| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | STATIONARY EXERCISE EQUIPMENT FOR PHYSICAL TRAINING, MORE PARTICULAR AN EXERCISE BIKE | US13587446 | 2012-08-16 | US20130085038A1 | 2013-04-04 | Andreas FISCHER |
| Stationary exercise equipment for physical training, more particularly an exercise bike, comprising a frame with a movement unit which either is to be moved by the exerciser or is itself driven and interacts with the exerciser, one or more sensors, assigned to the movement unit and/or the exerciser, for capturing measured values, and a computer apparatus for establishing one or more items of measurement-value-related information, which are output on a frame-side display apparatus, letterized in that provision is made for a first display apparatus (6), which is directed at the exerciser for displaying one or more items of information, and in that provision is made for a second display apparatus (11), which is directed at the opposite side for outputting at least one item of information. | ||||||
| 102 | ADJUSTABLE FITNESS ARENA | US13114467 | 2011-05-24 | US20120302301A1 | 2012-11-29 | Kristopher L. Homsi |
| Aspects of this disclosure relate to systems and methods for conducting sport-specific activities. Illustrated systems may be adjustable to permit a performance of different sport-specific activities. Further aspects relate to using sensor data to evaluate a user's performance and determine sport-specific fitness parameters. Various fitness parameters may measure reactive agility and/or the physiological state of the user, such as when in an exhausted state. Illustrated systems may have structures with an output device and a sensor. The structure may include a vertically-arranged planar surface to form a wall. Several structures may be configured to form a boundary. The boundary may be automatically adjustable, for example, depending on one or more specific fitness routines to be implemented. Calculated fitness parameters may be visually mapped on the structures of the system. | ||||||
| 103 | Method and Apparatus for Measuring Pedaling Dynamics of a Cyclist | US13216215 | 2011-08-23 | US20120042725A1 | 2012-02-23 | Alan Francis Cote; John Charles Croy; Jean Joseph Cote |
| The invention detects variation in the speed of the bicycle's drive chain using a sensor. Variations in chain speed are measured, with the resulting numbers displayed to be visible to the cyclist in real-time and/or saved for later downloading and viewing via computer. Metrics that can be calculated using variations in chain speed include: a smoothness index, which indicates how evenly the cyclist is applying force/power; chain speed variation to show the contribution of each leg to the overall force/power delivered; pedaling cadence; and a calculation of gear ratios. Some of these metrics can use inputs from additional sensors, such as a cadence sensor that is tripped by each revolution of the bicycle's crank arm, and wheel speed or GPS sensor for measuring the bicycle's speed. | ||||||
| 104 | Static Cycling Machine | US13120206 | 2009-09-28 | US20110237397A1 | 2011-09-29 | Peter Mabey; Stewart Williams |
| A static cycling machine includes a support assembly and a drive assembly. A frame assembly is mounted on the support assembly. The frame assembly includes a seat tube assembly extending from the drive assembly, the seat tube assembly being adjustable in length. A down tube assembly extends from the drive assembly, the down tube assembly being adjustable in length. A handlebar assembly is mounted on the down tube assembly. A fork assembly is connected to the handlebar assembly and is adjustable in length. The seat tube, down tube, handlebar and fork assemblies are connected to each other such that at least the dimensions of the frame assembly can be adjusted by adjusting the lengths of the tube assemblies. A driven wheel assembly is operatively connected to the drive assembly so that work applied to the drive assembly can be transmitted to the wheel assembly. Actuators are operatively engaged with the frame assembly to adjust dimensions of the frame assembly. | ||||||
| 105 | Joint range of motion measurement device and mobility enhancer | US12221587 | 2008-08-05 | US07942785B1 | 2011-05-17 | Lori E. Russell |
| One embodiment of a multi-functional device for measuring joint range of motion of the wrist and forearm. In general, the embodiment includes a casing (20) containing fluid (23), and a plural number of calibration scale (24) assemblies. The casing (20) is sized appropriately to be gripped in a user's hand, and enables the user to obtain an assessment of his or her range of motion as various motions are performed. Specifically, the various motions made by the user while gripping the embodiment causes fluid (23) to shift inside of casing (20) as a reaction to the downward pull of gravity. The user obtains an instant visual measurement of joint range of motion by viewing the location of fluid (23) on the calibration scale (24) assemblies. The overall design empowers the user to measure his or her own range of motion, which engages him or her as he or she works to re-gain mobility, and provides a positive motivating influence. The device is also suitable for use when performing exercises and stretches. The device is intuitive, portable, and requires no medical training to use. Other embodiments are described and shown. | ||||||
| 106 | Method and Apparatus for Interfacing Between a Wearable Electronic Device and a Server and An Article of Fitness Equipment | US12498389 | 2009-07-07 | US20100009810A1 | 2010-01-14 | Michael Trzecieski |
| The user puts on a wearable electronic device at a gym and the wearable electronic device updates itself wirelessly through a server with a fitness session for the user that is stored within a plurality of user workout routines in a database as part of the server. The fitness session is a sequence of exercises the user should perform at the gym where the wearable electronic device provides an indication to the user of the various exercises. The user determines which exercises to complete and thereafter at the end of the fitness session the user's progress is stored back to the database. On a subsequent visit to the gym a second fitness session is derived based upon the first fitness session where preferably this second fitness session is derived with the assistance of a trained professional. Optionally if an article of fitness equipment is busy, the user is advised of another article of fitness equipment to utilize. Optionally the machines are equipped with a wireless interface that allows the wearable electronic device to know which machine is being used. | ||||||
| 107 | Methods and Apparatus for Rehabilitation and Training | US10597671 | 2005-02-04 | US20070299371A1 | 2007-12-27 | Omer Einav; Haim Einav; Benny Rousso; Doron Shabanov; Eran Katzir; Gad Binyamini |
| The invention relates to a rehabilitation device which guides a patient to perform a motion with a correct spatial trajectory, by the device applying one or more pushing, assisting, reminding, responding and/or resisting forces during a motion (or intent to move) by the patient. The forces are applied by an actuator, for example, a robotic articulated arm or a spherically jointed lever. The applied forces act as a force fields, optionally continuous, which impeded and/or guides a patient. The device can be programmable with various trajectories (paths and/or velocities) and/or forces. The forces at one point in the trajectory can vary responsive to an actual trajectory by the patient and/or responsive to a rehabilitation plan and/or improvement of the patient. The device can learn a motion entered by a physiotherapist and replay it for the patient. | ||||||
| 108 | Golf Round Data System Golf Club Telemetry | US11548320 | 2006-10-11 | US20070135237A1 | 2007-06-14 | Goodwyn Reeves |
| Golf club telemetry equipment sends signals to a receiver in a golf round data system. The signals uniquely identify the particular club a player has selected for a stroke and the fact that a stroke has been taken. The club identification can occur either before or during a stroke. Automatic detection of clubs and strokes simplifies round data collection for the player. Club identification before a stroke permits a forecast of the result of the stroke to be presented to the player prior to the stroke. The signals can be either acoustic or electromagnetic. | ||||||
| 109 | Program and system for managing fitness activity across diverse exercise machines utilizing a portable computer system | US11483451 | 2006-07-10 | US20060252602A1 | 2006-11-09 | Michael Brown; Kelvin Lawrence; Michael Paolini |
| In accordance with the method, system and program of the present invention, at least one type of exercise indicator signal associated with exercise performed by a particular user is received from a particular exercise machine in a common transmittable data format at a portable computer system provided the particular user. Cumulative fitness activity is computed and stored for the particular user at the portable computer system utilizing the at least one type of exercise indicator signal and previously accumulated fitness activity data at the portable computer system, such that an independent portable computer system associated with the particular user monitors the real-time cumulative fitness activity of the particular user from at least one type of exercise indicator signal received from at least one exercise machine over a period of time. | ||||||
| 110 | Movement and event systems and associated methods related applications | US10297270 | 2002-12-04 | US20030163287A1 | 2003-08-28 | Curtis A. Vock; Adrian F. Larkin; Robert Muir Holme; Burl W. Amsbury; Eric R. Edstrom; Perry Youngs; Paul Jonjak |
| The invention provides a smart sensor (10) in the form of an adhesive bandage (32). The sensor (12) sticks to people and objects and wirelessly communicates with remote receivers (24). Internal detectors (12) sense conditions associated with movement or the environment of the sensor. Typically, sensors of the invention communicate by an RF transmitter or transceiver (16). Groups of sensors may be combined within a common canister that imparts date and time information and nullpower onnull when dispensed. | ||||||
| 111 | GOLF INSTRUCTION METHOD, APPARATUS AND ANALYTICS PLATFORM | US15969617 | 2018-05-02 | US20180318688A1 | 2018-11-08 | Mark Colangelo |
| A golf instruction method, apparatus and analytics platform for determining the state of a putted golf ball relative to a target using information about the golf ball and external variables and remotely displaying the same comprising a base unit, a mobile device or terminal, and an associated computer program including an analytics engine for analyzing a user's performance. The computer program determines whether and how a putted golf ball has missed said target and then stores, aggregates and displays that information for a user. The analytics engine is operable to aggregate data, analyze data and then correlate a user's actual skill proficiency to ball performance. | ||||||
| 112 | Systems and methods for integrated automated sports data collection and analytics platform | US15450191 | 2017-03-06 | US10086231B2 | 2018-10-02 | Gerard J. Hall |
| Systems and methods for integrated automated sports data collection and analytics are disclosed. Different types of data, for example but not limited, location data, movement data, impact data and biometric data for individual players are collected via wearable sensors in real time during a sports activity and transmitted to a cloud-based platform together with other sports data, including video, timing, scoring, statistics, and events with time code. The cloud-based platform is operable to aggregate, correlate, organize and synchronize various data related to the sports activity; store, query and retrieve various live data and historical data in and from a proprietary database; and perform analytics and provide intelligence to different parties involved in a sports activity, including coaches, trainers, medical staff, live announcers, broadcasters, displays, viewers, and fans and etc. These different parties may subscribe to licensed access to the cloud-based platform for tailored data feeds with real time push. | ||||||
| 113 | Methods and Systems for Improving a Presentation Function of a Client Device | US15970559 | 2018-05-03 | US20180253991A1 | 2018-09-06 | Diane Tang; Katherine Chou; Mike Pearson; Geoff Davis; Deepak Jindal; Tom Stanis; Dan Moisa; Zeeshan Syed; Christopher Roat |
| Methods and systems for improving a presentation function of a client device based on feedback data indicative of presentation effectiveness are disclosed. A server transmits, over a communication network, a first instruction that configures the client device to provide a first presentation via a user interface to an individual. The server receives physiological data collected by one or more sensors of the client device and associated with the individual and the first presentation. Based on feedback data, including the received physiological data, representative of behavior change subject to the first presentation, the server computes an effectiveness assessment of the first presentation. Responsive to the effectiveness assessment, the server computes a second instruction identifying a second presentation, which differs from the first presentation, and transmits the second instruction to the client device over the communication network, to cause the client device to provide the second presentation via the user interface. | ||||||
| 114 | PERSONAL THERAPY AND EXERCISE MONITORING AND OVERSIGHT DEVICES, SYSTEMS, AND RELATED METHODS | US15440880 | 2017-02-23 | US20180236308A1 | 2018-08-23 | Roderick A. Hyde; Katherine E. Sharadin; Elizabeth A. Sweeney |
| Embodiments disclosed herein are directed to personal therapy and exercise systems as well as to methods related thereto. For example, a personal therapy system can be a modular system that can include multiple therapy gear modules. | ||||||
| 115 | Gait Training Apparatus for Measuring Supported Weight on Each Side of a Patient in Real Time as the Patient is Walking | US15422191 | 2017-02-01 | US20180214336A1 | 2018-08-02 | Ryan BELLMAN; Amir SEIF; Dave DILLI; Mohammed EHSAN |
| A gait training apparatus for determining, in real time, how much weight is being supported on each side of the patient, even when the patient's shoulders are rotating as they do when walking. The apparatus employs two force sensors in an upper assembly that is connected to a supporting frame. The patient's harness is attached to a lower assembly which is rotatably suspended from the upper assembly. When a harnessed patient walks, the weight of each side of the patient is mechanically transferred from the rotating lower assembly to the force sensors on the non-rotating upper assembly. Each force sensor emits an electronic signal proportional to the load on the sensor, and enables the apparatus to measure in real time the weight supported on each side. A processing unit calculates the weight supported on each side of the patient and the total amount of the weight supported. | ||||||
| 116 | Wireless Hand Sensory Apparatus for Weight Monitoring | US15403155 | 2017-01-10 | US20180193699A1 | 2018-07-12 | Scott P. DeBates; Douglas Alfred Lautner; Jagatkumar V. Shah; Mary Khun Hor-Lao |
| In aspects of a wireless hand sensory apparatus for weight monitoring, a wearable article is worn by a user who moves items. A tracking system is implemented in the wearable article, and the tracking system includes a force sensor, or force sensors, in the wearable article to register a force on an item. The tracking system includes tracking logic that determines a weight of the item based on the force on the item. The tracking system may also include a motion sensor to sense motion of the wearable article, and the tracking logic determines how the item is moved based on the motion of the wearable article. The tracking logic can also determine the weight of the item based on the force on the item in combination with a speed of the motion of the wearable article. | ||||||
| 117 | RETAIL SHOPPING FACILITY WORKOUT SYSTEMS AND METHODS | US15782060 | 2017-10-12 | US20180099185A1 | 2018-04-12 | Matthew A. Jones; Nicholaus A. Jones |
| In some embodiments, systems and methods provide a customer controlled cart workout. Some systems, comprise: a cart coordination control circuit; a shopping cart comprising a cart control system, a wireless transceiver and a resistance modification system configured to adjust a resistance level corresponding to different amounts of force to be applied in physically moving the cart along a surface; wherein the cart coordination control circuit is configured to: associate the shopping cart with a first identified customer; wirelessly communicate with a first user interface unit associated with the first customer; receive, through a cart resistance control software application (APP) operated on the first user interface unit, a resistance control instruction specifying a modification to the resistance level; and communicate a resistance adjustment instruction to the cart control system causing the resistance modification system to adjust the resistance level applied to the shopping cart. | ||||||
| 118 | Data processing inside gaming device | US14631109 | 2015-02-25 | US09940600B2 | 2018-04-10 | Kevin King; Matthew Anthony Tyson; Mark Joseph Davisson |
| A computer-implemented method is disclosed that includes capturing data about motion of a sports object caused by one or more athletes manipulating the sports object, transmitting the captured data out of the sports object wirelessly in real time while the one or more athletes are still manipulating the sports object, and presenting information that incorporates the captured data about motion of the sports objects with one or more wearable devices. | ||||||
| 119 | Workout Sensing System | US15690459 | 2017-08-30 | US20180056127A1 | 2018-03-01 | Bryan Den Hollander; Corina McIntyre |
| A workout sensing system for collecting and transmitting strength training related data from components embedded within a sleeve of a strength training device such as a barbell, lat bar, or close grip seated row bar. The strength training device tracks metrics including load, repetitions, sets, power, velocity, force, and form. The workout sensing system is comprised of hardware and software that may enable a cloud based platform to analyze a user's strength training data so the user may track and optimize their strength performance in the weight room. | ||||||
| 120 | AIRWAY AND OXYGEN ENHANCEMENT MOUTHPIECE | US15474920 | 2017-03-30 | US20180021659A1 | 2018-01-25 | Paul Bradley Layzell; Russell Tanji |
| The present disclosure relates to systems and methods for identifying a mouthpiece thickness that provides an athlete with optimal breathing that enhances the performance of an athlete when participating in a contact sport. Mouthpieces and methods consistent with the present disclosure may also increase the safety of a contact sport by identifying mouthpiece sizes that correspond to a lower injury rate. | ||||||
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