The present disclosure provides a multipath device working system, including a processor and a touch display module, a control management module, a wireless communication module, a USB module, a microphone, and a loudspeaker that are respectively connected to the processor. The touch display module is configured to display a user operation interface and obtain a control instruction from a user. Both the wireless communication module and the USB module are configured to perform data transmission between the multipath device working system and an external communication device. The control management module is configured to manage a plurality of software communication terminals on the external communication device. The processor is configured to separately perform data processing on data transmitted by the touch display module, the control management module, the wireless communication module, the USB module, the microphone, and the loudspeaker.

A mobile device which operates in conjunction with a mobile device cradle is provided. The mobile device is a mobile device which is held by a mobile device cradle and controls the mobile device cradle to be driven, and may include at least one camera which captures a forward image, a display, and at least one processor which executes an application which detects a subject from the forward image and controls the mobile device cradle to be driven so that a forward direction of the mobile device follows the subject according to movement of the subject.

The present invention relates generally to the field of cell phone cases. More specifically, the present invention relates to a cell phone charging case device that is comprised of a body, a rear surface, a storage compartment, a cover and at least one charging cable. The device is also comprised of a detachable storage compartment that is further comprised of a battery and at least one charging cable that may charge external devices other than the cell phone it encases. Thus, the device can be applied to any cell phone, such that a cell phone may be charged without the need for an electrical wall outlet.

An electronic device according to various embodiments of the present invention may comprise: a housing including a hole formed therethrough; an earphone jack built in the housing such that an earphone plug is received therein through the hole; a gas sensor integrally formed with the earphone jack; a memory positioned inside the housing; and a processor positioned inside the housing and electrically connected with the earphone jack, the gas sensor, and the memory, wherein the memory stores instructions by which, when executed, the processor: controls the gas sensor to obtain data related to a specific component of the outside air; and causes the gas sensor to calculate a cleanliness level of the outside air on the basis of at least one of data obtained before a predetermined measurement disturbance element is generated and data obtained after the measurement disturbance element is removed. Other various embodiments are also possible.

A bridge device includes a housing, a plurality of electrodes exposed outside of the housing such that at least two of the plurality of electrodes can be concurrently placed in contact with a patient's skin. A controller is disposed within the housing. A first communications module is operably coupled to the controller and to the at least two of the plurality of electrodes. The first communications module is configured to allow the controller to communicate with an implantable medical device via at least two of the plurality of electrodes using conducted communication. A second communications module is operably coupled to the controller and is configured to allow the controller to communicate with a remote device external to the patient.

A bridge device includes a housing, a plurality of electrodes exposed outside of the housing such that at least two of the plurality of electrodes can be concurrently placed in contact with a patient's skin. A controller is disposed within the housing. A first communications module is operably coupled to the controller and to the at least two of the plurality of electrodes. The first communications module is configured to allow the controller to communicate with an implantable medical device via at least two of the plurality of electrodes using conducted communication. A second communications module is operably coupled to the controller and is configured to allow the controller to communicate with a remote device external to the patient.

The method includes: A first electronic device displays a control center on a first interface, where the control center includes a device list including one or more electronic devices, and the one or more electronic devices and the first electronic device are in a same content continuation system. The first electronic device receives a first selection operation of selecting a second electronic device from the one or more electronic devices by a user. In response to the first selection operation, the first electronic device determines whether the first electronic device is a source device or a target device of a current content continuation task. If the first electronic device is the target device of the current content continuation task, the first electronic device switches content in the second electronic device to the first electronic device for continuous playing.

Systems and methods are provided for aggregating and guiding access to data from multiple different electronic messaging applications via a quickly accessible communications-hub mode. The method includes displaying, on a display of a wrist-wearable device that includes at least a first messaging application and a second messaging application distinct from the first messaging application, a watch-face UI. The method includes, while displaying the watch-face UI, detecting an input from a user wearing the wrist-wearable device, the input corresponding to a request from the user to activate a communications-hub mode. The method further includes in response to detecting the input corresponding to the request from the user to activate the communications-hub mode ceasing to display the representation of the watch face, and displaying, on the display of the wrist-wearable device, the aggregated messaging UI.

Systems and methods permit filling containers with a product. A filling arm is disposed within a chamber. An optical sensor is configured to sense openings of the containers within the chamber. Locations of the sensed openings are used to guide the filling arm to fill the containers with a product.

Systems and methods permit filling containers with a product. A filling arm is disposed within a chamber. An optical sensor is configured to sense openings of the containers within the chamber. Locations of the sensed openings are used to guide the filling arm to fill the containers with a product.