A wearable posture monitoring device is provided. The device includes a first posture sensor to measure a first bend parameter associated with shoulders of a user and a second posture sensor to measure a second bend parameter associated with vertebral column of the user. The device includes a control unit operatively coupled to the first posture sensor and the second posture sensor and is configured to compare the first bend parameter with a first predefined reference value and the second bend parameter with a second predefined reference value to detect an improper bend in one or more of the shoulders and vertebral column of the user. The control unit is further configured to display a visual indication, on a display interface associated with the posture monitoring device, to indicate the detected improper bend of one or more of the shoulders and vertebral column of the user.

Disclosed is a fitness equipment including a fitness equipment terminal and a data terminal. The fitness equipment terminal includes a movable member and a damping device for controlling the damping intensity of the movable member, and also includes a travel tracking module for feeding back motion data of the damping device and a control module for controlling the damping device. The damping device includes an electromagnetic induction assembly. A fitness system is also disclosed.

A headset including a speaker, a motion sensor, a transceiver, and a processor is provided. The speaker plays audio data. The motion sensor senses a posture of a user to generate first sensing data. The transceiver performs data transmission with an external device. The processor is coupled to the motion sensor and the transceiver. The processor determines whether the posture is correct according to the first sensing data to generate an output result and transmits the output result through the transceiver.

A biofeedback belt system which serves as an alert belt with the ability to decrease stomach size as well as decrease the arch of a user-wearers lower back. The invention is designed for patients who have hyper lordosis conditions. The mechanism of the belt is based on biofeedback. When a user-wearer relaxes their abdominal region, the belt produces vibration or sound and the user-wearer must tighten their abdominal region to discontinue the vibration or noise. Biofeedback belt system can also work in a manner such that when the user-wearer tightens their abdominal region, the belt plays music or favorable vibration separately or together as encouragement. Over a period of time of tightening of the abdominal region on a regular basis, the abdominal region size decreases and abdomen strengthens.

Aspects of the present disclosure provide methods, apparatuses, and systems for non-linear breathing entrainment. As described herein, breathing entrainment refers to guiding a user's breath or breathing. According to an aspect, an initial breathing period and a final breathing period are selected. Based on the initial and final breathing periods, a non-linear breath rate per minute sequence is determined. A guiding stimulus is output and aligned with the non-linear breath rate per minute sequence. The guiding stimulus is non-linearly altered with the non-linear breath rate per minute sequence to align with the final breathing period over an interval of time. The non-linear alterations of the guiding stimulus vary based on an amount of time the guiding stimulus has been output.

According to various embodiments, there is provided a plank exercise device including a support portion adapted to receive arms or hands of a person and adapted to receive a display device, a destabilizer connected to the support portion, and a stationary base adapted to hold the destabilizer.

A headset including a speaker, a motion sensor, a transceiver, and a processor is provided. The speaker plays audio data. The motion sensor senses a posture of a user to generate first sensing data. The transceiver performs data transmission with an external device. The processor is coupled to the motion sensor and the transceiver. The processor determines whether the posture is correct according to the first sensing data to generate an output result and transmits the output result through the transceiver.

A fully wearable system used for communication and information transfer between two users or between a user and a machine to render an effective and intuitive physical interface for combined input and output functions, the fully wearable system including a bidirectional wearable skin including distributed actuator and sensing elements, the actuator and sensing elements including a multimodal actuation layer and a sensing layer, the bidirectional wearable skin being flexible and stretchable, and a portable control device for controlling the distributed actuator and sensing elements, and reading signals from the sensing layer, the portable control device is configured to perform pixilated actuation for both micro- and macrostimulation of a body of a wearer by an actuation frequency and stimulation amplitude.

According to various embodiments, there is provided a plank exercise device including a support portion adapted to receive arms or hands of a person and adapted to receive a display device, a destabilizer connected to the support portion, and a stationary base adapted to hold the destabilizer.

This invention is directed to a wearable device to be worn around a pelvis of an object, comprising: a first compressive element configured to embrace the ASIS and PSIS anatomical structures of the object pelvis; a second compressive element configure to embrace the Ischial Tuberosities and Greater A Trochanter anatomical structures of the object pelvis; at least one sensor for sensing pelvic rotation asymmetry of the object in real time during stride motion; at least two actuators for applying a corrective pressure on at least one PSIS and/or Ischial Tuberosities in real time during said stride motion so as to balance a measured pelvis rotation asymmetry of the object the pelvis rotation; and a control unit configured and operable to receive data in real time from said at least two sensors during the stride motion, calculate the pelvis symmetry based on the data received, and activate at least one of said actuators to apply a corrective pressure upon recognition of a pelvis rotation asymmetry.