A head mounted virtual reality object synchronized physical training system includes a virtual reality device, a physical training equipment, and a physiological signal sensor. The virtual reality device includes a display operable to display a virtual reality object according to an operation of the user. The virtual reality device is detachably mounted to a head of the user and provides the user with a function of interaction. The physical training equipment includes an exercise data sensor operable to detect exercise data that the user operates the physical training equipment. The physiological signal sensor is operable to detect a human body physiological signal and a human body movement signal of the user. The physical training equipment and the physiological signal sensor have a function of synchronization with the virtual reality object displayed on the virtual reality device.

A system (100) for training a subject such that the subject includes an input unit (102) having a number of sensors (112) that are configured to detect a number of physiological parameters of a user. A processing unit (104) is configured to receive the number of physiological parameters for comparing the number of physiological parameters with a set of predefined physiological parameters to generate a baseline signal (116A). An output unit (106) is configured to generate an instruction signal (118A) upon receipt of the baseline signal (116A) and a regulating unit (108) that is configured to regulate a speed of a game associated with a gamification engine (110) and a speed of an exercising apparatus (200) upon receipt of the instruction signal (118A).

Herein is described an exercise health management method, terminal and system. The method includes receiving original data collected by at least one data collecting terminal; generating an exercise solution based on the original data; and transmitting the exercise solution to exercise equipment corresponding to the exercise solution. The exercise health management method, terminal and system can accomplish the function of a virtual personal coach and may synchronize user data to a cloud service so that the user may receive professional exercise guidance at home. The exercise planning and reminding mode encourages the user to continue their initiative to exercise. Also, sharing exercise outcomes makes the exercise more rewarding and attracts more people to participate. Exercise amount is collected in all weathers and analyzed for the purpose of continuous exercise management.

An exercise bike and an operation method thereof are provided. In a test mode, a processing unit adjusts a resistance of a pedaling activity to be a plurality of pedaling resistances and obtains a plurality of psychological values respectively corresponding to the pedaling resistances by inquiring the user about a rate of perceived exertion. The processing unit calculates the psychological values to obtain a plurality of exercise intensities respectively corresponding to the pedaling resistances and further obtain a correspondence relationship between the exercise intensities and the pedaling resistances. After the test mode ends, the processing unit determines a recommended pedaling resistance according to the correspondence relationship. In a sport mode, the recommended pedaling resistance is provided to the user for performing the pedaling activity. The exercise bike determines the recommended pedaling resistance according to the user's physiological characteristics and/or a rate of perceived exertion regarding a physical activity.

Disclosed herein is a ventilator system and method, for alveolar micro-circulation enhancement using pulse cycle harmonized ventilation pressure modulation of a patient. The system includes a sensor unit, a controller unit and a supply unit. The sensor unit is configured to sense a set of physiological parameters to determine one or more cardiovascular activities of the patient. The controller unit is communicatively coupled to the sensor unit, and is configured to determine a dynamic pattern of an oxygenated air supply for the patient based on the sensed cardiovascular activity. The supply unit is communicatively coupled to the controller unit and is configured to supply the determined pressure wave to create a dynamic alteration in the air flow pattern of the ventilated air to the patient in response to the cardiovascular activity. Some embodiments of the system also represent the system as an air flow controlling apparatus, capable be coupled to any ventilator system internally or externally to control the flow of air in the dynamic pattern.

Provided is an apparatus for managing a player with a guard including a sensor sensing a vital information of a player to calculate an injury risk of the player to thereby manage a condition of the player, the apparatus including: a communication unit receiving the vital information from the guard and transmitting the injury risk to the guard; a memory storing a program calculating the injury risk to manage the condition of the player; and a processor connected to the communication unit and the memory to execute an operation implemented by the program, in which the program may include instructions using the vital information and pre-stored vital recovering ability data of the player to calculate the injury risk of the player.

A battery pack adapted to suppress the possibility that a crash stroke cannot be ensured. The battery pack according to the present disclosure is mounted on a vehicle. The battery pack includes a storage case, a plurality of first cross members extending in a width direction of the vehicle, a second cross member extending in a longitudinal direction of the vehicle, a battery module, and a bracket. The battery module, the second cross member, and the bracket are arranged between the plurality of the first cross members, and the second cross member is arranged at a position separated from the battery module in a width direction of the vehicle. The bracket is arranged between the second cross member and the battery module. The battery module is attached to the storage case via the bracket. The bracket includes a bead protruding outward in a width direction of the vehicle.

A system provided with a gas-pressure type muscular strength training belt eliminates a tube that connects a gas supply source and a gas bag in the belt, thereby solving various problems caused by the presence of the tube. A muscular strength training system 1 that is used to train muscles by applying a predetermined pressure to a specific part of a user's limbs to restrict blood flow to the user's muscles without stopping the blood flow, the system including: a band member 10 configured to be wrapped around the specific part; a gas bag 20 placed inside the band member 10; and a gas supply source 110 for supplying gas to the gas bag 20, wherein: the system 1 is configured to apply pressure to the specific part based on an amount of gas in the gas bag 20; and the gas supply source 110 is configured to directly supply gas to a gas supply port 91 that communicates with the gas bag 20 and is integrally attached to the band member 10.

A method includes receiving treatment data pertaining to a user capable of using a treatment device to perform a treatment plan and receiving activity data pertaining to the user while the user engages in at least one activity. The method also includes generating treatment information using the treatment data and the activity data and writing to an associated memory, for access by a healthcare professional, the treatment information. The method also includes modifying at least one aspect of the treatment plan in response to receiving, from the healthcare professional, treatment plan input including at least one modification to the at least one aspect of the treatment plan.

System and method for creating an exercise plan for a user based on a goal state of a digital twin of the user. A baseline state of the digital twin is created based on a first 3D model of the user and first physiological data of the user. Using a machine-learning model, an exercise plan for the user, comprising one or more motion profiles, is created that most likely effectuates a goal state of the digital twin from the baseline state of the digital twin. Electronic exercise equipment is configured to physically manifest the one or more motion profiles during exercise activity of the user, and data is acquired by the electronic exercise equipment based on the exercise activity.