A system includes a mobile device having one or more cameras to take images; a sensor detecting reflected light from one or more lasers and a diffuser to detect object range or dimension; code for motion tracking, environmental understanding by detecting planes in an environment, and estimating light and dimensions of the surrounding based on the one or more lasers; code to estimate a three-dimensional (3D) volume of an object from multiple perspectives and from projected laser beams to measure size or scale and determine locations of points on the object's surface in a plane or a slice using time-of-flight, wherein positions and cross-sections for different slices are correlated to construct a 3D model of the object, including object position and shape; the device receiving user request to select a content from one or more augmented, virtual, or extended reality contents and rendering a reality view of the environment.

Systems, devices, and methods are provided which provide a processor in a server computer, a device including an optical sensor, and a cane. The device may be connected electronically to a cane through wired or wireless technology. The cane may include a haptic controller which provides a notification to a user.

A system is disclosed. The system includes an accessory control module, comprising computer-executable code stored in non-volatile memory, a processor, an accessory of a user, and a terminal device. The accessory control module, the processor, the accessory, and the terminal device are configured to determine a distance between the terminal device and either the accessory or a user device of the user, and control the accessory to perform a predetermined action for sexually stimulating the user based on the distance.

Pneumatic and therapeutic compression systems are disclosed including treatment protocols that may be used with such systems. A pneumatic compression system may include a source and sink of a pressurizing fluid. The pressurizing fluid may be sourced to a number of valves, each valve controllable by a control device including a computing device. The computing device may control each valve separately to allow any one or more of the valves to connect to the fluid source or the fluid sink. The computing device may include one or more therapeutic protocols that may direct one, two, or more valves to switch between fluid sourcing and fluid sinking, substantially simultaneously or in a sequence. A therapeutic compression system may include the pneumatic system in fluid communication with an inflation sleeve composed of multiple cells. Each cell may be inflated or deflated by a valve according to the therapeutic protocol.

Systems and methods for remotely massaging a participant in a live streaming session. A method for remotely massaging a participant in a live streaming session includes: responsive to a login of a participant on a live streaming session of an online chat room via a network, displaying a username of the participant on a display; receiving the username of the participant and a counted number of tokens that are tipped to a host of the live streaming session by the participant; displaying the counted number of tokens and the username of the participant on a display; and responsive to a determination that the counted number of tokens exceeds a threshold value, sending a control signal to a massage device of the participant via the network so as to give a massage session to the participant.

A communication robot for operating a massage providing apparatus by executing an artificial intelligence algorithm (AI) and/or machine learning algorithm in a 5G environment connected for the Internet of things and a method for operating the communication robot are provided. The method for operating the communication robot may include acquiring a spoken utterance of a user positioned within a prescribed range from the massage providing apparatus, tracking a spoken utterance direction of the user from the spoken utterance of the user, orienting the communication robot towards the spoken utterance direction of the user, acquiring a voice command included in the spoken utterance in relation to operation of the massage providing apparatus, and operating the massage providing apparatus according to the voice command.

A system and method for providing massaging within a vehicle that include receiving vehicle dynamic data associated with a real-time dynamic performance of the vehicle as the vehicle is being driven for a predetermined period of time. The system and method also include determining at least one strenuous driving activity associated with a driver of the vehicle based on at least one driving maneuver. The system and method additionally include analyzing positional parameters and movement parameters that are associated with at least one area of a body of the driver that is utilized to conduct the at least one driving maneuver for the predetermined period of time. The system and method further include controlling at least one massaging element disposed within the seat of the vehicle to provide massaging to the at least one area of the body of the driver.

Systems and methods for providing vibration and temperature therapy via a therapy device is disclosed. According to one embodiment, a therapy device includes a pad comprising an adhesive layer configured to adhere to a skin surface of a user. The therapy device includes a control unit coupled to the pad. The control unit is configured to provide temperature therapy to the skin surface of the user and provide vibration therapy to the skin surface of the user. The pad includes a coupling connector configured to removably couple the control unit. The pad can include a heat generation module comprising a resistive wire and a heat spreader. The pad can include one or more electrical stimulation modules, wherein each electrical stimulation module comprises a conductor and a pad. The pad includes a temperature sensor coupled to the heat generation module. The adhesive layer can be coupled to the heat spreader.

A system is disclosed. The system has a tipping module, comprising computer-executable code stored in non-volatile memory, a processor, and a user device. The tipping module, the processor, and the user device are configured to display one or more multimedia content pages on a user interface of the user device, the one or more multimedia content pages associated with one or more live broadcast platforms, display one or more tipping graphical elements on the user interface of the user device, the one or more tipping graphical elements associated with the one or more multimedia content pages, and execute at least one tip operation on the one or more live broadcast platforms, the at least one tip operation associated with the one or more tipping graphical elements and responsive to a trigger instruction of any of the one or more tipping graphical elements.

A percussive therapy system that includes a percussive massage device including a network interface, and an intelligence engine. The intelligence engine is configured to receive manual capture data and real-time tracking data from the percussive massage device, receive remote data from a remote data source, and generate recommendation data comprising a recommended protocol to be performed by the percussive massage device. The recommendation data is generated from demographic, activity, temporal, analytics, and biometric data, received from the manual capture data, the real-time tracking data, and the remote data inputs.