Wearable electronic systems having varying interactions based on device orientations are described herein. The systems include a first wearable electronic device and a second wearable electronic device having an input device and a device orientation sensor. The device orientation sensor detects a device orientation of the second wearable electronic device and generates a device orientation signal. The systems have a first mapping orientation mode that performs a first mapping between inputs from the input device and functions of a user interface displayed on the first wearable electronic device when the second wearable electronic device has a first device orientation and a second mapping orientation mode that performs a second mapping between inputs from the input device and functions of the user interface displayed on the first wearable electronic device when the device orientation of the second wearable electronic device detected by the device orientation sensor is a second device orientation.

Wearable electronic systems having varying interactions based on device orientations are described herein. The systems include a first wearable electronic device and a second wearable electronic device having an input device and a device orientation sensor. The device orientation sensor detects a device orientation of the second wearable electronic device and generates a device orientation signal. The systems have a first mapping orientation mode that performs a first mapping between inputs from the input device and functions of a user interface displayed on the first wearable electronic device when the second wearable electronic device has a first device orientation and a second mapping orientation mode that performs a second mapping between inputs from the input device and functions of the user interface displayed on the first wearable electronic device when the device orientation of the second wearable electronic device detected by the device orientation sensor is a second device orientation.

A method of controlling an electronic device is provided. The method includes transmitting a communication signal to a plurality of candidate devices in the vicinity of the electronic device, generating a function code including configuration information of the electronic device, receiving candidate function codes including configuration information of the plurality of candidate devices from the plurality of candidate devices based on the communication signal, and when a feature of the plurality of candidate devices is determined to be similar to a feature of the electronic device based on the candidate function condes, generating at least one of an alert signal or a setting signal based on whether the function code matches the candidate function codes.

A method of controlling an electronic device is provided. The method includes transmitting a communication signal to a plurality of candidate devices in the vicinity of the electronic device, generating a function code including configuration information of the electronic device, receiving candidate function codes including configuration information of the plurality of candidate devices from the plurality of candidate devices based on the communication signal, and when a feature of the plurality of candidate devices is determined to be similar to a feature of the electronic device based on the candidate function condes, generating at least one of an alert signal or a setting signal based on whether the function code matches the candidate function codes.

A remote control system for a vehicle having an onboard vehicle controller for controlling vehicle functions and a mobile radio remote control, connected to the vehicle controller in a signal-transmitting manner, for remotely controlling the vehicle functions according to a location of the radio remote control relative to the vehicle. The vehicle controller and the radio remote control each have at least one antenna for wireless signal transmission between the vehicle controller and the radio remote control. The antenna of the radio remote control has a direction-dependent antenna characteristic. At least one spatial position of the antenna of the radio remote control can be determined automatically by a position sensor device of the radio remote control, and an automatic determination of a distance or spatial location of the radio remote control relative to the vehicle can be processed according to the determined spatial position of the antenna.

Embodiments of the present disclosure provide a method and apparatus for displaying measurement parameters. The method comprises: in response to receiving an input signal indicating to display one or more measurement parameters of an electrical device, reading from a memory a first data associated with the one or more measurement parameters for display, and generating an update request for the first data; sending the update request to the electrical device; and in response to receiving, from the electrical device, a second data associated with the one or more measurement parameters, writing the second data to the memory as updated data to replace the first data. According to embodiments of the present disclosure, a large amount of measurement data of a power distribution system can be collected and displayed, data display is decoupled from data communication, and the impact of communication delay is eliminated, thereby improving the user's experience.

A remote control system includes a first control device, a second control device, and a remote control device. The first control device performs an operation control on a first controlled device mounted on a moving body. The second control device performs an operation control on a second controlled device installed in a building. When one of the operation control on the first controlled device by the first control device and the operation control on the second controlled device by the second control device has been performed, the remote control device causes, by a remote control, an execution of an other of the operation control on the first controlled device by the first control device and the operation control on the second controlled device by the second control device.

A remote control system includes a first control device, a second control device, and a remote control device. The first control device performs an operation control on a first controlled device mounted on a moving body. The second control device performs an operation control on a second controlled device installed in a building. When one of the operation control on the first controlled device by the first control device and the operation control on the second controlled device by the second control device has been performed, the remote control device causes, by a remote control, an execution of an other of the operation control on the first controlled device by the first control device and the operation control on the second controlled device by the second control device.

A meter monitoring system (200) includes: a wireless gateway (202), a monitoring device (201), and at least one meter recognition apparatus (100). The meter recognition apparatus (100) includes: an image acquirer (1), a processor (2), and a wireless transceiver (3). The image acquirer (1) is configured to acquire images of a display side of a monitoring meter (4) at set time intervals. The processor (2) is coupled to the image acquirer (1) and configured to determine, according to an image of the images acquired by the image acquirer (1) and based on an image processing algorithm, monitoring data displayed by the monitoring meter (4). The wireless transceiver (3) is coupled to the processor (2) and configured to send the monitoring data determined by the processor (2) to the wireless gateway (202). The wireless gateway (202) is configured to transmit the received monitoring data to the monitoring device (201).

A meter monitoring system (200) includes: a wireless gateway (202), a monitoring device (201), and at least one meter recognition apparatus (100). The meter recognition apparatus (100) includes: an image acquirer (1), a processor (2), and a wireless transceiver (3). The image acquirer (1) is configured to acquire images of a display side of a monitoring meter (4) at set time intervals. The processor (2) is coupled to the image acquirer (1) and configured to determine, according to an image of the images acquired by the image acquirer (1) and based on an image processing algorithm, monitoring data displayed by the monitoring meter (4). The wireless transceiver (3) is coupled to the processor (2) and configured to send the monitoring data determined by the processor (2) to the wireless gateway (202). The wireless gateway (202) is configured to transmit the received monitoring data to the monitoring device (201).