| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | WEARABLE DETECTOR FOR THE DETECTION OF PARAMETERS RELATED TO A PHYSICAL ACTIVITY | EP14828275.9 | 2014-12-17 | EP3043876A1 | 2016-07-20 | MACAGNANO, Davide; RINALDO, Andrea Fabrizio |
| The present invention relates to a wearable detector (1) for the detection of parameters related to a physical activity comprising: - a support (2) wearable on the user's head, - sound signal reproducing means (6) connected to said support - an accelerometer (13) - a gyroscope (14) - a wireless signal receiving-transmitting device (8) - a control unit (7) operatively connected to the sound signal reproducing means (6), to the accelerometer (13), to the gyroscope (14) and to the receiving-transmitting device (8) at least in order to manage data streams between said devices wherein said support (2) comprises a sealed chamber (10) where at least the accelerometer (13) and/ or the gyroscope (14) are housed, said support (2) having such an arrangement that, in the worn condition, said chamber (10) is placed substantially at the back of the user's head. | ||||||
| 182 | SYSTEM AND METHOD FOR GATHERING AND ANALYZING OBJECTIVE MOTION DATA | EP09830763 | 2009-08-21 | EP2352977A4 | 2016-03-30 | EDIS JAMYN G N; GABRIEL MICHAEL; MOHN TIMOTHY J; EVELAND ZACHARY E; IGOE THOMAS P; PAPADOPOULOS DESPINA |
| The systems and methods described herein attempt to provide data capture and analysis in a non-intrusive fashion. The captured data can be analyzed for qualitative conclusions regarding an object's actions. For example, a system for analyzing activity of an athlete to permit qualitative assessments of that activity comprises a first processor to receive activity-related data from sensors on the athlete. A first database stores the activity-related data. A second database contains pre-identified motion rules. A second processor compares the received activity-related data to the pre-identified motion rules, wherein the second processor identifies a pre-identified motion from the pre-identified motion rules that corresponds to the received activity-related data. A memory stores the identified pre-selected motion. | ||||||
| 183 | EXERCISE DEVICE WITH COMMUNICATION LINKAGE FOR CONNECTION WITH EXTERNAL COMPUTING DEVICE | EP13733791 | 2013-01-03 | EP2800611A4 | 2015-12-16 | BRAMMER CHASE |
| 184 | SPORTS TRAINING DEVICE | EP11828184 | 2011-09-29 | EP2623166A4 | 2015-09-09 | DEVAL DEL TORO JESÚS; SANCHO GARCÍA JOSÉ; GARCÍA CHECA JOSÉ FERNANDO |
| The present invention relates to a training device usable in both indoor and outdoor training sessions, linked to a communication network capable of connecting multiple remote users during shared training sessions. Said device comprises, among other elements, a training means which presents a variable resistance against a physical force applied by a user; a monitoring and communication unit of data regarding the physical condition of the user and the mechanical conditions of the training means; a simulation and control unit; and a plurality of sensors for acquiring information on the physical condition of the user, on the mechanical conditions of the training means and on the user's environment. | ||||||
| 185 | FITNESS PRODUCT PROJECTION DISPLAY ASSEMBLY | EP10767872 | 2010-04-23 | EP2421620A4 | 2015-06-17 | MEEKS JEFFREY A; COOK JOHN |
| 186 | SYSTEM AND METHODS FOR PROVIDING PERFORMANCE FEEDBACK | EP10751548 | 2010-03-15 | EP2405977A4 | 2015-01-07 | DEANGELIS DOUGLAS J; EVANSEN EDWARD G |
| Systems and methods provide feedback to at least one participant in a field of play. A performance analysis device determines performance information of each participant in the field of play, where the performance information is based upon at least one of determined location, speed, path, acceleration and biometrics of said each participant. At least one output device provides real-time feedback to the at least one participant based upon the performance information. The real-time feedback comprises performance information of the at least one participant and/or performance information of one or more other participants in the field of play. | ||||||
| 187 | EXERCISE DEVICE WITH COMMUNICATION LINKAGE FOR CONNECTION WITH EXTERNAL COMPUTING DEVICE | EP13733791.1 | 2013-01-03 | EP2800611A1 | 2014-11-12 | BRAMMER, Chase |
| In general, the present invention relates to exercise devices that lack, in whole or in part, a console. For example, an exercise device of the present invention may lack display screens and/or user input controls that selectively adjust an operating parameter of the exercise device. A console interface, or the portions of a console interface that are absent from an exercise device of the present invention may be provided by an external computing device that is communicatively connected to the exercise device. The external computing device may be individually and selectively connected to multiple exercise devices to as to provide a display screen and user input controls to a number of different exercise devices. | ||||||
| 188 | 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. | ||||||
| 189 | SPORTS TRAINING DEVICE | EP11828184.9 | 2011-09-29 | EP2623166A1 | 2013-08-07 | DEVAL DEL TORO, Jesús; SANCHO GARCÍA, José; GARCÍA CHECA, José Fernando |
The present invention relates to a training device usable in both indoor and outdoor training sessions, linked to a communication network capable of connecting multiple remote users during shared training sessions. Said device comprises, among other elements, a training means which presents a variable resistance against a physical force applied by a user; a monitoring and communication unit of data regarding the physical condition of the user and the mechanical conditions of the training means; a simulation and control unit; and a plurality of sensors for acquiring information on the physical condition of the user, on the mechanical conditions of the training means and on the user's environment. |
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| 190 | PERFORMANCE MONITORING MODULES AND APPARATUS | EP10820001 | 2010-09-30 | EP2483636A4 | 2013-05-01 | YUEN PAUL ANTHONY |
| 191 | MODULAR PERSONAL NETWORK SYSTEMS AND METHODS | EP02724971.3 | 2002-02-20 | EP1362430B1 | 2012-12-19 | ELLIS, Michael, D.; ELLIS, Caron, S. |
| We have disclosed a modular personal network (MPN) that includes multiple devices that may be worn, carried, or used in close proximity to a user. The devices communicate wirelessly. Functions of the MPN may be modified by adding or removing components. The MPN may communicate with a personal computer. General purpose devices may include a control unit, a display, a user input, and an audio output. The MPN may provide a variety of functions, including time, communication, entertainment, organization, guidance, athletic, medical, travel, outdoors, identity, security, and military. | ||||||
| 192 | PERFORMANCE MONITORING MODULES AND APPARATUS | EP10820001.5 | 2010-09-30 | EP2483636A1 | 2012-08-08 | YUEN, Paul Anthony |
| A performance monitoring apparatus comprising an assembly of a performance monitoring module and a general purpose portable telecommunications device such as a mobile telephone or mobile smart phone connected for data communication mounted on a common casing. The performance monitoring module is adapted for receiving performance signals from at least one performance sensor and for converting the performance signals into performance data. The general purpose portable telecommunications device is configured to be activate-able to cause the performance monitoring module to transfer performance data to the general purpose portable telecommunications device. The common casing comprises mounting means for mounting onto a support surface. This module is adapted for cooperative operation with a general purpose portable telecommunications device to expand its processing and display power while maintaining a low cost simple design and compactness. | ||||||
| 193 | Sports electronic training system with sport ball, and applications thereof | EP11168446.0 | 2008-08-14 | EP2363180A3 | 2012-06-06 | Jones Vaterlaus, Amy; DiBenedetto, Christian; Vincent, Michael Stephen; Tomlinson, Scott; Van Noy, Allen W.; Oleson, Mark Arthur |
A sports electronic training system with sport ball, and applications thereof, are disclosed. In an embodiment, the system comprises at least one monitor and an electronic processing device for receiving data from the at least one monitor and providing feedback to an individual based on the received data. The monitor can be a motion monitor that measures an individual's performance such as, for example, speed, pace and distance for a runner. Other monitors might include a heart rate monitor, a temperature monitor, an altimeter, et cetera. In an embodiment, a sport ball that includes a motion monitor for monitoring motion of the sport ball stores an identification value received when a shoe that includes a motion monitor contacts the sport ball. The stored identification value serves as a record of the contact.
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| 194 | Sports electronic training system with sport ball, and applications thereof | EP11168444.5 | 2008-08-14 | EP2363179A2 | 2011-09-07 | Jones Vaterlaus, Amy; DiBenedetto, Christian; Vincent, Michael Stephen; Tomlinson, Scott; Van Noy, Allen W.; Oleson, Mark Arthur |
A sports electronic training system with sport ball, and applications thereof, are disclosed. In an embodiment, the system comprises at least one monitor and an electronic processing device for receiving data from the at least one monitor and providing feedback to an individual based on the received data. The monitor can be a motion monitor that measures an individual's performance such as, for example, speed, pace and distance for a runner. Other monitors might include a heart rate monitor, a temperature monitor, an altimeter, et cetera. In an embodiment, a sport ball that includes a motion monitor for monitoring motion of the sport ball stores an identification value received when a shoe that includes a motion monitor contacts the sport ball. The stored identification value serves as a record of the contact.
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| 195 | Sports electronic training system with sport ball, and applications thereof | EP11168442.9 | 2008-08-14 | EP2363178A2 | 2011-09-07 | Jones Vaterlaus, Amy; DiBenedetto, Christian; Vincent, Michael Stephen; Tomlinson, Scott; Van Noy, Allen W.; Oleson, Mark Arthur |
A sports electronic training system with sport ball, and applications thereof, are disclosed. In an embodiment, the system comprises at least one monitor and an electronic processing device for receiving data from the at least one monitor and providing feedback to an individual based on the received data. The monitor can be a motion monitor that measures an individual's performance such as, for example, speed, pace and distance for a runner. Other monitors might include a heart rate monitor, a temperature monitor, an altimeter, et cetera. In an embodiment, a sport ball that includes a motion monitor for monitoring motion of the sport ball stores an identification value received when a shoe that includes a motion monitor contacts the sport ball. The stored identification value serves as a record of the contact.
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| 196 | SYSTEM AND METHOD FOR GATHERING AND ANALYZING OBJECTIVE MOTION DATA | EP09830763.0 | 2009-08-21 | EP2352977A1 | 2011-08-10 | EDIS, Jamyn, G. N.; GABRIEL, Michael; MOHN, Timothy, J.; EVELAND, Zachary, E.; IGOE, Thomas, P.; PAPADOPOULOS, Despina |
| The systems and methods described herein attempt to provide data capture and analysis in a non-intrusive fashion. The captured data can be analyzed for qualitative conclusions regarding an object's actions. For example, a system for analyzing activity of an athlete to permit qualitative assessments of that activity comprises a first processor to receive activity-related data from sensors on the athlete. A first database stores the activity-related data. A second database contains pre-identified motion rules. A second processor compares the received activity-related data to the pre-identified motion rules, wherein the second processor identifies a pre-identified motion from the pre-identified motion rules that corresponds to the received activity-related data. A memory stores the identified pre-selected motion. | ||||||
| 197 | Sports training system with sport ball | EP08014499.1 | 2008-08-14 | EP2025370B1 | 2011-08-03 | Jones Vaterlaus, Amy; DiBenedetto, Christian; Vincent, Stephen Michael; Tomlinson, Scott; Van Noy, Allen W.; Oleson, Mark Arthur |
| A sports electronic training system with sport ball, and applications thereof, are disclosed. In an embodiment, the system comprises at least one monitor and an electronic processing device for receiving data from the at least one monitor and providing feedback to an individual based on the received data. The monitor can be a motion monitor that measures an individual's performance such as, for example, speed, pace and distance for a runner. Other monitors might include a heart rate monitor, a temperature monitor, an altimeter, et cetera. In an embodiment, a sport ball that includes a motion monitor for monitoring motion of the sport ball stores an identification value received when a shoe that includes a motion monitor contacts the sport ball. The stored identification value serves as a record of the contact. | ||||||
| 198 | Tempo range as playlist-metadata for playlist selection among a plurality of playlists according to the user jogging speed. | EP07706941.7 | 2007-01-11 | EP1973114B1 | 2011-03-16 | TAKATSUKA, SusumuC/O SONY CORPORATION,; SASAKI, ToruC/O SONY CORPORATION,; SAKAI, YuichiC/O SONY CORPORATION,; SAKO, YoichiroC/O SONY CORPORATION,; TERAUCHI, ToshiroC/O SONY CORPORATION,; TAMORI, HirofumiC/O SONY CORPORATION,; INOUE, MakotoC/O SONY CORPORATION,; SHIRAI, KatsuyaC/O SONY CORPORATION,; MAKINO, KenichiC/O SONY CORPORATION,; TAKAI, MotoyukiC/O SONY CORPORATION,; NAKAMURA, TakatoshiC/O SONY CORPORATION; KOMORI, AkihiroC/O SONY CORPORATION,; SANO, AkaneC/O SONY CORPORATION, |
| It is possible to reproduce a music content corresponding to a play list so as to reflect the user's taste. A music content database (7) contains a plurality of music content. A CPU (3) creates a genre rank so that the genre of the music content having a high reproduction frequency has a higher rank. Moreover, the CPU (3) creates a play list based on tempo and stores the created play list in a play list database (8). The CPU (3) selects a play list corresponding to the movement tempo obtained from a tempo detection unit (9) and selects a music content of genre having a higher rank in the genre rank from the music contents corresponding to the selected play list. The selected music content is supplied to a decoder amplifier unit (12) and reproduced from a headphone (14). | ||||||
| 199 | 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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| 200 | MOUTH GUARD | EP06751066 | 2006-04-24 | EP1874218A4 | 2010-07-07 | MORGAN SCOTT D; MORGAN DAVID L |
