User equipment in communication with serving cell, and operating methods of user equipment in communication with serving cell

What is claimed is: 1 . An operation method of user equipment (UE) in communication with a serving cell, the operation method comprising: receiving configuration information of a first physical downlink control channel (PDCCH) from the serving cell, the first PDCCH corresponding to an interference cell; identifying the first PDCCH of the interface cell based on the configuration information; and demodulating a physical downlink shared channel (PDSCH) based on a result of the identifying, the PDSCH being received from the serving cell, wherein, the identifying the first PDCCH cell comprises: identifying a location of a PDCCH region of the interference cell; and determining whether a PDSCH region of the serving cell overlaps the PDCCH region of the interference cell, and the identifying the first PDCCH further comprises determining whether a signal of the first PDCCH exists in an overlapping region in which the PDSCH region and the PDCCH region overlap. 2 . The operation method of claim 1 , wherein the configuration information comprises at least one of: coreset configuration information of the interference cell; or search space configuration information of the interference cell. 3 . The operation method of claim 1 , wherein the demodulating the PDSCH comprises: performing first demodulation on a first portion of the PDSCH corresponding to the overlapping region; and performing second demodulation on a second portion of the PDSCH corresponding to a remaining region, the remaining region not including the overlapping region. 4 . The operation method of claim 3 , wherein the performing the first demodulation comprises: performing interference whitening on the first portion of the PDSCH based on a measured value of an interference of the first PDCCH; and demodulating the first portion of the PDSCH after the performing the interference whitening. 5 . The operation method of claim 3 , wherein the first demodulation uses a first interference whitening based on a first covariance matrix; and the second demodulation uses a second interference whitening based on a second covariance matrix, the second covariance matrix being different from the first covariance matrix. 6 . The operation method of claim 4 , wherein the measured value of the interference comprises a measured value of a demodulation reference signal (DMRS) of the first PDCCH. 7 . The operation method of claim 1 , wherein the configuration information comprises DMRS configuration information of the first PDCCH; and the determining whether the signal of the first PDCCH exists comprises measuring a DMRS of the first PDCCH using a DMRS sequence obtained based on the DMRS configuration information, and determining whether the first PDCCH exists based on a measured value of the DMRS of the first PDCCH. 8 . The operation method of claim 1 , wherein coreset configuration information of the serving cell is different from coreset configuration information of the interference cell. 9 . The operation method of claim 1 , wherein the receiving the configuration information of the first PDCCH is performed during radio resource control (RRC) signaling with the serving cell. 10 . The operation method of claim 9 , wherein the configuration information of the first PDCCH comprises a coreset pool index of coreset configuration. 11 . The operation method of claim 1 , wherein the determining whether the signal of the first PDCCH exists includes comparing a measured value of a demodulation reference signal (DMRS) of the first PDCCH to a reference value. 12 . An operation method of user equipment (UE) in communication with a serving cell, the operation method comprising: receiving configuration information of a first physical downlink control channel (PDCCH) from the serving cell, the first PDCCH corresponding to an interference cell; identifying a difference between a duration of a PDCCH region of the serving cell and a duration of a PDCCH region of the interference cell, based on the configuration information; and demodulating a physical downlink shared channel (PDSCH) received from the serving cell based on the difference, the demodulating including, performing first demodulation on a first portion of the PDSCH corresponding to an overlapping subregion between a PDSCH region of the serving cell and the PDCCH region of the interference cell, and performing second demodulation on a second portion of the PDSCH corresponding to a remaining subregion, the remaining subregion not including the overlapping subregion, and the second demodulation being different from the first demodulation. 13 . The operation method of claim 12 , wherein the identifying the difference comprises distinguishing the overlapping subregion of the PDSCH region of the serving cell and the remaining subregion of the PDSCH region, the overlapping subregion overlapping the PDCCH region of the interference cell. 14 . The operation method of claim 12 , wherein the first demodulation uses a first interference whitening, the second demodulation uses a second interference whitening, and the first interference whitening is different from the second interference whitening. 15 . The operation method of claim 14 , wherein the first interference whitening is based on a demodulation reference signal (DMRS) of the first PDCCH; and the second interference whitening is based on a DMRS of the PDSCH. 16 . The operation method of claim 14 , wherein the first interference whitening uses a first covariance matrix; and the second interference whitening uses a second covariance matrix. 17 . User equipment (UE) comprising: a radio frequency (RF) transceiver configured to receive configuration information of a first physical downlink control channel (PDCCH) from a serving cell, the first PDCCH corresponding to an interference cell; and a controller configured to, determine whether a physical downlink shared channel (PDSCH) and the first PDCCH overlap each other by identifying the first PDCCH based on the configuration information to obtain a determination result, the PDSCH being received from the serving cell, and demodulate the PDSCH based on the determination result, the demodulation of the PDSCH including, performing first demodulation on a first portion of the PDSCH corresponding to an overlapping subregion between a PDSCH region of the serving cell and a PDCCH region of the interference cell, and performing second demodulation on a second portion of the PDSCH corresponding to a remaining subregion, the remaining subregion not including the overlapping subregion, and the second demodulation being different from the first demodulation. 18 . The UE of claim 17 , wherein the configuration information comprises: at least one of coreset configuration information of the interference cell; search space configuration information of the interference cell; or demodulation reference signal (DMRS) configuration information of the first PDCCH. 19 . The UE of claim 17 , wherein a result of the identifying indicates the overlapping subregion of the PDSCH region of the serving cell and the remaining subregion of the PDSCH region, the overlapping subregion overlapping the first PDCCH. 20 . The UE of claim 17 , wherein the first demodulation uses a first interference whitening based on a first covariance matrix; and the second demodulation uses a second interference whitening based on a second covariance matrix, the second covariance matrix being