X-ray apparatus for performing automatic exposure control, and control method thereof

1 . An X-ray apparatus comprising: an X-ray irradiation module, comprising an X-ray source, configured to output an X-ray; an X-ray detector configured to detect the X-ray output from the X-ray irradiation module; memory storing at least one instruction; and at least one processor, comprising processing circuitry, configured to execute the at least one instruction, wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: control the X-ray irradiation module to output an X-ray for a first exposure time to perform scout imaging, read out X-ray detection values from a plurality of sampling pixels corresponding to some of a plurality of pixels of the X-ray detector for the first exposure time to generate scout imaging data corresponding to the scout imaging, control the X-ray irradiation module to output an X-ray for a second exposure time determined based on the scout imaging data to perform main imaging, and read out X-ray detection values from the plurality of pixels of the X-ray detector for the second exposure time to generate a main imaging image. 2 . The X-ray apparatus of claim 1 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: determine a region of interest from the scout imaging data, and determine the second exposure time based on pixel values of the region of interest. 3 . The X-ray apparatus of claim 2 , further comprising: an input interface, comprising circuitry, configured to receive a user input, wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: select one of a plurality of machine learning models trained for each imaging area, based on imaging protocol and/or imaging area information selected by a user through the input interface, obtain region-of-interest information output from the selected machine learning model at least by inputting the scout imaging data to the selected machine learning model, and determine the region of interest based on the obtained region-of-interest information. 4 . The X-ray apparatus of claim 2 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: identify an artificial device from the scout imaging data, and determine the region of interest excluding the identified artificial device. 5 . The X-ray apparatus of claim 2 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: identify an organ damage area from the scout imaging data, and determine the region of interest excluding the identified organ damage area. 6 . The X-ray apparatus of claim 2 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to determine a preset default area as the region of interest based on the number of pixels of the region of interest determined from the scout imaging data being less than a reference value. 7 . The X-ray apparatus of claim 1 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to determine the second exposure time from the scout imaging data based on pixel values of the region of interest, a target dose and attributes of the X-ray detector. 8 . The X-ray apparatus of claim 7 , wherein the attributes of the X-ray detector correspond to at least one of sensitivity, a dynamic range or a sampling pixel layout. 9 . The X-ray apparatus of claim 7 , wherein the target dose is based on at least one of an imaging protocol, an imaging area or a medical institute. 10 . The X-ray apparatus of claim 1 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to determine at least one of an output voltage, an output current, or an output charge quantity of the X-ray irradiation module based on the scout imaging data. 11 . The X-ray apparatus of claim 1 , wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to, when the determined second exposure time exceeds a reference time, operate in a manual imaging mode for determining the second exposure time according to a user input. 12 . The X-ray apparatus of claim 1 , further comprising: a communication module, comprising communication circuitry, configured to communicate with an external device, wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: transmit the scout imaging data to the external device through the communication module, and receive the second exposure time computed by the external device. 13 . The X-ray apparatus of claim 1 , further comprising: a communication module, comprising communication circuitry, configured to communicate with an external device, wherein the at least one processor is configured to individually and/or collectively execute the at least one instruction to: refresh the X-ray detector after performing the scout imaging, while performing the refreshing, wirelessly transmit the scout image to an external device via the communication module, receive the second exposure time information determined by the external device via the communication module, and set the X-ray irradiation module with a set second exposure time and operation parameters for the main imaging. 14 . A method of controlling an X-ray apparatus, the method comprising: performing scout imaging at least by outputting an X-ray for a first exposure time; reading out X-ray detection values for the first exposure time from a plurality of sampling pixels corresponding to some of a plurality of pixels of the X-ray detector and generating scout imaging data corresponding to the scout imaging; performing main imaging by outputting an X-ray for a second exposure time determined based on the scout imaging data; and reading out X-ray detection values from the plurality of pixels of the X-ray detector for the second exposure time to generate a main imaging image. 15 . A computer-readable recording medium having a program recorded thereon to cause a computer to perform the method of claim 14 .