IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0837304
(2001-04-19)
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발명자
/ 주소 |
- Hisano, Atsushi
- Ando, Masahiro
- Washer, Merice A.
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출원인 / 주소 |
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대리인 / 주소 |
Dickstein Shapiro Morin & Oshinsky LLP
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인용정보 |
피인용 횟수 :
233 인용 특허 :
6 |
초록
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The objective of this invention is to provide an exercise aid device which can be used for various kinds of exercise and which enables the user to perform aerobic exercise safely and comfortably at the level best suited to that person, and a method which employs this device. In order to achieve this
The objective of this invention is to provide an exercise aid device which can be used for various kinds of exercise and which enables the user to perform aerobic exercise safely and comfortably at the level best suited to that person, and a method which employs this device. In order to achieve this object, the level of intensity of aerobic exercise which is most suitable for the person is considered to be 80% of the AT (Anaerobic Threshold) value as determined by analyzing the pulse rate while that person is exercising. The pulse wave is detected by this headphone-type exercise aid device. The pulse rate is measured at the superficial temporal artery, which is near the right ear. The pulse wave is detected by a sensor of either an optical sensor or an ultrasonic blood velocity meter. Once the optimal exercise is calculated, it is transmitted to the exerciser as the corresponding rhythm through the fitness headphone for maintaining the optimal exercise.
대표청구항
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1. An exercise aid device, comprising:a fitness headphone comprising a headphone and a sensor unit, said sensor unit provided in said fitness headphone, said sensor unit operable to monitor an artery near an ear of an exerciser and to detect artery signals corresponding to a movement of said artery;
1. An exercise aid device, comprising:a fitness headphone comprising a headphone and a sensor unit, said sensor unit provided in said fitness headphone, said sensor unit operable to monitor an artery near an ear of an exerciser and to detect artery signals corresponding to a movement of said artery; anda fitness controller to control audio sound which said exerciser can hear, said audio sound being controlled in response to the detected artery signals. 2. An exercise aid device, comprising:a fitness headphone comprising a headphone and a sensor unit, said sensor unit provided in said fitness headphone, said sensor unit operable to monitor an artery near an ear of an exerciser and to detect artery signals corresponding to a movement of said artery;a sensor position adjustment mechanism to adjust the position of said sensor unit; anda fitness controller to control audio sound which said exerciser can hear, said audio sound being controlled in response to the detected artery signals. 3. An exercise aid device according to claim 1, wherein said artery signals corresponding to said movement of said artery are characterized as a pulse wave, and said fitness controller controls said audio sound based on a measured value obtained from said detected pulse wave. 4. An exercise aid device according to claim 1, wherein said artery signals corresponding to said movement of said artery are characterized as a blood velocity wave, and said fitness controller controls said audio sound based on a measured value obtained from said detected blood velocity wave. 5. An exercise aid device according to claim 1, wherein said fitness controller determines an optimal exercise intensity based on an anaerobic threshold value which is derived from said detected artery signals, and wherein said fitness controller transmits said appropriate exercise intensity level by said audio sound to said fitness headphone. 6. An exercise aid device according to claim 5, wherein said optimal exercise intensity results in maximum fat combustion physiologically. 7. An exercise aid device according to claim 5, wherein said sensor unit is provided in an external auditory canal portion, and said sensor unit comprises:a light emitter to emit a light beam to a superficial temporal artery of said exerciser; anda photodetector having an optical element which receives a reflected light reflected on said superficial temporal artery in an external auditory canal, said reflected light being affected by expansion and contraction of said superficial temporal artery, wherein said photodetector is able to detect said artery signals. 8. An exercise aid device according to claim 7, wherein said external auditory canal portion is provided with an adjustment mechanism to adjust a position of said light emitter and said photodetector. 9. An exercise aid device according to claim 5, wherein said sensor unit is provided in an ultrasonic blood velocity probe, and said sensor unit receives a reflection of ultrasonic sound emitted to a superficial temporal artery positioned behind said ear of said exerciser to detect a blood velocity, thereby said sensor unit is able to detect said artery signals based on said blood velocity. 10. An exercise aid device according to claim 9, wherein said ultrasonic blood velocity probe can be adjusted by an adjustment structure to contact said superficial temporal artery positioned behind said ear of said exerciser. 11. An exercise aid device according to claim 5, wherein said anaerobic threshold value is obtained by a heart rate at a time an entropy is at minimum value, said entropy being obtained by a fluctuation of the cardiac cycle length. 12. An exercise aid device according to claim 11, wherein said fitness controller sends a plurality of previously stored different audio rhythms through said fitness headphone, said plurality of different audio rhythms cause a change in exercise intensity as time goes by, said exerciser makes a motion with said different au dio rhythms to vary said heart rate, and then said anaerobic threshold value is obtained by said heart rate at said time said entropy is at minimum value. 13. An exercise aid device according to claim 11, wherein said anaerobic threshold value is obtained by a heart rate at a time an entropy is at minimum value, said entropy being obtained by a random fluctuation of the cardiac cycle length caused by random movements of said exerciser. 14. An exercise aid device according to claim 12, wherein an audio rhythm of said optimal exercise intensity is selected from said plurality of different audio rhythms and matches said exercise intensity of said anaerobic threshold value. 15. An exercise aid device according to claim 13, wherein an audio rhythm of said optimal exercise intensity is selected from said plurality of different audio rhythms and matches said exercise intensity of said anaerobic threshold value. 16. An exercise aid device according to claim 5, wherein said fitness headphone further comprises a display unit to display a fat combustion rate. 17. An exercise aid device according to claim 5, wherein said fitness headphone further comprises an external memory unit to store said plurality of audio rhythms, exercise data, and a program for calculating said anaerobic threshold value. 18. An exercise aid device according to claim 5, wherein said fitness headphone further comprises virtual reality glasses to aid said exerciser visually. 19. An exercise aid device according to claim 18, wherein said virtual reality glasses are provided with a virtual reality control glove, and wherein said exerciser can control an image produced by said virtual reality glasses by operating buttons which are provided at the ends of said exerciser's fingers, wherein said virtual reality control glove can communicate with said image produced by said virtual reality glasses wirelessly. 20. An exercise aid device according to claim 5, further comprising a disturbance removing means to remove disturbance due to physical movement during exercise from said artery signals output from said sensor unit and acceleration signals output from a built-in acceleration sensor. 21. An exercise aid device according to claim 2, wherein said sensor position adjusting mechanism comprises a rotary knob, or a vertical sliding portion and a flexible portion, and said adjusting mechanism can vary a signal sound for feeding back to said exerciser corresponding to said detected movement of said artery signals. 22. An exercise aid method to aid an exerciser to maintain an individual optimal exercise during an aerobic exercise, comprising the steps of:calculating an anaerobic threshold value for said exerciser based on artery signals detected by a sensor unit provided in a fitness headphone;determining an optimal exercise for said exerciser based on said anaerobic threshold value; andtransmitting an audio rhythm through said fitness headphone which results in said optimal exercise for said exerciser. 23. An exercise aid device according to claim 20, wherein said disturbance removing means is operable for correcting a pulse rate measurement.
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