Abstract:
An electronic device and method are disclosed. The electronic device includes a touch-sensitive display, a memory and a processor. The processor implements the method, including: detect a written input including a plurality of strokes through the display, group the plurality of strokes into a first group and a second group based on respective coordinates of each of the plurality of strokes, group first strokes included in the first group into a plurality of blocks, based on a distance between respective coordinates of each of the first strokes, determine a slope for each of the plurality of blocks, rotate an area corresponding to the first group based on the determined slope, execute handwriting recognition on the first strokes based on the rotated area, and displaying a result of the handwriting recognition on the display.
Abstract:
According to various embodiments, an electronic device may include at least one sensor, at least one communication circuit, and a processor electrically connected to the at least one sensor and/or the at least one communication circuit, wherein the processor is configured to determine a relay message generation condition associated with a vehicle based at least on data acquired from the at least one sensor and/or the at least one communication circuit, to generate a relay message based at least on the data acquired from the at least one sensor and/or the at least one communication circuit when the relay message generation condition is satisfied based on the determination result, and to transmit the generated relay message to an external vehicle through the at least one communication circuit.
Abstract:
The present disclosure relates to electronic devices. An example electronic device installed in a vehicle includes a communication interface and a data retention circuit that communicates through the communication interface. The data retention circuit estimates a temperature of a storage device based on information about an outside temperature received through the communication interface and a preset temperature offset, and determines a data management period of the storage device in an off state based on the estimated temperature of the storage device and a data retention parameter.
Abstract:
An electronic device, which is configured to be mounted on an autonomous vehicle, includes: a first interface circuit configured to communicate with a plurality of storage devices, a second interface circuit configured to communicate with a plurality of zones of the autonomous vehicle, an event detector configured to output an event signal in response to detecting event data received through the second interface circuit, an event manager configured to output a data division signal in response to the event signal, and an interface manager. The interface manager is configured to: divide the event data into a plurality of data fragments in response to the data division signal, allocate the plurality of data fragments to two or more storage devices among the plurality of storage devices, respectively, and control the first interface circuit such that the plurality of data fragments are respectively transmitted to the allocated two or more storage devices.
Abstract:
An electronic device and method are disclosed. The electronic device includes a location detection circuit, a first wireless communication circuit configured to support short-range communication, a second wireless communication circuit, and at least one processor. The processor implements the method, including: receiving an advertising packet from an external device using the first wireless communication circuit, the advertising packet including identification information for the external device, acquiring a location of the electronic device using the location detection circuit, transmitting a first signal including the identification information of the external device and the acquired location to a server, using the second wireless communication circuit, receiving a second signal responsive to the first signal from the server via the second wireless communication circuit, the second signal including an alarm command for the external device, and transmitting the alarm command to the external device using the first wireless communication circuit.
Abstract:
Disclosed is an electronic device for processing a handwriting input and including a touch screen, a processor operatively connected with the touch screen, and a memory operatively connected with the processor, wherein the memory stores instructions, which when executed, cause the processor to control the electronic device to perform handwriting recognition for a first handwriting input of a user displayed on the touch screen, to convert the first handwriting input into a text, identify at least one of an attribute or characteristic of the first handwriting input, apply at least one of the identified attribute or characteristic to the converted text, and in response to a request for conversion of the first handwriting input, replace the first handwriting input into a text (herein after, a first rich text) to which the identified at least one of the attribute or characteristic has been applied.
Abstract:
An electronic device includes wireless communication circuitry configured to perform wireless communication with at least one external electronic device, a sensor configured to obtain information related to the electronic device, a processor operatively coupled to the wireless communication circuitry and the sensor, and a memory operatively coupled to the processor. The memory may store instructions, which upon execution, enable the processor to control the electronic device to: obtain first information comprising information obtained through the sensor and information on a user of the electronic device, obtain second information for the at least one external electronic device from the at least one external electronic device through the wireless communication circuitry, generate at least one group based on at least one piece of criterion information based on the obtained first information and the obtained second information, and group the at least one external electronic device based on the generated at least one group.
Abstract:
According to various embodiments of the present invention, an electronic device comprises: a communication circuit, a display, a processor operatively connected to the communication circuit and the display, and a memory operatively connected to the processor, wherein the memory, when executed, stores instructions for causing the processor to: receive a message for signal information related to walking from an external electronic device through the communication circuit; display, on the display, a first user interface for the received signal information related to walking; receive a message about signal information related to walking that has been changed according to a designated condition from the external electronic device through the communication circuit while displaying the first user interface; and displaying, on the display, a second user interface for the changed signal information related to walking. Other various embodiments, other than the various embodiments disclosed in the present invention, are possible.
Abstract:
According to various embodiments, an electronic device may include at least one sensor, at least one communication circuit, and a processor electrically connected to the at least one sensor and/or the at least one communication circuit, wherein the processor is configured to determine a relay message generation condition associated with a vehicle based at least on data acquired from the at least one sensor and/or the at least one communication circuit, to generate a relay message based at least on the data acquired from the at least one sensor and/or the at least one communication circuit when the relay message generation condition is satisfied based on the determination result, and to transmit the generated relay message to an external vehicle through the at least one communication circuit.
Abstract:
A method for providing information in an electronic device is provided. The method includes displaying a digital object through a user interface unit. The method also includes acquiring a pointer-over input regarding the digital object. The method further includes identifying attribute of the pointer-over input. The method includes determining information related to the digital object based on the identified attribute. The method also includes offering the determined information through the user interface unit.