Among other things, in one aspect, we describe a system for assisting with cardiopulmonary resuscitation (CPR). The system includes at least one sensor; and one or more processors configured for calculating a chest compliance relationship based on data received from the at least one sensor, and determining a neutral position of chest compression based at least in part on a feature of the chest compliance relationship. The system can take the form of an active compression-decompression device.

A method of operating a modular exoskeleton system, the method comprising: monitoring for one or more actuator units being operably coupled to or removed from the modular exoskeleton system, the modular exoskeleton system comprising at least a first actuator unit configured to be operably coupled and removed from the modular exoskeleton system; determining that the first actuator unit has been operably coupled to the modular exoskeleton system; determining the first actuator unit has been associated with a first body portion of the user; determining a first new operating configuration based at least in part on the determination that the first actuator unit has been operably coupled to the modular exoskeleton system and the determination that the first actuator unit has been associated with the first body portion of the user; and setting the first new operating configuration for the modular exoskeleton system.

In a first aspect of the invention, it is claimed a computer-implemented method for assisting the movement of a visually impaired user by means of a wearable device 1, comprising the following steps: S1—Acquiring data from the environment of the visually impaired user S2—Fusing the acquired data, creating, repeatedly updating of a Live Map S3—Determining, repeatedly updating and storing, of at least one navigation path together with associated navigation guiding instructions for the visually impaired user to navigate from the current position of the visually impaired user to a point of interest, repeatedly selecting one preferred navigation path from the at least one navigation path, and repeatedly sending to the visually impaired user the preferred navigation path, together with associated navigation guiding instructions.

A cardiopulmonary resuscitation device with blood flow cardiopulmonary resuscitation value feedback is disclosed. The device has a blood flow sensor where a computer converts a blood flow value to a cardiopulmonary resuscitation value and provides the cardiopulmonary resuscitation value to a sensory indicator, a mechanical chest compression device or another computer, computer network, or computing device. The cardiopulmonary resuscitation value provides information on improving chest compressions during a medical emergency involving cardiopulmonary resuscitation by an emergency medical worker. The cardiopulmonary resuscitation may, in some embodiments, be aided by a mechanical chest compression device. The device improves patient outcome from cardiopulmonary resuscitation.

Systems, methods, and computer-readable mediums for generating, by an artificial intelligence engine, one or more alignment plans for aligning a user with an imaging sensor. The method comprises generating one or more machine learning models trained to identify alignment plans. The method also comprises receiving user data and determining that a targeted portion of a body of the user is outside of a field of view of the imaging sensor. The method further comprises generating the one or more alignment plans using the one or more machine learning models. Each of the one or more alignment plans comprises a target location within the field of view of the imaging sensor and one or more elements for adjusting the targeted portion of the body from a first location to the target location. The method also comprises transmitting the one or more alignment plans to a computing device.

This patent relates to the field of peripheral sensorimotor stimulation for the relief of symptoms and physical signs of distress including pain and anxiety and more specifically to addiction withdrawal. Peripheral stimulation of mechanoreceptors has been showed in a unique amplitude and frequency range to induce central effects of release of dopamine with a prolonged duration beyond stimulation in a model of addiction. Such stimulation can serve as an effective bridge during withdrawal from known addicting substances, including chemicals and behaviors, thus mitigating symptoms and potentially facilitating the cessation of drugs or substance seeking behavior. Interferential beat frequencies can be induced into the body using separately located sources of vibration to localize maxima and minima of stimulation. A conforming seat consisting of two separately driven halves induces a traveling wave due to interference or formation of beat frequencies which are driven in the therapeutic range to mitigate the symptoms and signs of withdrawal. Further, the beat frequencies can be monitored by a transducer to assure compliance of a treatment regimen and as a trigger pattern for focused exercises.

A system may include one or more image sensors, an ear worn device, and a controller. The one or more image sensors may be configured to sense optical information of an environment and produce image data indicative of the sensed optical information. The ear-worn device may include a housing wearable by a user, an acoustic transducer including at least one driver to generate sound, and a controller comprising one or more processors. The controller may be operatively coupled to the image sensor and the ear-worn device. The controller may be configured to receive the image data, determine a field of attention of the user using the image data, detect an object outside of the field of attention using the image data, determine whether to alert the user of the detected object, and provide an alert indicative of the detected object, if it is determined to alert the user.

The present invention is directed to a massage chair having a massage chair frame, a massage system, and a noise-reducing, enclosure device. The frame includes a first end, a second end, a seat body area portion, and a back body area portion. The massage system includes at least one air massage element, an air pump, and at least one air valve device for regulating air flow into and out of the air massage element. The enclosure device includes an enclosure housing and noise-reducing material positioned inside the housing. The housing encloses the air pump and air valve device(s) during operation such that noise generated from or made by the air pump and air valve device(s) during operation is reduced, contained or eliminated. The present invention may include additional features: armrest sliding, shoulder airbag sliding, media player holder, virtual reality player, wireless charger, hammering devices, heating acupuncture devices, and oxygen generator.

An exemplary method of identifying a source of chest compressions administered during cardiopulmonary resuscitation (CPR) includes receiving, at a processor, signals indicative of pressure exerted during the chest compressions from at least one sensor communicatively coupled to the processor and disposed at a location on the victim's chest away from an indicated compression point for manual chest compressions, generating a compression waveform based on the received signals, detecting compression waveform features representative of the chest compressions based on the compression waveform, comparing the detected compression waveform features to a pre-determined criterion to discriminate between chest compressions from an automated compression device and manual chest compressions, determining whether the chest compressions are from the automated compression device or the manual chest compressions based on the comparison, and generating an output based on whether the chest compressions are determined to be from the automated compression device or the manual chest compressions.

A movement support system for a physically disabled person comprises: movement support tool; a plurality of passage units; and control apparatus. The movement support tool comprises: magnetically attractive part; non-contact tag part; reception part; input part; output part; and control part. The passage unit comprises: electromagnet part, non-contact reading part, transmission part, and control part. The control apparatus acquires the destination information and the user ID from the movement support tool; acquires the user ID and the position information from the first passage unit closest to the movement support tool; and calculates route from the position information to the destination information; generates guidance based on the route and position information; outputs the generated guidance from the movement support tool; and controls each of the electromagnet part of the plurality of passage units so as to attract (pull) the magnetically attractive part in traveling direction of the route.