasting a change of bone mass caused by the exercise performance of an exercising person (19) in one part of the skeletal structure, which transducer unit comprises:
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at least one acceleration transducer (21) for measuring the acceleration maximums experienced by the person as a continuous operation, characterized in that the transducer unit further comprises; a means belonging to a processing unit (22) of the transducer unit for classifying measured acceleration maximums to acceleration level classes, which classifying means are arranged to; define before measurement an upper and lower limit for an acceleration measurements range based on one part of the skeleton structure; divide the defined acceleration measurements range in equal acceleration level classes, and;
classify during measurement each measured acceleration maximum to a certain acceleration level class, in which case a classified maximum adds occurrence number (N) by one in that acceleration level class;a means for comparing the classified acceleration maximums of the exercising person (19) to reference data measured from the normal population; a means for creating from the result of the comparison an estimate on the development of bone mass concerning at least one part of the skeletal structure, which is presented to the exercising person (19). - View Dependent Claims (2, 7, 8, 10, 9, 11, 12, 13, 14, 15)
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10-2. The transducer unit according to claim 6, characterized in that a graph has been arranged to be formed of the gathered numbers of occurrence (N) belonging to different acceleration level classes, with the acceleration level classes as the argument and the logarithm (log N)) of the numbers of occurrence of the acceleration level classes as the function, which logarithmic function has been arranged to be fitted to a straight line y=ax+b, the constants a and b of which function have been arranged to be compared to corresponding constants a and b obtained from the measurements of the normal population, and that a forecast on the development of the bone mass of one part of the skeletal structure of the exercising person (19) has been arranged to be calculated from the result of the forecast.
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16. A computer program product on a data transfer medium for creating and presenting an estimate of the development of bone mass concerning one part of the skeletal structure, characterized in that the computer program product comprises:
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computer program means for classifying acceleration maximums measured by an acceleration transducer (21) from an exercising person (19) into acceleration level classes, which computer program means includes; a means for defining before measurement an upper and lower limit for an acceleration measurements range based on one part of the skeleton structure; a means for dividing the defined acceleration measurements range in equal acceleration level classes, and; a means for classifying during measurement each measured acceleration maximum to a certain acceleration level class, in which case a classified maximum adds occurrence number (N) by one in that acceleration level class; computer program means for comparing the classified acceleration maximum data to reference data measured from the normal population; computer program means for carrying out a comparison between the exercising person and the reference data on whether the classified acceleration measurement results of the exercising person are higher or smaller than the reference data used; computer program means for creating a forecast on the development of bone mass concerning one part of the skeletal structure on the basis of the comparison; and computer program means for presenting the forecast to the exercising person.
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Specification