KR20160149282A - Method of reducing impact of d2d in-band interference on cellular transmission - Google Patents

Abstract

The present invention relates to a method implemented in a base station of a wireless communication system and reducing the influence of D2D in-band interference on cellular transmission, wherein the base station transmits a D2D resource pool to a resource comprising a first zone and a second zone Pool, wherein the first zone is a limited D2D resource zone and the second zone is an unrestricted D2D resource zone. Furthermore, the invention relates to a method implemented in a user equipment of a wireless communication system and reducing the effect of D2D in-band interference on cellular transmission, the method comprising the steps of determining a signal quality of a signal received from a base station Determining first position state information associated with the user equipment based on the first position state information; And the user equipment performing a corresponding D2D resource selection based on the first location state information. The method according to the present invention can effectively reduce the effect of D2D in-band interference on cellular transmission by dividing the D2D resource pool into a first zone and a second zone and further dividing the user equipment into several groups.

Description

[0001] METHOD OF REDUCING IMPACT OF D2D IN-BAND INTERFERENCE ON CELLULAR TRANSMISSION [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of wireless communication, and more particularly to a method for reducing the influence of D2D in-band interference on cellular transmission in a base station or user equipment.

In the LTE D2D study, D2D signals occupy a portion of uplink cellular resources (i.e., uplink carriers for FDD and uplink subframes for TDD), as shown in FIG. 2 for FDD case. . In particular, the D2D signals will occupy some periodic uplink subframes. To support normal downlink cellular transmissions, uplink cellular control signals (i.e., PUCCH) must still be transmitted. That is, in the D2D subframes, the cellular PUCCH signals have to be multiplexed with the D2D signals via FDM, as shown in Fig. On the other hand, according to the in-band emission interference modeling as described in 3GPP TR38.843 V12.0.1, "Study on LTE Device to Device Proximity Services-radio aspects", cellular PUCCH signals have in- Receive. Figure 1 shows an example of an in-band emission interference model.

Since uplink PUCCH signals (e.g., ACK / NACK, CQI feedback, etc., in accordance with the PUCCH format) play an important role in supporting downlink data transmission, the inband emission interference from D2D signals to cellular control signals Should be solved. This invention aims at addressing these technical problems.

Figure 1 illustrates a method of transmitting 3GPP TR38.843 V12.0.1, "Study on LTE Device to Device Proximity Services - radio aspects" by updated parameters {W, X, Y, Z} = {3,6,3,3} Based on the modeling method described, one example of in-band interference is illustrated.

In previous meetings of RAN1 (prior to RAN 1-77), there was no further discussion of the effect of in-band emission interference of D2D signals on cellular signals. According to the schedule, this technical problem will be an important topic for the next RAN1-77 meeting.

Up to now, the best existing solution to this problem is through the use of power control for the D2D signal, which is proposed by the inventors in the earlier Chinese patent with patent No. 201410041266.0, entitled " a power control scheme for D2D transmission & .

The solution in the above mentioned patent is well implemented in controlling in-band emission interference to uplink cellular signals. However, it has some disadvantages. The main drawback is that by using power control, the D2D signal transmit powers are not constant for different D2D users (the closer the D2D signal is to the base station, the lower the D2D signal transmit power), and therefore the D2D transmit range is not constant. This is not a desirable property for D2D transmissions.

Based on the prior art described in the background section of the present invention and on the technical understanding of existing technical problems, the present invention proposes a method implemented in a base station of a wireless communication system and reducing the influence of D2D in-band interference on cellular transmission , Way,

The base station comprises configuring the D2D resource pool as a resource pool comprising a first zone and a second zone, wherein the first zone is a limited D2D resource zone and the second zone is an unrestricted D2D resource zone.

The inventor of the present invention utilizes a base station to divide a D2D resource pool into resource pools including a first zone and a second zone, wherein the first zone is a restricted D2D resource zone and the second zone is an unrestricted D2D resource zone. Such an arrangement may divide the D2D resource pool so that different D2D resource pools are configured differently for different user equipments, or may allow user equipment to independently select different resources in order to effectively reduce the impact of D2D in-band interference on cellular transmission.

In one embodiment of the invention, the number of resource blocks in the first zone is less than the number of resource blocks in the second zone, or the number of subframes in the first zone is less than the number of subframes in the second zone .

In such a manner, the sizes of the first and second zones may be configured to meet the requirements of different application scenarios to reduce the impact of intra-band interference on cellular transmission while normal communication requirements are not simultaneously affected have.

In one embodiment of the present invention,

Dividing the D2D user equipment into at least two groups comprising a first group and a second group according to a predetermined rule; And

The first group is configured to use only the resources in the limited D2D resource zone of the first zone for D2D communication and the second group is configured to use resources within the restricted D2D resource zone of the second zone for D2D communication or the D2D communication And to use resources within the first zone and within the second zone for < RTI ID = 0.0 > a < / RTI >

In such an embodiment, the user equipment is divided into different groups by the base station. However, the embodiments are illustrative, but not limiting. Those skilled in the art will also appreciate that user equipments can be divided into more than two groups so that the grouping scheme can be achieved and more precisely controlled in such a way that the user equipments themselves decide to belong to which group You must understand that there is. After such grouping, different resource regions are optimized for use by different groups so that the effect of D2D in-band interference on cellular transmission is reduced.

In one embodiment of the invention, the second group is configured to use only the unrestricted D2D resource zone within the second zone for D2D communication. In such a manner, the second group is configured to use the resources in the unrestricted D2D resource zone of the second zone for D2D communication so that the reception of the PUCCH in the corresponding base station is minimally affected by the D2D user equipment in the second group Receive.

In one embodiment of the present invention,

Dividing the user equipment connected to it into at least two groups based on the strength of the signal transmitted from the user equipment to the base station by the base station; or

And dividing the user equipments connected to it into at least two groups based on the degree of interference of the base station caused by the user equipments connected thereto.

One of ordinary skill in the art will understand that the two schemes mentioned above are merely illustrative, not limiting, and that other grouping schemes are also possible. The designs that can achieve the main idea of the present invention are within the scope of the present invention.

In one embodiment of the present invention, the first group is a set of user equipment in which the strength of the signal received from the base station exceeds a first threshold, and the second group is a set of user equipment in which the strength of a signal received from the base station does not exceed a first threshold It is a set of equipment.

In that way, the corresponding user equipment can be advantageously and quickly partitioned into groups.

Furthermore, a second aspect of the present invention provides a method implemented in a user equipment of a wireless communication system and reducing the impact of intra-band interference on the cellular transmission,

Determining first position state information associated with a user equipment based on a signal quality of a signal received from a base station with which the user equipment communicates;

And the user equipment performing a corresponding D2D resource selection based on the first location state information.

In the technical solution of the second aspect of the present invention, the user equipment determines first location state information associated with the user equipment based on the signal quality of the signal received from the base station with which it communicates, The corresponding D2D resource can be selected based on the position state information. In such a manner, the user equipment can select the D2D resource based on the first location state information rather than being controlled so that the D2D resources are irregularly selected and only selected in the prior art.

In one embodiment of the present invention, the user equipment further receives configuration information of the resource pool from the base station, the configuration information of the resource pool includes resource configuration information indicating the first zone and the second zone, The limited D2D resource zone and the second zone is the unrestricted D2D resource zone.

In such a manner, the user equipment can be informed how the D2D resource pool is allocated by the corresponding base station and the user equipment according to the present invention can use the D2D resource < RTI ID = 0.0 > Can be selected.

In one embodiment of the present invention, the first position state information includes position state indication information including at least a first state and a second state, the first state indicating that the user equipment is located at the center of the cell, 2 state indicates that the user equipment is located at the edge of the cell. In that way, the grouping scheme is illustrated to facilitate subsequent D2D resource selection.

In one embodiment of the present invention, the transmit power of the user equipment located at the center of the cell is the same as that of the user equipment located at the edge of the cell, or the transmit power of the user equipment located at the center of the cell is located at the edge of the cell Which is smaller than that of the user equipment.

It should be appreciated that the transmit power of the user equipment located at the center of the cell and the transmit power of the user equipment located at the edge of the cell may be the same or different. Of course, the same transmit power can ensure that D2D user equipments have substantially the same coverage when neighbor discovery is being performed and therefore it is beneficial for neighbor discovery. However, the transmit power of the user equipment located at the center of the cell and the transmit power of the user equipment located at the edge of the cell may also be different, e.g., the transmit power of the user equipment located at the center of the cell, Is smaller than the transmit power of the user equipment located at the edge. In this way, the influence of the D2D in-band interference on the cellular transmission can be further reduced.

In one embodiment of the invention, the user equipment is configured to use only resources within the limited D2D resource zone of the first zone for D2D communication when the user equipment is located at the center of the cell, Is configured to use the resources in the unrestricted D2D resource zone of the second zone for D2D communication or to use resources in the first zone and the second zone via D2D communication when located at the edge of the second zone. In such an embodiment, the user equipment may determine to which group they belong, and such a grouping scheme is merely illustrative, but not limiting. One of ordinary skill in the art should understand that user equipment can be divided into more than two groups for more precise control. After such grouping, different resource regions are optimized for use by different groups so that the effect of D2D in-band interference on cellular transmission is reduced.

In one embodiment of the invention, the user equipment is configured to use only unrestricted D2D resource zones within the second zone for D2D communication when the user equipment is located at the edge of the cell. In such a manner, the second group is configured to use resources in the unrestricted D2D resource zone of the second zone for D2D communication and thus the reception of the PUCCH in the corresponding base station is minimally affected by the D2D user equipment in the second group .

In one embodiment of the invention, when the user equipment is located at the edge of the cell and the user equipment uses resources in the limited D2D resource zone for D2D communication and the resources in the unrestricted D2D resource zone of the first zone and the second zone The user equipment selects a resource in the limited D2D resource zone of the first zone for a D2D communication with a first probability and a resource within the limited D2D resource zone of the second zone for a D2D communication with a second probability Select a resource. In one embodiment of the invention, the first probability is smaller than the second probability. In one embodiment of the invention, the first probability is associated with the number of resources in the first zone and the second probability is associated with the number of resources in the second zone.

The inventor of the present invention utilizes a base station to divide a D2D resource pool into resource pools including a first zone and a second zone, wherein the first zone is a restricted D2D resource zone and the second zone is an unrestricted D2D resource zone. Such an arrangement may partition the D2D resource pool so that the D2D resource pool is configured differently for different user equipments, or may allow the user equipment to independently select different resources in order to effectively reduce the impact of D2D in-band interference on cellular transmission.

Other features, objects, and advantages of the present invention will become more apparent upon review of the following detailed description of the non-limiting embodiments, which are to be interpreted with reference to the drawings.
1 illustrates a schematic diagram 100 of the interference caused by signal power leakage in the prior art.
2 illustrates a schematic 200 of a D2D resource pool configuration in the prior art.
Figure 3 illustrates a schematic diagram 300 of a D2D resource pool configuration in accordance with the present invention.
4 illustrates a schematic diagram 400 of a specific embodiment of a D2D resource pool configuration in accordance with the present invention.
FIG. 5 illustrates a flowchart 500 of a method implemented in a base station of a wireless communication system and reducing the effect of D2D in-band interference on cellular transmission.
6 illustrates a flowchart 600 of a method implemented in a user equipment of a wireless communication system and reducing the impact of D2D in-band interference on cellular transmission.
The same or similar devices (modules) or steps will be denoted by the same or similar reference numerals throughout the drawings.

The specific description set forth above of preferred embodiments will be given with reference to the drawings which form a part of the present invention. The drawings illustrate exemplary embodiments in which the present invention may be practiced. The exemplary embodiments are not intended to be exhaustive of all embodiments of the invention. As can be appreciated, other embodiments may be possible or structural or logical modifications may be made without departing from the scope of the present invention. Accordingly, the following detailed description is not intended to be limiting, and the scope of the present invention will be defined as defined in the appended claims.

1 illustrates a schematic diagram 100 of the interference caused by signal power leakage in the prior art. As shown in FIG. 1, a useful signal 1 is transmitted, but a carrier leakage will occur as indicated by number 2 and therefore other cellular communications are affected. On the other hand, FIG. 2 illustrates a schematic 200 of a D2D resource pool configuration in the prior art. As shown in FIG. 2, as an important signal in the control channel, the PUCCH of the cellular network must be transmitted on an uplink grant, and therefore the PUCCH and D2D uplink frames of the cellular network must be frequency multiplexed. Due to the presence of carrier leakage as shown in FIG. 1, such a configuration must cause interference to reception of the PUCCH to be uncontrollable.

The present invention proposes a way to handle in-band interference of the D2D signal for cellular signals to a significant degree. The basic ideas of the present invention are as follows.

If the D2D discovery transmissions use a constant (and relatively large, e.g., 23 dBm) transmit power, then the eNB will have severe in-band interference at decoding the uplink signals (e.g., PUCCH) Will receive. Considering further details of the in-band interference from the receiving D2D signals to the PUCCH, it can be seen that the main interferers of such interference are those D2D UEs close to the eNB. This allows the cell-centric D2D users to occupy only the discovered resources in the special area, while other D2D users can occupy any resources in the configured resource pool, or alternatively, other D2D users (Time) in the configured D2D discovery subframes so that it is desirable to occupy discovery resources outside the special area to reduce collisions with cell-centered D2D UEs. Here, the special resource area is named as the limited D2D resource area. Figure 3 illustrates a schematic diagram 200 of a D2D resource pool configuration in accordance with the present invention. 3, the inventor of the present invention utilizes a base station to divide a D2D resource pool into resource pools including a first zone and a second zone, wherein the first zone is a limited D2D resource zone and the second zone It is an unrestricted D2D resource zone. Such an arrangement may partition the D2D resource pool so that the D2D resource pool is configured differently for different user equipments, or may allow the user equipment to independently select different resources in order to effectively reduce the impact of D2D in-band interference on cellular transmission.

3 is only exemplary and the size of each zone is not configured. 4 illustrates a schematic diagram 400 of a specific embodiment of a D2D resource pool configuration in accordance with the present invention. As shown in FIG. 4, the D2D resource pool is configured by the base station as a periodic continuous uplink subframe and has the following sizes, i.e., 44 PRBs in the frequency domain and 32 subframes in the time domain . Those skilled in the art will appreciate that these parameters are illustrative only and not restrictive. In a resource configuration as shown in FIG. 4, in order to reduce the in-band interference of the D2D signal with respect to the reception of the PUCCH, the present invention proposes to construct a limited zone in the D2D resource pool. The size of this limited area should be very limited as shown in FIG.

5 and 6 illustrate flowcharts 500 and 600 of a method implemented in a base station or user equipment of a wireless communication system and reducing the impact of D2D in-band interference on cellular transmission, .

FIG. 5 illustrates a flowchart 500 of a method implemented in a base station of a wireless communication system and reducing the effect of D2D in-band interference on cellular transmission. As shown in Figure 5, the method includes at least the following steps: In method step 510, the base station configures the D2D resource pool as a pool of resources including a first zone and a second zone, Is the limited D2D resource zone and the second zone is the unrestricted D2D resource zone.

Advantageously, in an embodiment of the invention, the number of resource blocks in the first zone is less than in the second zone, or the number of subframes in the first zone is less than in the second zone.

In such a manner, the sizes of the first and second zones may be configured to meet the requirements of different application scenarios to reduce the impact of intra-band interference on cellular transmission while normal communication requirements are not simultaneously affected have.

Advantageously, in one embodiment of the present invention,

Dividing the D2D user equipment into at least two groups comprising a first group and a second group according to a predetermined rule; And

The first group is configured to use only the resources in the limited D2D resource zone of the first zone for D2D communication and the second group is configured to use resources within the restricted D2D resource zone of the second zone for D2D communication or the D2D communication And to use resources within the first zone and within the second zone for < RTI ID = 0.0 > a < / RTI >

Advantageously, in such an embodiment, the user equipment is divided into different groups by the base station. However, the embodiments are illustrative, but not limiting. Those skilled in the art will also appreciate that the grouping scheme can be achieved in such a way that it determines for itself which group the user equipment belongs to and that the user equipment can be divided into more than two groups I have to understand. After such grouping, different resource regions are optimized for use by different groups so that the effect of D2D in-band interference on cellular transmission is reduced.

Advantageously, in an embodiment of the present invention, the second group is configured to use only the unrestricted D2D resource zone within the second zone for D2D communication. In such a manner, the second group is configured to use resources in the unrestricted D2D resource zone of the second zone for D2D communication and thus the reception of the PUCCH in the corresponding base station is minimally affected by the D2D user equipment in the second group .

Advantageously, in one embodiment of the present invention,

Dividing the user equipment connected to it into at least two groups based on the strength of the signal transmitted from the user equipment to the base station by the base station; or

And dividing the user equipments connected to it into at least two groups based on the degree of interference of the base station caused by the user equipments connected thereto.

One of ordinary skill in the art will understand that the two schemes mentioned above are merely illustrative, not limiting, and that other grouping schemes are also possible. Designs that can achieve the main idea of the present invention are within the scope of the present invention.

In one embodiment of the present invention, the first group is a set of user equipment in which the strength of the signal received from the base station exceeds a first threshold, and the second group is a set of user equipment in which the strength of a signal received from the base station does not exceed a first threshold It is a set of equipment.

In that way, the corresponding user equipment can be advantageously and quickly partitioned into groups.

6 illustrates a flowchart 600 of a method implemented in a user equipment of a wireless communication system and reducing the impact of D2D in-band interference on cellular transmission. 6, the method according to the present invention includes at least the following two steps: i.e., in method step 610, the user equipment determines, based on the signal quality of the signal received from the base station in communication therewith Determine first position state information associated with the user equipment; In a next method step 620, the user equipment performs a corresponding D2D resource selection based on the first position state information.

In the technical solution according to the present invention as shown in Figure 6, the user equipment can determine first location state information associated with the user equipment based on the signal quality of the signal received from the base station with which it communicates, The user equipment may select the corresponding D2D resource based on the first location state information. In such a manner, the user equipment can select the D2D resource based on the first location status information rather than being controlled so that the D2D resources are irregularly selected and not just selected.

Advantageously, in one embodiment of the present invention, the user equipment further receives configuration information of the resource pool from the base station, the configuration information of the resource pool includes resource configuration information indicating the first zone and the second zone, Zone 1 is the limited D2D resource zone, and Zone 2 is the unrestricted D2D resource zone.

In such a manner, the user equipment can be informed how the D2D resource pool is allocated by the corresponding base station and the user equipment according to the present invention can use the D2D resource < RTI ID = 0.0 > Can be selected.

Advantageously, in an embodiment of the invention, the first position state information comprises position state indication information comprising at least a first state and a second state, the first state being such that the user equipment is located at the center of the cell And the second state indicates that the user equipment is located at the edge of the cell. In that way, the grouping scheme is illustrated to facilitate subsequent D2D resource selection.

Advantageously, in one embodiment of the present invention, the transmit power of the user equipment located at the center of the cell is the same as that of the user equipment located at the edge of the cell, or the transmit power of the user equipment located in the center of the cell, Lt; RTI ID = 0.0 > edge < / RTI >

It should be appreciated that the transmit power of the user equipment located at the center of the cell and the transmit power of the user equipment located at the edge of the cell may be the same or different. Of course, the same transmit power can ensure that D2D user equipments have substantially the same coverage when neighbor discovery is being performed and therefore it is beneficial for neighbor discovery. However, the transmit power of the user equipment located at the center of the cell and the transmit power of the user equipment located at the edge of the cell may also be different, e.g., the transmit power of the user equipment located at the center of the cell, Is smaller than the transmit power of the user equipment located in the base station. In this way, the influence of the D2D in-band interference on the cellular transmission can be further reduced.

Advantageously, in one embodiment of the present invention, the user equipment is configured to use only resources within the limited D2D resource zone of the first zone via D2D communication when the user equipment is located at the center of the cell, Is configured to use resources in the unrestricted D2D resource zone of the second zone for D2D communication when the equipment is located at the edge of the cell or to use resources in the first zone and the second zone for D2D communication. In such an embodiment, the user equipment may determine to which group they belong, and such a grouping scheme is merely illustrative, but not limiting. One of ordinary skill in the art should understand that user equipment can be divided into more than two groups for more precise control. After such grouping, different resource regions are optimized for use by different groups so that the effect of D2D in-band interference on cellular transmission is reduced.

Advantageously, in one embodiment of the invention, the user equipment is configured to use only unrestricted D2D resource zones within the second zone for D2D communication when the user equipment is located at the edge of the cell. In such a manner, the second group is configured to use resources in the unrestricted D2D resource zone of the second zone for D2D communication and thus the reception of the PUCCH in the corresponding base station is minimally affected by the D2D user equipment in the second group .

Advantageously, in one embodiment of the present invention, when the user equipment is located at the edge of the cell and the user equipment uses resources in the restricted D2D resource zone for D2D communication and uses the unrestricted D2D resources of the first zone and the second zone When configured to use resources in the zone, the user equipment selects a resource in the limited D2D resource zone of the first zone for a D2D communication with a first probability and a non-restricted D2D of the second zone for D2D communication with a second probability Select resources within the resource area. In one embodiment of the invention, the first probability is smaller than the second probability. In one embodiment of the invention, the first probability is associated with the number of resources in the first zone and the second probability is associated with the number of resources in the second zone.

The inventor of the present invention utilizes a base station to divide a D2D resource pool into resource pools including a first zone and a second zone, wherein the first zone is a restricted D2D resource zone and the second zone is an unrestricted D2D resource zone. Such an arrangement may partition the D2D resource pool so that the D2D resource pool is configured differently for different user equipments, or may allow the user equipment to independently select different resources in order to effectively reduce the impact of D2D in-band interference on cellular transmission.

It will be understood by those of ordinary skill in the art that the present invention is not necessarily limited to the exemplary embodiments described above and may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Accordingly, the embodiments are to be construed in any way that is illustrative and not restrictive. More specifically, the term "comprising" will not exclude other element (s) or step (s), and the singular terms "a" or "an" The plurality of elements specified in the device claim may alternatively be embodied as a single element. The terms "first "," second ", and the like are intended to designate a name, but are not intended to suggest any particular order.

Claims (15)

A method for reducing the effect of D2D in-band interference on a cellular transmission,
Wherein the base station comprises configuring a D2D resource pool as a resource pool comprising a first zone and a second zone, the first zone being a restricted D2D resource zone, 2 zone is an unrestricted D2D resource zone. 2. The method of claim 1, wherein the number of resource blocks in the first zone is less than the number of resource blocks in the second zone, the number of subframes in the first zone is less than the number of subframes in the second zone The smaller way. 3. The method according to claim 1 or 2,
Dividing the D2D user equipment into at least two groups comprising a first group and a second group according to a predetermined rule; And
Wherein the first group is configured to use only resources in the restricted D2D resource zone of the first zone for D2D communication and the second group is configured to use only resources within the restricted D2D resource zone of the second zone for D2D communication, And configured to use resources within the first zone and within the second zone for D2D communication. 4. The method of claim 3, wherein the second group is configured to use resources in the unrestricted D2D resource zone of the second zone for D2D communication. 2. The method of claim 1,
Dividing user equipment connected to it into at least two groups based on the strength of the signal transmitted from the user equipment connected thereto to the base station; or
Wherein the base station comprises dividing user equipment into at least two groups based on the degree of interference of the base station caused by user equipment connected thereto. 2. The method of claim 1, wherein the first group is a set of user equipment in which the strength of a signal received from the base station exceeds a first threshold, The set being a set of user equipment that does not exceed. CLAIMS What is claimed is: 1. A method implemented in a user equipment of a wireless communication system for reducing the effect of D2D in-band interference on cellular transmission,
Determining first position state information associated with the user equipment based on a signal quality of a signal received from the base station with which the user equipment is communicating therewith;
Wherein the user equipment performs a corresponding D2D resource selection based on the first position state information
≪ / RTI > 8. The method of claim 7, wherein the user equipment further receives configuration information of the resource pool from the base station, the configuration information of the resource pool includes resource configuration information indicating a first zone and a second zone, 1 zone is a limited D2D resource zone and the second zone is an unrestricted D2D resource zone. 9. The apparatus of claim 8, wherein the first position state information includes position state indication information including at least a first state and a second state, the first state indicating that the user equipment is located at the center of the cell Wherein the second state indicates that the user equipment is located at an edge of the cell. 10. The method of claim 9 wherein the transmit power of the user equipment located at the center of the cell is equal to the transmit power of the user equipment located at the edge of the cell or the transmit power of the user equipment located at the center of the cell is located at the edge of the cell Is less than the transmit power of the user equipment. 10. The method of claim 9, wherein the user equipment is configured to use only resources in the limited D2D resource zone of the first zone for D2D communication when the user equipment is located at the center of the cell, To use resources in the unrestricted D2D resource zone of the second zone for D2D communication when the user equipment is located at the edge of the cell or to use resources within the first zone and within the second zone for D2D communication How to configure. 12. The method of claim 11, wherein the user equipment is configured to use only the unrestricted D2D resource zone within the second zone for D2D communication when the user equipment is located at an edge of the cell. 12. The method of claim 11, wherein the user equipment is located at an edge of a cell and the user equipment is configured to communicate resources in the unrestricted D2D resource zone and the limited D2D resource zone of the first zone and the second zone The user equipment selects a resource in the limited D2D resource zone of the first zone for D2D communication with a first probability and the resource in the limited D2D resource zone of the second zone for a second probability, D2D A method of selecting resources within a resource zone. 13. The method of claim 12, wherein the first probability is less than the second probability. 14. The method of claim 13, wherein the first probability is associated with a number of resources in the first zone, and the second probability is associated with a number of resources in the second zone.

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