序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | Processing of biosignal | EP09162893.3 | 2009-06-17 | EP2140807B1 | 2016-01-06 | Rytky, Pekka |
102 | DISPOSITIF D'AIDE À LA PRATIQUE D'UNE SÉANCE D'ACTIVITÉ PHYSIQUE ET APPAREIL D'ACTIVITÉ PHYSIQUE ÉQUIPÉ D'UN TEL DISPOSITIF | EP10736754.2 | 2010-07-08 | EP2451541B1 | 2015-06-10 | HECQUET, Bernard |
103 | DEVICE, SYSTEM AND METHOD FOR TESTING AND TRAINING OF PELVIC FLOOR MUSCULATURE | EP12767978 | 2012-04-03 | EP2693946A4 | 2015-03-04 | LEIVSETH GUNNAR; OLSEN OLE JAKOB |
An apparatus (100) for testing and exercising pelvic floor musculature, the apparatus comprising an elongate housing (101) adapted for a pelvic floor aperture. The housing (101) accommodates an oscillator (120) and an accelerometer (130) connected to a signal processor (140) configured for communicating signals representative of values read from the accelerometer (130). A result is calculated from an applied oscillation and a response measured, and used for characterizing the musculature. In one embodiment the frequency resulting in the greatest response from the musculature is measured, and this frequency is applied during exercise. | ||||||
104 | SYSTEM AND METHOD FOR RELIABLY COORDINATING MUSCULOSKELETAL AND CARDIOVASCULAR HEMODYNAMICS | EP12754154.8 | 2012-08-18 | EP2744403A1 | 2014-06-25 | BLEICH, Jeffery, Lee; MANNHEIMER, Paul, David; MICHELS, Jeffrey, Lawrence; ANKER, Marc, David |
Systems and methods are disclosed to enable a user to favorably coordinate the timing of musculoskeletal movement and skeletal muscle contraction and relaxation with the cardiac pumping cycle in order to improve perfusion of cardiac and peripheral skeletal muscle and other tissues, increase physiological efficiency, decrease myocardial stress, and enhance individual performance, health and safety during rhythmic physical activity. Additionally, systems and methods are disclosed to enable a user to avoid inadvertent unfavorable coordination of musculoskeletal movement and skeletal muscle contractions and relaxation cycles with the cardiac pumping cycle during physical activity. | ||||||
105 | Muscle activity training facility for the lower body of a user | EP12189460.4 | 2012-10-22 | EP2722079A1 | 2014-04-23 | Chen, Paul |
A muscle activity training facility includes a monitor (12) coupling to a processor (11) and having a screen (15) which includes two areas (16, 17), and two figures (18, 19) in one of the areas (16) for indicating the standard operations of the muscles in front and rear portions of the user, and two further figures (20, 21) in the other area (17) for indicating the muscles in the front and the rear portions of the user, a carrier (30) is attached to a lower body (80) of the user, and a number of electrodes (40-49) are attached to the carrier (30) and coupled to the processor (11) for detecting and showing the detected activities of the muscles of the user in the other figures (20, 21) in the other area (17) of the screen (15). |
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106 | DEVICE, SYSTEM AND METHOD FOR TESTING AND TRAINING OF PELVIC FLOOR MUSCULATURE | EP12767978.5 | 2012-04-03 | EP2693946A1 | 2014-02-12 | LEIVSETH, Gunnar; OLSEN, Ole Jakob |
An apparatus (100) for testing and exercising pelvic floor musculature, the apparatus comprising an elongate housing (101) adapted for a pelvic floor aperture. The housing (101) accommodates an oscillator (120) and an accelerometer (130) connected to a signal processor (140) configured for communicating signals representative of values read from the accelerometer (130). A result is calculated from an applied oscillation and a response measured, and used for characterizing the musculature. In one embodiment the frequency resulting in the greatest response from the musculature is measured, and this frequency is applied during exercise. | ||||||
107 | HIGH DENSITY EPIDURAL STIMULATION FOR FACILITATION OF LOCOMOTION, POSTURE, VOLUNTARY MOVEMENT, AND RECOVERY OF AUTONOMIC, SEXUAL, VASOMOTOR, AND COGNITIVE FUNCTION AFTER NEUROLOGICAL INJURY | EP12732280.8 | 2012-01-03 | EP2661307A2 | 2013-11-13 | GERASIMENKO, Yury; BURDICK, Joel; HODES, Jonathan; TAI, Yu-Chong; ANGELI, Claudia A.; EDGERTON, Victor Reggie; ROY, Roland R.; DESAUTELS, Thomas Anthony; HARKEMA, Susan J.; NANDRA, Mandheerej S. |
Methods of enabling locomotor control, postural control, voluntary control of body movements (e.g., in non-weight bearing conditions), and/or autonomic functions in a human subject having spinal cord injury, brain injury, or neurological neuromotor disease. In certain embodiments, the methods involve stimulating the spinal cord of the subject using an epidurally placed electrode array, subjecting the subject to physical training thereby generating proprioceptive and/or supraspinal signals, and optionally administering pharmacological agents to the subject. The combination of stimulation, physical training, and optional pharmacological agents modulate in real time electrophysiological properties of spinal circuits in the subject so they are activated by supraspinal information and/or proprioceptive information derived from the region of the subject where locomotor activity is to be facilitated. | ||||||
108 | DISPOSITIF D'AIDE À LA PRATIQUE D'UNE SÉANCE D'ACTIVITÉ PHYSIQUE ET APPAREIL D'ACTIVITÉ PHYSIQUE ÉQUIPÉ D'UN TEL DISPOSITIF | EP10736754.2 | 2010-07-08 | EP2451541A1 | 2012-05-16 | HECQUET, Bernard |
The invention relates to a device to assist in the practice of a physical activity session by an person. The device has an electronic means for determining the real-time physical effort to be provided by said person during said session, implementing a control law having, as an output, a parameter that corresponds to the physical effort to be provided (EPF) and, as an input, data collected while the force is being applied, essentially comprising: the measurement of the heart rate (FC) of said person; the measurement of the respiratory rate (FR) of said person; and one or more indices (EVA) of strenuousness of the effort as perceived by said person, to be specified by said person during the effort, and in which said control law depends essentially on respective programmed thresholds which should not be exceeded, essentially comprising: the maximum heart rate (FC M), the maximum respiratory rate (FR M), and the maximum value or values associated with said index or indices of strenuousness. | ||||||
109 | EXERCISE MACHINE | EP09733648 | 2009-04-14 | EP2271411A4 | 2011-08-24 | WEINMAN ANDREW; MORRISSETTE SYLVAIN; VINCENT PATRICK; DERVENTZIS STELIO |
110 | EXERCISE MACHINE | EP09733648.1 | 2009-04-14 | EP2271411A1 | 2011-01-12 | WEINMAN, Andrew; MORRISSETTE, Sylvain; VINCENT, Patrick; DERVENTZIS, Stelio |
An exercise machine provides a total body workout by exercising the legs, back, shoulders, obliques and abdominal muscles. The machine's backrest rolls is in phase with the movement of the legs, allowing the body to sit in a position that is comfortable and secure. The spinal column is continually supported during the workout. Pedal movement powers the machine's electronics and maintains the battery's charge. | ||||||
111 | Headband integrated monitoring unit using an accelerometer | EP09155536.7 | 2009-03-18 | EP2229880A1 | 2010-09-22 | Correvon, Marc; Ridolfi, Andrea; Rossini, Leopoldo; Vetter, Rolf |
A monitoring device (1) worn by a user comprising a heart rate sensor (3) for delivering a sensor cardiovascular (CV) signal, a signal processing device (5) for correcting artifacts due to user's motion in said sensor CV signal, and a motion sensor (4) delivering a motion reference signal; the motion sensor (4) having a main function for determining and outputting a signal representing the level of activity of the user, and an auxiliary function for controlling said signal processing device (5). The monitoring device may be disposed in a headband (2) worn on the user's head. The monitoring device may comprise the monitoring of other physiological signals such as SPO2. |
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112 | Processing of biosignal | EP09162893.3 | 2009-06-17 | EP2140807A1 | 2010-01-06 | Rytky, Pekka |
An apparatus for use in connection with biosignal measurement from the skin of a living object, comprising means for applying (352, 354, 356) a test input impedance to the biosignal measurement, means for determining (350) a response of a biosignal characteristics to the test input impedance, and means for setting (352, 354, 356) a usage input impedance on the basis of the response. |
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113 | LEG PORTION TRAINING DEVICE | EP04745385 | 2004-05-21 | EP1629868A4 | 2008-08-13 | OZAWA TAKAHISA; SHINOMIYA YOUICHI; OCHI KAZUHIRO; TOYOMI YURITSUGU; ISHINO KOUICHI; KAWAMOTO MINORU |
A leg portion training device has a base fixed at a fixed position, a supporting portion for supporting part of user’s body, and a joining mechanism provided between the base and the supporting portion. The joining mechanism movably joins the supporting portion to the base such that loads, caused by user’s own weight, acting on leg portions varies according to relative displacement between user’s feet and gravity center. Further, the joining mechanism limits the direction where the supporting portion can move such that, at least when loads on leg portions increases, the direction of relative displacement between the positions of the feet and gravity center is limited in a substantially bending/stretching direction of knee joints. The leg portion training device can efficiently provide a user with exercise that applies less loads on knee joints. | ||||||
114 | APPAREIL D'ENTRAINEMENT ET/OU DE MESURE D'EFFORTS POUR JOUEURS DE RUGBY, ET METHODE D'ENTRAINEMENT ET/OU DE MESURE D'EFFORTS CORRESPONDANTE | EP06807805.4 | 2006-11-10 | EP1945321A2 | 2008-07-23 | Berthiau, Gérard |
The invention relates to a device for training and/or measuring forces of rugby players comprising a scrummage yoke (4) mounted on a frame (1) placed on ground, wherein said yoke (4) and/or frame are translatory movable by a thrust produced by the players on the interface (41) of said yoke (4). The invention is characterised in that the yoke (4) is movably mounted on the frame (1) in such a way that it is provided with at least one rotational degree of freedom with respect to the frame (1). | ||||||
115 | Vorrichtung zum Bewegungstraining | EP05010457.9 | 2005-05-13 | EP1595522A1 | 2005-11-16 | Olthof, Alexander Olde |
Die vorliegende Erfindung bezieht sich auf eine Vorrichtung zum Bewegungstraining von Lebewesen mit einem Koppelelement (8), dessen eines Ende mit dem Lebewesen verbindbar und dessen anderes Ende mit einer Verstellvorrichtung verbunden ist, durch dessen Betätigung die effektive Länge (L) des Koppelelements verstellbar ist. Um ein zu trainierendes Lebewesen oder Teile des Lebewesens nicht höher als mit einem zuvor festgelegten maximalen Belastungswert zu belasten, wird vorgeschlagen, die Verstellvorrichtung mit einem von einer elektronischen Steuerung (16) leistungsgeregelten Elektromotor (14) zu verbinden und über die Steuerung und zumindest einen Lastsensor (22) die aktuelle Belastung des Koppelelements über die Einstellung des Elektromotors auf einen von der Steuerung ermittelten Soll-Leistungswert zu begrenzen. |
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116 | Wearable human motion applicator | EP02025818.2 | 2002-11-18 | EP1324403B1 | 2005-05-11 | Dohno, Shigeru; Yuasa, Shingo; Saito, Akihiko |
117 | BIOFEEDBACK DEVICE FOR MONITORING MUSCULAR MOVEMENT | EP90909002.0 | 1990-06-05 | EP0474745A1 | 1992-03-18 | O'NEAL, John, L.; VOGELGESANG, Peter, J. |
Un mécanisme (10) bio-rétroactif est placé sur un muscle et mesure les impulsions électriques générées lorsque les muscles d'un être humain sont mis en action pendant une activité sportive. Le mécanisme (10) signale la contraction du muscle et peut indiquer l'importance de la contraction du muscle. | ||||||
118 | METHOD FOR MEASURING MUSCULAR FUNCTIONALITY AND MEASURING AND TRAINING SYSTEM FOR MUSCULAR FUNCTIONALITY MEASUREMENTS AND MUSCLE TRAINING | EP90905201.0 | 1990-03-23 | EP0463074A1 | 1992-01-02 | PARVIAINEN, Arno; LYOMIÖ, Jukka |
La présente invention se rapporte à un procédé de mesure de la fonctionnalité musculaire, ainsi qu'un système de mesure et d'exercice permettant de mesurer la fonctionnalité musculaire et d'effectuer des exercices musculaires. Les muscles sont sollicités au moyen de dispositifs mécaniques, la fonctionnalité musculaire est mesurée au moyen d'un équipement de mesure et les résultats obtenus sont enregistrés. Selon la présente invention, on choisit parmi un certain nombre de dispositifs d'exercices musculaires indépendants séparés un dispositif (1a) au moyen duquel les muscles sont sollicités, et la fonctionnalité musculaire est mesurée au moyen des capteurs (34, 35) contenus dans ce dispositif. Les capteurs (34, 35) du dispositif exerciseur (1a) sont connectés, par un élément connecteur (3), à une unité de traitement de données et le type choisi de dispositif exerciseur (1a) est identifié au moyen d'un organe d'identification (5), puis le programme de mesure correspondant au dispositif exerciseur en question est activé. A partir du programme de mesure, qui contient un certain nombre d'étapes de mesure, on choisit l'étape desirée, dont les réglages initiaux sont déterminés pour chaque personne individuellement. | ||||||
119 | System and method for skill enhancement and behavior modification | EP86101999 | 1986-02-17 | EP0235312A3 | 1987-12-09 | Silverman,Gordon; Brudny,Joseph,; Silverman,Paul,; Stundel,Avrom, |
Structural systems and method are employed including a multiplicity of computers to control the acquisition and enhancement of skilled performance or behavior. Pre-processing computers (8 and 24) each accept signals from any corresponding one of a variety of physiological or other signal transducers either in close proximity to the computer or transmitted to the computer via a telemetering system. The pre-processing computer calculates a number of different measures of this signal and makes the results known to one or more other computers. These other or auxiliary computers control presentation of a display of the data for a human observer, and perform additional calculations which determine if the processed data is within a predetermined range. This range may be a function of time and/or other variables. A measure of the error between the allowed range and the processed data is computed within these auxiliary computers. These results may be used to alter the display. They are also returned to the pre-processing computer where they may alter the pre-processing calculations. Alteration of the display and the pre-processing calculations are adapted to improve skilled performance and behavior without the intervention of a human operator other than the user. |
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120 | WEIGHT SELECTOR RELEASE MECHANISM | PCT/US2015047273 | 2015-08-27 | WO2016033373A8 | 2016-10-27 | SMITH KENT M; DALEBOUT WILLIAM T |
A dumbbell assembly includes a cradle. The cradle includes a body, a trough defined in the body and sized to receive a weight of an adjustable dumbbell, an input mechanism incorporated into the body, and a selection mechanism incorporated into the body. The selection mechanism includes a selector that adjusts a connection of the weight with the adjustable dumbbell in response to a command received from the input mechanism. |