Remote interference management method, gNB, electronic device, and readable storage medium

The invention claimed is: 1. A method of remote interference management (RIM), performed by a first base station in a wireless communication system, the method comprising: identifying configuration information including a first base station set identifier (ID) for a first remote interference management reference signal (RIM-RS) and a second base station set ID for a second RIM-RS, wherein a set of available sequences corresponding to the first base station set ID is configured with the first base station; transmitting, to a second base station, the first RIM-RS determined based on the first base station set ID of the configuration information in a first period indicated by the first base station set ID; in response to remote interference being reduced, receiving, from the second base station, the second RIM-RS in a second period after the first period and indicated by the second base station set ID of the configuration information; in case that the remote interference is not reduced to a designated level, transmitting, to the second base station, a third RIM-RS including first bits corresponding to a first sequence index, wherein the first sequence index is included in a first half of sequence indexes for the set of the available sequences and wherein the first half of the sequence indexes indicates the remote interference exists; and in case that the remote interference is reduced to the designated level based on the first RIM-RS, transmitting, to the second base station, a third RIM-RS including second bits corresponding to a second sequence index, wherein the second sequence index is included in a second half of the sequence indexes for the set of the available sequences and wherein the second half of the sequence indexes indicates the remote interference is reduced to the designated level, wherein the second half of the sequence indexes follows the first half of the sequence indexes, wherein a time period in which the first RIM-RS and the third RIM-RS are transmitted is divided into a first period for the first RIM-RS and a third period for the third RIM-RS which follows the first period, wherein the first period is indexed with a first number of transmission occasions based on a number of switching points, included in the time period, between a downlink pattern and an uplink pattern, and the third period is indexed with a second number of transmission occasions based on the number of the switching points, and wherein the first base station set ID indicates a first index corresponding to a first occasion in which the first RIM-RS is transmitted among the first period, and a second index corresponding to a second occasion in which the third RIM-RS is transmitted among the third period. 2. The method of claim 1 , further comprising: detecting the second RIM-RS; determining information on the second base station set ID based on the second RIM-RS; and reporting the information on the second base station set ID. 3. The method of claim 1 , wherein the configuration information comprises at least one of DL-UL pattern period, transmission period of RIM-RS, time period allocation information of each type of the RIM-RS in the transmission period of the RIM-RS, a number of repetitions of each type of RIM-RS, a number of frequency domain resources of the RIM-RS, or the set of available sequences on transmission occasions of the RIM-RS. 4. The method of claim 2 , wherein a type of the first RIM-RS comprises at least one of a first type RIM-RS for a near base station interference measurement, and a second type RIM-RS for a remote base station interference measurement. 5. The method of claim 4 , wherein a number of repetitions of the first type RIM-RS for the near base station interference measurement is equal to a number of repetitions of the second type RIM-RS for the remote base station interference measurement. 6. The method of claim 2 , the method further comprising: stopping a transmission of the third RIM-RS including the first bits in case that the second RIM-RS is not detected. 7. A first base station in a wireless communication system, the first base station comprising: at least one transceiver; and at least one processor coupled with the at least one transceiver, wherein the at least one processor is configured to: identify configuration information including a first base station set identifier (ID) for a first remote interference management reference signal (RIM-RS) and a second base station set ID for a second RIM-RS, wherein a set of available sequences corresponding to the first base station set ID is configured with the first base station, transmit, to a second base station, the first RIM-RS determined based on the first base station set ID of the configuration information in a first period indicated by the first base station set ID, in response to remote interference being reduced, receive, from the second base station, the second RIM-RS in a second period after the first period and indicated by the second base station set ID of the configuration information, in case that the remote interference is not reduced to a designated level, transmit, to the second base station, a third RIM-RS including first bits corresponding to a first sequence index, wherein the first sequence index is included in a first half of sequence indexes for the set of the available sequences and wherein the first half of the sequence indexes indicates the remote interference exists, and in case that the remote interference is reduced to the designated level based on the first RIM-RS, transmit, to the second base station, a third RIM-RS including second bits corresponding to a second sequence index, wherein the second sequence index is included in a second half of the sequence indexes for the set of the available sequences and wherein the second half of the sequence indexes indicates the remote interference is reduced to the designated level, wherein the second half of the sequence indexes follows the first half of the sequence indexes, wherein a time period in which the first RIM-RS and the third RIM-RS are transmitted is divided into a first period for the first RIM-RS and a third period for the third RIM-RS which follows the first period, wherein the first period is indexed with a first number of transmission occasions based on a number of switching points, included in the time period, between a downlink pattern and an uplink pattern, and the third period is indexed with a second number of transmission occasions based on the number of the switching points, and wherein the first base station set ID indicates a first index corresponding to a first occasion in which the first RIM-RS is transmitted among the first period, and a second index corresponding to a second occasion in which the third RIM-RS is transmitted among the third period. 8. The first base station of claim 7 , wherein the at least one processor is further configured to: detect the second RIM-RS, determine information on the second base station set ID based on the second RIM-RS, and report the information on the second base station set ID. 9. The first base station of claim 7 , wherein the configuration information comprises at least one of DL-UL pattern period, transmission period of RIM-RS, time period allocation information of each type of the RIM-RS in the transmission period of the RIM-RS, a number of repetitions of each type of RIM-RS, a number of frequency domain resources of the RIM-RS, or the set of available sequences on transmission occasions of the RIM-RS. 10. The first base station of claim 8 , wherein a type of the first RIM-RS comprises at least one of a first type RIM-RS for a near base station interference measurement, and a se