Various aspects include wearable audio devices enabling modular component attachment and detachment. In certain implementations, a wearable audio device includes: a headband for contacting a head of a user; an earpiece coupled with the headband for positioning proximate an ear of the user, the earpiece having an electro-acoustic transducer configured to output audio signals; and a slot configured to engage an electronic component, where the slot includes one or more snap-fit and/or friction-fit connectors for selectively engaging the electronic component.

A system, mobile radio, remote speaker microphone and wearable mask are provided. In one or more embodiments, a mobile radio is provided. A mobile radio is provided and includes communication interface configured to: receive at least one of first wireless audio signals from a wearable mask and second wireless audio signals from another mobile radio; and processing circuitry in operative communication with the communication interface, the processing circuitry configured to, if first wireless audio and second wireless audio signals are received by the communication interface, sum the first and second wireless audio signals for transmission to a remote speaker microphone if a first criterion is met.

A system, mobile radio, remote speaker microphone and wearable mask are provided. In one or more embodiments, a mobile radio is provided. A mobile radio is provided and includes communication interface configured to: receive at least one of first wireless audio signals from a wearable mask and second wireless audio signals from another mobile radio; and processing circuitry in operative communication with the communication interface, the processing circuitry configured to, if first wireless audio and second wireless audio signals are received by the communication interface, sum the first and second wireless audio signals for transmission to a remote speaker microphone if a first criterion is met.

Embodiments of the present application disclose a master/slave switching method for a wearable apparatus and a related product. The wearable apparatus comprises: a first earphone and a second earphone. The wearable apparatus is connected to an electronic device. The method comprises the following steps: an electronic device acquiring a first earphone audio type matching a first earphone and a second earphone audio type matching a second earphone, wherein different audio types correspond to different priorities; the electronic device determining a first application currently operating; and the electronic device determining, according to the first application, the first earphone audio type, and the second earphone audio type, whether to perform switching between a master earphone and a slave earphone for the wearable apparatus. The technical solution provided by the present application achieves an improved user experience.

Systems (200), devices (101), and methods are configured to generate and provide to users an indication representative of conversion of consumption from a first type of aerosol-generating article to a second type of aerosol-generating article. The systems (200), devices (101), and methods may be configured automatically detect and provide at least one first value representative of consumption of the first type of aerosol-generating article (2) such as, for example, combustion-style aerosol-generating articles (e.g., combustible cigarettes), and at least one second value representative of consumption of a second type of aerosol-generating article (4) such as, e.g., for example, a heated-type aerosol-generating articles (e.g., heat sticks), over a time period. The indication representative of conversion of consumption may be based on the at least one first value (2) and the at least one second value (4).

Embodiments of the present application disclose a master/slave switching method for a wearable apparatus and a related product. The wearable apparatus comprises: a first earphone and a second earphone. The wearable apparatus is connected to an electronic device. The method comprises the following steps: an electronic device acquiring a first earphone audio type matching a first earphone and a second earphone audio type matching a second earphone, wherein different audio types correspond to different priorities; the electronic device determining a first application currently operating; and the electronic device determining, according to the first application, the first earphone audio type, and the second earphone audio type, whether to perform switching between a master earphone and a slave earphone for the wearable apparatus. The technical solution provided by the present application achieves an improved user experience.

Disclosed are a method for controlling the volume of a wireless headset, a wireless headset and a mobile terminal. The method comprises: when the mobile terminal is connected to a wireless headset in an in-ear state, acquiring a target play volume range of the wireless headset; adjusting the play volume of the wireless headset within the target play volume range; when volume determination information from the wireless headset is received, determining that the play volume of the wireless headset at the moment the volume determination information is received is a target play volume value; and adjusting the play volume of the wireless headset to be the target play volume value. The play volume of a wireless headset suitable for a user can be automatically and quickly set.

A smart watch is disclosed which may be controlled remotely using any of a variety of communications control links and control modules that are not part of the watch itself. The control links include RF, Bluetooth, Optical, Hardwired and Artificial Intelligence (Al) control links; operating in combination with tactile, audio and/or visual/motion sensing control mechanisms (modules). The disclosed smart watch optionally includes an expandable speaker extending from the wrist band of the watch to allow for the speaker to easily be placed next to the user's ear while in use. The Bluetooth speaker may be removable and may be used with other wireless devices. Methods, apparatus and systems incorporating the disclosed teachings are particularly well suited to support use of a smart watch by the disabled; and allows for both hands free and/or remote smart watch operation and control.

The presented solution enables placement of mobile device advantageously formed by central control unit (9z) or mobile phone in removable condition, in holder (805) placed on bracelet (806), on wrist (836). Device can be formed, with the advantage, by mobile phone which is possible to remove out of holder (805), for to make call, by loosening bolts (812), pressing buttons (808) and put earphone to ear. The device is possible to be shifted to other holders (805), placed on various places or objects.

A horse training goggle assembly includes a pair of goggles that may be worn by a jockey riding a horse during race training. The goggles have a frame and a lens that is removably positioned in the frame. A tracking unit is coupled to the goggles and the tracking unit is in electrical communication with a global positioning system (GPS) to identify a physical location of the jockey. Moreover, the tracking unit calculates a speed and direction of the horse during the race training. A display is embedded within the lens and the display is visible to the jockey when the goggles are worn. The display displays indicia in the lens and the display is electrically coupled to the tracking unit to display data relating to the speed and direction of the horse. A communication unit is coupled to the goggles for verbal communication between the jockey and the trainer.