Exercise machine, physical strength evaluation method, and pulse rate meter
First Claim
1. An exercise machine, comprising:
- a load device capable of changing a load;
a physiological signal measuring unit measuring a physiological signal noninvasively over time;
an exertion level estimating unit estimating an exertion level based on the physiological signal corresponding to a change of the load of said load device; and
a changing unit changing the load of said load device employing the estimated exertion level;
said load device being capable of gradually increasing the load over time, said physiological signal measuring unit being an electrocardiographic sensor detecting an electrocardiographic signal, said exertion level estimating unit estimating the exertion level based on the electrocardiographic signal detected while said load is gradually increased, and said exertion level estimating unit estimating, as said exertion level, an anaerobic threshold based on a fluctuation of heartbeat rate intervals in each electrocardiographic signal detected.
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Abstract
In an exercise machine, when a measurement starts, an electrocardiographic signal is detected by an electrocardiographic sensor 1 (ST33), a load drive is started (ST4), and heartbeat rate intervals of the electrocardiographic signal are sequentially obtained. A fluctuation of heartbeat rate intervals PI(n)% is obtained from a calculation formula in which the RR interval RR(n+1) of the current heartbeat is subtracted from the RR interval RR(n) of the previous heartbeat, which is then divided by RR(n) and multiplied by 100% (ST5). Entropy is calculated from 128 pieces of such PI (ST6). From the change of the entropy under the gradually increasing load (ST8), a minimum point of the entropy is obtained, which point is designated as an anaerobic threshold point (ST7). The load of the exercise machine is controlled employing this anaerobic threshold.
8 Citations
7 Claims
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1. An exercise machine, comprising:
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a load device capable of changing a load;
a physiological signal measuring unit measuring a physiological signal noninvasively over time;
an exertion level estimating unit estimating an exertion level based on the physiological signal corresponding to a change of the load of said load device; and
a changing unit changing the load of said load device employing the estimated exertion level;
said load device being capable of gradually increasing the load over time, said physiological signal measuring unit being an electrocardiographic sensor detecting an electrocardiographic signal, said exertion level estimating unit estimating the exertion level based on the electrocardiographic signal detected while said load is gradually increased, and said exertion level estimating unit estimating, as said exertion level, an anaerobic threshold based on a fluctuation of heartbeat rate intervals in each electrocardiographic signal detected. - View Dependent Claims (2, 3, 4, 5, 6, 7)
wherein said exertion level estimating unit comprises a unit for calculating the fluctuation of heartbeat rate intervals in each electrocardiographic signal detected, a unit for calculating a power of the fluctuation of heartbeat rate intervals and a unit for finding a convergence point of a change of the power with respect to an increase of the load, said exertion level estimating unit estimating an exertion load corresponding to said convergence point as the exertion level. -
4. The exercise machine according to claim 1, further comprising a unit for determining an exercise program based on said exertion level and a unit for outputting the exercise program determined.
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5. The exercise machine according to claim 4, wherein a pitch or load is altered so that the exercise proceeds according to said exercise program.
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6. The exercise machine according to claim 1,
wherein said exertion level measuring unit evaluates aerobic working capacity by calculating a ratio of the estimated exertion level to a maximum heartbeat rate, and outputting the evaluated aerobic working capacity for display. -
7. The exercise machine according to claim 4, wherein aerobic working capacity is evaluated from an estimated value of oxygen intake at the estimated exertion level.
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Specification