Abstract: Systems and methods for rehabilitation of limb motion are described herein. An example system can include a thermal imaging device for imaging a subject or a plurality of sensors for sensing force or pressure exerted by a portion of the subject's body. The system can also include a processor and a memory operably coupled to the processor. The processor can be configured to receive force or pressure data measured by the sensors or image data captured by the thermal imaging device, and calculate a quantitative measure of the subject's limb motion based on the force or pressure data or the image data.

Abstract: A system for calculating an internal load of a component includes an acceleration module, a skew matrix module, a center of gravity calculation module, a mass/inertia module, and an internal load module. The acceleration module may obtain a plurality of acceleration measurements associated with a component, where each acceleration measurement is associated with a response point relative to a center of gravity of the component. The skew matrix module may determine a skew matrix based on the response points. The center of gravity calculation module may calculate a center of gravity response for the component based on the plurality of acceleration measurements and the skew matrix. The mass/inertia module may determine a mass/inertia matrix based on measured mass and inertia values associated with the component. The internal load module may calculate an internal load of the component based on the calculated center of gravity response and the mass/inertia matrix.

Abstract: This document describes techniques for radio frequency (RF) based micro-motion tracking. These techniques enable even millimeter-scale hand motions to be tracked. To do so, radar signals are used from radar systems that, with conventional techniques, would only permit resolutions of a centimeter or more.

Abstract: A location sensing system identifies respective locations of a plurality of clinicians and a patient-monitoring system measures a clinical parameter of a patient. A control unit identifies a historical alert-response time for each clinician, and normalizes the historical alert-response times to account for respective historical distances of each clinician from respective patients and respective historical numbers of alerts each clinician had received within respective previous given time periods. The control unit then (a) determines that an alert has occurred, (b) identifies a subset of the clinicians in response to the distance of each of the clinicians from the patient, and the number of alerts each of the clinicians has received within the previous given time period, and the normalized historical alert-response times, and (c) communicates an alert to the identified clinicians before communicating the alert to any other clinician. Other embodiments are also described.

Abstract: A computing system is configured to process at least one voice input of a user and output an audio result. The computing system comprises at least one microphone configured to receive the voice input from the user. The computing system further comprises at least one processor configured to at least interpret the voice input and generate the audio result. The computing system also comprises an output speaker device configured to output the audio result. The audio result includes a description of whether one or more behavioral health states associated with the user have been detected.

Abstract: A computing system is configured to process at least one voice input of a user and output an audio result. The computing system comprises at least one microphone configured to receive the voice input from the user. The computing system further comprises at least one processor configured to at least interpret the voice input and generate the audio result. The computing system also comprises an output speaker device configured to output the audio result. The audio result includes a description of whether one or more behavioral health states associated with the user have been detected.

Abstract: The technology disclosed herein relates to a system and method for analyzing medical device programming parameters. One aspect of the current technology is a method where an overall performance metric is detected for a cardiac medical device that is outside of a threshold at a first cardiac location in a patient. Processing circuitry identifies a first operating condition and sensing circuitry measures a first sensor response during the first operating condition. An adjustment is proposed to one or more programming parameters of the medical device based on the performance metric, the first operating condition, and the sensor response to the operating condition.

Abstract: Systems, devices and methods for averting imminent medical attacks comprise transcutaneous electrical and magnetic nerve stimulation devices using energy that is delivered non-invasively to the patient. One or more sensors detect physiological and/or environmental signals within a patient and the values of these signals are used to forecast an acute medical event, which can be treated via non-invasive nerve stimulation. The acute medical events may comprise, among others, bronchoconstriction, epileptic seizures, primary headache, such as migraine or cluster headaches, transient ischemic attack or stroke, onset of atrial fibrillation, myocardial infarction, and acute depression or anxiety.

Abstract: Athletic activity may be tracked while providing encouragement to perform athletic activity. For example, energy expenditure values and energy expenditure intensity values may be calculated and associated with a duration and type of activity performed by an individual. These values and other movement data may be displayed on an interface in a manner to motivate the individual and maintain the individual's interest. The interface may track one or more discrete “sessions”. The sessions may be associated with energy expenditure values during a duration that is within a second duration, such as a day, that is also tracked with respect to variables, such as energy expenditure. Other individuals (e.g., friends) may also be displayed on an interface through which a user's progress is tracked. This may allow the user to also view the other individuals' progress toward completing an activity goal and/or challenge.

Abstract: Pursuant to some embodiments, computer systems for generating safety scores relating to vehicle travel routes are provided which include a data storage device for storing, updating and providing access to loss risk score data. In some embodiments, a request for information associated with a user's location identified by user location data may be received over a communications network. A computer processing system may then be operated to generate a safety score associated with said use location data, the safety score being based on a plurality of loss risk factors associated with the user location data. A response, including the safety score, may then be transmitted to the user over the communications network.

Abstract: Lenses and methods for adjusting the focus of a lens include dividing multiple light sensors in a lens into four quadrants. A position of the lens relative to occlusion along a top and bottom edge of the lens is determined based on lengths of bit sequences from light sensors in each of the four quadrants. An optimal focal length for the lens is determined based on the position of the lens. The focal length of the lens is adjusted to match the optimal focal length.

Abstract: A method for invariant gait analysis using gyroscope data wherein the improvement comprises the step of using pairs of raw measurements to factor out orientation, wherein a motion representation which is both invariant to sensor orientation changes and highly discriminative to enable high-performance gait analysis.

Abstract: A user performs a gesture with a hand-held or wearable device capable of sensing its own orientation. Orientation data, in the form of a sequence of rotation vectors, is collected throughout the duration of the gesture. To construct a trace representing the shape of the gesture and the direction of device motion, the orientation data is processed by a robotic chain model with four or fewer degrees of freedom, simulating a set of joints moved by the user to perform the gesture (e.g., a shoulder and an elbow). To classify the gesture, a trace is compared to contents of a training database including many different users' versions of the gesture and analyzed by a learning module such as support vector machine.

Abstract: Systems, articles, and methods for surface electromyography (“EMG”) sensors that combine elements from traditional capacitive and resistive EMG sensors are described. For example, capacitive EMG sensors that are adapted to resistively couple to a user's skin are described. Resistive coupling between a sensor electrode and the user's skin is galvanically isolated from the sensor circuitry by a discrete component capacitor included downstream from the sensor electrode. The combination of a resistively coupled electrode and a discrete component capacitor provides the respective benefits of traditional resistive and capacitive (respectively) EMG sensor designs while mitigating respective drawbacks of each approach. A wearable EMG device that provides a component of a human-electronics interface and incorporates such capacitive EMG sensors is also described.

Abstract: The present invention provides a mobile terminal and a control method using an intuitive gesture as an input to perform a function. Specifically, the present invention provides a mobile terminal including a sensing unit for sensing movement of the mobile terminal, a wireless communication unit for transmitting/receiving a radio signal to/from an external terminal and a control unit for sensing a distance from the mobile terminal to the external terminal based on the strength of the received radio signal, and performing a specific function when the sensed movement corresponds to specific movement and the sensed distance is within a specific range.

Abstract: A method of manufacturing an arthroplasty jig is disclosed herein. The method may include the following: generate two dimensional image data of a patient joint to undergo arthroplasty, identify in the two dimensional image data a first point corresponding to an articular surface of a bone forming the joint, identify a second point corresponding to an articular surface of an implant, identify a location of a resection plane when the first point is correlated with the second point, and create the arthroplasty jig with a resection guide located according to the identified location of the resection plane.

Abstract: Systems and techniques are disclosed for decoupling a wearable sensor's location on a user from the body movements desired to be measured by the sensor. Sensor data can be dynamically analyzed to determine a reference event (e.g., a static pose), which can be used to generate or update a transformation parameter (e.g., a quaternion or a rotational matrix). The transformation parameter can be applied to sensor data to transform the sensor data from the sensor's frame of reference to a global frame of reference. Once transformed, the movement data in the global frame can be analyzed to identify sensor-location-agnostic biomechanical features (e.g., body movements or movement trends), which can be further analyzed to identify probable or potential diagnoses correlated with the identified biomechanical features.

Abstract: The present invention is directed to a method of ablation. The method includes the steps of inserting a probe having an ablation electrode into a body of a living subject and urging the ablation electrode into a contacting relationship with a target tissue. A measurement of at least one electroanatomic parameter is made between the ablation electrode and the target tissue, and the measurement is haptically communicated to an operator. Responsively to the communicated measurement, ablating the target tissue using the ablation electrode.

Abstract: A biological information processing system includes a pulse wave information acquisition unit which acquires pulse wave information of a user, and a processing unit which determines the sleep state of the user based on the pulse wave information. The processing unit obtains index information relating to an arousal state during sleep based on the pulse wave information.

Abstract: A balance training device includes an inverted two-wheel vehicle, a posture detection unit that detects a posture of the inverted two-wheel vehicle, a control unit that enables control of the inverted two-wheel vehicle so that the inverted two-wheel vehicle moves according to the posture of the inverted two-wheel vehicle detected by the posture detection unit and control of the inverted two-wheel vehicle so that the inverted two-wheel vehicle is forcibly moved in an arbitrary direction irrespective of the posture of the inverted two-wheel vehicle, and a position determining unit that determines a position of the inverted two-wheel vehicle. When a distance between the obtained position of the inverted two-wheel vehicle and the reference position is greater than or equal to a threshold, the control unit suppresses the control to forcibly move the inverted two-wheel vehicle in a direction from a reference position to the position of the inverted two-wheel vehicle.

Abstract: A data processing method for determining six parameters, corresponding to six degrees of freedom, of a contact position of a joint which connects two bones, comprising the steps of acquiring a 3D model of each bone, acquiring four of the six parameters as a given parameters, selecting initial values for the two remaining parameters and varying the two remaining parameters virtually in order to achieve a virtual relative position between the two 3D models such that they are in contact with each other.

Abstract: An apparatus, system and process for measuring, tracking, and analyzing unintentional muscle movements associated with upper body freezing of a user while using a handheld tool are described. The method may include receiving signals from a motion sensor of a handheld tool, the signals indicating motions of the handheld tool when used by a user during an activity. The method may also include analyzing the motions of the handheld tool. The method may also include detecting motions of the handheld tool having one or more predetermined characteristics. Furthermore, the method can include determining that the user experienced an upper extremity freezing while using the handheld tool during the activity based on the detected one or more predetermined characteristics.

Abstract: Provided is a step counter including a right angle sensor that outputs a right hip joint angle signal indicating a right hip joint angle of a user; a left angle sensor that outputs a left hip joint angle signal indicating a left hip joint angle of the user; a generating section that generates an angle difference signal indicating change over time of an angle difference between the right hip joint angle and the left hip joint angle, based on the right hip joint angle signal and the left hip joint angle signal; and a calculating section that calculates a step number of the user based on a difference signal generated from a difference between filtered signals resulting from the angle difference signal being applied to at least two different filters.

Abstract: The present invention is related to detecting location of a navigation device using sensor data analysis, where the sensor is coupled to the navigation device. A hierarchical algorithm is used for making a series of decisions regarding the location of the navigation device, with each decision corresponding to a class among a plurality of classes related to the possible motion modes and/or precise location of the device, including the location of the device with respect to a person's body. By accurately identifying the device location, the hierarchical algorithm facilitates in providing relevant contextual information, thereby enhancing situational awareness.

Abstract: An integrated device that detects and stores, in digital form, the muscle movements that occur when an operator traces a defined figure or pattern with a pointing device, such as a laser beam. The movement data is stored and analyzed for monitoring and diagnosing a neuromuscular condition or neuromuscular variations. Movement disorders can be determined and progression and change analyzed over time using the stored data.

Abstract: Embodiments include method, systems and computer program products for automatic adjustment of helmet parameters based on a category of play. Aspects include monitoring a plurality of sensors in a helmet and determining the category of play for a user of the helmet based on data received from the plurality of sensors. Aspects further include automatically adjusting one or more parameters of the helmet based on the category of play.

Abstract: A portable apparatus and a method of changing a content screen of the portable apparatus are provided. The portable apparatus includes changing a displayed content in response to an increase in a visual fatigue and a method of changing a content screen of the portable apparatus. Some of disclosed various embodiments provide a portable apparatus that calculates a visual fatigue by using user electroencephalogram (EEG) information received from a wearable apparatus and changing a displayed content into another content in response to an increase in the calculated visual fatigue, and a method of changing a content screen of the portable apparatus.

Abstract: Described herein are systems and processes for performing femoroacetabular impingement hip surgery using a robotic system. In general, the processes may include receiving an image of the at least one bone; creating three-dimensional models of the at least one bone; determining the location of the at least one bone such that a precise orientation is known; Using software to automatically generate a volume of the at least one bone to be removed; automatically performing robotically controlled milling to remove the impinging at least one bone; and providing a simulated kinematic analysis of motion of the at least one bone after it is removed. The process may further include the step of receiving input from the user, determined manually by said user, based on the three dimensional-models of the at least one bone, to modify a volume of the at least one bone to be removed.

Abstract: Methods, apparatuses, systems, and computer-readable media for communicating via an electronic device for use in a mouth environment of an animal and resistant to damage from bodily fluids and pressure. The device can be anchored to a tooth or a teeth of the mandible, or implanted in (or attached to an implant in) the maxilla or mandible. The device includes: a power device, which can power the apparatus, a memory storage device, which can store and recall data; a communications subsystem, which communicates with one or more remote devices; an output device, which creates stimulus directly or indirectly observable in the mouth environment; an input device, which can create signals according to activity in the mouth environment and can send them to the memory storage device and/or processor; and a processor coupled to the memory storage device, the communication subsystem, the output device and the input device.

Abstract: A method for causing a computer to execute a process for managing health condition, the process includes: detecting a grounding timing of a leg of a quadruped and a timing of weight-shift to a rear side of the quadruped; and determining whether or not the leg of the quadruped has a disease or injury, based on the detected grounding timing of the leg of the quadruped and the detected timing of a weight-shift to the rear side of the quadruped.

Abstract: A fitness tracking device configured to be worn by a user obtains a plurality of physical characteristics of the user including a first age and a sex of the user. The fitness tracking device maps each physical characteristic of the user to a corresponding index, wherein the first age of the user is mapped to a first age index of a first age range of a plurality of age ranges, and wherein the sex of the user is mapped to a first sex index. The fitness tracking device selects, from a memory of the fitness tracking device, a first calorimetry model of a plurality of calorimetry models, wherein the first calorimetry model is associated with each corresponding index, including the first age index and the first sex index of the user. The fitness tracking device estimates an energy expenditure rate using the first calorimetry model.

Abstract: The present invention relates to methods for remotely and intelligently tuning movement disorder of therapy systems. The present invention still further provides methods of quantifying movement disorders for the treatment of patients who exhibit symptoms of such movement disorders including, but not limited to, Parkinson's disease and Parkinsonism, Dystonia, Chorea, and Huntington's disease, Ataxia, Tremor and Essential Tremor, Tourette syndrome, stroke, and the like. The present invention yet further relates to methods of remotely and intelligently or automatically tuning a therapy device using objective quantified movement disorder symptom data to determine the therapy setting or parameters to be transmitted and provided to the subject via his or her therapy device. The present invention also provides treatment and tuning intelligently, automatically and remotely, allowing for home monitoring of subjects.

Abstract: A standing position evaluation apparatus includes a center-of-gravity position detection unit that detects a head-center-of-gravity position that is a position of a center of gravity of a head of a subject in a standing position projected onto a floor surface and a body-center-of-gravity position that is a position of a center of gravity of a body of the subject in the standing position projected onto the floor surface, and an evaluation unit that evaluates a standing position balance of the subject by using the detected head-center-of-gravity position and the detected body-center-of-gravity position.

Abstract: Techniques for facilitating authorized telemetry with an implantable device are provided. In one embodiment, for example, a method includes comparing, by a first device having a processor, first electronic information with second electronic information. The first electronic information is indicative of a first motion of a second device external to a body in which the implantable device is located, and the second electronic information is indicative of a second motion of the implantable device. The method also includes determining whether a defined level of correlation exists between the first electronic information and the second electronic information, and initiating a telemetry session between the second device and the implantable device based on a determination that the defined level of correlation exists between the first electronic information and the second electronic information.

Abstract: A control device is connected to a facility appliance regulating the environment of an area and to an activity measuring instrument for each activity kind measuring the status of an activity of a person in the area. The control device has: an activity kind determination part determining an activity kind corresponding to a work performed in the area; an activity information acquisition part using the activity measuring instrument corresponding to the determined activity kind to acquire the status of the activity of the person in the area; and an environment control part causing the facility appliance to control the environment of the area on the basis of the acquired status of the activity.

Abstract: The present invention is directed to a device and method for monitoring and assessment of movement disorder symptoms. The device and method disclosed herein are particularly amenable to remote monitoring of a subject's movement disorder symptoms. Briefly stated, in certain preferred embodiments of the present invention the movement disorder monitoring device accompanies a subject to a remote location where the device is used to record data relating to the severity of a subject's movement disorder symptoms over a period of time. This data is then subsequently used by physicians or other clinicians in optimizing and assessing treatment options directed at alleviating a subject's movement disorder symptoms. The method and device of the present invention can be used to monitor symptoms of a number of movement disorders including but not limited to dystonia, essential tremor, Huntington's disease, various ataxias, multiple sclerosis, psychogenic tremor, and Parkinson's disease.

Abstract: Disclosed herein are a walking assistance apparatus including a drive portion capable of adjusting tension of a fixing portion, and a method of controlling the same. The walking assistance apparatus includes a support portion which applies assist power to assist walking to a human body, a fixing portion which is arranged at one end of the support portion to enclose the human body and fixes the support portion on the human body, a drive portion including at least one motor which adjusts tension of the fixing portion, and a control portion which adjusts a driving direction of the at least one motor during rotation of the support portion in order to prevent the fixing portion from rotating by assist power applied through the support portion.

Abstract: A method and apparatus for the detection of the onset of hypoglycaemia is described. A portable sensor worn by a subject is used to detect a physiological tremor signal. The tremor signal is analysed over a period of time, and an alarm is generated when a change in the physiological tremor signal indicative of the onset of hypoglycaemia in the subject is detected. A patient or carer can then perform appropriate action, such as performing a finger prick test to determine blood sugar test and treating as required. The portable sensor can be used to detect a tremor signal indicative of the, the onset of hypoglycaemia such as a signal corresponding to a decrease in blood glucose level (BGL) below 5 mmol/l. The portable sensor can use an accelerometer and may be worn on a limb, such as an arm or leg. The sensor can be used to measure the power of the tremor signal and detect a change, such as an increase in power over time and/or an increase in the rate of change of power over time.

Abstract: Vision-assist systems and methods include use of processor(s) and a communicatively coupled feedback device and environmental sensing device upon which generated feedback is based. Machine readable instructions stored on a memory module cause the system to perform the following when executed by the processor(s): record a first metric corresponding to a level of reliance by a user on the feedback device at a first time; record a second metric corresponding to the level of reliance by the user on the feedback device at a second time after the first time; and record an awarded amount of reliance points when the second metric is less than the first metric, indicative of a decrease on a reliance by the user on the vision-assist system. The awarded amount of reliance points corresponds to a percentage by which the second metric decreases compared to the first metric.

Abstract: The present invention relates to the estimation of the vertical in humans using an experimental design that incorporates virtual reality. Methods of measuring the perceived vertical in a subject using steady state and transient experiments are disclosed. The inventive methods are useful for diagnosis, as well as for follow up after patient rehabilitation.

Abstract: Embodiments include a leadless implantable heart stimulator (that includes an acceleration sensor, wherein the acceleration sensor delivers an acceleration signal as an output signal. The acceleration sensor is connected to an activity determination unit. The activity determination unit generates an activity signal from the acceleration signal wherein the activity determination unit at least partially subtracts a component of the acceleration signal from the acceleration signal that represents an intrinsic heart movement.

Abstract: A computing system is configured to process at least one voice input of a user and output an audio result. The computing system comprises at least one microphone configured to receive the voice input from the user. The computing system further comprises at least one processor configured to at least interpret the voice input and generate the audio result. The computing system also comprises an output speaker device configured to output the audio result. The audio result includes a description of whether one or more behavioral health states associated with the user have been detected.

Abstract: A measurement device suitable to measure a load applied by the muscular-skeletal system is disclosed. The measurement device can be a prosthetic component having an articular surface for measuring parameters of a joint in extension or flexion. A first and second support structure forms an enclosure having load-bearing surfaces. The first support structure includes at least one alignment feature extending from a surface. The second support structure includes a corresponding opening for receiving the alignment feature. The first and second support structures include a peripheral channel and corresponding flange to support sealing of the enclosure. Interior to the enclosure is the measurement system. The alignment feature couples through and aligns a first load plate, a sensor array, and a second load plate to surfaces of the first and second support structures. The sensor array is coupled to electronic circuitry in the enclosure via a unitary circuit board.

Abstract: A method and wireless sensor device for determining body postures and activities. In one aspect, a method includes receiving sensor data. The method also includes detecting and classifying a body transition of a body based on the sensor data. The method also includes detecting if there is activity of the body based on the sensor data. If there is activity, the method also includes classifying the activity. If there is no activity, the method also includes classifying a rest position of the body based on the sensor data and based on a previous body transition.

Abstract: An athletic training system includes one or more panels that present a rigid front surface covered by a translucent material behind which is an illumination or light source and a pressure sensor that can detect and measure the pressure caused by impact of a ball (i.e. a soccer ball). A control device communicates with and controls the panels according to a selected exercise regimen that is designed to develop particular skills for an athletic or sporting endeavor by commanding the panel or panels to illuminate (i.e. turn on its light source). While illuminated, the panel actively monitors its pressure sensor for an indication of an impact, and upon detecting an impact, reports the detection of the impact to the control device, and turns off its illumination. The process of turning panels on and off and detecting impact can be used to construct various regimens for training and developing skills.

Abstract: A system for transmitting signals between a body of a living being and a virtual reality space includes a mount and a base configured to be affixed to respective first and second bony members of the body on a distal side and a proximal side, respectively, of a joint. An elongate, flexible strip is affixed at a first end to the mount and at a second end to the base. A sensor disposed on the base is configured to generate a displacement signal indicative of displacement of the strip in response to movement of the first bony member relative to the second bony member. The system further includes a display and a controller configured to receive the displacement signal and to control movement of a virtual representation of the body on the display responsive to the displacement signal and feedback of interaction in the virtual space to the living being.

Abstract: The present invention relates to systems and methods for helping subjects improve safety and efficiency of their movements; particularly subjects who have suffered an injury or suffer from a movement or other such disorder. More particularly, the present invention relates to such a system and method for monitoring a subject's movement to detect or predict unsafe, undesirable, or impaired movements, or symptoms of movement disorders, and also a system for providing possible treatment methods for such conditions. The present invention further relates to a method and system of providing cues or stimuli to the subject when such unsafe or undesirable movements, instabilities or symptoms are detected or predicted. Most particularly, the present invention relates to a subject-customized and adaptive movement recovery system, and method of providing therapy and training to improve functional motor recovery and safety of movement of a subject suffering from an injury or from movement disorder(s).

Abstract: Embodiments include method, systems and computer program products for monitoring a user for a traumatic brain injury. Aspects include monitoring a speech of the user with a microphone embedded in the helmet and analyzing, by a processor, one or more characteristics of the speech of the user. Aspects also include determining whether the one or more characteristics of the speech indicate that the user may have suffered the traumatic brain injury and creating an alert that the user of the helmet may have suffered the traumatic brain injury.

Abstract: A device for determining whether a user is wearing a wearable monitoring device is disclosed. The wearable monitoring device includes an accelerometer and a processor. The accelerometer detects a three-dimensional motion of the monitoring device and generates accelerometer data for each axis corresponding to the three-dimensional motion. The wearable monitoring device accesses the accelerometer data, detects a presence of a rhythmic pulse in one or more axes of the accelerometer data, and determines that the user is wearing the monitoring device in response to detecting the presence of the rhythmic pulse in the one or more axes.

Abstract: A new and/or novel image analysis technique for quantitative assessment of motion-based testing for injury in a patient using universally available and affordable devices and techniques is provided and disclosed. A video of a test being performed can be processed to track the motion of markers and/or bodily landmarks in two or more dimensions to quantitatively describe motion, thereby removing the subjective aspects typically associated with motion-based testing. In an example, the pivot shift test is a commonly used test for evaluating rotational instability of the anterior cruciate ligament (ACL)-deficient knee. The pivot shift test's subjective grading scale can be quantified and refined using image analysis techniques.