JP2008510344A - Method and apparatus for limiting P2P communication interference - Google Patents

Abstract

  The steps performed by the communication network system in a way to limit the interference of P2P communication set the P2P communication parameters according to the characteristics of the communication network, and the P2P communication parameters can be changed while performing P2P communication with other UEs. Limiting the interference caused by the UE in P2P communication to the UE and transmitting P2P communication parameters to the UE in the communication network. The steps performed by the UE are to receive P2P communication parameters, perform P2P search procedures with other UEs using P2P communication parameters, and obtain this appropriate transmission according to P2P communication parameters in order to obtain appropriate transmission power. Using power to perform P2P communication with other UEs.

Description

  The present invention relates generally to P2P communication, and more particularly to a method and apparatus for limiting interference in P2P communication.

  In a conventional cellular mobile communication system, a UE (user equipment) can communicate with other UEs only through relaying of a base station. FIG. 1 shows this conventional communication mode used in the TD-SCDMA system. In the TD-SCDMA system, UE1 and UE2 exchange information through UTRAN having a base station transceiver (Node B) and an RNC (radio network controller). This conventional communication mode is also called UP-BS-DOWN mode. However, if the two users camping on the cell are very close to each other, it may be reasonable for the two users to communicate directly. This is called peer-to-peer communication and is abbreviated as P2P. In general, P2P communication is applied to a TDD radio system in which the same carrier frequency is adopted in both uplink and downlink. In the following, a TD-SCDMA system is taken as an example to describe the two P2P communication modes.

  FIG. 2 shows the P2P communication mode. As shown in FIG. 2, a P2P direct link indicated by a solid line may be established to convey traffic data between UE1 and UE2, but UTRAN is connected via a control link indicated by a dotted line between UTRAN and UE. Monitor the link directly. This P2P communication mode monitored by the base station is called an online P2P communication mode. Because there is no base station relay, online P2P communication can save up to 50% of radio resources while UTRAN still retains control of P2P communication. A description of how to implement online P2P communication is disclosed in patent applications 03119892.9 and 03119894.5 filed on March 7, 2003 by KONINKLIJKE PHILIPS ELECTRONICS N.V. These documents are incorporated by reference.

  Based on the online P2P communication mode, a new communication mode in which the UE performs P2P communication in a self-organized manner without the support of the base station can be further constructed. This is called the offline P2P communication mode. FIG. 3 shows an offline P2P communication mode. As shown in the figure, before starting offline P2P communication, UE1 and UE2 first register with the UTRAN offline P2P communication service in the conventional communication mode, and acquire P2P communication identification information of these peers. The detailed procedure for how the UE obtains P2P communication identification information is described in detail in a patent application filed by KONINKLIJKE PHILIPS ELECTRONICS N.V. This document is incorporated by reference. The two UEs then independently establish P2P communication according to their peer P2P communication identification information obtained during the registration procedure, without UTRAN monitoring and control. Finally, after the P2P communication ends, UE1 and UE2 return to the idle mode with conventional communication.

  Compared to online P2P communication, offline P2P communication can save signaling cost, and P2P communication link can be established even when UE is outside the service area of wireless network such as ocean, mountain, battlefield etc. . Furthermore, this offline P2P communication mode is also applicable when two UEs are very close to each other in a cell. At this time, because there is no control link between UTRAN and UE, when the transmission power of UE1 and UE2 decreases so as to be ignored by the network system, the user can use offline P2P communication much cheaper than conventional communication Service can be used.

  As described above, in the conventional communication mode, the UE communicates through UTRAN relay, so the UTRAN can directly limit the UE's transmission power within a reasonable range through control signaling. However, in P2P communication mode, the direct link of P2P communication shares the same carrier frequency as the uplink and downlink of conventional communication, and in some cases shares the same time slot through CDMA multiplexing, so that P2P communication There is a high possibility of interference with normal communication.

  When the UE is in online P2P communication mode, UTRAN can control the UE's transmit power over the control link, but the signaling period for power control is generally longer to save signaling costs, and thus UTRAN Cannot adjust the transmission power of the UE at an appropriate time to reduce the interference caused by P2P communication.

  When the two UEs in the cell adopt the offline P2P communication mode, there is no control link between the two UEs in the offline P2P communication mode and the UTRAN, so the UE becomes completely uncontrollable by the UTRAN. In this case, when the UE transmission power is not limited, the offline P2P communication mode causes serious interference to the UE in the conventional communication mode in the cell.

  Furthermore, if the UE establishes offline P2P communication outside the coverage area of the communication network, the interference caused by the UE in the offline P2P communication mode is no longer an important issue for the UE in the conventional communication mode. If the UE's transmission power is not limited, too high transmission power will cause unnecessary power consumption, as well as increasing the possibility of interfering with other ongoing offline P2P communications in the service area.

  Therefore, it is necessary to propose a new method for limiting the interference of P2P communication.

  An object of the present invention is to provide a method for limiting the interference of P2P communication, in which interference caused by P2P communication is limited within a reasonable range, and other communicating UEs are affected. It can be ensured not to receive.

  A method for limiting interference of P2P communication performed in a communication network system according to the present invention is provided, setting P2P communication parameters according to the characteristics of the communication network, the P2P communication parameters being set by other UEs in P2P communication Limiting the induced interference and transmitting P2P communication parameters to the UE in the communication network so that the UE can perform P2P communication with other UEs using the P2P communication parameters.

  A method for limiting interference of P2P communication performed in a UE according to the present invention is provided, receiving a P2P communication parameter transmitted by a communication network system, wherein the P2P communication parameter is received by a UE in P2P communication with respect to another UE In order to limit the induced interference and obtain the appropriate transmit power, perform P2P search procedure with other UEs using P2P communication parameters, and use this appropriate transmit power according to P2P communication parameters And performing P2P communication.

  A communication network system is provided according to the present invention, and P2P communication parameters are set according to the characteristics of the communication network, and the P2P communication parameters are configured to limit interference caused by the UE in P2P communication to other UEs, and the UE A transmission unit for transmitting the P2P communication parameters to the UE in the communication network so as to be able to perform P2P communication with other UEs using the P2P communication parameters.

  A UE is provided according to the present invention and receives P2P communication parameters transmitted by a communication network system, wherein the P2P communication parameters are suitable for receiving units that limit interference caused by the UE in P2P communication to other UEs, and appropriate To obtain transmit power, adjust through negotiation, a search unit that performs P2P search procedure with other UEs using P2P communication parameters, an adjustment unit that adjusts UE transmit power during P2P search and P2P communication A P2P communication unit that performs P2P communication with other UEs using a decision unit that determines whether or not the transmitted power deserves a P2P communication parameter restriction condition and a transmission power that deserves the P2P communication parameter restriction condition And have.

  Other objects and attainments together with a full understanding of the invention will become apparent and appreciated by referring to the following description and claims taken in conjunction with the accompanying drawings.

  A complete description of the invention is provided below along with specific examples and accompanying drawings.

  Throughout the drawings, it is understood that like reference numerals indicate like parts and components.

  According to the method of limiting interference of P2P communication proposed in the present invention, the communication network system sets a group of P2P communication parameters based on the characteristics of the communication network and the current operation state, and sets BCCH (Broadcast Control Channel). P2P communication parameters can be broadcast to each UE in the cell. Upon reception of P2P communication parameters, the UE selects corresponding P2P communication parameters such as P2P search power and P2P communication power according to its position, and controls transmission power during the P2P link search procedure and P2P communication procedure, Interference caused by P2P communication can be efficiently reduced.

  In the following, a TD-SCDMA system is given as an example in order to explain the method for reducing the interference of P2P communication proposed in the present invention with the accompanying drawings.

  FIG. 4 shows the steps performed by UTRAN to limit the interference of P2P communication according to an embodiment of the present invention.

  As shown in FIG. 4, first, UTRAN sets a group of P2P communication parameters (step S110). The setting of the P2P communication parameter mainly includes the content of the P2P communication parameter and the value of each P2P communication parameter.

1. About the contents of P2P communication parameters
The content of the P2P communication parameter may be set according to the position of the UE in the communication network and the P2P communication mode that is employed in some cases.

  For example, both offline and online communication modes can be used when the UE is in a cell covered by a communication network. Since there is no control link between UE and UTRAN in offline communication mode and UTRAN cannot control UE transmission power through control signaling, the UE transmission power is set to the maximum online P2P communication power and the maximum offline P2P. It is preferable to set two P2P communication parameters for communication power. When offline P2P communication mode is used, the UE will select the exact P2P communication parameters accordingly and avoid the P2P signal transmitted by the UE causing interference to other communicating UEs in the cell Should do. Generally speaking, the allowable maximum offline P2P communication power value is smaller than the maximum online P2P communication power value.

  As another example, if the UE is outside the coverage area of the communication network, the interference caused by offline P2P communication between the UE and other UEs at this point in time for other communicating UEs in the cell Since it is no longer a major problem, the value of the maximum offline communication power used by the UE may be higher than the value used by the UE in the cell. Accordingly, the maximum offline P2P communication power can be further classified into a maximum offline P2P communication power within the service area of the communication network and a maximum offline P2P communication power outside the service area of the communication network. This allows the UE to select from relatively wide P2P communication parameters in order to expand the radio range of P2P communication when outside the service area of the communication network.

  With respect to the transmission power used for P2P link probing, this can be set according to the location of the UE of the communication network and possibly the P2P communication mode used with reference to the method described above.

  Further, the P2P communication parameters include identification information indicating whether or not the UE is allowed to use the P2P communication service, and common radio resources (offline P2P communication frequency and default offline P2P used in offline P2P communication). Communication identification information, etc.).

2.P2P communication parameter values
The value of the P2P communication parameter can be set according to the characteristics of the communication network and the current operating state (step S110).

  The characteristics of the communication network are not limited to the network characteristics (that is, the cell area) indicated by the communication networks constituting the cells in the service area, but also relate to the network characteristics indicated by the traffic load carried by the communication network. The operator of the communication network can generate and adjust the resource management scheme according to the characteristics of the communication network.

  For example, the characteristics of a communication network vary with cells having different service areas (or different radii). This is fully indicated by the fact that a UE in P2P communication mode generates different P2P communication interference to other communicating UEs in the communication network. Therefore, in cells with different service areas, the P2P communication parameters can be set to corresponding values.

  As another example, in a cell configured in the center of a commercial district, the characteristics of the communication network vary greatly compared to a cell configured in a suburb with a small population. In the central cell of a commercial district, there is generally a lot of call traffic, so network operators can use resource management schemes to avoid traditional communication users from receiving interference from P2P communication. P2P communication in the cell may be disabled and P2P communication parameter values may be set accordingly, so few users can use P2P communication and lower the corresponding P2P communication parameter values such as P2P transmission power. It may be set and relatively strict P2P communication parameters may be set in the resource management method so that interference of P2P communication with a user of conventional communication can be reduced as much as possible. In cells configured in suburbs with a small population, the corresponding P2P communication parameter settings may be set widely, or multiple groups of P2P communication parameters are set according to factors such as communication range and communication environment, The wireless range of P2P communication may be expanded.

  In addition, UTRAN sets the value of the P2P communication parameter according to the detected current operation state of the communication network (for example, whether the communication network is currently busy or idle) and a different traffic period, and the radio range of P2P communication. And the influence of P2P communication on other communicating UEs may be reduced.

  After setting the P2P communication parameters according to the characteristics and operating state of the communication network, the UTRAN periodically broadcasts the P2P communication parameters to each UE in the cell via the BCCH (step S120).

  In order to adapt to the change of resource management scheme and the operation status of the communication network so that the corresponding P2P communication parameters are changed appropriately, UTRAN sends the P2P communication parameters and then the resource management scheme and operation status of the communication network Whether or not has changed is detected periodically or in real time (step S130). According to the detection result, UTRAN determines whether or not to reset the P2P communication parameter (step S140). When it is detected that the resource management method and the operation state have changed, the corresponding P2P communication parameters are reset (step S150).

  FIG. 5 shows the steps of an embodiment of the present invention, where a UE adopting an offline P2P communication mode within a service area of a communication network reads P2P communication parameters transmitted from UTRAN via BCCH, P2P communication parameters are selected according to the position, and offline P2P communication is established and maintained based on the selected P2P communication parameters.

  Assume that the UE has registered for an offline P2P communication service in UTRAN and has acquired the peer's P2P communication identification information. A detailed description of how to register with an offline P2P communication service and obtain P2P communication identification information is disclosed in a patent application filed by KONINKLIJKE PHILIPS ELECTRONICS N.V. with this application under agent management numbers CN040033 and CN040032. These documents are incorporated by reference.

  As shown in FIG. 5, first, the UE reads P2P system parameters via the BCCH (step S210). According to the current position (inside or outside the communication network) and the P2P communication mode to be used (online or offline P2P communication), the UE selects a corresponding P2P communication parameter from the received P2P communication parameter (step S220).

  Assume that the UE is in a cell, intends to adopt the offline P2P communication mode, and has acquired P2P communication parameters having at least the maximum offline P2P search power and the maximum offline P2P communication power in the network service area. Next, the UE sets maximum offline P2P search power as initial transmission power for offline P2P communication link search (step S230), and starts link search for offline P2P communication (step S240).

  During the link search procedure, the UE negotiates with its peer, adjusts the transmit power (step S50), determines whether the transmit power adjusted through negotiation is above the maximum offline P2P search power, and P2P Appropriate transmission power used in communication is acquired (step S260).

  If the transmit power adjusted through negotiation is greater than the maximum offline P2P search power, this indicates that the link search for offline P2P communication has failed. The UE may reselect the corresponding P2P communication parameter and switch to online P2P communication or link search in the conventional communication mode (step S280).

  If the transmit power adjusted through negotiation is not greater than the maximum offline P2P search power, this indicates that the link search for offline P2P communication has been successful. The UE starts offline P2P communication using the transmission power adjusted through the negotiation (step S270).

  During the offline P2P communication, the UE continuously adjusts its transmission power according to the change in the distance to the peer of the communication and the change in the communication environment (step S290). Each time the transmission power is adjusted, the UE determines whether the adjusted transmission power is greater than the maximum offline P2P communication power (step S300).

  If the adjusted transmission power is greater than the maximum offline P2P communication power, the offline P2P communication is terminated, and the UE switches to online P2P communication or link search in the conventional communication mode (step S310).

  If the adjusted transmission power is not greater than the maximum offline P2P communication power, the UE maintains offline P2P communication using the adjusted transmission power (step S320).

  In the procedure to establish and maintain offline P2P communication, the UE periodically reads P2P communication parameters sent via BCCH (step S330), and the received P2P communication parameters are the same as the currently used P2P communication parameters It is determined whether or not (step S340).

  If the received P2P communication parameter has changed, the received P2P communication parameter is used to update the previous P2P communication parameter (step S350). In the ongoing offline P2P communication, the UE adjusts the transmission power using the updated P2P communication parameters (step S360).

  When the offline P2P communication ends (step S370), the UE returns to the idle mode in the conventional communication (step S380).

  The procedure for the UE in the network service area to establish and maintain offline P2P communication according to the P2P communication parameters has been described above. If the UE of the cell chooses to adopt the online P2P communication mode and the P2P communication parameters obtained by the UE have a maximum online P2P search power and a maximum online P2P communication power, the UE follows the P2P communication parameters You may enter online P2P communication through the link search procedure of online P2P communication. This is the same as the previous step. Unlike the offline P2P communication mode, a control link exists between the UE and the UTRAN, and thus the UE in the online P2P communication mode can adjust the value of the P2P communication parameter through negotiation with the UTRAN. For example, when the communication network is currently idle, the UE may acquire transmission power larger than the maximum online P2P communication power through negotiation, and may execute P2P communication with this transmission power. As a result, the wireless range of P2P communication can be further expanded without affecting the communication of other users.

  After the UE has registered for offline P2P communication service, when trying to perform offline P2P communication outside the service area of the communication network, if the UE is in the network service area or P2P communication parameters are pre-recorded on the SIM card, for example Can enter the offline P2P communication through the link search procedure of offline P2P communication according to the P2P communication parameters obtained from the communication network system via BCCH (P2P communication parameters are maximum outside the network service area) Assume that there is one or more groups of offline P2P search power and maximum offline P2P communication power).

  With respect to the above-described method for limiting interference of P2P communications provided in the present invention, this may be implemented in software or hardware, or a combination of both.

  FIG. 6 shows a configuration of a network system and a UE that limits P2P communication interference according to an embodiment of the present invention, and the same components as those of the conventional network system and the UE are not shown.

  As shown in FIG. 6, first, the setting unit 110 of the network system UTRAN 100 sets P2P communication parameters according to the characteristics of the communication network (communication network resource management method, communication network service area, etc.). The setting unit 110 can also set the P2P communication parameters according to the current operating state of the communication network detected by the detection unit 150.

  Next, the transmission unit 130 transmits P2P communication parameters to UE1 of the communication network, so that UE1 can perform P2P communication with other UEs according to the P2P communication parameters.

  The P2P communication parameters also have the same contents and values as described in the above method for limiting the interference of P2P communication. The contents of the P2P communication parameters are related to the location of the UE in the communication network and the P2P communication mode that is adopted in some cases. The value of the P2P communication parameter is related to the characteristics of the communication network and the current operating state. Further, the P2P communication parameter has at least a maximum offline P2P search power and a maximum offline P2P communication power in the communication network service area.

  After the receiving unit 10 receives the P2P communication parameters sent by UTRAN, the UE1 selection unit 20 selects the corresponding P2P communication parameters from the received P2P communication parameters according to the UE location and the adopted P2P communication mode To do. Thereafter, the search unit 42 of the P2P link search / communication unit 40 selects the maximum offline P2P search power included in the P2P communication parameters as the initial transmission power, and executes the offline P2P search. In the offline P2P search procedure, the adjustment unit 34 of the decision / adjustment unit 30 negotiates with the peer of the communication and adjusts the transmission power. The determination unit 32 determines whether the transmission power adjusted through the negotiation is greater than the maximum offline P2P search power. If the transmission power adjusted through negotiation is not greater than the maximum offline P2P search power, the P2P communication unit 44 of the P2P link search / communication unit 40 uses the transmission power adjusted through negotiation to communicate with peers of the P2P communication. Execute.

  During the offline P2P communication procedure, UE1 continuously adjusts its transmit power through the adjustment unit 34 according to the change in distance to the peer of the communication and the change in the communication environment, and the transmission adjusted through negotiation. It is determined whether the power is greater than the maximum offline P2P communication power. If the transmission power adjusted through negotiation is not greater than the maximum offline P2P communication power, the P2P communication unit 44 continues to perform offline P2P communication using the adjusted transmission power.

  In the online P2P communication mode, by adopting a method and apparatus similar to those described in the offline P2P communication mode, the UE performs the link search procedure, and the online P2P communication according to the P2P communication parameters of the online P2P communication mode. And the transmission power of online P2P communication may be controlled during P2P communication.

Advantageous Uses of the Invention Referring to the detailed description of the embodiments of the present invention with reference to the accompanying drawings, in the method and apparatus for limiting the interference of P2P communication provided by the present invention, UTRAN has the characteristics and current operation of the communication network. Set and update P2P communication parameters according to the state, thereby adjusting the value of its transmission power according to eg P2P communication parameters when the UE of the communication network is in P2P communication mode (especially when in offline P2P communication mode) It can be seen that the radio range of the P2P communication can be limited, and the interference of the P2P communication with respect to other communicating UEs in the communication network can be efficiently reduced.

  In addition, in offline P2P communication outside the communication network established by the UE, using P2P communication parameters to limit offline P2P communication saves the UE from unnecessary power consumption and other in offline P2P communication Reduce P2P communication interference caused to users.

  The TD-SCDMA system is given as an example to explain the method and apparatus for limiting the interference of P2P communication provided by the present invention, but the method and apparatus can be applied to other P2P capable wireless communication systems. It will be apparent to those skilled in the art.

  Those skilled in the art will recognize that various changes may be made to the method and apparatus for limiting P2P communication interference disclosed in the present invention without departing from the spirit and scope of the present invention as set forth in the appended claims. .

Diagram showing TD-SCDMA system adopting conventional communication mode Diagram showing TD-SCDMA system adopting online P2P communication mode Diagram showing TD-SCDMA system adopting offline P2P communication mode Flowchart showing steps performed by UTRAN to limit interference in P2P communication according to an embodiment of the present invention. Flow chart showing steps performed by a UE performing offline P2P communication to limit P2P communication interference Flow chart showing steps performed by a UE performing offline P2P communication to limit P2P communication interference The block diagram which shows the structure of UE and the network system which restrict | limit the interference of P2P communication according to the Example of this invention

Claims (24)

A method for limiting the interference of P2P communication performed in a communication network system, comprising:
(a) setting P2P communication parameters according to the characteristics of the communication network, the P2P communication parameters limiting interference caused by the UE while performing P2P communication with other UEs;
(b) A method comprising transmitting the P2P communication parameters to the UE in the communication network so that the UE can perform P2P communication with another UE according to the P2P communication parameters.   The method of limiting interference in P2P communication according to claim 1, wherein the characteristics of the communication network include at least one of a resource management scheme of the communication network and a service area of the network. Said step (a) is:
Detecting an operating state of the communication network;
The method for limiting interference in P2P communication according to claim 1 or 2, further comprising setting the P2P communication parameter according to an operating state of the communication network.   The method of limiting interference of P2P communication according to claim 3, wherein the P2P communication parameter includes at least a maximum offline P2P search power and a maximum offline P2P communication power in a service area of the communication network.   5. The method of limiting interference in P2P communication according to claim 4, wherein the P2P communication parameter is transmitted to the UE via a BCCH (Broadcast Control Channel) in the step (b). Detecting whether the resource management method of the communication network has changed;
The method of limiting interference in P2P communication according to claim 2, further comprising resetting corresponding P2P communication parameters when a change occurs. Detecting whether the operating state of the communication network has changed;
The method of limiting interference in P2P communication according to claim 3, further comprising resetting corresponding P2P communication parameters when a change occurs. A method for limiting the interference of P2P communication performed at the UE, which:
(a) receiving P2P communication parameters transmitted from a communication network system, wherein the P2P communication parameters limit interference caused by the UE while performing P2P communication with other UEs;
(b) performing a P2P search procedure with other UEs using the P2P communication parameters to determine an appropriate transmission power;
(c) A method comprising performing P2P communication with another UE using the appropriate transmission power according to the P2P communication parameter. Said step (b) is:
Selecting a corresponding P2P communication parameter from the received P2P communication parameter according to the location of the UE and the P2P communication mode employed;
9. The method of limiting interference of P2P communication according to claim 8, comprising performing a P2P search procedure with another UE using the selected P2P communication parameter.   10. The P2P communication parameter according to claim 9, wherein the P2P communication parameter has at least a maximum offline P2P search power and a maximum offline P2P communication power in a service area of the communication network, and limits interference of P2P communication according to claim 9. A method to limit the interference of P2P communication. Said step (b) is:
Performing an offline P2P search procedure using the maximum offline P2P search power;
Negotiate with other UEs and adjust the transmission power of the offline P2P search procedure;
Determining whether the transmit power adjusted through negotiation is greater than the maximum offline P2P search power;
11. The method of claim 10, comprising performing offline P2P communication with other UEs using transmission power adjusted through negotiation when transmission power adjusted through negotiation is not greater than the maximum offline P2P search power. To limit P2P communication interference.   12. The method of limiting interference in P2P communication according to claim 11, further comprising switching to an online P2P communication search procedure or a conventional communication mode when transmission power adjusted through negotiation is greater than the maximum offline P2P search power. . Adjust the transmit power to send P2P signals during offline P2P communication procedure;
Determining whether the adjusted transmit power is greater than the maximum offline P2P communication power;
The P2P communication according to claim 11, further comprising performing offline P2P communication with other UEs using the adjusted transmission power when the adjusted transmission power is not greater than the maximum offline P2P communication power. To limit interference.   The interference of P2P communication according to claim 13, further comprising switching to one of an online P2P communication search procedure and a conventional communication mode when the adjusted transmission power is greater than the maximum offline P2P communication power. how to. Determining whether the received P2P communication parameter is the same as a currently used P2P communication parameter;
9. The method of limiting interference in P2P communication according to claim 8, further comprising updating a corresponding P2P communication parameter when the received P2P communication parameter is changed. Setting P2P communication parameters according to the characteristics of the communication network, said P2P communication parameters being configured to limit interference caused by the UE while performing P2P communication with other UEs;
A transmission unit for transmitting the P2P communication parameters to the UE in the communication network so that the UE can perform P2P communication with other UEs according to the P2P communication parameters;
A communication network system.   The communication network system according to claim 16, wherein the characteristic of the communication network includes at least one of a resource management method of the communication network and a service area of the network. A detection unit for detecting an operation state of the communication network;
The communication network system according to claim 16 or 17, wherein the setting unit sets the P2P communication parameter according to an operation state of the communication network. Receiving P2P communication parameters transmitted from a communication network system, wherein the P2P communication parameters limit the interference caused by the UE while performing P2P communication with other UEs;
A search unit that performs a P2P search procedure with other UEs using the P2P communication parameters to determine an appropriate transmission power;
A determination unit for determining whether an appropriate transmission power is worthy of the condition of the P2P communication parameter;
A P2P communication unit that performs P2P communication with other UEs using an appropriate transmission power that deserves the P2P communication parameter restriction condition;
UE with   The UE according to claim 19, further comprising an adjustment unit that adjusts transmission power of the UE through P2P search and P2P communication.   21. The UE of claim 20, further comprising a selection unit that selects a corresponding P2P communication parameter from the received P2P communication parameter according to the position of the UE and a P2P communication mode employed.   The UE according to claim 21, wherein the selected P2P communication parameter includes at least a maximum offline P2P search power and a maximum offline P2P communication power in a service area of the communication network. The search unit sets the maximum offline P2P search power as an initial transmission power and performs an offline P2P search;
The coordinating unit negotiates with other UEs and adjusts transmission power during an offline P2P communication procedure;
The determination unit determines whether the transmission power adjusted through negotiation is greater than the maximum offline P2P search power;
23. The UE of claim 22, wherein the P2P communication unit performs offline P2P communication with other UEs using transmission power adjusted through negotiation when the coordination unit determines that a search has been successful. The adjustment unit adjusts transmission power for transmitting a P2P signal during an offline P2P communication procedure;
The determining unit determines whether the adjusted transmission power is greater than the maximum offline P2P communication power;
The P2P communication unit performs offline P2P communication with other UEs using the adjusted transmission power when the determination unit determines that the adjusted transmission power is not greater than the maximum offline P2P communication power The UE according to claim 23.

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