Abstract:
A calibration method performed by a distance sensor emitting at least one beam is provided. The calibration method includes obtaining information regarding one surface of an object; obtaining distance sensor data by emitting a plurality of beams to the one surface of the object; and performing calibration on the plurality of beams emitted by the distance sensor, based on the information about the one surface of the object and the distance sensor data.
Abstract:
Methods and apparatuses are provided for controlling a vehicle. The vehicle is controlled to operate in an autonomous driving mode in which the vehicle is driven without a manipulation by an operator of the vehicle. A request to switch to a manual driving mode, in which the vehicle is driven with the manipulation by the operator, is received. A range of the manipulation regarding a function of the vehicle is determined according to a driving situation of the vehicle in response to the request. The vehicle is controlled to operate in the manual driving mode in which the manipulation by the operator is limited according to the range of the manipulation.
Abstract:
An electronic device and a method are provided. The electronic device includes: at least one sensing unit configured to acquire position data and image data for each of a plurality of nodes at predetermined intervals while the electronic device is moving; and a processor configured to extract an object from the image data, generate first object data for identifying the extracted object, and store position data of a first node corresponding to the image data from which the object has been extracted and the first object data corresponding to the first node.
Abstract:
Provided is a method of controlling driving, based on sensing information, the method being performed, for example, by a device included in an object and including: obtaining sensing information; determining a sensing blind zone in a sensing zone based on the sensing information; generating a control signal based on the sensing blind zone; and controlling driving of the object using the control signal.
Abstract:
An optoelectronic shutter, a method of operating the same, and an optical apparatus including the optoelectronic shutter are provided. The optoelectronic shutter includes a phototransistor which generates an output signal from incident input light and a light emitting diode serially connected to the phototransistor. The light emitting diode outputs output light according to the output signal, and the output signal is gain-modulated according to a modulation of a current gain of the phototransistor.
Abstract:
An electronic apparatus is provided, which includes a searching unit searching for image forming devices to which the electronic apparatus is connectable, a user interface unit receiving a selection of an image forming device, by which a printing job is to be performed, of the searched image forming devices and receiving a selection of a document file, of which the printing job is to be performed, of document files stored in a cloud server, an updating unit receiving device information of the selected image forming device from the selected image forming device and updating device information of image forming devices pre-registered in the cloud server using the received device information of the image forming device, and a communication interface unit receiving print data of the selected document file from the cloud server and transferring the received print data to the selected image forming device.
Abstract:
A calibration method performed by a distance sensor emitting at least one beam is provided. The calibration method includes obtaining information regarding one surface of an object; obtaining distance sensor data by emitting a plurality of beams to the one surface of the object; and performing calibration on the plurality of beams emitted by the distance sensor, based on the information about the one surface of the object and the distance sensor data.
Abstract:
An electronic apparatus is provided, which includes a searching unit searching for image forming devices to which the electronic apparatus is connectable, a user interface unit receiving a selection of an image forming device, by which a printing job is to be performed, of the searched image forming devices and receiving a selection of a document file, of which the printing job is to be performed, of document files stored in a cloud server, an updating unit receiving device information of the selected image forming device from the selected image forming device and updating device information of image forming devices pre-registered in the cloud server using the received device information of the image forming device, and a communication interface unit receiving print data of the selected document file from the cloud server and transferring the received print data to the selected image forming device.