Embodiments of this application disclose a communication service status control method, a terminal device, and a computer-readable storage medium. The method includes: If it is detected that a preset trigger condition is met, enabling a first communication service corresponding to a target service, and displaying a status of a switch control of the first communication service as a first state, where the first state is used to describe that the first communication service is in an enabled state; and if a first operation for the switch control is detected and it is detected that a target service is in a running state, displaying a status of a switch control of a second communication service as a second state, and maintaining the second communication service in an enabled state, where the second state is used to describe that the second communication service is in a disabled state.

In general, the subject matter described in this disclosure can be embodied in methods, systems, and program products for determining, by a mobile computing device while a cellular connection mode remains activated and a second wireless connection mode remains activated, that a sensor of the mobile computing device has detected information indicating that the mobile computing device is located on an airplane. The mobile computing device transitions, in response to having determined that the sensor has detected information indicating that the mobile computing device is located on the airplane, the mobile computing device into a connected flight mode, including by terminating the cellular connection mode while allowing the second wireless connection mode to remain activated.

Doorbell systems can include a speaker and a visitor detection system that includes at least one of a button, a camera, and a motion detector. Doorbell systems can be configured to detect an identity of a visitor via facial recognition, initiate a communication session with a remote computing device, and send the identity to the remote computing device via the first communication session.

A hands-free apparatus includes a memory, and a hardware processor coupled to the memory. The hardware processor is configured to: perform a hands-free connection process of connecting to a mobile phone by using a hands-free communication protocol for performing a hands-free phone conversation; perform a first data transfer process of making a first connection with the mobile phone by using a data transfer protocol for transferring phone data related to phone, and causing the phone data to be automatically or manually transferred from the mobile phone; and depending on a status of a different data transfer process than the first data transfer process, perform transfer control related to transfer by at least one of the first data transfer process and the different data transfer process.

A communication system has head wearable devices arranged for wireless communication in an operating environment. A first head wearable device (100) has a camera (120) for capturing an environment image and a first processor (110) arranged for detecting a further head wearable device (150) based on a viewing direction of a wearer of the first head wearable device. Then the further head wearable device is identified at an operational distance based on a remotely detectable visual property and a communication session is established between the first head wearable device and the further head wearable device. The further head wearable device has a further processor (160) for establishing the communication session. Effectively the communication session is initiated based on eye contact of the wearers of the head wearable devices. Gestures of the wearers may be detected to initiate or define the communication session.

A mobile terminal and controlling method thereof are disclosed. The present invention includes a touchscreen; a memory configured to store access point (AP) information; a 1.sup.st wireless communication unit configured to perform a communication with an AP (access point); and a controller configured to control a user interface for remotely controlling an external device to be displayed on the touchscreen or to be in a displayable state when the AP connected to the 1.sup.st wireless communication unit matches the stored AP information.

The present invention relates generally to wireless networking, and more particularly to methods and apparatuses for providing flexible WiFi docking with minimal overhead. According to certain aspects, embodiments of the invention include methods and apparatuses that allow a WD to select peripherals in a configuration that is useful for the WD from a Topology point of view. According to certain other aspects, embodiments of the invention include methods and apparatuses that allow peripherals to be used as part of the Docking Session, but does not require using all the peripherals all the time. According to certain additional aspects, embodiments of the invention include methods and apparatuses that allow for dynamically switching the use of peripherals with minimal overhead. According to still further additional aspects, embodiments of the invention include methods and apparatuses for signaling user authentication functionality for certain peripherals to be used in a docking session.

In some implementations, a mobile computing device may participate in the calibration of an output signal of a media device. This calibration process includes storing device-specific calibration data which is related to properties of a light sensor of the mobile device. The mobile device then detects of properties of light emitted by the display device during a presentation to obtain sensor values related to light emitted by the display device during the presentation. The calibration process may also ensure that the mobile device is proximate to the display device prior to obtaining the sensor values. The collected sensor values are adjusted using device-specific calibration data stored to the mobile device to normalize the sensor values relative to a baseline. These normalized sensor values are sent to the media device for use in adjusting the output signal based on the normalized sensor values.

A terminal housing and a terminal are provided. The terminal housing includes: a metal back cover, the metal back cover including an opening and the outer surface of the metal back cover being overlaid with a nonconductive material; a printed circuit board (PCB) arranged on the inner surface of the metal back cover; a plurality of antenna units arranged on the nonconductive material, each of the plurality of antenna units including: a ground portion, the ground portion passing through the nonconductive material and being connected with the outer surface of the metal back cover; and a feed portion, the feed portion being connected with a radio frequency (RF) front-end of the PCB via a shield wire, the shield wire passing through the nonconductive material and entering into the terminal housing via the opening.

[Problem] To provide a communication system for simplifying terminal device configuration.

[Solution] A communication system comprises a server and a terminal device. The server stores first information in order for the terminal device to communicate, and stores second information in order for the terminal device to connect to a network of the other bases. When the power is turned on in a normal operation, the terminal device connects to the network by using network information in a non-volatile memory unit, obtains the first information from the server, and writes the same in a volatile memory unit. Thus, the terminal device starts operation. When the power is turned on by using a particular operation, the terminal device connects to the network by using the network information in the non-volatile memory unit, obtains network information of the other bases from the server, and stores the same in the non-volatile memory unit. Thus, it is possible to connect to the network of the other bases.