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1341results about "Muscular strength measurement" patented technology

Pelvic disorder treatment device

A device for treating a medical condition is provided, and a surgical procedure for implanting the device is disclosed. The device includes a sensor, which is adapted to generate a signal responsive to a state of a patient, and at least one electrode, which is adapted to be coupled to a pelvic site of the patient. A control unit is adapted to receive the signal, to analyze the signal so as to distinguish between an imminent stress incontinence event and an imminent urge event, and, responsive to analyzing the signal, to apply an electrical waveform to the at least one electrode. In various configurations, the device may be used alternatively or additionally to treat fecal incontinence, interstitial cystitis, chronic pelvic pain, or urine retention.
Owner:ASTORA WOMENS HEALTH

Method and System for Predicting Audience Viewing Behavior

The present invention is directed to a method and system for predicting the behavior of an audience based on the biologically based responses of the audience to a presentation that provides a sensory stimulating experience and determining a measure of the level and pattern of engagement of that audience to the presentation. In particular, the invention is directed to a method and system for predicting whether an audience is likely to view a presentation in its entirety. In addition, the present invention may be used to determine the point at which an audience is likely to change their attention to an alternative sensory stimulating experience including fast forwarding through recorded content, changing the channel or leaving the room when viewing live content, or otherwise redirecting their engagement from the sensory stimulating experience.
Owner:NIELSEN CONSUMER LLC

Force-feedback interface device for the hand

A man-machine interface is disclosed which provides force information to sensing body parts. The interface is comprised of a force-generating device (106) that produces a force which is transmitted to a force-applying device (102) via force-transmitting means (104). The force-applying device applies the generated force to a sensing body part. A force sensor associated with the force applies device and located in the force applicator (126) measures the actual force applies to the sensing body part, while angle sensors (136) measure the angles of relevant joint body parts. A force-control unit (108) uses the joint body part position information to determine a desired force value to be applies to the sensing body part. The force-control unit combines the joint body part position information with the force sensor information to calculate the force command which is sent to the force-generating device.
Owner:IMMERSION CORPORATION

Methods and Apparatus for Rehabilitation and Training

Apparatus for rehabilitating a patient who has a paretic body part, the apparatus comprising: a) at least one electromyography (EMG) sensor adapted to being applied to a voluntary muscle of a healthy body part of the same type as the paretic body part which at least one sensor produces at least one EMG signal; b) a neuromuscular electrical stimulation (NMES) device adapted to stimulating at least one voluntary muscle of the paretic body part; and c) a controller which controls the NMES device, making the amplitude of stimulation of the paretic body part at least partly dependent on the EMG signal from the healthy body part.
Owner:MOTORIKA

Method for real time interactive visualization of muscle forces and joint torques in the human body

InactiveUS20080221487A1Create possibilityPerson identificationSensorsHuman bodyMuscle force
A method and system are provided for the visual display of anatomical forces, that system having: a motion capture system; a computer, receiving data from said motion capture system; and a computational pipeline disposed on said computer; that computational pipeline being configured to calculate muscle forces and joint torques in real time and visually display those forces and torques.
Owner:MOTEK

Apparatus and methods for assessing human physical performance

InactiveUS20070027369A1PerformancePerson identificationCatheterPostural BalanceNervous system
An apparatus for assessing human physical performance includes one or more force measuring devices; one or more instruments for measuring at least one of kinesthetic, vestibular, visual, auditory, somatosensory, or cardiovascular information; a control apparatus; a computing apparatus; a storage apparatus; an input apparatus; and an output apparatus. The apparatus may also include one or more instruments for measuring at least one of vestibular, visual, or somatosensory information. In addition, methods may be used to assess human physical performance by assessing one or more of: (1) muscular performance; (2) postural balance / equilibrium and nervous system processing of kinesthetic information; (3) postural balance / equilibrium and nervous system processing of at least one of vestibular, visual, auditory, or somatosensory information; (4) postural balance / equilibrium and at least one other physiological parameter; or (5) neuromuscular abilities of a person during a movement requiring power followed by a stabilization period.
Owner:PAGNACCO GUIDO +2

Apparatus and method for measuring instability of a motion segment unit of a spine

ActiveUS7153281B2Reduce and eliminate instabilityDamage and reduced and eliminatedSurgeryPerson identificationJackscrewInstability
Apparatus and method for measuring spinal instability through the use of a distractor arm assembly having segments pivotal with respect to each other and movable through the movement of a pivotal collar assembly along a centrally positioned jackscrew.
Owner:MEKANIKA

Rehabilitative orthoses

Instrumented orthoses with more sophisticated structures provide for coordinated support and rehabilitation of complex joints and multiple injured joints. Improved instrumented orthoses can include hinges that can rotate in multiple different planes. Particularly preferred embodiments include a shoulder brace with a hand hold and a lower extremities brace. Preferably, a control unit monitors the output of transducers used to instrument the brace. A patient can be prompted by the control unit for the performance of a variety of different monitored exercises.
Owner:IZEX TECH

Physical activity monitoring system

An exercise system may be configured to gather and quantify data related to energy expenditure during physical activity. The exercise system may include at least one force sensing node and a portable hub that is physically separate and distinct from the at least one force sensing node. The at least one force sensing node may be configured to gather data related to energy expenditure during physical activity. The portable hub may be configured to quantify data related to energy expended during physical activity. For example, according to exemplary implementations, the portable hub may be include a processor configured to execute an exercise analysis module. The exercise analysis module may be configured to determine one or more exercise parameters based on an output signal generated at the at least one force sensing node responsive to force exerted on the at least one force sensing node during physical activity.
Owner:ACTIVBODY INC

Remote psychological evaluation

Instrumented orthoses with more sophisticated structures provide for coordinated support and rehabilitation of complex joints and multiple injured joints. Improved instrumented orthoses can include hinges that can rotate in multiple different planes. Particularly preferred embodiments include a shoulder brace with a hand hold and a lower extremities brace. Preferably, a control unit monitors the output of transducers used to instrument the brace. A patient can be prompted by the control unit for the performance of a variety of different monitored exercises.
Owner:IZEX TECH

Method for real time interactive visualization of muscle forces and joint torques in the human body

A method and system are provided for the visual display of anatomical forces, that system having: a motion capture system; a computer, receiving data from said motion capture system; and a computational pipeline disposed on said computer; that computational pipeline being configured to calculate muscle forces and joint torques in real time and visually display those forces and torques.
Owner:MOTEK

Method and device for assessing muscular capacities of athletes using short tests

Device (1) for measuring muscular capacity, comprising:removable fastening means (12) for fastening the device to the athlete or to the moved weight (3; 2);autonomous electrical power supply means (15);a display (11);a three-axis accelerometer (14) for delivering a sequence of accelerations (a(t)) along the axis of movement of the weight, said sequence comprising at least 100 measurements per second over a duration between 1 and 10 seconds; anddata processing means (16) for determining, at the end of the test, on the basis of said sequence of accelerations, at least one quantity representative of the muscular capacity of the athlete and for displaying this quantity on said display (11).
Owner:SLYDE ANALYTICS LLC

Method and system for automatically evaluating physical health state using a game

A method and system for automatically evaluating the state of a user's physical health includes a game for maintaining the use's interest as he exercises and which automatically measures and evaluates the user's physical strength and health and provides an exercise prescription. The method has a game execution and measurement step performed via a main controller section with a display device, a memory and a virtual subject in the game space. Multiple standardized protocols are selected according to measurements reflected in the game and the virtual subject, reflecting an exercise state of the user on the basis of an exercise state of a reference person in the game. Measuring / reading / storing / displaying physical strength and health information occur after generating events for measuring the physical strength and health information such as particular situations, letters, sounds, voices, etc., in the game content.
Owner:CODISOFT

System, method, and apparatus for evaluating a person's athletic ability

A system for evaluating a person's athletic ability has a server or a computer system, and several testing locations. The server or computer system includes a database, a central processing unit, and a memory. The database stores results of tests previously subjected to a set of athletes from different physical activities. Each testing location includes testing tools used for subjecting the person to the tests. The results of the tests of the person are temporarily stored in the memory. The central processing unit compares the individual's tests results stored in the memory with the results in the database, and identifies at least one specific physical activity more compatible with the person based on the comparison.
Owner:SPORTS POTENTIAL

Force Measurement System Having Inertial Compensation

A force measurement system having inertial compensation includes a force measurement assembly with at least one accelerometer configured to measure the acceleration thereof. According to one aspect of the invention, the force measurement system additionally includes at least one angular velocity sensor configured to measure the angular velocity of the force measurement assembly. According to another aspect of the invention, the force measurement system additionally includes a data processing device with a computer-readable medium loaded thereon that is configured to execute a calibration procedure for determining the inertial parameters of the force measurement assembly by utilizing the measured acceleration of the force measurement assembly while the force measurement assembly is subjected to a plurality of applied linear and / or rotational motion profiles. According to still another aspect of the invention, the at least one accelerometer is disposed on the force transducer.
Owner:BERTEC

Force measurement system having inertial compensation

A force measurement system having inertial compensation includes a force measurement assembly with at least one accelerometer configured to measure the acceleration thereof. According to one aspect of the invention, the force measurement system additionally includes at least one angular velocity sensor configured to measure the angular velocity of the force measurement assembly. According to another aspect of the invention, the force measurement system additionally includes a data processing device with a computer-readable medium loaded thereon that is configured to execute a calibration procedure for determining the inertial parameters of the force measurement assembly by utilizing the measured acceleration of the force measurement assembly while the force measurement assembly is subjected to a plurality of applied linear and / or rotational motion profiles. According to still another aspect of the invention, the at least one accelerometer is disposed on the force transducer.
Owner:BERTEC

Apparatus and method to train autonomous driving model, and autonomous driving apparatus

Disclosed is an apparatus and method to train an autonomous driving model. The apparatus includes a driver information collection processor configured to collect driver information while a vehicle is being driven. The apparatus also includes a sensor information collection processor configured to collect sensor information from a sensor installed in the vehicle while the vehicle is being driven, and a model training processor configured to train the autonomous driving model based on the driver information and the sensor information.
Owner:SAMSUNG ELECTRONICS CO LTD

Methods and Apparatus for Rehabilitation and Training

ActiveUS20070299371A1Avoid structural overloadingPhysical therapies and activitiesChiropractic devicesEngineeringActuator
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.
Owner:MOTORIKA

System and method for transducing, sensing, or affecting vaginal or body conditions, and/or stimulating perineal musculature and nerves using 2-way wireless communications

InactiveUS7577476B2Safe, easy and convenient way to strengthen and toneBioelectric signal measurementPerson identificationTransceiverMedicine
A system and method are provided for transducing vaginal conditions, affecting vaginal or body conditions, and / or stimulating perineal musculature and nerves. A separate, portable, non-implanted intravaginally containable combination probe and transceiver is provided that can sense vaginal conditions, can deliver signals or medication, and / or can stimulate perineal musculature and nerves. This probe unit is provided with 2-way wireless communication for transmitting information that is transduced and for receiving control and programming signals. In addition, a separate combination controller and transceiver is provided for wirelessly sending signals to the probe unit and for receiving signals therefrom. A real time wireless signal feedback loop is thus provided between the controller and the probe and / or external devices, networks and databases.
Owner:ATHENA FEMININE TECH

Wearable electromyogram sensor system

A wearable electromyogram sensor system is provided. The wearable electromyogram sensor system includes: an elastic band having a plurality of electrodes; an electromyogram sensor including an electrode connected to an electrode of the band so as to receive a bio-signal related to contraction of a muscle, and configured to sense a change of motion information through the bio-signal or previously sense the change of the motion information before the motion information is changed; and a fixing unit fixing the electromyogram sensor to the band. The electrode of the electromyogram sensor is connected to an electrode at an arbitrary position of the band.
Owner:KOREA INST OF SCI & TECH

Device for measuring elastic characteristics of organism tissue

A device for measuring elastic properties, comprising a long bar-like probe base (42) and probes (50a, 50c) fitted to the probe base (42) driven as to be pressed against and withdrawn from a living body tissue. The probes are so formed that generally semi-spherical contact balls (58) having stress detection bases (56) are fitted to the ends of leaf strings (52) and stress detection sensors (60) are disposed on the stress detection bases (56). Light-receiving elements are fitted to the opposite side of the leaf displacement sensors (62a, 62b). The stress sensors (60) and displacement sensors (62a, 62b) are connected to the device body through signal lines (92, 94), respectively. The profile of the displacement of the tissue is calculated and displayed in a manner indicating correlation with stress.
Owner:NIHON UNIVERSITY
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