CN104813722A - Method for receiving and method and apparatus for sending paging message - Google Patents

Abstract

The inventive embodiment provides a method for receiving a paging message and a terminal, for solving the problem that too many processing resources will be consumed when a UE determines the location of a frequency domain resource where a PDSCH which carries a paging message is located. The method comprises: determining, by a terminal, according to a functional relationship between a discontinuous reception (DRX) period, a terminal identification of the terminal and the size of a frequency domain resource occupied by a paging message, the location of the frequency domain resource where the paging message is located; and receiving the paging message at the determined location of the frequency domain resource. The inventive embodiment also provids a method for sending a paging message and a network terminal device.

Description

Method for receiving and method and apparatus for sending paging message

A kind of method of reseptance of beep-page message, sending method and engineering device technique field

The present invention relates to wireless communication technology field, more particularly to a kind of method of reseptance of beep-page message, sending method and device.Background technology

Long Term Evolution（Long Term Evolution, LTE) in system, network side equipment can send beep-page message to the user equipment (User Equipment, UE) of idle condition and connection status.The beep-page message is used to notify that system information is updated to UE, or for notifying UE is received to carry out Di Zhen Hai Xiao early warning systems（Earthquake and Tsunami Warning System, ETWS) information and the information such as CMAS.

In the prior art, beep-page message is by Physical Downlink Shared Channel（Physical Downlink Shared Channel, PDSCH) carrying.Time-domain resource position where the PDSCH of bearing call message is the calling time in corresponding paging radio frames (Paging Frame, PF)（Paging Occasion, PO, refer generally to subframe）Determine；And the frequency domain resource position where the PDSCH of bearing call message is then by Physical Downlink Control Channel（Physical Downlink Control Channel, PDCCH) or enhancing Physical Downlink Control Channel（Enhanced Physical Downlink Control Channel, EPDCCH) come what is indicated.Wherein, the PF and PO where above-mentioned PDCCH (or EPDCCH) are the PF and PO where PDSCH.Usually, it is possible to use preceding 2 ~ 3 OFDMs that the PO on PF is included（Orthogonal Frequency Division Multiplexing, OFDM) symbol sends PDCCH (or EPDCCH), and send PDSCH using other OFDM symbols.

Receive before beep-page message, UE needs first to monitor PDCCH (or EPDCCH), then whether carries Radio Network Temporary Identifier according on PDCCH (or EPDCCH)（Paging Radio Network Temporary Identifier, P-RNTI), to judge whether network side equipment has hair beep-page message to UE in this paging cycle.Specifically, if carrying P-RNTI on PDCCH (or EPDCCH), just according to the frequency domain where the PDSCH with bearing call message indicated on PDCCH (or EPDCCH) The relevant parameter of resource location goes to receive the beep-page message on PDSCH；And if UE does not parse P-RNTI on PDCCH (or EPDCCH), then without going to receive PDSCH again, and can be according to discontinuous reception（Discontinuous Reception, DRX) cycle progress dormancy.Utilize this mechanism, in a DRX cycle, UE only can get on to receive PDCCH (or EPDCCH) in the PO time locations occurred, then go to receive PDSCH further according to needs, and UE can enter resting state at other times, to reach the purpose of power saving.

For UE, in order to determine the frequency domain resource position where the PDSCH of bearing call message, need to monitor PDCCH (or EPDCCH) by the way of blind Detecting, such mode can undoubtedly cause UE to consume more process resource.The content of the invention

The embodiment of the present invention provides the method for reseptance and terminal of a kind of beep-page message to solve UE to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource.

The embodiment of the present invention also provides the sending method and network side equipment of a kind of beep-page message.

First aspect there is provided a kind of method of reseptance of beep-page message, including：The functional relation of the size of frequency domain resource of the terminal according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；The beep-page message is received on the frequency domain resource position determined.

With reference in a first aspect, in the first possible implementation, methods described also includes：The terminal determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；Then the terminal receives the beep-page message on the frequency domain resource position determined, specifically includes：The terminal it is determined that time-domain resource position and the frequency domain resource position determined on receive the beep-page message.

With reference in a first aspect, in second of possible implementation, methods described also includes：The terminal determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle and the terminal iidentification；When the time-domain resource position determined and the time-domain resource position phase where system message Meanwhile, the terminal does not receive the beep-page message on the time-domain resource position and frequency domain resource position determined；When the time-domain resource position determined is different from the time-domain resource position where system message, the terminal receives the beep-page message on the frequency domain resource position determined, specifically includes：The terminal receives the beep-page message on the time-domain resource position determined and the frequency domain resource position determined.

With reference to first aspect, the first of first aspect or second of possible implementation, in the third possible implementation, the functional relation of the size of the blunt frequency domain resource according to shared by the DRX cycle, the terminal iidentification and the beep-page message of terminal, the frequency domain resource position where the beep-page message is determined, is specifically included：The terminal determines terminal group identification according to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification；The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that resource block group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

With reference to the third possible implementation of first aspect, in the 4th kind of possible implementation, the mapping relations are that network side equipment and terminal are made an appointment.

With reference to the third possible implementation of first aspect, in the 5th kind of possible implementation, the terminal obtains the mapping relations using following manner：The terminal receives the mapping relations that network side equipment is sent.

With reference to the 5th kind of possible implementation of first aspect, in the 6th kind of possible implementation, the terminal receives the mapping relations, specifically includes：The terminal receives the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

With reference in a first aspect, or first aspect the first any one implementation into the 6th kind of possible implementation, in the 7th kind of possible implementation kind, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

Second aspect there is provided a kind of sending method of beep-page message, including：Network side equipment obtains the terminal iidentification of the terminal of beep-page message to be received；The functional relation of the size of frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determines the frequency where the beep-page message Domain resource location；The beep-page message is sent on the frequency domain resource position determined.

With reference to second aspect, in the first possible implementation, methods described also includes：The network side equipment determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The beep-page message then is sent on the frequency domain resource position determined, is specifically included：The network side equipment it is determined that time-domain resource position and the frequency domain resource position determined on send the beep-page message.

With reference to second aspect, in second of possible implementation, methods described also includes：The network side equipment determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle and the terminal iidentification；When the time-domain resource position determined is identical with the time-domain resource position where system message, the network side equipment sends system message in the time-domain resource position determined without sending the beep-page message；When the time-domain resource position determined is different from the time-domain resource position where system message, the network side equipment sends the beep-page message on the frequency domain resource position determined, specifically includes：The network side equipment sends the beep-page message on the time-domain resource position determined and the frequency domain resource position determined.

With reference to second aspect, or the first of second aspect or second of possible implementation, in the third possible implementation, the functional relation of the size of frequency domain resource of the network side equipment according to shared by the DRX cycle, the terminal iidentification and the beep-page message, the frequency domain resource position where the beep-page message is determined, is specifically included：The network side equipment determines terminal group identification according to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification；Terminal group identification, the size and the functional relation of frequency domain resource group mark of frequency domain resource shared by beep-page message are occupied, determines that frequency domain resource group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

With reference to the third possible implementation of second aspect, in the 4th kind of possible implementation, the mapping relations are that the network side equipment and terminal are made an appointment.

With reference to the third possible implementation of second aspect, in the 5th kind of possible implementation, methods described also includes：The network side equipment notifies the mapping relations to the terminal. With reference to the 5th kind of possible implementation of second aspect, in the 6th kind of possible implementation, the network side equipment notifies the mapping relations, to the terminal, to specifically include：The network side equipment is notified the mapping relations to the terminal using static, semi-static or dynamic advice method.

With reference to second aspect, or second aspect the first any one implementation into the 6th kind of possible implementation, in the 7th kind of possible implementation, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

The third aspect there is provided a kind of terminal, including：Frequency domain resource position determination unit, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；Receiving unit, for receiving the beep-page message on the frequency domain resource position determined.

With reference to the third aspect, in the first possible implementation, the terminal also includes：Time-domain resource position determination unit, for the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；Then the receiving unit specifically for：It is determined that time-domain resource position and frequency domain resource position on receive the beep-page message.

With reference to the third aspect, in second of possible implementation, the terminal also includes：Time-domain resource position determination unit, for the functional relation according to the DRX cycle and the terminal iidentification, determines the time-domain resource position where the beep-page message；Execution unit, for when the time-domain resource position determined is identical with the time-domain resource position where system message, not receiving the beep-page message on the time-domain resource position and frequency domain resource position determined；The receiving unit specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

With reference to the third aspect, or the third aspect the first or second of possible implementation, in the third possible implementation, the frequency domain resource position determination unit is specifically included：Terminal group identification determination subelement, for the functional relation according to the DRX cycle, the terminal iidentification and terminal group identification, Determine terminal group identification；Resource block group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that resource block group is identified；Frequency domain resource position determination subelement, for identifying the third possible implementation with the combination third aspect of frequency domain resource position according to frequency domain resource group, in the 4th kind of possible implementation, the mapping relations are that network side equipment and the terminal are made an appointment.

With reference to the third possible implementation of the third aspect, in the 5th kind of possible implementation, the receiving unit is additionally operable to receive the mapping relations that network side equipment is sent.

With reference to the 5th kind of possible implementation of the third aspect, in the 6th kind of possible implementation, the receiving unit is specifically for receiving the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

With reference to the third aspect, or the third aspect the first any one implementation into the 6th kind of possible implementation, in the 7th kind of possible implementation, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

Fourth aspect there is provided a kind of network side equipment, including：Identify obtaining unit, the terminal iidentification of the terminal for obtaining beep-page message to be received；Frequency domain resource position determination unit, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determines the frequency domain resource position where the beep-page message；Transmitting element, for sending the beep-page message on the frequency domain resource position determined.

With reference to fourth aspect, in the first possible implementation, the network side equipment also includes：Time-domain resource position determination unit, for the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The transmitting element specifically for：It is determined that time-domain resource position and the frequency domain resource position determined on send the beep-page message.

With reference to fourth aspect, in second of possible implementation, the network side equipment also includes： Time-domain resource position determination unit, for the functional relation according to the DRX cycle and the terminal iidentification, determines the time-domain resource position where the beep-page message；Execution unit, for when the time-domain resource position determined is identical with the time-domain resource position where system message, the network side equipment to send system message in the time-domain resource position determined without sending the beep-page message；The transmitting element specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is sent on the time-domain resource position determined and the frequency domain resource position determined.

With reference to fourth aspect, or fourth aspect the first or second of possible implementation, in the third possible implementation, the frequency domain resource position determination unit is specifically included：Terminal group identification determination subelement, for the functional relation according to the DRX cycle, the terminal iidentification and terminal group identification, determines terminal group identification；Frequency domain resource group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that frequency domain resource group is identified；Frequency domain resource position determination subelement, the third possible implementation of fourth aspect is combined with frequency domain resource position for being identified according to frequency domain resource group, in the 4th kind of possible implementation, the mapping relations are that the network side equipment and the terminal are made an appointment.

With reference to the third possible implementation of fourth aspect, in the 5th kind of possible implementation, the transmitting element is additionally operable to：The mapping relations are notified to the terminal.

With reference to the 5th kind of possible implementation of fourth aspect, in the 6th kind of possible implementation, the transmitting element is specifically for using static, semi-static or dynamic advice method, the mapping relations are notified to the terminal.

With reference to fourth aspect, or fourth aspect the first any one implementation into the 6th kind of possible implementation, in the 7th kind of possible implementation, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

There is provided a kind of terminal in terms of 5th, including：Processor, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；Signal receiver, in the frequency domain determined The beep-page message is received on resource location.

With reference to the 5th aspect, in the first possible implementation, the processor is additionally operable to：According to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set, the time-domain resource position where the beep-page message is determined；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The signal receiver specifically for：It is determined that time-domain resource position and the frequency domain resource position determined on receive the beep-page message.

With reference to the 5th aspect, in second of possible implementation, the processor is additionally operable to：According to the functional relation of the DRX cycle and the terminal iidentification, the time-domain resource position where the beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indicate that the signal receiver does not receive the beep-page message on the time-domain resource position and frequency domain resource position determined；The signal receiver specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

With reference to the first or second of possible implementation of the 5th aspect, or the 5th aspect, in the third possible implementation, the processor specifically for：According to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification, terminal group identification is determined；Terminal group identification, the size and the functional relation of frequency domain resource group mark of frequency domain resource shared by beep-page message are occupied, determines that resource block group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

With reference to the third possible implementation of the 5th aspect, in the 4th kind of possible implementation, the mapping relations are that network side equipment and terminal are made an appointment.

With reference to the third possible implementation of the 5th aspect, in the 5th kind of possible implementation, the signal receiver is additionally operable to receive the mapping relations that network side equipment is sent.

With reference to the 5th kind of possible implementation of the 5th aspect, in the 6th kind of possible implementation, the signal receiver is specifically for receiving the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

It is any into the 6th kind of possible implementation with reference to the 5th aspect, or the first of the 5th aspect A kind of implementation, in the 7th kind of possible implementation, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

There is provided a kind of network side equipment in terms of 6th, including：Processor, the terminal iidentification of the terminal for obtaining beep-page message to be received；And the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determine the frequency domain resource position where the beep-page message；Signal projector, for sending the beep-page message on the frequency domain resource position determined.

With reference to the 6th aspect, in the first possible implementation, the processor is additionally operable to the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The signal projector, specifically for it is determined that time-domain resource position and the frequency domain resource position determined on send the beep-page message.

With reference to the 6th aspect, in second of possible implementation, the processor is additionally operable to：According to the functional relation of the DRX cycle and the terminal iidentification, the time-domain resource position where the beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indicate that the signal projector sends system message in the time-domain resource position determined without sending the beep-page message；The signal projector specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is sent on the time-domain resource position determined and the frequency domain resource position determined.

With reference to the first or second of possible implementation of the 6th aspect, or the 6th aspect, in the third possible implementation, the processor specifically for：According to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification, terminal group identification is determined；Terminal group identification, the size and the functional relation of frequency domain resource group mark of frequency domain resource shared by beep-page message are occupied, determines that frequency domain resource group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

With reference to the third possible implementation of the 6th aspect, in the 4th kind of possible implementation, the mapping relations are that the network side equipment and terminal are made an appointment. With reference to the third possible implementation of the 6th aspect, in the 5th kind of possible implementation, the signal projector is additionally operable to notify the mapping relations to the terminal.

With reference to the 6th aspect the 5th kind of possible implementation, in the 6th kind of possible implementation, the signal projector specifically for：Using static, semi-static or dynamic advice method, the mapping relations are notified to the terminal.

With reference to the first any one implementation into the 6th kind of possible implementation of the 6th aspect, or the 6th aspect, in the 7th kind of possible implementation, the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

The functional relation of the size of frequency domain resource of the method provided in an embodiment of the present invention according to shared by DRX cycle, terminal iidentification and beep-page message determines the frequency domain resource position where beep-page message, the frequency domain resource position is sent without PDCCH (or EPDCCH), so as to which UE is without determining the frequency domain resource position where beep-page message by blind Detecting PDCCH (or EPDCCH), solve UE to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource.Brief description of the drawings

Fig. 1 is a kind of idiographic flow schematic diagram of the method for reseptance of beep-page message provided in an embodiment of the present invention；Fig. 2 is the schematic diagram that same terminal group identification maps continuous multiple frequency domain resource positions on frequency domain；Fig. 3 is the schematic diagram that same terminal group identification maps discontinuous multiple frequency domain resource positions on frequency domain；Fig. 4 is for the schematic diagram for the OFDM symbol for sending PBCH；

Fig. 5 is a kind of idiographic flow schematic diagram of the sending method of beep-page message provided in an embodiment of the present invention；Fig. 6 is a kind of concrete structure schematic diagram of terminal provided in an embodiment of the present invention；

Fig. 7 is a kind of concrete structure schematic diagram of network side equipment provided in an embodiment of the present invention；Fig. 8 is the concrete structure schematic diagram of another terminal provided in an embodiment of the present invention；

Fig. 9 is the concrete structure schematic diagram of another network side equipment provided in an embodiment of the present invention. Embodiment

In order to solve UE in order to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource, the embodiment of the present invention provide firstly a kind of method of reseptance of beep-page message, the idiographic flow schematic diagram of this method is as shown in figure 1, including following key step：

Step 11, terminal is according to discontinuous reception（Discontinuous Reception, DRX) cycle, the terminal iidentification of terminal（UE-ID) and beep-page message shared by frequency domain resource size functional relation, determine the frequency domain resource position where beep-page message；

Such as, terminal can just the blunt functional relation according to DRX cycle, terminal iidentification and terminal group identification, first determine terminal group identification；Then, size and the functional relation of frequency domain resource group mark further according to the frequency domain resource shared by terminal group identification, beep-page message, determine that frequency domain resource group is identified；Finally, the mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

As, terminal iidentification can be, but not limited to be terminal international mobile subscriber identity（IP Multimedia Subsystem International Mobile Subscriber Identity, IMSI), Radio Network Temporary Identifier（Radio Network Temporary Identity, RNTI), International Mobile Equipment Identity code (International Mobile Equipment Identity,) or Temporary Mobile Subscriber Identity (Temporarily Mobile Equipment Identity, TMSI) etc. IMEI.Or, the terminal iidentification that network side equipment is obtained can be, but not limited to be according to determinations such as IMSI the RNTL IMEI or TMSI of terminal.

Specifically, the specific implementation of step 11 can include following sub-steps：

Sub-step one：According to DRX cycle and terminal iidentification（UE ID), determine terminal group identification N_group;Such as, nB is worked as>During T, [1] N can be calculated according to the following equation_groUp:

Ng p=(UE-ID mod N)s ＆＆ (floor (UE-ID/N) mod Ns) [1] and as nB≤T, then can according to the following equation [2] calculate N_group:

Each parameter in above-mentioned formula is described as follows：

T represents DRX cycle, and network side equipment can be in System information block（System Information Block, SIB) this parameter is broadcasted to terminal in 2.Usually, T can be 32,64,128 or 256, etc., and unit is radio frames.

N=min (T, nB), i.e. Ν take the minimum value in DRX and nB, and unit is radio frames.Wherein, nB-as can also network side equipment broadcasted in SIB2, its value can be 4T, 2T, Τ, T/2, T/4, T/8, T/16 or T/32, and unit is radio frames.

UE_ID=IMSI mod 1024。

Ns=max(l , ηΒ/Τ)。

Sub-step two：According to terminal group identification N_group, frequency domain resource shared by beep-page message size and the functional relation of frequency domain resource group mark, determine that frequency domain resource group is identified；

Sub-step three：Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

In the embodiment of the present invention, terminal can prestore frequency domain resource group mark and the mapping relations of frequency domain resource position, so as to determine terminal group identification N_groUAfter frequency domain resource group mark corresponding to p, it is possible to by the inquiry to the mapping relations, it is determined that the frequency domain resource position corresponding with the frequency domain resource group mark determined.Such as, if Physical Resource Block shared by beep-page message（Physical Resource Block, PRB) number be NPRB, and by shared by beep-page message NPRB PRB composition collection be collectively referred to as a resource block group（Resource Block Group), then when the number for the PRB that system bandwidth is included is N_QWhen, can according to the following equation [3], the maximum number for the resource block group that computing system bandwidth can be included

Wherein, floor (x) is to represent to round X downwards.

Based on above-mentioned formula [3], when system bandwidth is 3M, N₀=15, if assuming NPRB=6, can calculate i.e. system bandwidth can be comprising 2 resource block groups.For convenience of description, it will be assumed that the two resource block groups are respectively first resource block group and Secondary resource block group.Mark (being respectively 0 and 1) and the terminal group identification N of the two resource block groups_groupFunctional relation can be：

Meet the N of following formula [4]_groupCorrespondence first resource block group：

N_gro_Up mod [4] Meet the N of following formula [5]_groupCorrespondence Secondary resource block group：

Wherein,（X) mod (y) represents x to y modulo operations.

Obtaining the mark and terminal group identification N of the two resource block groups_groUAfter p mapping relations, terminal just can according to mark and the frequency domain resource position of the resource block group prestored mapping relations, search and terminal group identification N_groupThe mark of corresponding resource block group（Such as this be designated 1) corresponding to frequency domain resource position.

Usually, in the mark for the resource block group that terminal is stored and the mapping relations of frequency domain resource position, the mark of same resource block group can be intensively mapped in a resource block group, as shown in Fig. 2；Or the mark of same resource block group can be discretely mapped in a resource block group, as shown in Fig. 3.The N it can be seen from Fig. 2_groupMod NRBG=0 or Ng_roUp mod NRB_G=l mappings are continuous multiple PRB on frequency domain;And as seen from Figure 3, N_groUP mod NRBG=0 or N_GROUPThat mod NRBG=1 maps is discontinuous multiple PRB on frequency domain.

In the embodiment of the present invention, resource block group mark and the mapping relations of frequency domain resource position can network side equipment and terminal make an appointment；Can also be determined by network side equipment and then again notified the mapping relations of determination to terminal, determined with the functional relation of the size of frequency domain resource of the instruction terminal according to shared by DRX cycle, the terminal iidentification of terminal itself and beep-page message after resource block group mark, frequency domain resource position corresponding with the resource block group mark is determined according to the mapping relations, so that terminal knows that it can go to receive beep-page message in which type of frequency domain resource position.

Similarly, the size of the frequency domain resource shared by beep-page message can also be that the size of network side equipment and the frequency domain resource shared by terminal is notified to terminal.

In the embodiment of the present invention, resource block group can be identified using static, semi-static or dynamic advice method and the mapping relations of frequency domain resource position notified to terminal by network side equipment.Or, the mapping relations can also be pre-set in the terminal, and the embodiment of the present invention is not limited the source of the mapping relations.It should be noted that when network side equipment is using static advice method, network side equipment can be specifically that the mapping relations are carried in system message to notify to terminal；When network side equipment is using semi-static During advice method, the mapping relations can be specifically carried on wireless heterogeneous networks by network side equipment（Radio Resource Control, RRC) notify to terminal in common signaling or the proprietary signalings of RRC；When network side equipment uses dynamic advice method, network side equipment can specifically be notified the mapping relations to terminal using control channel.

Similarly, network side equipment can be notified the size of the frequency domain resource shared by beep-page message to terminal using static, semi-static or dynamic advice method.Or, the size of the frequency domain resource shared by beep-page message can also be pre-set in the terminal, and the source of this information of the embodiment of the present invention is obtained to terminal the size of the frequency domain resource shared by beep-page message is not limited.When network side equipment is using static advice method, network side equipment can be specifically that the size of the frequency domain resource shared by beep-page message is carried in system message to notify to terminal；When network side equipment uses semi-static advice method, the size of the frequency domain resource shared by beep-page message can be specifically carried on wireless heterogeneous networks by network side equipment（Radio Resource Control, RRC) notify to terminal in common signaling or the proprietary signalings of RRC；When network side equipment uses dynamic advice method, network side equipment can specifically be notified the size of the frequency domain resource shared by beep-page message to terminal using control channel.

Step 12, terminal receives beep-page message on the frequency domain resource position determined.

It should be noted that, in the method for reseptance of beep-page message provided in an embodiment of the present invention, in addition to proposing a kind of new determination mode for the frequency domain resource position where beep-page message, several new determination modes for the time-domain resource position where beep-page message are also further proposed.

The embodiment of the present invention is provided be introduced for the mode that the time-domain resource position where beep-page message is determined before, first to the determination mode of the time-domain resource position where the beep-page message that uses in the prior art the drawbacks of carry out analysis below explanation：

According to prior art, the regulation algorithm of the mark for the time-domain resource that network side equipment can take according to beep-page message, to calculate the paging frame of the PDSCH for sending bearing call message（Paging Frame, PF) and calling time（Paging Occasion, PO), and then PDCCH (or EPDCCH) and PDSCH are transmitted according to the PF and PO determined.However, in actual applications, the radio frames corresponding to PF and PO determined according to the specific algorithm but not necessarily can be used in sending the PDSCH of bearing call message.Such as for basement this communication scenes, due to may in Transmission system message Penetration loss is overcome using enhancement method, enhanced system message may take resources all in PDSCH, so as to cause to transmit beep-page message without extra frequency domain resource.

Specifically, with Physical Broadcast Channel（Physical Broadcast Channel, PBCH exemplified by), in present LTE system, PBCH can account for middle 72 subcarriers on frequency domain, and can then be sent out once per 10ms in time domain, it sends position and is located on preceding 4 OFDMs (Orthogonal Frequency Division Multiplexing, OFDM) symbol of the 1st time slot of the 0th subframe per frame.Shown in mouth Fig. 4, the transmission position that dotted line frame encloses the i.e. above-mentioned PBCH of OFDM symbol in region is completely in.In addition, the numbering of the OFDM in symbol/expression time slot in Fig. 4.The PBCH content change cycle is 40ms, i.e., in a cycle 40ms, and PBCH content is constant, but the PBCH sent respectively in the two neighboring cycle content is then different.

Under communication scenes as basement as previously described, when when needing enhancing transmission PBCH, the PBCH content change cycle may be used in order to overcome penetration loss（That is 40ms) in all OFDM symbols of centre 72 subcarrier of every frame repeat to transmit PBCH.So, for the LTE system of 1.4M bandwidth, because every frame only includes 72 subcarriers on frequency domain, so needs are calculated even from above-mentioned specific algorithm transmit beep-page message within the PBCH content change cycle, but the frequency domain resource that the content change cycle is included can only transmit PBCH, and can be used for transmitting beep-page message without other frequency domain resources again.

Similarly, when strengthening some other system information of transmission in some radio frames using above-mentioned similar approach, it is also possible to the situation for causing beep-page message can not be transmitted in those radio frames occurs.

In view of the above-mentioned problems existing in the prior art, the determination mode of the time-domain resource position where beep-page message of the prior art is improved in the embodiment of the present invention, beep-page message is caused not send to avoid transmitting the radio frames of beep-page message and the radio frames of enhancing Transmission system information from clashing, so that the problem of terminal can not receive beep-page message on the time-domain resource position determined.

The determination mode for the time-domain resource position where beep-page message in the embodiment of the present invention is introduced in detail below：

First way：

According to the functional relation of DRX cycle, the terminal iidentification of terminal and the offset pre-set, it is determined that Time-domain resource position where beep-page message.

Wherein, offset mentioned here is met：So that the time-domain resource position determined according to above-mentioned mapping relations is different from the time-domain resource position where system information.

Specifically, when it is determined that the time-domain resource position be PF System Frame Number when, in the first way, PF System Frame Number can be determined by following formula [6]（ System Frame Number, SFN ):

SFN mod T=(T div N) * (UE-ID mod N)+PFoffset [6] are described as follows for each parameter in above formula [6]：

SFN represents the System Frame Number of the radio frames for transmitting beep-page message, i.e., the running time-frequency resource position where beep-page message, and its span is 0 ~ 1023.

T represents DRX cycle, and network side equipment can be in System information block（System Information Block, SIB) this parameter is broadcasted to terminal in 2.Usually, T can be 32,64,128 or 256, etc., and unit is radio frames.

N=min (T, nB), i.e. Ν take the minimum value in DRX and nB, and unit is radio frames.Wherein, nB-as can also network side equipment broadcasted in SIB2, its value can be 4T, 2T, Τ, T/2, T/4, T/8, T/16 or T/32, and unit is radio frames.

UE_ID=IMSI mod 1024.Wherein, can also be by RNTI, IMEI or TMSI for calculating UE-ID IMSI) etc. replace.In the embodiment of the present invention, IMSI, RNTL IMEI and TMSI may be collectively referred to as terminal iidentification.

PFoffset is beep-page message frame shifting amount（Paging frame offset), i.e., the offset pre-set described in the embodiment of the present invention, it is generally an integer.

For example, it is assumed that for Transmission system message PBCH transmission using No. 0 radio frames as starting point, and each PBCH can occupy 4 radio frames, and the transmission cycle of the PBCH is 32 radio frames.So, the numbering of the radio frames for transmitting the PBCH can be：（0,1,2,3), (32,33,34,35), ... ... (32*k, 32*k+l , 32*k+2, 32*k+3).

Assuming that PFoffset is equal to 7, T=32, η Β=(1/16) Τ, Ν=2, UE ID mod Ν are 0 or 1, according to SFN mod T=(T div N) * (UE-ID mod N)+PFoffset, it is determined that the numbering of the starting radio frames for transmitting beep-page message can be：16*n+7, wherein n=0,1,2,3 ....Further Ground, if assume to need carries out enhancing transmission to beep-page message, then may need to be more than subframe

One beep-page message of PDSCH transmission, H the number for the radio frames for not being used to strengthen transmission beep-page message in each DRX cycle to be 2, so, according to the above-mentioned numbering determined, can further determine the numbering of the radio frames for strengthening transmission beep-page message can be：16*n+7,16*n+8, wherein n=0,1,2,3 ....

Do not use PFoffset to adjust the radio frames for transmitting beep-page message if can be seen that by the example, then the numbering of the radio frames of transmission beep-page message just includes：1 and 32 etc..The radio frames for possessing those numberings transmit beep-page message due to being both used for, and Transmission system message is used for again, so that being likely to produce previously described causes the problem of beep-page message can not be transmitted in those radio frames.And after using PFoffset to being adjusted for transmitting the radio frames of beep-page message, the radio frames of the radio frames and Transmission system message of transmitting beep-page message just stagger in time domain, so as to avoid above mentioned problem.

In the embodiment of the present invention, it can be configured by the PCH included in existing SIB2（Paging Control Channel-Config, PCCH-Config) in one information element of increase or field represent the PFoffset and be indicated to UE.The length of the information element and field can be one or more bits.

Usually, network side equipment can determine multiple different PFoffset previously according to the time-domain resource where system message.A PFoffset subsequently can be chosen from those PFoffset determined and be sent to UE, SFN is calculated in above-mentioned formula [6] to indicate that UE substitutes into the PFoffset, and beep-page message is received according to the SFN calculated.

The value that following false codes list PFoffset can be determined in numerical value l (numl) and numerical value 2 (num2).The numl and num2 can be that network side equipment is predetermined.

PCCH-Config：: = SEQUENCE {

defaultPagingCycle ENUMERATED {

rB2, rf64, rfl28, rf256},

nB ENUMERATED {

fourT, twoT, oneT, halfT, quarter T, oneEighthT,

oneSixteenthT, oneThirtySecondT} PFoffset ENUMERATED { numl, num2 } it should be noted that, even if system message and beep-page message are sent using same PF, following formula [7] can also be further used to calculate subframe numbers i-s of the P0 for sending beep-page message in the PF in the embodiment of the present invention, to be used in the PF PO that the PO for sending beep-page message is different from being used to send system message:

Wherein, PSFoffset is the offset pre-set to i_s=floor (UE_ID/N) mod Ns+PSFoffset [7], and it is that the PO taken according to system message in the PF subframe numbers are determined, it meets：So that i-the s calculated according to formula [7] is different from the subframe numbers for the PO that system message takes in the PF.

By using the first way, the time-domain resource position that terminal is determined can be caused different from the time-domain resource position where system information, so that the specific implementation of step 12 described previously can include：Terminal in the time-domain resource position determined and receives beep-page message on frequency domain resource position.

The second way：

First, according to the functional relation of DRX cycle and the terminal iidentification of terminal, the running time-frequency resource position where beep-page message is determined.Such as, following formula [8] can be used, PF system frame number SFN is calculated:

SFN=(T div N) * (UE-ID mod N) [8] is then, if it is determined that time-domain resource position it is identical with the time-domain resource position where system message, then terminal is in the time-domain resource position determined and by not receiving beep-page message on the frequency domain resource position that performs step 11 and determine；And if it is determined that time-domain resource position it is different from the time-domain resource position where system message, then the specific implementation of abovementioned steps 12 can include：Terminal is in the time-domain resource position determined and by receiving beep-page message on the frequency domain resource position that performs step 11 and determine.

It is as follows that one kind of the second way implements code：

IfTl <= (T div N)*(UE— ID mod N)<= T2

SFN mod T = null;

else

SFN mod T=(T div N)*(UE— ID mod N)

End Wherein [T1, T2] represents Transmission system message（Such as PBCH) at the time of.

From the method for reseptance of beep-page message provided in an embodiment of the present invention, this method determines the frequency domain resource position where beep-page message according to the functional relation of DRX cycle and terminal iidentification, the frequency domain resource position is sent without PDCCH (or EPDCCH), so as to which UE is without determining the frequency domain resource position where beep-page message by blind Detecting PDCCH (or EPDCCH), solve UE to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource.

For the method for reseptance identical inventive concept with above-mentioned beep-page message provided in an embodiment of the present invention, the embodiment of the present invention also provides a kind of sending method of beep-page message, and the idiographic flow schematic diagram of this method is as shown in figure 5, including following key steps：

Step 51, network side equipment obtains the terminal iidentification of the terminal of beep-page message to be received；

In the embodiment of the present invention, the terminal iidentification that network side equipment is obtained can be, but not limited to be IMSI, RNTI, IMEI or TMSI of terminal etc..Or, the terminal iidentification that network side equipment is obtained can be, but not limited to be according to determinations such as IMSI, RNTL IMEI or TMSI of terminal.

Step 52, the functional relation of the size of the frequency domain resource according to shared by DRX cycle, the terminal iidentification obtained and beep-page message, determines the frequency domain resource position where beep-page message；

Step 53, beep-page message is sent on the frequency domain resource position determined.

For above-mentioned steps 52, its specific implementation can include following sub-steps：

Sub-step one：According to DRX cycle and the terminal iidentification obtained（UE-ID), determine the terminal group identification N corresponding to the terminal iidentification_group;

Such as, nB is worked as>During T, N can be calculated according to previously described formula [1]_group;And as nB≤T, then N can be calculated according to previously described formula [2]_groUp。

Sub-step two：The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that frequency domain resource group is identified；

Sub-step three：Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

In the embodiment of the present invention, network side equipment can prestore frequency domain resource group mark and the mapping relations of frequency domain resource position, so as to determine terminal group identification N_groUFrequency domain resource group mark corresponding to p Afterwards, it is possible to by the inquiry to the mapping relations, it is determined that the frequency domain resource position corresponding with the frequency domain resource group mark determined.

Such as, if Physical Resource Block shared by beep-page message（Physical Resource Block, PRB) number be NPRB, and by shared by beep-page message NPRB PRB composition collection be collectively referred to as a resource block group（Resource Block Group), then when the number for the PRB that system bandwidth is included is N₀When, the maximum number RBGO for the resource block group that be able to can be included according to previously described formula [3] computing system bandwidth

It is possible to further according to previously described formula [4] and formula [5], it is determined that with the N that calculates_groupThe mark of correspondence first resource block group.

Finally, obtaining and terminal group identification N_groupAfter the mark of corresponding resource block group, network side equipment just can according to mark and the frequency domain resource position of the resource block group prestored mapping relations, search and terminal group identification N_groupThe mark of corresponding resource block group（Such as this be designated 1) corresponding to frequency domain resource position.

Usually, in the mark for the resource block group that network side equipment is stored and the mapping relations of frequency domain resource position, the mark of same resource block group can be intensively mapped in a resource block group, as shown in Figure 2；Or the mark of same resource block group can be discretely mapped in a resource block group, as shown in Fig. 3.As seen from Figure 2, N_groupMod NRBG=0 or N_groUp mod NRB_G=l mappings are continuous multiple PRB on frequency domain;And as seen from Figure 3, N_groUP mod NRBG=0 or N_GROUPThat mod NRBG=1 maps is discontinuous multiple PRB on frequency domain.

In the embodiment of the present invention, resource block group mark and the mapping relations of frequency domain resource position can network side equipment and terminal make an appointment；Can also be determined by network side equipment and then again notified the mapping relations of determination to terminal, determined with the functional relation of the size of frequency domain resource of the instruction terminal according to shared by DRX cycle, the terminal iidentification of terminal itself and beep-page message after resource block group mark, frequency domain resource position corresponding with the resource block group mark is determined according to the mapping relations, so that terminal knows that it can go to receive beep-page message in which type of frequency domain resource position.

In the embodiment of the present invention, resource block group can be identified using static, semi-static or dynamic advice method and the mapping relations of frequency domain resource position notified to terminal by network side equipment.Or, the mapping relations It can also pre-set in the terminal, the embodiment of the present invention is not limited the source of the mapping relations.It should be noted that when network side equipment is using static advice method, network side equipment can be specifically that the mapping relations are carried in system message to notify to terminal；When network side equipment uses semi-static advice method, the mapping relations can be specifically carried on wireless heterogeneous networks by network side equipment（Radio Resource Control, RRC) notify to terminal in common signaling or the proprietary signalings of RRC；When network side equipment uses dynamic advice method, network side equipment can specifically be notified the mapping relations to terminal using control channel.

It should be noted that, in the sending method of beep-page message provided in an embodiment of the present invention, in addition to proposing a kind of new determination mode for the frequency domain resource position where beep-page message, the determination mode of following several time-domain resource positions for where beep-page message is also further proposed：

First way：

According to DRX cycle, the terminal iidentification of the terminal of the beep-page message to be received obtained and the functional relation of the offset pre-set, the time-domain resource position where beep-page message is determined.

Wherein, offset mentioned here is met：So that the time-domain resource position determined according to above-mentioned mapping relations is different from the time-domain resource position where system information.

Specifically, when it is determined that the time-domain resource position be PF System Frame Number when, in the first way, PF service system frame number SFN, i.e. SFN mod T=(T div N) * (UE-ID mod N)+PFoffset can be determined by previously described formula [6]

For example, it is assumed that for Transmission system message PBCH transmission using No. 0 radio frames as starting point, and each PBCH can occupy 4 radio frames, and the transmission cycle of the PBCH is 32 radio frames.So, the numbering of the radio frames for transmitting the PBCH can be：（0,1,2,3), (32,33,34,35), (32*k, 32*k+l , 32*k+2, 32*k+3).

Assuming that PFoffset is equal to 7, T=32, η Β=(1/16) Τ, Ν=2, UE ID mod Ν are 0 or 1, according to SFN mod T=(T div N) * (UE-ID mod N)+PFoffset, it is determined that the numbering of the starting radio frames for transmitting beep-page message can be：16*n+7, wherein n=0,1,2,3 ....Further, if assume to need carries out enhancing transmission to beep-page message, then may need to be more than one beep-page message of PDSCH transmission of a subframe, H not to be used to strengthen transmission beep-page message in each DRX cycle The number of radio frames is 2, then, according to the above-mentioned numbering determined, can further determine the numbering of the radio frames for strengthening transmission beep-page message can be：16*n+7,16*n+8, wherein n=0,1,2,3 ....

Do not use PFoffset to adjust the radio frames for transmitting beep-page message if can be seen that by the example, then the numbering of the radio frames of transmission beep-page message just includes：1 and 32 etc..The radio frames for possessing those numberings transmit beep-page message due to being both used for, and Transmission system message is used for again, so that being likely to produce previously described causes the problem of beep-page message can not be transmitted in those radio frames.And after using PFoffset to being adjusted for transmitting the radio frames of beep-page message, the radio frames of the radio frames and Transmission system message of transmitting beep-page message just stagger in time domain, so as to avoid above mentioned problem.

In the embodiment of the present invention, it can be configured by the PCH included in existing SIB2（Paging Control Channel-Config, PCCH-Config) in one information element of increase or field represent the PFoffset and be indicated to UE.The length of the information element and field can be one or more bits.

Usually, network side equipment can determine multiple different PFoffset previously according to the time-domain resource where system message.A PFoffset subsequently can be chosen from those PFoffset determined and be sent to UE, SFN is calculated in formula [6] to indicate that UE substitutes into the PFoffset, and beep-page message is received according to the SFN calculated.

The value that following false codes list PFoffset can be determined in numerical value l (numl) and numerical value 2 (num2).The numl and num2 can be that network side equipment is predetermined.

PCCH-Config：: = SEQUENCE {

defaultPagingCycle ENUMERATED {

rB2, rf64, rfl28, rf256},

nB ENUMERATED {

fourT, twoT, oneT, halfT, quarter T, oneEighthT,

OneSixteenthT, oneThirtySecondT } PFoffset ENUMERATED { num 1, num2 } are, it is necessary to illustrate, even if system message and beep-page message are sent using same PF, the present invention is real Subframe numbers i-the s for the PO for sending beep-page message that further can also be calculated in example using previously described formula [7] in the PF is applied, to be used in the PF PO that the PO for sending beep-page message is different from being used to send system message.

Based on the time-domain resource position determined according to the first way, the specific implementation of step 53 described previously can include：Network side equipment sends beep-page message on the time-domain resource position and frequency domain resource position determined.

The second way：

First, according to the functional relation of DRX cycle and the terminal iidentification of the terminal of the beep-page message to be received obtained, running time-frequency resource position is determined.Such as, PF system frame number SFN can be calculated using previously described formula [8].

Then, however, it is determined that the time-domain resource position gone out is identical with the time-domain resource position where system message, then network side equipment sends system message in the time-domain resource position determined without sending beep-page message；And if it is determined that time-domain resource position it is different from the time-domain resource position where system message, then network side equipment sends the mode of beep-page message on the frequency domain resource position determined and can specifically included：Network side equipment sends beep-page message on the time-domain resource position determined and the frequency domain resource position determined.

It is as follows that one kind of the second way implements code：

IfTl <= (T div N)*(UE— ID mod N)<= T2

SFN mod T = null;

else

SFN mod T=(T div N)*(UE— ID mod N)

End

Wherein [T1, T2] represents Transmission system message（Such as PBCH) at the time of.

From the sending method of beep-page message provided in an embodiment of the present invention, the functional relation of the size of frequency domain resource of this method according to shared by DRX cycle terminal iidentification and beep-page message determines the frequency domain resource position where beep-page message, the frequency domain resource position is sent without PDCCH (or EPDCCH), so as to which UE is without determining the frequency domain resource position where beep-page message by blind Detecting PDCCH (or EPDCCH), solve UE to determine the frequency domain resource position meeting where the PDSCH of bearing call message The problem of expending more process resource.

For the inventive concept of the method for reseptance of beep-page message provided in an embodiment of the present invention, the embodiment of the present invention also provides a kind of terminal as shown in Fig. 6, to solve UE in order to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource.The terminal specifically includes following Main functional units as shown in Figure 6：

Frequency domain resource position determination unit 61, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of terminal and beep-page message, determines the frequency domain resource position where beep-page message；

Receiving unit 62, for receiving beep-page message on the frequency domain resource position determined.

Optionally, the terminal provided in an embodiment of the present invention can further include the time-domain resource position determination unit 63 as shown in Fig. 6.Wherein, the time-domain resource position determination unit 63 can be used for the functional relation according to DRX cycle, terminal iidentification and the offset pre-set, determine the time-domain resource position where beep-page message.Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information.

The time-domain resource position determined based on the time-domain resource position determination unit 63, receiving unit 62 specifically can be used for：It is determined that time-domain resource position and frequency domain resource position on receive beep-page message.

In the embodiment of the present invention, time-domain resource position determination unit 63 can also determine time-domain resource position using other modes.Such as, the time-domain resource position where beep-page message can be determined according to the functional relation of DRX cycle and terminal iidentification.When time domain resource location determining unit 63 determines time-domain resource position using which, the terminal shown in Fig. 6 can further include execution unit.The execution unit is used for when the time-domain resource position determined is identical with the time-domain resource position where system message, does not receive beep-page message on the time-domain resource position and frequency domain resource position determined.Meanwhile, receiving unit 62 specifically can be used for：When the time-domain resource position determined is different from the time-domain resource position where system message, beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

Corresponding to a kind of specific implementation of the function of frequency domain resource position determination unit 61, the frequency domain resource position determination unit 61 following functions subelement can be divided into the embodiment of the present invention：

Terminal group identification determination subelement, it is blunt according to DRX cycle, terminal iidentification and terminal group identification for 4 Functional relation, determines terminal group identification；

Resource block group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that resource block group is identified；

Frequency domain resource position determination subelement, for according to frequency domain resource group identify and the embodiment of the present invention of frequency domain resource position in, above-mentioned mapping relations can network side equipment and terminal make an appointment；Can also be that terminal is sent to by network side equipment, and received by the receiving unit 62 of terminal.Specifically, network side equipment can send the mapping relations using static, semi-static or dynamical fashion.

For the inventive concept of the sending method of beep-page message provided in an embodiment of the present invention, the embodiment of the present invention also provides a kind of network side equipment as shown in Figure 7, and it mainly includes following functions unit：

Identify obtaining unit 71, the terminal iidentification of the terminal for obtaining beep-page message to be received；Frequency domain resource position determination unit 72, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of the mark acquisition of obtaining unit 71 and beep-page message, determines the frequency domain resource position where beep-page message；

Transmitting element 73, for sending beep-page message on the frequency domain resource position determined.

Optionally, the network side equipment provided in an embodiment of the present invention can further include the time-domain resource position determination unit 74 as shown in Fig. 7.The time-domain resource position determination unit 74 determines the time-domain resource position where beep-page message specifically for the functional relation according to DRX cycle, terminal iidentification and the offset pre-set；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information.Based on the function of the time-domain resource position determination unit 74, transmitting element 73 specifically can be used for：Beep-page message is sent on the frequency domain resource position that the time-domain resource position and frequency domain resource position determination unit 72 determined in time-domain resource position determination unit 74 is determined.

Optionally, the network side equipment provided in an embodiment of the present invention can further include：Time-domain resource position determination unit 74, for the functional relation according to DRX cycle and terminal iidentification, determines the time-domain resource position where beep-page message；Execution unit, for when the time-domain resource position determined is identical with the time-domain resource position where system message, network side equipment to send system message in the time-domain resource position determined without sending beep-page message.Based on the function of the time-domain resource position determination unit 74, send single Member 73 specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, beep-page message is sent on the time-domain resource position determined and the frequency domain resource position determined.

Corresponding to a kind of implementation of the function of frequency domain resource position determination unit 72, the frequency domain resource position determination unit 72 specifically following functions subelement can be divided into the embodiment of the present invention：

Terminal group identification determination subelement, for the 4 blunt functional relations according to DRX cycle, terminal iidentification and terminal group identification, determines terminal group identification；

Frequency domain resource group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that frequency domain resource group is identified；

Frequency domain resource position determination subelement, for being identified according to frequency domain resource group in the embodiment of the present invention with frequency domain resource position, above-mentioned mapping relations can be supplied to terminal by network side equipment by way of making an appointment.Or, the mapping relations can also be notified to terminal by transmitting element 73.Such as, transmitting element 73 can specifically be notified the mapping relations to terminal using static, semi-static or dynamic advice method.

For the inventive concept of the method for reseptance of beep-page message provided in an embodiment of the present invention, the embodiment of the present invention also provides a kind of terminal as shown in Figure 8, and it mainly includes following functions entity：

Processor 81, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of terminal and beep-page message, determines the frequency domain resource position where beep-page message；Signal receiver 82, for receiving beep-page message on the frequency domain resource position determined.

Optionally, processor 81 can be also used for：According to DRX cycle, terminal iidentification and the functional relation of the offset pre-set, the time-domain resource position where beep-page message is determined；Wherein, offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information.And signal receiver 82 then specifically can be used for：Beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

Or, processor 81 can be also used for：According to the functional relation of DRX cycle and terminal iidentification, the time-domain resource position where beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indication signal receiver 82 not in the time-domain resource position determined and Frequency domain resource receives beep-page message on position.And signal receiver 82 specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

Optionally, processor 81 specifically can be used for：According to the functional relation of DRX cycle, terminal iidentification and terminal group identification, terminal group identification is determined；The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that resource block group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

Wherein, above-mentioned mapping relations are that network side equipment and terminal are made an appointment；Or can be that terminal is sent to by network side equipment, and received by the signal receiver 82 of terminal.Such as, signal receiver 82 can receive the mapping relations sent by network side equipment using static, semi-static or dynamical fashion.

For the inventive concept of the sending method of beep-page message provided in an embodiment of the present invention, the embodiment of the present invention also provides a kind of network side equipment as shown in Figure 9, and it mainly includes following functions entity：

Processor 91, the terminal iidentification of the terminal for obtaining beep-page message to be received；And the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, terminal iidentification and beep-page message, determine the frequency domain resource position where beep-page message；

Signal projector 92, for sending beep-page message on the frequency domain resource position that processor 91 is determined.Optionally, processor 91 is additionally operable to the functional relation according to DRX cycle, terminal iidentification and the offset pre-set, determines the time-domain resource position where beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information.The function based on processor 91, signal projector 92 specifically can be used for it is determined that time-domain resource position and the frequency domain resource position determined on send beep-page message.

Optionally, processor 91 is additionally operable to：According to the functional relation of DRX cycle and terminal iidentification, the time-domain resource position where beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indication signal transmitter 92 sends system message in the time-domain resource position determined without sending beep-page message.The function based on processor 91, signal projector 92 specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, true The time-domain resource position made and send beep-page message on the frequency domain resource position determined.

Optionally, processor 91 specifically can be used for：According to the functional relation of DRX cycle, terminal iidentification and terminal group identification, terminal group identification is determined；The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that frequency domain resource group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

In the embodiment of the present invention, network side equipment can make an appointment above-mentioned mapping relations with terminal；Or, signal projector 92 can notify the mapping relations to terminal.Such as, signal projector 92 can specifically be notified the mapping relations to terminal using static, semi-static or dynamic advice method.

It should be noted that in the embodiment of the present invention, above-mentioned terminal iidentification can be IMSI, RNTL IMEI or TMSI of terminal etc., or, above-mentioned terminal iidentification may each be according to determinations such as IMSI, RNTL IMEI or TMSI of terminal.

The functional relation of the size of frequency domain resource of the method provided in an embodiment of the present invention according to shared by DRX cycle, terminal iidentification and beep-page message determines the frequency domain resource position where beep-page message, the frequency domain resource position is sent without PDCCH (or EPDCCH), so as to which UE is without determining the frequency domain resource position where beep-page message by blind Detecting PDCCH (or EPDCCH), solve UE to determine the problem of frequency domain resource position where the PDSCH of bearing call message can expend more process resource.

It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program product.Therefore, the form of the embodiment in terms of the present invention can use complete hardware embodiment, complete software embodiment or combine software and hardware.Moreover, the present invention can be used (includes but is not limited to magnetic disk storage, CD-ROM, optical memory etc. in one or more computer-usable storage mediums for wherein including computer usable program code）The form of the computer program product of upper implementation.

The present invention is with reference to method according to embodiments of the present invention, equipment（System）And the flow chart and/or block diagram of computer program product are described.It should be understood that can by the flow in each flow and/or square frame and flow chart and/or block diagram in computer program instructions implementation process figure and/or block diagram and/or square frame combination.Can provide these computer program instructions to all-purpose computer, special-purpose computer, The processor of Embedded Processor or other programmable data processing devices is to produce a machine so that produce the device for being used for realizing the function of being specified in one flow of flow chart or multiple flows and/or one square frame of block diagram or multiple square frames by the instruction of the computing device of computer or other programmable data processing devices.

These computer program instructions may be alternatively stored in the computer-readable memory that computer or other programmable data processing devices can be guided to work in a specific way, so that the instruction being stored in the computer-readable memory, which is produced, includes the manufacture of command device, the command device realizes the function of being specified in one flow of flow chart or multiple flows and/or one square frame of block diagram or multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices, so that series of operation steps is performed on computer or other programmable devices to produce computer implemented processing, so that the instruction performed on computer or other programmable devices provides the step of being used to realize the function of specifying in one flow of flow chart or multiple flows and/or one square frame of block diagram or multiple square frames.

Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creative concept, then other change and modification can be made to these embodiments.So, appended claims are intended to be construed to include preferred embodiment and fall into having altered and changing for the scope of the invention.

Claims (1)

1. Claim

   1st, a kind of method of reseptance of beep-page message, it is characterised in that including：

   The functional relation of the size of frequency domain resource of the terminal according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；The beep-page message is received on the frequency domain resource position determined.

   2nd, the method as described in claim 1, it is characterised in that methods described also includes：

   The terminal determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；Then

   The terminal receives the beep-page message on the frequency domain resource position determined, specifically includes：The terminal it is determined that time-domain resource position and the frequency domain resource position determined on receive the beep-page message.

   3rd, the method as described in claim 1, it is characterised in that methods described also includes：

   The terminal determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle and the terminal iidentification；

   When the time-domain resource position determined is identical with the time-domain resource position where system message, the terminal does not receive the beep-page message on the time-domain resource position and frequency domain resource position determined；

   When the time-domain resource position determined is different from the time-domain resource position where system message, the terminal receives the beep-page message on the frequency domain resource position determined, specifically includes：

   The terminal receives the beep-page message on the time-domain resource position determined and the frequency domain resource position determined.

   4th, the method as described in claim 1 ~ 3 is any, it is characterized in that, the functional relation of the size of frequency domain resource of the terminal according to shared by the DRX cycles, the terminal iidentification and the beep-page message, determines the frequency domain resource position where the beep-page message, specifically includes：

   The terminal determines terminal group identification according to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification； The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that resource block group is identified；

   Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

   5th, method as claimed in claim 4, it is characterised in that the mapping relations are that network side equipment and terminal are made an appointment.

   6th, method as claimed in claim 4, it is characterised in that the terminal obtains the mapping relations using following manner：

   The terminal receives the mapping relations that network side equipment is sent.

   7th, method as claimed in claim 6, it is characterised in that the terminal receives the mapping relations, specifically includes：

   The terminal receives the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

   8th, the method as described in claim 1 ~ 7 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

   9th, a kind of sending method of beep-page message, it is characterised in that including：

   Network side equipment obtains the terminal iidentification of the terminal of beep-page message to be received；

   The functional relation of the size of frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determines the frequency domain resource position where the beep-page message；

   The beep-page message is sent on the frequency domain resource position determined.

   10th, method as claimed in claim 9, it is characterised in that methods described also includes：The network side equipment determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The beep-page message then is sent on the frequency domain resource position determined, is specifically included：

   The network side equipment it is determined that time-domain resource position and the frequency domain resource position determined on send The beep-page message.

   11st, method as claimed in claim 9, it is characterised in that methods described also includes：The network side equipment determines the time-domain resource position where the beep-page message according to the functional relation of the DRX cycle and the terminal iidentification；

   When the time-domain resource position determined is identical with the time-domain resource position where system message, the network side equipment sends system message in the time-domain resource position determined without sending the beep-page message；When the time-domain resource position determined is different from the time-domain resource position where system message, the network side equipment sends the beep-page message on the frequency domain resource position determined, specifically includes：

   The network side equipment sends the beep-page message on the time-domain resource position determined and the frequency domain resource position determined.

   12nd, the method as described in claim 9 ~ 11 is any, it is characterized in that, the functional relation of the size of frequency domain resource of the network side equipment according to shared by the DRX cycle, the terminal iidentification and the beep-page message, the frequency domain resource position where the beep-page message is determined, is specifically included：

   The network side equipment determines terminal group identification according to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification；

   The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that frequency domain resource group is identified；

   Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

   13rd, method as claimed in claim 12, it is characterised in that the mapping relations are that the network side equipment and terminal are made an appointment.

   14th, method as claimed in claim 12, it is characterised in that methods described also includes：The network side equipment notifies the mapping relations to the terminal.

   15th, method as claimed in claim 14, it is characterised in that the network side equipment notifies the mapping relations, to the terminal, to specifically include：

   The network side equipment is notified the mapping relations to the terminal using static, semi-static or dynamic advice method. 16th, the method as described in claim 9 ~ 15 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

   17th, a kind of terminal, it is characterised in that including：

   Frequency domain resource position determination unit, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；

   Receiving unit, for receiving the beep-page message on the frequency domain resource position determined.

   18th, terminal as claimed in claim 17, it is characterised in that the terminal also includes：Time-domain resource position determination unit, for the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；Then

   The receiving unit specifically for：It is determined that time-domain resource position and frequency domain resource position on receive the beep-page message.

   19th, terminal as claimed in claim 17, it is characterised in that the terminal also includes：Time-domain resource position determination unit, for the functional relation according to the DRX cycle and the terminal iidentification, determines the time-domain resource position where the beep-page message；

   Execution unit, for when the time-domain resource position determined is identical with the time-domain resource position where system message, not receiving the beep-page message on the time-domain resource position and frequency domain resource position determined；The receiving unit specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

   20th, the terminal as described in claim 17 ~ 19 is any, it is characterised in that the frequency domain resource position determination unit is specifically included：

   Terminal group identification determination subelement, for the 4 blunt functional relations according to the DRX cycle, the terminal iidentification and terminal group identification, determines terminal group identification； Resource block group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that resource block group is identified；

   Frequency domain resource position determination subelement, for being identified and frequency domain resource position according to frequency domain resource group

   21st, terminal as claimed in claim 20, it is characterised in that the mapping relations are that network side equipment and the terminal are made an appointment.

   22nd, terminal as claimed in claim 20, it is characterised in that the receiving unit is additionally operable to receive the mapping relations that network side equipment is sent.

   23rd, terminal as claimed in claim 22, it is characterised in that the receiving unit is specifically for receiving the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

   24th, the terminal as described in claim 17 ~ 23 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

   25th, a kind of network side equipment, it is characterised in that including：

   Identify obtaining unit, the terminal iidentification of the terminal for obtaining beep-page message to be received；

   Frequency domain resource position determination unit, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determines the frequency domain resource position where the beep-page message；

   Transmitting element, for sending the beep-page message on the frequency domain resource position determined.

   26th, network side equipment as claimed in claim 25, it is characterised in that the network side equipment also includes：

   Time-domain resource position determination unit, for the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；

   The transmitting element specifically for：It is determined that time-domain resource position and the frequency domain resource position determined on send the beep-page message. 27th, network side equipment as claimed in claim 25, it is characterised in that the network side equipment also includes：

   Time-domain resource position determination unit, for the functional relation according to the DRX cycle and the terminal iidentification, determines the time-domain resource position where the beep-page message；

   Execution unit, for when the time-domain resource position determined is identical with the time-domain resource position where system message, the network side equipment to send system message in the time-domain resource position determined without sending the beep-page message；

   The transmitting element specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is sent on the time-domain resource position determined and the frequency domain resource position determined.

   28th, the network side equipment as described in claim 25 ~ 27 is any, it is characterised in that the frequency domain resource position determination unit is specifically included：

   Terminal group identification determination subelement, for the 4 blunt functional relations according to the DRX cycle, the terminal iidentification and terminal group identification, determines terminal group identification；

   Frequency domain resource group identifies determination subelement, the functional relation that the size and frequency domain resource group for the frequency domain resource according to shared by terminal group identification, beep-page message are identified, and determines that frequency domain resource group is identified；

   Frequency domain resource position determination subelement, for being identified and frequency domain resource position according to frequency domain resource group

   29th, network side equipment as claimed in claim 28, it is characterised in that the mapping relations are that the network side equipment and the terminal are made an appointment.

   30th, network side equipment as claimed in claim 28, it is characterised in that the transmitting element is additionally operable to：The mapping relations are notified to the terminal.

   31st, method as claimed in claim 30, it is characterised in that the transmitting element is specifically for using static, semi-static or dynamic advice method, the mapping relations are notified to the terminal.

   32nd, the network side equipment as described in claim 25 ~ 31 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI. 33rd, a kind of terminal, it is characterised in that including：

   Processor, for the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification of the terminal and beep-page message, determines the frequency domain resource position where the beep-page message；

   Signal receiver, for receiving the beep-page message on the frequency domain resource position determined.

   34th, terminal as claimed in claim 33, it is characterised in that

   The processor is additionally operable to：According to the functional relation of the DRX cycle, the terminal iidentification and the offset pre-set, the time-domain resource position where the beep-page message is determined；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The signal receiver specifically for：It is determined that time-domain resource position and the frequency domain resource position determined on receive the beep-page message.

   35th, terminal as claimed in claim 33, it is characterised in that

   The processor is additionally operable to：According to the functional relation of the DRX cycle and the terminal iidentification, the time-domain resource position where the beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indicate that the signal receiver does not receive the beep-page message on the time-domain resource position and frequency domain resource position determined；

   The signal receiver specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is received on the time-domain resource position determined and the frequency domain resource position determined.

   36th, the terminal as described in claim 33 ~ 35 is any, it is characterised in that

   The processor specifically for：According to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification, terminal group identification is determined；The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that resource block group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

   37th, terminal as claimed in claim 36, it is characterised in that the mapping relations are that network side equipment and terminal are made an appointment. 38th, terminal as claimed in claim 36, it is characterised in that the signal receiver is additionally operable to receive the mapping relations that network side equipment is sent.

   39th, terminal as claimed in claim 38, it is characterised in that the signal receiver is specifically for receiving the mapping relations sent by the network side equipment using static, semi-static or dynamical fashion.

   40th, the terminal as described in claim 33 ~ 39 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.

   41st, a kind of network side equipment, it is characterised in that including：

   Processor, the terminal iidentification of the terminal for obtaining beep-page message to be received；And the functional relation of the size of the frequency domain resource according to shared by discontinuous reception DRX period, the terminal iidentification and beep-page message, determine the frequency domain resource position where the beep-page message；

   Signal projector, for sending the beep-page message on the frequency domain resource position determined.

   42nd, network side equipment as claimed in claim 41, it is characterised in that

   The processor is additionally operable to the functional relation according to the DRX cycle, the terminal iidentification and the offset pre-set, determines the time-domain resource position where the beep-page message；Wherein, the offset is met：So that the time-domain resource position determined is different from the time-domain resource position where system information；The signal projector, specifically for it is determined that time-domain resource position and the frequency domain resource position determined on send the beep-page message.

   43rd, network side equipment as claimed in claim 41, it is characterised in that

   The processor is additionally operable to：According to the functional relation of the DRX cycle and the terminal iidentification, the time-domain resource position where the beep-page message is determined；When the time-domain resource position determined is identical with the time-domain resource position where system message, indicate that the signal projector sends system message in the time-domain resource position determined without sending the beep-page message；

   The signal projector specifically for：When the time-domain resource position determined is different from the time-domain resource position where system message, the beep-page message is sent on the time-domain resource position determined and the frequency domain resource position determined.

   44th, the network side equipment as described in claim 41 ~ 43 is any, it is characterised in that The processor specifically for：According to the functional relation of the DRX cycle, the terminal iidentification and terminal group identification, terminal group identification is determined；The functional relation of size and frequency domain resource the group mark of frequency domain resource according to shared by terminal group identification, beep-page message, determines that frequency domain resource group is identified；Mapping relations with frequency domain resource position are identified according to frequency domain resource group, it is determined that the frequency domain resource group determined identifies mapped frequency domain resource position.

   45th, network side equipment as claimed in claim 44, it is characterised in that the mapping relations are that the network side equipment and terminal are made an appointment.

   46th, network side equipment as claimed in claim 44, it is characterised in that the signal projector is additionally operable to notify the mapping relations to the terminal.

   47th, network side equipment as claimed in claim 46, it is characterised in that the signal projector specifically for：Using static, semi-static or dynamic advice method, the mapping relations are notified to the terminal.

   48th, the network side equipment as described in claim 41 ~ 47 is any, it is characterised in that the terminal iidentification includes：International mobile subscriber identity IMSI, Radio Network Temporary Identifier RNTI, International Mobile Equipment Identity code IMEI or Temporary Mobile Subscriber Identity TMSI.