Device and method for operating network in wireless communication system

What is claimed is: 1 . A method performed by a first base station (BS) in a wireless communication system, the method comprising: receiving, from each of at least one second B S, a message including information related to a sum of traffic loads of a plurality of user equipment (UEs) and information related to a location; identifying a sum of traffic loads transmitted from a plurality of second base stations (BSs) to the UEs, the second BSs being located in a first area within a service area of the first BS; identifying whether the identified sum of the traffic loads is larger than a sum of data rates for the UEs of the second BSs located in the first area; in a case that the identified sum of the traffic loads is larger than the sum of the data rates, identifying a UE of the plurality of UEs as a specific UE to perform a second BS operation; and transmitting, to the specific UE, information indicating that the UE is to be operated as the specific UE. 2 . The method of claim 1 , wherein the second BSs communicate directly with the first BS via a backhaul link, and wherein, in a case where UEs of the plurality of UEs do not perform the second BS operation, communicating, by each of the UEs of the plurality of UEs to with the second BSs via an access link according to a normal mode of UE operation. 3 . The method of claim 1 , wherein identifying the UE as the specific UE to perform the second BS operation includes: selecting candidate UEs from among the UEs of the second BSs; allocating a reference signal identification (ID) and a frequency and time resource to each of the candidate UEs; transmitting first information related to the reference signal ID allocated to the candidate UEs to the second BSs; receiving a reference signal from each of the candidate UEs; estimating a channel state between each of the candidate UEs and the first BS based on the reference signal received from each of the candidate UEs; estimating a backhaul link capacity and access link capacity for each of the candidate UEs based on the channel state estimated for each of the candidate UEs; and selecting the specific UE based on the backhaul link capacities and the access link capacities estimated for the candidate UEs. 4 . The method of claim 3 , wherein selecting the specific UE based on the backhaul link capacities and access link capacities estimated for the candidate UEs includes: identifying a first backhaul link capacity, which is a backhaul link capacity estimated for the candidate UEs except for data traffic required by the candidate UEs and a first access link capacity which is an average of the access link capacities estimated for the candidate UEs; and selecting a candidate UE among the candidate UEs which maximizes a minimum value of the first backhaul link capacity and the first access link capacity as the specific UE. 5 . The method of claim 1 , further comprising: in a case where a number of backhaul links which can be allocated by the first BS is less than a number of possible areas within the service area of the first BS, selecting at least one BS to operate in a normal UE operation mode; and transmitting, to the at least one second BS, information indicating that the at least one second BS is to be operate in the normal UE operation mode. 6 . The method of claim 5 , wherein selecting the at least one second BS to operate in the normal UE operation mode comprises: identifying a sum of data rates required by UEs located in each of the possible areas within the service area of the first BS; and transmitting information indicating that at least one of the UEs located in the possible areas within the service area of the first BS are to operate as the specific UE and that at least one specific second BSs is to operate in the normal UE operation mode based on the sums of the data rates required by the UEs located in each of the possible areas within the service area of the first BS. 7 . The method of claim 1 , further comprising: in a case that the second BSs include the second BS receiving data above a threshold data amount during a threshold time, identifying second BSs receiving data below the threshold data amount during the threshold time as malfunctioning second BSs; and transmitting information indicating that the second BS receiving data above the threshold data amount during the threshold time is to communicate with the other second BSs via an access link according to a normal mode of UE operation. 8 . The method of claim 1 , further comprising: receiving, from a second BS of the plurality of BSs at a number of times exceeding a threshold number, information indicating that a second BS has a malfunction; identifying the second BS of the plurality of second BSs as a malfunctioning second BS based on receiving the information indicating the malfunction in excess of the threshold number; and transmitting, to the second BS indicated as malfunctioning, a request to operate in a normal mode of UE operation, by communicating with other second BSs via an access link. 9 . A method performed by a user equipment (UE) in a wireless communication system, the method comprising: in case that a specific second base station (BS) among second BSs connected with the UE meets a predefined condition, identifying the specific second BS as a malfunctioning second BS; and transmitting information indicating that the specific second BS is the malfunctioning second BS to a second BS other than the specific second BS among the second BSs, wherein the predefined condition includes a condition where a data rate of data received by the UE through the specific second BS is less than a threshold. 10 . The method of claim 9 , wherein the predefined condition further includes a condition in which a time during which an access link quality measured by the UE is maintained as less than a threshold access link quality exceeds a threshold time. 11 . A first base station (BS) in a communication system, the first BS comprising: a controller configured to: identify a sum of traffic loads transmitted from at least one second BS to a plurality of user equipment (UEs), the at least one second BSs being located in an area among areas included in a service area of the first BS, identify whether the identified sum of the traffic loads is larger than a sum of data rates for the UEs of the second BSs located in a first area, and in a case that the identified sum of the traffic loads is larger than the sum of the data rates, identify a UE among the plurality of UEs to operate as a second BS; and a transceiver configured to: receive, from each of second BS, a message including information related to a sum of traffic loads of the UEs and information related to a location, and transmit, to a UE in the location, information indicating that the UE is to operate in a normal mode of UE operation. 12 . The first BS of claim 11 , wherein the second BSs directly communicate with the first BS via a backhaul link, and wherein, in a case that UEs of the plurality of UEs do not operate as the second BS, the UEs operate in the normal mode of UE operation and communicate with second BSs via an access link. 13 . The first BS of claim 11 , wherein the controller is configured to: select candidate UEs from among the UEs operating as second BSs, estimate a channel state between each of the candidate UEs and the first BS based on a reference signal received from each of the candidate UEs, and select a specific UE based on backhaul link capacities and access link capacities estimated for the candidate UEs, and, wherein the transceiver is configured to: