Abstract:
A method for controlling smart terminals includes identifying a surrounding one of the smart terminals currently near a local terminal, and when the surrounding smart terminal is located in a predetermined safe region, performing at least one of sending a parameter control instruction to the surrounding smart terminal, sending the parameter control instruction to a predetermined one of the smart terminals, or changing a parameter setting of the local terminal according to a predetermined parameter setting.
Abstract:
The present disclosure relates to a laser ranging device. The laser ranging device includes an encoded chassis, a rotary disc, a first barrier ring on the rotary disc and/or a second barrier ring on the encoded chassis. The encoded chassis includes a rotary bin and a plurality of ranging teeth disposed at intervals on the periphery of the rotary bin. The rotary disc is mounted within the encoded chassis and is rotatable within the rotary bin when the rotary disc is driven. The first barrier ring is disposed at the edge of the bottom surface of the rotary disc and the second barrier ring is disposed at the periphery of the ranging teeth, and the first barrier ring is located at the periphery of the ranging teeth after the rotary disc is mounted to the encoded chassis.
Abstract:
A method and an apparatus are provided for connecting with a controlled smart device. The method includes: obtaining wireless communication schemes, each of which allows connecting with the controlled smart device currently; determining a first wireless communication scheme with a highest priority among the wireless communication schemes, according to priorities corresponding respectively to the wireless communication schemes; and sending a connecting request to the controlled smart device, by adopting the first wireless communication scheme with the highest priority.
Abstract:
A method for controlling an unmanned aerial vehicle (UAV) is provided. The UAV includes an external system configured to generate information about its surrounding environment and a communication system configured to provide a data link for transmission of the information to a remote controller associated with the UAV. The method comprises: determining whether a distance between the UAV and the remote controller exceeds a predetermined range; determining whether the UAV is capable of transmitting the information about its surrounding environment to the remote controller, the determination including determining whether at least one of the external system and the data link is in a normal state of operation; and after determining that the distance exceeds the predetermined range and that the UAV is not capable of transmitting the information to the remote controller, controlling the UAV to operate in a return mode.
Abstract:
A charging pile, a method and device for recognizing the charging pile are provided. The charging pile may include: a pile body having a side surface; a power interface provided on the side surface of the pile body to supply power for the autonomous cleaning device; an identification structure arranged on the side surface of the pile body to enable the autonomous cleaning device to recognize a position of the power interface and comprising a plurality of identification elements, each of the plurality of identification elements comprising at least one convex and at least one concave; wherein a retroreflection coefficient of any one of the at least one convex and the at least one concave is smaller than that of the other one of the at least one convex and the at least one concave and sufficient to form a retroreflected light recognizable by the autonomous cleaning device; and wherein at least one of the plurality of identification elements comprises a convex and a concave having mismatched specifications.
Abstract:
A method and an apparatus for controlling photography of an unmanned aerial vehicle and an electronic device are provided. The method includes: determining that a predefined mode starting condition is satisfied; and starting a predetermined photographic mode to be applied in a photographic operation, the predetermined photographic mode corresponding to the predefined mode starting condition.
Abstract:
The present disclosure relates to a laser ranging device. The laser ranging device includes an encoded chassis, a rotary disc, a first barrier ring on the rotary disc and/or a second barrier ring on the encoded chassis. The encoded chassis includes a rotary bin and a plurality of ranging teeth disposed at intervals on the periphery of the rotary bin. The rotary disc is mounted within the encoded chassis and is rotatable within the rotary bin when the rotary disc is driven. The first barrier ring is disposed at the edge of the bottom surface of the rotary disc and the second barrier ring is disposed at the periphery of the ranging teeth, and the first barrier ring is located at the periphery of the ranging teeth after the rotary disc is mounted to the encoded chassis.
Abstract:
An automatic cleaning device includes: a sensor system for collecting a pre-set environment parameter of surroundings of the automatic cleaning device; and an application processor. The application processor includes a central processing unit electrically coupled to the sensor system to acquire the pre-set environment parameter collected by the sensor system. The application processor further includes a graphic processing unit electrically coupled to the central processing unit. The graphic processing unit obtains the pre-set environment parameter from the central processing unit and then generates a map of the surroundings of the automatic cleaning device based on the pre-set environment parameter.
Abstract:
Disclosed are a method and device for guiding an operation and an electronic apparatus. The method includes: obtaining completion progress of operation tasks performed by a current user on an intelligent hardware, wherein the operation tasks are set according to operation functions of the intelligent hardware; selecting a current operation task from uncompleted operation tasks based on the completion progress; configuring operation authorization of the intelligent hardware for the current user to restrict the current user from implementing operation functions corresponding to uncompleted operation tasks except for the current operation task; and updating the completion progress based on a completion status of the current operation task performed by the current user.
Abstract:
The present disclosure relates to a laser ranging device. The laser ranging device includes an encoded chassis, a rotary disc, a first barrier ring on the rotary disc and/or a second barrier ring on the encoded chassis. The encoded chassis includes a rotary bin and a plurality of ranging teeth disposed at intervals on the periphery of the rotary bin. The rotary disc is mounted within the encoded chassis and is rotatable within the rotary bin when the rotary disc is driven. The first barrier ring is disposed at the edge of the bottom surface of the rotary disc and the second barrier ring is disposed at the periphery of the ranging teeth, and the first barrier ring is located at the periphery of the ranging teeth after the rotary disc is mounted to the encoded chassis.