JP5512476B2 - Inter-cell interference coordination method and base station - Google Patents

Description

  The present invention relates to a mobile communication system, and more particularly, to an inter-cell interference coordination method and a base station.

  In future wireless communication systems, OFDMA (Orthogonal Frequency Division Multiple Access) or single carrier technology will be adopted as a multi-access scheme in order to improve spectral efficiency. By applying these technologies in the uplink, the inter-cell interference in the uplink direction is characterized by non-white noise that varies with resource allocation and user scheduling. The accuracy of scheduling algorithm and link adaptation algorithm is greatly affected. Therefore, in the above system, in order to reduce the influence of inter-cell interference, it is required to coordinate resource allocation and user scheduling between adjacent cells.

  Therefore, in the LTE (Long Term Evolution) standardization process, OI (Overload Indication) message and HII (High II) on the X2 interface are used to assist resource allocation and user scheduling between cells by alternately interfering interference information between adjacent cells. Interference Indication) message is defined.

  Interference control based on the OI message is a post-processing mechanism, and the processing process includes the following steps as shown in FIG.

  In step 11, the first base station measures IOT (Interference over thermal noise) from other interfering cells in the uplink direction.

  In step 12, the first base station determines whether the IOT measurement value is greater than a predetermined threshold. If it is determined that the value is large, the process proceeds to step 13;

  In step 13, the first base station transmits an overload instruction message via the X2 interface to the second base station to which the neighboring cell belongs.

  In step 14, the second base station that has received the OI message determines whether or not a user in the cell of the second base station is a major element that causes excessive neighbor cell interference. If it is determined that the element is a main element, the process proceeds to step 15;

  In step 15, the second base station decreases the transmission power of the users in the cell of the second base station that cause excessive adjacent cell interference.

  The second base station that has received the OI message determines whether or not the user in the cell of the second base station is a major element that causes excessive adjacent cell interference. The determination as to whether or not the user is made is made by the following method.

  The first signal power of the own cell received by the user in the cell and the second signal power of the adjacent cell received by the user in the cell are acquired, and the difference between the first signal power and the second signal power is It is determined whether or not the value is smaller than a predetermined threshold (for example, 6 dB). If it is determined that the value is smaller, the user is determined to be a cell boundary user.

  However, it has been found that the inter-cell interference coordination method of the prior art has at least the following deficiencies in the process of realizing the embodiments of the present invention by the inventors.

  Although the interference received from neighboring cells can be reduced by the inter-cell power control method based on OI, the transmission power of the cell boundary user must be reduced as a price. This has a very serious effect on the performance of cell boundary users having a relatively serious path loss, resulting in a decrease in service quality.

  An object of the present invention is to provide an inter-cell interference coordination method and a base station, and to improve system throughput on the premise of guaranteeing inter-cell interference coordination performance.

  In order to achieve the above object, an embodiment of the present invention provides an inter-cell interference coordination method. In the inter-cell interference coordination method used for the first base station having the service cell having at least one neighbor cell, the communication resources of the service cell and the neighbor cell are both divided into at least two resource groups, Different resource groups belonging to the same cell correspond to different overload indication OI message trigger threshold levels, and the same resource group belonging to different cells in the service cell and the neighboring cell correspond to different OI message trigger threshold levels, In the inter-cell interference coordination method, the first base station performs initial scheduling in the serving cell, step A, and the first base station includes the second neighboring cell to which the first neighboring cell belongs. Receiving an OI message from a base station of the user and Scheduling the user on the resource indicated by the OI message from the first resource to the second resource when the first neighbor cell interference becomes excessive, and the first resource comprises: The OI message trigger threshold level corresponding to the resource group of the second resource corresponds to the resource group of the first resource in the first neighboring cell, which is the resource indicated by the OI message. Above the OI message trigger threshold level.

  In step B of the inter-cell interference coordination method, the first base station receives an OI message from a second base station to which a first neighboring cell of the neighboring cells belongs, and the serving cell When the first neighbor cell interference becomes excessive by a user in the network, the user on the resource indicated by the OI message is scheduled from the first resource to the second resource, thereby Step B1 for determining whether interference of a second neighbor cell other than the neighbor cell becomes excessive, and scheduling a user on the resource indicated by the OI message from the first resource to the second resource Accordingly, when the interference of the second neighboring cell does not become excessive, the first base station may move the user on the resource indicated by the OI message from the first resource. Comprising the step B2 scheduling to the second resource, the.

  In the inter-cell interference coordination method, in the first neighboring cell, among the resource groups, the corresponding OI message trigger threshold level is higher than the OI message trigger threshold level corresponding to the resource group where the first resource is located. The OI message trigger threshold level corresponding to the resource group where the resource is located is the lowest.

  In the inter-cell interference coordination method, scheduling of a user on a resource indicated by the OI message from the first resource to the second resource results in excessive interference of the second neighboring cell. Or when the OI message trigger threshold level corresponding to the resource group to which the first resource indicated by the OI message belongs in the first neighboring cell is the highest, the first base station The transmission power of the user allocated on the resource is reduced.

  In order to achieve the above object, an embodiment of the present invention further provides a base station having a service cell having at least one neighboring cell. In a base station having a service cell having at least one neighboring cell, the communication resources of the serving cell and the neighboring cell are both divided into at least two resource groups, and different resource groups belonging to the same cell are different. Corresponding to the overload indication OI message trigger threshold level, the same resource group belonging to different cells in the serving cell and the neighboring cell corresponds to different OI message trigger threshold levels, and the base station An initial scheduling module for performing scheduling, an OI message from a second base station to which a first neighbor cell of the neighbor cells belongs, and the first neighbor by a user in the service cell When cell interference becomes excessive, And an execution module for scheduling users on resources that instructs the I message from the first resource to the second resource.

  In the base station, the execution module receives an OI message from a second base station to which a first neighbor cell of the neighbor cells belongs, and the first neighbor by a user in the service cell. When cell interference becomes excessive, by scheduling a user on the resource indicated by the OI message from the first resource to the second resource, a second neighboring cell other than the first neighboring cell Predicting means for judging whether or not the interference of the second cell becomes excessive, and scheduling the users on the resource indicated by the OI message from the first resource to the second resource, thereby the second neighboring cell. A schedule for scheduling a user on the resource indicated by the OI message from the first resource to the second resource when the interference of the OI message does not become excessive Including a-ring means.

  In the base station, in the first neighboring cell, among the resource groups whose corresponding OI message trigger threshold level is higher than the OI message trigger threshold level corresponding to the resource group where the first resource is located, The OI message trigger threshold level corresponding to the location resource group is the lowest.

  In the base station, by scheduling users on the resource indicated by the OI message from the first resource to the second resource, interference of the second neighboring cell becomes excessive, or the first When the OI message trigger threshold level corresponding to the resource group to which the first resource indicated by the OI message belongs in one neighboring cell is the highest, the transmission power of the user allocated on the first resource is reduced. And a power reduction module.

  According to the embodiment of the present invention, the following beneficial effects can be obtained.

  In an embodiment of the present invention, different IOT thresholds are set for different resource groups. Further, the first base station receives an OI message from a second base station to which the first neighbor cell of the neighbor cells belongs, and the first neighbor cell is received by a user in the service cell. When interference becomes excessive, the user on the resource indicated by the OI message is scheduled from the first resource to the second resource. The first resource is a resource indicated by the OI message. In the first neighboring cell, the OI message trigger threshold level corresponding to the resource group where the second resource is located is the first resource's resource level. It is higher than the OI message trigger threshold level corresponding to the location resource group.

  Based on the above setting, according to the embodiment of the present invention, it is shown from the simulation that the throughput of the system is improved on the premise of guaranteeing the inter-cell interference coordination performance.

It is a flowchart of the interference control based on an OI message. It is drawing which shows an adjacent cell. 6 is a diagram illustrating an OI message trigger threshold allocation diagram of a neighbor cell according to an embodiment of the present invention. FIG. 3 is a flow diagram of a method according to an embodiment of the invention. It is drawing which shows the simulation result of an Example of this invention. It is drawing which shows another simulation result of the Example of this invention.

  In the inter-cell interference coordination method and the base station according to a specific embodiment of the present invention, the communication resource of any one cell is divided into at least two groups, and the communication resource of each group corresponds to the OI message trigger threshold. However, the levels of the OI message trigger thresholds corresponding to the same resource location groups of all adjacent cells are different, and the values of the trigger thresholds of different levels are also different.

  First, the above concept will be described.

  As shown in FIG. 2, it is assumed that cell B and cell C are adjacent to cell A.

  The communication resources (carriers or resource blocks RB) of the cells A, B, and C are all divided into three groups, which are a resource group A1, a resource group A2, and a resource group A3, respectively.

  The levels of the OI message trigger thresholds corresponding to the resource groups A1 of the cells A, B, and C are different from each other, and the levels of the OI message trigger thresholds corresponding to the resource groups A2 of the cells A, B, and C are different from each other. , The level of the OI message trigger threshold corresponding to the resource group A3 of C is different.

  The OI message trigger threshold is a value required to transmit an OI message to an adjacent base station when the IOT measurement value is larger than the threshold.

  As shown in FIG. 3, the higher the trigger threshold level is, the higher the trigger threshold is, and the allocation method is considered as follows.

  In cell A, resource group A1, resource group A2, and resource group A3 correspond to the third level, first level, and second level trigger thresholds, respectively.

  In cell B, resource group A1, resource group A2, and resource group A3 correspond to the first level, second level, and third level trigger thresholds, respectively.

  In cell C, resource group A1, resource group A2, and resource group A3 correspond to the second level, third level, and first level trigger thresholds, respectively.

  Of course, the above description is only an example. The resource can be divided into more groups, and the number of neighboring cells may be larger.

  The inter-cell interference coordination method according to a specific embodiment of the present invention is used for a first base station having a service cell having at least one neighboring cell. The communication resources of the service cell and the neighboring cell are both divided into at least two resource groups, and different resource groups belonging to the same cell correspond to different overload instruction OI message trigger threshold levels. In the service cell and the neighboring cell, the same resource group belonging to different cells corresponds to different OI message trigger threshold levels. As shown in FIG. 4, the method includes the following steps.

  In step 41, the first base station performs initial scheduling by the FFR method in the service cell. Of course, any other available scheduling algorithm may be used.

  In step 42, the first base station receives an OI message from the second base station to which the first adjacent cell adjacent to the service cell belongs.

  In step 43, the first base station determines whether or not the first adjacent cell interference is excessive by a user in the cell of the first base station, and obtains a first determination result.

  In step 44, when the first determination result indicates that the first adjacent cell interference becomes excessive by the user in the cell of the first base station, the first base station transmits the OI message. The user on the resource indicated by the user is scheduled from the first resource to the second resource. The first resource is a resource indicated by the OI message. In the first neighboring cell, the OI message trigger threshold level corresponding to the resource group where the second resource is located is the first resource's resource level. It is higher than the OI message trigger threshold level corresponding to the location resource group.

  Of course, in order to make the adjustment as effective as possible, it is effective for the first neighbor cell after the adjustment, but considering that interference may be excessive in other neighbor cells, The step 44 of the embodiment specifically includes the following steps.

  In step 441, when the determination result indicates that the first adjacent cell interference is excessive by a user in the cell of the first base station, the first base station indicates the indication of the OI message. Scheduling a user on the resource to perform the second resource from the first resource to the second resource, so that the second neighboring cells other than the first neighboring cell among the neighboring cells of the cell of the first base station The second determination result is acquired by determining whether or not the interference is excessive.

  In step 442, scheduling the users on the resource indicated by the OI message from the first resource to the second resource, the second neighboring cell interference is not excessive. The first base station schedules the user on the resource indicated by the OI message from the first resource to the second resource.

Ｐ_ＵＥは、ユーザの上り送信電力、ＰＬ_ＢＳ１はユーザから隣接セルＢＳ１までのパスロス、ＩｏＴ_ｔｈ_ＢＳ１は、隣接セルＢＳ１が現在の資源ブロックに設定したＩＯＴ閾値であり、ａの値は、０から１の間にあり、本発明の具体的な実施例では、０．５である。 In a specific embodiment of the present invention, the first base station determines whether or not the first adjacent cell interference becomes excessive by a user in the cell of the first base station according to the following equation.
(formula)

P _UE is the uplink transmission power of the user, PL _BS1 is the path loss from the user to the neighboring cell BS1, IoT_th _BS1 is the IOT threshold set by the neighboring cell BS1 in the current resource block, and the value of a is from 0 to 1 In a specific embodiment of the present invention, it is 0.5.

  Of course, by scheduling users on the resource indicated by the OI message from the first resource to the second resource, interference of the second neighboring cell becomes excessive, or the first neighboring When the OI message trigger threshold level corresponding to the resource group A1 to which the first resource indicated by the OI message belongs in the cell is the highest, the method according to an embodiment of the present invention further includes the following steps.

  In step 45, the first base station decreases the transmission power of the user allocated on the first resource.

  In the first neighboring cell, among the resource groups having a corresponding OI message trigger threshold level higher than the OI message trigger threshold level corresponding to the first resource location resource group, the second resource location resource group Since the corresponding OI message trigger threshold level is the lowest, it can be adjusted step-by-step in step 44.

  A base station according to a specific embodiment of the present invention includes a service cell having at least one neighboring cell. As shown in FIG. 5, it has the following structure.

  The resource allocation module divides communication resources into at least two resource groups, sets an OI message trigger threshold level, associates the at least two resource groups with different OI message trigger threshold levels, and In a cell, the same resource group is associated with different OI message trigger threshold levels.

  The initial scheduling module performs initial scheduling by the FFR method.

  The reception module receives an OI message from the second base station to which the first adjacent cell adjacent to the service cell belongs.

  The first determination module determines whether or not the first adjacent cell interference is excessive by a user in the service cell, and obtains a first determination result.

  The execution module, when instructed by the first determination result that the first adjacent cell interference becomes excessive by a user in the cell of the first base station, the user on the resource indicated by the OI message Are scheduled from the first resource to the second resource. The first resource is a resource indicated by the OI message, that is, a resource allocated to a user that causes excessive interference in the first neighboring cell. In the first neighboring cell, the OI message trigger threshold level corresponding to the resource group of the second resource is higher than the OI message trigger threshold level corresponding to the resource group of the first resource.

  In a specific embodiment of the present invention, the execution module includes a second determination module and a scheduling module.

  When the second determination module indicates that the first adjacent cell interference becomes excessive by the user in the cell of the first base station, the user on the resource indicated by the OI message From the first resource to the second resource, among the adjacent cells of the cell of the first base station, interference of second adjacent cells other than the first adjacent cell is excessive. The second determination result is acquired.

  The scheduling module schedules a user on the resource indicated by the OI message from the first resource to the second resource, thereby confirming that the interference of the second neighboring cell does not become excessive. The user on the resource indicated by the OI message is scheduled from the first resource to the second resource.

  Hereinafter, description will be made with reference to FIG. It is assumed that the base station to which cell A belongs has received an OI message from the base station to which cell B belongs. Based on the OI message, the base station to which the cell A belongs specifies that the interference in the cell B is excessive by the user in the cell A, and the first resource indicated in the OI message is assigned to the resource group A1. In the case of belonging, the base station to which the cell A belongs schedules the user assigned on the first resource on the resource of the resource group A2 or A3.

  Of course, considering the reasonable principle, the base station to which the cell A belongs may schedule the user assigned on the first resource on the resource of the resource group A2.

  Of course, before scheduling is performed, the base station to which the cell A belongs first schedules the user assigned on the first resource on the resource of the resource group A2, thereby causing excessive interference to the cell C. It should be considered whether or not. When the interference with the cell C becomes excessive, the first base station directly reduces the transmission power of the user allocated on the first resource without adjusting.

  Of course, it is assumed that the base station to which the cell A belongs has received an OI message from the base station to which the cell B belongs. Based on the OI message, the base station to which the cell A belongs specifies that the interference in the cell B is excessive by the user in the cell A, and the first resource indicated in the OI message is assigned to the resource group A3. If so, the first base station cannot directly adjust, and the first base station directly reduces the transmission power of the user allocated on the first resource.

  Hereinafter, the effects of the embodiment of the present invention will be described from simulation.

The system level simulation parameters are as follows.
Parameters: 19 base stations, 57 sectors Cell settings: Hexagonal lattice, 19 cells, 3 sectors / cell Antenna level type: 70 degrees (-3 dB), front-to-back ratio 20 dB
Base station distance: 500m
Path loss model: 128.1 + 37.6log (R), R (km)
Low-speed attenuation change: 8 dB
Carrier frequency: 2000MHz
Distribution of user equipment: Single and randomly distributed Channel width: 10 MHz
Thermal noise: -174 dBm / Hz
Attenuation channel model: TU6 rays
Scheduling algorithm: fair algorithm Available subcarriers: 40 RB (1-12, 13-24, 25-40)
FFT size: 512
Modulation type: QPSK, 16QAM
HARQ: CC
Traffic model: Full Buffer
Number of user equipment in each cell: 10, 12, 16
Single IOT threshold: 8 dB
Multi-IOT threshold: 4 dB, 8 dB, 12 dB
Intrusion loss: 20 dB
User equipment antenna gain: 0 dB

  In FIG. 5, the upper curve shows the simulation of the method according to the embodiment of the present invention, and the lower curve shows the simulation of the adjustment method based on the conventional OI message. From the simulation results of FIG. 5, it can be seen that as the number of users in the cell increases, the present invention increases the cell average throughput by 9 to 10% compared to the adjustment method based on the conventional OI message.

  In FIG. 6, the right curve shows the simulation of the method according to the embodiment of the present invention, and the left curve shows the simulation of the adjustment method based on the conventional OI message. From the result of the user throughput CDF curve of FIG. 6, when the number of users in each cell is 10, compared to the conventional adjustment method based on the OI message, the method according to the embodiment of the present invention increases the cell average throughput by 10%. It can be seen that each results in a 10.5% increase in cell boundary user throughput.

  The above is only a preferred implementation mode of the present invention. For general engineers in the field, some modifications and modifications are possible on the premise that the principle of the present invention is not deviated. However, it will be understood that these modifications and modifications are also within the protection scope of the present invention.

Claims (8)

In the inter-cell interference coordination method used for the first base station having a service cell having at least one neighbor cell,
Communication resources of the service cell and the neighboring cell are both divided into at least two resource groups, and different resource groups belonging to the same cell correspond to different overload indication OI message trigger threshold levels, and the service cell And the same resource group belonging to different cells in the neighboring cells correspond to different OI message trigger threshold levels,
The inter-cell interference coordination method includes:
The first base station performs initial scheduling in the serving cell, step A;
The first base station receives an OI message from a second base station to which the first neighboring cell of the neighboring cells belongs, and the first neighboring cell interference is caused by a user in the serving cell. Scheduling a user on the resource indicated by the OI message from the first resource to the second resource when it becomes excessive;
The first resource is a resource indicated by the OI message, and in the first neighboring cell, an OI message trigger threshold level corresponding to a resource group where the second resource is located is a value of the first resource. An inter-cell interference coordination method characterized by being higher than an OI message trigger threshold level corresponding to a location resource group. In step B,
The first base station receives an OI message from a second base station to which the first neighboring cell of the neighboring cells belongs, and the first neighboring cell interference is caused by a user in the serving cell. By scheduling users on the resource indicated by the OI message from the first resource to the second resource when it becomes excessive, interference of second neighboring cells other than the first neighboring cell can be reduced. Step B1 for determining whether or not it becomes excessive,
By scheduling users on the resource indicated by the OI message from the first resource to the second resource, when the interference of the second neighboring cell does not become excessive, the first base station: Scheduling a user on the resource indicated by the OI message from the first resource to the second resource, step B2;
The inter-cell interference coordination method according to claim 1, comprising:   Corresponding to the resource group of the second resource among the resource groups having a corresponding OI message trigger threshold level higher than the resource group of the OI message trigger corresponding to the resource group of the first resource in the first neighboring cell. The inter-cell interference coordination method according to claim 2, wherein the OI message trigger threshold level to be performed is the lowest.   Further, by scheduling users on the resource indicated by the OI message from the first resource to the second resource, interference of the second neighboring cell becomes excessive, or the first neighboring cell When the OI message trigger threshold level corresponding to the resource group to which the first resource indicated by the OI message belongs in the cell is the highest, the first base station determines the user assigned on the first resource. 4. The inter-cell interference coordination method according to claim 3, wherein the transmission power is reduced. In a base station having a service cell having at least one neighbor cell,
Communication resources of the service cell and the neighboring cell are both divided into at least two resource groups, and different resource groups belonging to the same cell correspond to different overload indication OI message trigger threshold levels, and the service cell And the same resource group belonging to different cells in the neighboring cells correspond to different OI message trigger threshold levels,
The base station
An initial scheduling module for initial scheduling in the service cell;
When receiving an OI message from a second base station to which a first neighboring cell of the neighboring cells belongs, and when the first neighboring cell interference becomes excessive by a user in the serving cell, An execution module for scheduling users on the resource indicated by the OI message from the first resource to the second resource;
A base station comprising: The execution module is
When receiving an OI message from a second base station to which a first neighboring cell of the neighboring cells belongs, and when the first neighboring cell interference becomes excessive by a user in the serving cell, By scheduling users on the resource indicated by the OI message from the first resource to the second resource, it is determined whether the interference of the second neighboring cells other than the first neighboring cell becomes excessive. Prediction means to judge,
By scheduling users on the resource indicated by the OI message from the first resource to the second resource, when interference of the second neighboring cell does not become excessive, the resource indicated by the OI message Scheduling means for scheduling a plurality of users from the first resource to the second resource;
The base station according to claim 5, comprising:   Corresponding to the resource group of the second resource among the resource groups having a corresponding OI message trigger threshold level higher than the resource group of the OI message trigger corresponding to the resource group of the first resource in the first neighboring cell. The base station according to claim 6, wherein the OI message trigger threshold level is the lowest.   Scheduling a user on the resource indicated by the OI message from the first resource to the second resource, the interference of the second neighboring cell becomes excessive, or in the first neighboring cell When the OI message trigger threshold level corresponding to the resource group to which the first resource indicated by the OI message belongs is the highest, the power reduction for reducing the transmission power of the user allocated on the first resource The base station according to claim 7, further comprising a module.

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