Abstract: An information processing method for an electronic device includes obtaining orientation information of the electronic device, determining an area having a specified angle based on the orientation information, identifying one or more Internet of Things (IoT) device in the area, determining that the electronic device has an authority to display information of the one or more IoT device, and receiving and displaying the information of the one or more IoT device.
Abstract: An information processing method includes establishing, in response to a distance between a first electronic device and a second electronic device being less than a distance value, a communication connection between a first communication assembly of the first electronic device and a second communication assembly of the second electronic device; obtaining, by the first electronic device, information of the second electronic device through the first communication assembly and the second communication assembly; and connecting the first electronic device to a network based on the information.
Abstract: An electronic device includes a first body, a second body coupled to the first body, a trigger device, and a processing device. The trigger device is configured to generate a trigger instruction based on a trigger operation. The trigger device is placed in an area that is responsive to a movement of the first body relative to the second body. The processing device is configured to switch the electronic device from a first state to a second state in response to the trigger instruction. A power consumption state of the first state is different from a power consumption state of the second state.
Abstract: A boot method is provided for an electronic device. The boot method includes acquiring a boot signal; performing a booting process based on the boot signal; and, based on the boot signal, generating a feedback provided to the boot signal to indicate the booting process.
Abstract: An information processing method and an electronic device are provided. The method includes: acquiring an instruction for processing an image including a plurality of objects; in response to the instruction for processing the image, obtaining one or more objects, wherein a first object among the one or more objects has an object type consistent with a type of the image; and generating an interactive interface including the one or more objects and the interactive interface being configured for selecting a target object.
Abstract: An electronic device includes a transparent cover and a flexible display screen. The transparent cover has a transparent cover having a fixed shape and including a plate-shape flat surface and a sidewall, the sidewall being formed by extending an edge of the flat surface away from the flat surface, the sidewall having a curved structure, and the sidewall and the flat surface forming an inverted structure; and a flexible display screen being fitted to an inner surface of the transparent cover, a display output surface of the flexible display screen facing the transparent cover, the flexible display screen including a non-deformable portion and a deformable portion, the non-deformable portion being fitted to the flat surface, and the deformable portion being fitted to the sidewall.
Abstract: The present disclosure provides a communication method. The method includes acquiring route information of a route, which includes a destination; determining a first resource scheduling for a communication connection of a mobile device based on the route information of the route; determining whether the communication connection of the mobile device based on the first resource schedule requires more resources than a second alternative resource scheduling; and if so, using the second alternative resource scheduling for the communication connection of the mobile device.
Abstract: A configuration apparatus includes a processor and a memory. The processor is configured to obtain first data of a first device, the first data indicating that the first device is ready for network configuration. The memory is configured to store network configuration data of a second device. The processor is further configured to: obtain the network configuration data of the second device, and send the network configuration data to the first device, the network configuration data being used to configure the first device to be in a same network connection state as the second device. A power path exists between the first device and the second device, and at least one of the first data or the network configuration data is transmitted through the power path.
Abstract: A method includes receiving a first operation instruction; responsive to receiving the first operation instruction, determining whether one or more first images from a set of images comprise a first common feature; and responsive to determining that the one or more first images from the set of images comprise the first common feature, displaying the one or more first.
Abstract: An information configuration method includes transmitting a signal to a display of an electronic apparatus at a first transmission frequency, and, upon detecting that a current frequency band of the electronic apparatus is not in the first frequency band, switching the first transmission frequency to a second transmission frequency when the display is inactive. A parameter of the electronic apparatus associated with the first transmission frequency meets a predetermined condition when the electronic apparatus operates at a first frequency band. The parameter associated with the second transmission frequency meets the predetermined condition when the electronic apparatus operates at a second frequency band.
Abstract: An electronic device includes a device housing having a first receiving cavity, a function module at least partially located in the first receiving cavity, and a battery module located in the first receiving cavity. The battery module includes a battery casing that forms a second receiving cavity, a battery component located in the second receiving cavity, and a charging component located in the second receiving cavity. The battery component is configured to store electrical energy or release the stored electrical energy. The charging component is connected to the battery component and configured to charge the battery component through transmission of a wireless signal with a power supply device.
Abstract: An evaporative cooling system having a heat conducting device, the heat conducting device being capable of coupling to a heating element to be cooled and the heat conducting device comprising a first medium; a heat dissipating device having one or more heat dissipating outlets; and an evaporator disposed in the heat dissipating device and arranged in relation to the heat conducting device that is arranged at least partially outside the heat dissipating device. The heat dissipating device comprises a second medium, and the evaporator is configured to receive heat from the heat conducting device to heat the second medium of the heat dissipating device and discharge the heat from the one or more heat dissipating outlets of the heat dissipating device.
Abstract: A rotating shaft configured to connect two screen-brackets includes two axle structures arranged symmetrically. One of the two axle structures includes an axle, a motion conversion structure, a screen bracket connection structure, and a supporting bracket. The axle includes a worm groove at a surface of the axle. The motion conversion structure cooperates with the worm groove to form a worm drive. The screen bracket connection structure is movably connected to the motion conversion structure and includes mounting holes, which are configured to mount the screen-brackets. The supporting bracket is sleeved at the axle, rotates around an axis of the axle, and is movably connected to the motion conversion structure and the screen bracket connection structure. The motion conversion structure is movable along an axis direction of the axle on a first surface relative to the supporting bracket.
Abstract: A pair of glasses is disclosed. The glasses include a lens made of electrochromic glass; a camera for capturing a foreground image; an infrared sensor circuit for emitting an infrared light, receiving the infrared light reflected by a target object in the foreground image, and determining an emitting time for emitting the infrared light and a receiving time for receiving the reflected infrared light; and a processing circuit for obtaining information of an area of the target object based on the foreground image, the emitting time, and the receiving time, and controlling a change of a voltage applied to the corresponding area based on the information of the corresponding area; a battery for supplying the voltage applied to the corresponding area at the lens to change the voltage applied; and a frame for accommodating the lens, the camera, the infrared sensor circuit, the processing circuit, and the battery.