CN104518843A

CN104518843A - Public message emitting and receiving method, device and system

Info

Publication number: CN104518843A
Application number: CN201310451734.7A
Authority: CN
Inventors: 石靖; 戴博; 方惠英; 夏树强; 李新彩; 刘锟
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2013-09-27
Filing date: 2013-09-27
Publication date: 2015-04-15
Anticipated expiration: 2033-09-27
Also published as: WO2014187260A1; CN104518843B

Abstract

The invention discloses a public message emitting method, device and a public message receiving method, device, and a public message transmission system; the public message emitting method comprises the following steps: a base station determines a time frequency resource position for sending the public message according to a coverage grade; emitting the public message through the time frequency resource position, wherein the public message is carried by a business channel; the relative technology cannot transmit public message under a coverage enhanced condition, the invention can provide such a method for emitting the public message under the coverage enhanced condition.

Description

Publicly-owned message sending, receiving method, Apparatus and system

Technical field

The present invention relates to the communications field, in particular to the publicly-owned message method of one, device, publicly-owned message receival method, device and publicly-owned message delivery system.

Background technology

Machine type communication (Machine Type Communication, referred to as MTC) subscriber equipment (User Equipment, referred to as UE, be also called user terminal), be also called machine to machine (Machine to Machine, referred to as M2M) user communication device is the main application form of current Internet of Things.In recent years, due to Long Term Evolution (Long-Term Evolution, referred to as LTE)/advanced long-term evolution system (Long-Term Evolution Advance, referred to as LTE-Advance or LTE-A) spectrum efficiency high, increasing mobile operator selects LTE/LTE-A as the evolution tendency of system of broadband wireless communication.MTC multiple types data service based on LTE/LTE-A also will be more attractive.

Existing LTE/LTE-A system is transmitted based on each subframe dynamic dispatching, and namely each subframe all can transmit different control channels, and its frame structure as depicted in figs. 1 and 2.

Fig. 1 is Frequency Division Duplexing (FDD) (the Frequency Division Duplexing according to correlation technique, referred to as FDD) schematic diagram of the frame structure of pattern, as shown in Figure 1, the radio frames of a 10ms is 0.5ms by 20 length, time slot (slot) composition of numbering 0 ~ 19, time slot 2i and 2i+1 forms length, and to be subframe (subframe) i, the i of 1ms be 0 or natural number.

Fig. 2 is time division duplex (the Time Division Duplexing according to correlation technique, referred to as TDD) schematic diagram of the frame structure of pattern, as shown in Figure 2, the radio frames of a 10ms is made up of two long fields (half frame) for 5ms, it is the subframe of 1ms that a field comprises 5 length, and subframe i is defined as 2 long time slot 2i and 2i+1 for 0.5ms.

Physical Downlink Control Channel (Physical Downlink Control Channel, referred to as PDCCH) is defined in LTE/LTE-A.Wherein, Physical Control Format Indicator Channel (Physical Control Format Indicator Channel, referred to as PCFICH) information that carries is used to indicate the number of OFDM (OrthogonalFrequency Division Multiplexing, referred to as the OFDM) symbol transmitting PDCCH in a subframe.Physical mixed ARQ indicating channel (PhysicalHybrid-ARQ Indicator Channel, referred to as PHICH) for carrying acknowledgement/non-acknowledgement (ACK/NACK) feedback information of uplink transmission data, wherein, ARQ is the abbreviation of HARQ (Automatic Repeat-reQuest).

PDCCH is used for bearing downlink control information (Downlink Control Information, referred to as DCI), comprising: uplink and downlink schedule information, and uplink power control information.

Usual MTC terminal can by obtaining DCI at each subframe demodulation PDCCH channel, to realize Physical Downlink Shared Channel (Physical Downlink Share Channel, referred to as PDSCH) and the demodulation of Physical Uplink Shared Channel (PhysicalUplink Share Channel, referred to as PUSCH).

The message of the upper carrying of PDSCH is divided into publicly-owned message and the proprietary message of user, can receive for multiple UE in publicly-owned message normally a community simultaneously, and the proprietary message of user can only receive by a UE in Shi Yige community usually.And no matter PDSCH carrying is publicly-owned message or user's specific messages, all need PDCCH to carry out scheduling instruction, namely terminal first after correct reception PDCCH, must can receive PDSCH.

The present inventor finds in research process, in actual applications, have a Terminal Type due to present position or self-characteristic limited thus cause covering performance significantly to decline.Such as, under intelligent meter data recording class MTC terminal is fixedly mounted on the low covering performance environment such as basement mostly, its data that mainly send away a parcel, low to the requirement of data rate, larger data transmission delay can be tolerated.Because this type of terminal log is low according to rate requirement, for data channel, can by lower modulating-coding speed and time domain repeatedly repeat the correct transmission that the modes such as transmission ensure parcel data, for synchronizing channel transmission itself is exactly identical information, the identical information that terminal sends by receiving multiple subframe.Therefore covering under limited scene, Traffic Channel and control channel all need to repeat transmission to promote covering.Traffic Channel for the publicly-owned message of carrying repeats transmission, the control channel in publicly-owned search volume is needed to repeat to dispatch instruction, and current publicly-owned search volume is less, repeats transmission blocking rate can be caused greatly to promote for a large amount of, thus system cannot be worked.Therefore, be necessary to provide a kind of method how transmitting publicly-owned message under the scene of coverage enhancement.

For the problem not having a kind of method transmitting publicly-owned message under the scene of coverage enhancement to cause in correlation technique, at present effective solution is not yet proposed.

Summary of the invention

The invention provides a kind of publicly-owned message method, device and publicly-owned message receival method, device and publicly-owned message delivery system, at least to solve in correlation technique the problem not having a kind of method transmitting publicly-owned message under the scene of coverage enhancement to cause.

According to an aspect of the present invention, provide a kind of publicly-owned message method, comprising: the running time-frequency resource position sending publicly-owned message, according to covering grade, is determined in base station; Send described publicly-owned message by described running time-frequency resource position, wherein, described publicly-owned message bearing on a traffic channel.

Preferably, described Traffic Channel repeats in described running time-frequency resource position to send, and wherein, the repetition transmission times of described Traffic Channel is determined by following mode one of at least:

The repetition transmission times carrying the described Traffic Channel of described publicly-owned message is different from the repetition transmission times of the Traffic Channel of dispatching with the control channel of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI (C-RNTI) scrambling;

The repetition transmission times carrying the described Traffic Channel of described publicly-owned message is identical;

According to the type of the described publicly-owned message of carrying, determine the repetition transmission times of corresponding described Traffic Channel;

Wherein, described publicly-owned message comprise following one of at least: system information block (SIB) message, accidental access response (RAR) message, paging (Paging) message.

Preferably, according to the type of described publicly-owned message of carrying, determine the repetition transmission times of corresponding described Traffic Channel comprise following one of at least:

According at least one mode among the maximal cover grade of the repetition transmission times of broadcast channel, described base station, the period assignment of described SIB message or the first predefine value, determine the repetition transmission times of the described Traffic Channel carrying described SIB message;

According at least one mode among the maximal cover grade of leading, described base station, the covering grade of described subscriber equipment or the second predefine value that subscriber equipment sends in Stochastic accessing, determine the repetition transmission times of the described Traffic Channel carrying described RAR message;

At least one mode among the maximal cover grade of leading, the described base station sent in Stochastic accessing according to described subscriber equipment, the covering grade of described subscriber equipment, radio resource control layer (RRC) signaling or the 3rd predefine value, determines the repetition transmission times of the described Traffic Channel carrying described Paging message.

Preferably, according to described subscriber equipment send in Stochastic accessing described leading, determine that the repetition transmission times of the described Traffic Channel carrying described RAR message or described Paging message comprises: according to described leading running time-frequency resource or described leading sequence, determine the repetition transmission times of the described Traffic Channel carrying described RAR message or described Paging message.

Preferably, the described Traffic Channel carrying described SIB message repeats to send according to predetermined period interval, and wherein, described predetermined period is the cycle of the cycle of fixing duration or one group of duration according to the 4th predefine value configuration.

Preferably, the described Traffic Channel carrying described SIB message once repeats to send in described predetermined period, and describedly once repeats transmission and be arranged in one or more SIB cycle.

Preferably, the described Traffic Channel carrying described SIB message is that aperiodicity repeats to send.

Preferably, the described Traffic Channel carrying described publicly-owned message, when without control channel scheduling instruction, determines the frequency domain resource repeating to send described Traffic Channel by following mode one of at least:

In frequency domain polymerization grade, determine the number of PRB in Physical Resource Block (PRB) resource that described frequency domain resource takies, wherein, described frequency domain resource adopt binary phase shift keying (BPSK) modulate or Quadrature Phase Shift Keying (QPSK) modulation, and respectively by Cyclic Redundancy Check bit corresponding to publicly-owned message described in the first Radio Network Temporary Identifier (RNTI), the 2nd RNTI and the 3rd RNTI scrambling; Wherein, a described RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the scrambling of CRC bit corresponding to described SIB message; Described 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the scrambling of CRC bit corresponding to described Paging message; Described 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the scrambling of CRC bit corresponding to described RAR message;

According to the instruction of RRC signaling, determine the described PRB resource that described frequency domain resource takies;

According to the 5th predefine value, determine the described PRB resource that described frequency domain resource takies.

Preferably, the original position of described PRB resource is determined by one of following mode:

Determine that numbering minimum PRB resource in described PRB resource is described original position;

Determine that numbering maximum PRB resource in described PRB resource is described original position;

According to formula determine the described original position of described PRB resource; Wherein, L represents polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M(L) the Candidate Set quantity that polymerization grade L is corresponding is represented; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; NRNTI represents the RNTI value of scrambling CRC bit, and SFN represents radio frame number, and mod represents modulo operation.

Preferably, in the instruction according to RRC signaling or according to the 5th predefine value, when determining the described RPB resource that described frequency domain resource takies, described PRB resource is continuous or discrete PRB resource, and the PRB number of described RPB resource is less than or equal to 6.

Preferably, determine that the original position of described Traffic Channel in the subframe of the described Traffic Channel of transmission carrying described publicly-owned message is the 3rd OFDM (OFDM) symbol, or, according to the bandwidth of system, determine the primary sign of described Traffic Channel in described subframe carrying described publicly-owned message.

Preferably, according to the bandwidth of system, the described primary sign of described Traffic Channel in described subframe determining to carry described publicly-owned message comprises one of following mode: when described system bandwidth is 1.4MHz, determine that the 5th OFDM symbol of described subframe is described primary sign; When described system bandwidth is greater than 1.4MHz, determine that the 4th OFDM symbol of described subframe is described primary sign.

Preferably, running time-frequency resource position shared when the described Traffic Channel the carrying described SIB message running time-frequency resource position shared when larger covering grade comprises less covering grade.

Preferably, the original position for transmitting the described subframe of described Traffic Channel is determined one of in the following manner:

According to the type of the described publicly-owned message of carrying, the 6th predefine value is adopted to determine the original position of described subframe;

The original position of the described subframe of the described Traffic Channel of SIB message described in transmission bearer is determined according to K value, wherein, described K value meets relational expression (K+h*n) mod M=i, wherein K represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤K≤h-1, n represents the radio frames at the subframe place being in original position, h is the quantity of the available descending sub frame comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1, wherein, serial number is re-started in a time division duplex (tdd) according to descending sub frame available in radio frames,

Determine the original position of the described subframe of the described Traffic Channel of RAR message described in transmission bearer or described Paging message according to L value, wherein, described L value meets relational expression (L+h*n) mod N=j.Wherein L represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤L≤h-1, n represents the radio frames at the subframe place being in original position, h is the available descending sub frame quantity comprised in a radio frames, N represents iterative transfer times, 0≤j≤h-1, wherein, re-starts serial number according to descending sub frame available in radio frames in a tdd system;

Determine the original position of the described subframe of the described Traffic Channel of Paging message described in transmission bearer according to H value, wherein, described H value meets relational expression (H+h*n) mod T=j.Wherein H represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤H≤h-1, n represents the radio frames at the subframe place being in original position, h is the available descending sub frame quantity comprised in a radio frames, T represents the cycle repeating to transmit, 0≤j≤h-1, wherein, re-starts serial number according to descending sub frame available in radio frames in a tdd system;

According to a kind of mode among the type of the subframe at the leading sequence place in Stochastic accessing, described sequence, the covering grade of described leading corresponding described base station or the 7th predefine value, determine the original position of the described subframe of the described Traffic Channel of RAR message described in transmission bearer.

Preferably, according to the type of described publicly-owned message of carrying, determine the position of described subframe comprise following one of at least:

The subframe determining the described Traffic Channel of RAR message described in transmission bearer adopts continuous print mode to send;

The subframe determining the described Traffic Channel of Paging message described in transmission bearer adopts the mode of discrete selection to send;

The mode that the subframe determining the described Traffic Channel of SIB message described in transmission bearer adopts the cycle to repeat sends.

Preferably, when the mode that the subframe of the described Traffic Channel determining SIB message described in transmission bearer adopts the cycle to repeat sends, the mode that the control channel of execution cost Traffic Channel adopts the identical cycle to repeat sends.

Preferably, when the described Traffic Channel carrying described publicly-owned message adopts the cycle to repeat to send, the frequency domain resource carrying the described Traffic Channel of described publicly-owned message in the multiple subframes repeating to send described Traffic Channel is identical.

Preferably, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, for repeating the multiple subframes sending described Traffic Channel, carry the resource size that control channel corresponding to the described Traffic Channel of described publicly-owned message take identical.

Preferably, according to the type of the described publicly-owned message that the maximal cover grade of described base station or the described Traffic Channel of correspondence carry, the repetition transmission times of described control channel is determined.

Preferably, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, carry control channel use M-SI-RNTI or the SI-RNTI scrambling CRC bit that the Traffic Channel of described SIB message is corresponding, wherein, the value of described M-SI-RNTI is different from the value of described SI-RNTI.

Preferably, the Physical Downlink Control Channel of described M-SI-RNTI scrambling is used to transmit in identical subframe or different subframe from the physical down Traffic Channel that described Physical Downlink Control Channel is dispatched.

According to another aspect of the present invention, additionally provide a kind of publicly-owned message receival method, comprise: subscriber equipment is according to covering grade, publicly-owned message is received in specific running time-frequency resource position, wherein, described specific running time-frequency resource position is determined by network side, and described publicly-owned message bearing on a traffic channel.

Preferably, described Traffic Channel repeats in described specific running time-frequency resource position to receive, and wherein, the number of repetition of described Traffic Channel is determined by following mode one of at least:

The number of repetition carrying the described Traffic Channel of described publicly-owned message is different from the number of repetition of the Traffic Channel of dispatching with the control channel of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI (C-RNTI) scrambling;

The number of repetition carrying the described Traffic Channel of described publicly-owned message is identical;

According to the type of the described publicly-owned message of carrying, determine the number of repetition of corresponding described Traffic Channel.

Preferably, according to the type of described publicly-owned message of carrying, determine the number of repetition of corresponding described Traffic Channel comprise following one of at least:

According at least one mode among the period assignment of the number of repetition of broadcast channel, maximal cover grade, described SIB message or the first predefine value, determine the number of repetition of the described Traffic Channel carrying described SIB message;

According at least one mode among the maximal cover grade of leading, described base station, the covering grade of described subscriber equipment or the second predefine value that described subscriber equipment sends in Stochastic accessing, determine the number of repetition of the described Traffic Channel carrying described RAR message;

At least one mode among the maximal cover grade of leading, the described base station sent in Stochastic accessing according to described subscriber equipment, the covering grade of described subscriber equipment, radio resource control layer (RRC) signaling or the 3rd predefine value, determines the number of repetition of the described Traffic Channel carrying described Paging message.

Preferably, according to described subscriber equipment send in Stochastic accessing described leading, determine that the number of repetition of the described Traffic Channel carrying described RAR message or described Paging message comprises:

According to described leading running time-frequency resource or described leading sequence, determine the number of repetition of the described Traffic Channel carrying described RAR message or described Paging message.

Preferably, the described Traffic Channel carrying described SIB message repeats to receive according to predetermined period interval, and wherein, described predetermined period is the cycle of the cycle of fixing duration or one group of duration according to the 4th predefine value configuration.

Preferably, the described Traffic Channel carrying described SIB message once repeats to receive in described predetermined period, and describedly once repeats reception and be arranged in one or more SIB cycle.

Preferably, when the described Traffic Channel carrying described SIB message is aperiodicity repetition, receives described publicly-owned message in described specific running time-frequency resource position and comprise: the described Traffic Channel determining to carry described SIB message by blind Detecting.

Preferably, described method also comprises: the described Traffic Channel of described subscriber equipment to the described SIB message of carrying is carried out multiple SIB cycle and attempted decoding.

Preferably, the described Traffic Channel carrying described publicly-owned message, when without control channel scheduling instruction, determines the frequency domain resource repeating to receive described Traffic Channel by following mode one of at least:

In frequency domain polymerization grade, the number of PRB in Physical Resource Block (PRB) resource that frequency domain resource described in blind check takies, wherein, described frequency domain resource adopts binary phase shift keying (BPSK) demodulation or Quadrature Phase Shift Keying (QPSK) demodulation, and respectively by Cyclic Redundancy Check bit corresponding to publicly-owned message described in the first Radio Network Temporary Identifier (RNTI), the 2nd RNTI and the 3rd RNTI descrambling; Wherein, a described RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the descrambling of CRC bit corresponding to described SIB message; Described 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the descrambling of CRC bit corresponding to described Paging message; Described 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the descrambling of CRC bit corresponding to described RAR message;

According to formula determine the described original position of described PRB resource, wherein, L polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M(L) the Candidate Set quantity that polymerization grade L is corresponding is represented; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; NRNTI represents the RNTI value of scrambling CRC bit, and SFN represents radio frame number, and mod represents modulo operation.

Preferably, specific running time-frequency resource position shared when the described Traffic Channel the carrying described SIB message specific running time-frequency resource position shared when larger covering grade comprises less covering grade.

Preferably, the original position for receiving the described subframe of described Traffic Channel is determined one of in the following manner:

According to the type of the described publicly-owned message of carrying, the 6th predefine value is adopted to determine the original position of described subframe.

According to a kind of mode among the type of the subframe at the leading sequence place in Stochastic accessing, described sequence, the covering grade of described leading corresponding described base station or the 7th predefine value, determine the original position of the described subframe of the described Traffic Channel receiving the described RAR message of carrying.

The subframe determining the described Traffic Channel of RAR message described in transmission bearer adopts continuous print mode to receive;

The subframe determining the described Traffic Channel of Paging message described in transmission bearer adopts the mode of discrete selection to receive;

The mode that the subframe determining the described Traffic Channel of SIB message described in transmission bearer adopts the cycle to repeat receives.

Preferably, when the mode that the subframe of the described Traffic Channel determining SIB message described in transmission bearer adopts the cycle to repeat receives, the mode that the control channel of execution cost Traffic Channel adopts the identical cycle to repeat receives.

Preferably, when the described Traffic Channel carrying described publicly-owned message adopts the cycle to repeat to receive, the frequency domain resource carrying the described Traffic Channel of described publicly-owned message in the multiple subframes repeating to receive described Traffic Channel is identical.

Preferably, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, for repeating the multiple subframes receiving described Traffic Channel, carry the resource size that control channel corresponding to the described Traffic Channel of described publicly-owned message take identical.

Preferably, according to the type of the described publicly-owned message of the described Traffic Channel carrying of maximal cover grade or correspondence, determine described control channel repeat receive number of times.

Preferably, the Physical Downlink Control Channel of described M-SI-RNTI scrambling is used to receive in identical subframe or different subframe from the physical down Traffic Channel that described Physical Downlink Control Channel is dispatched.

According to another aspect of the present invention, additionally provide a kind of publicly-owned message dispensing device, be positioned at network side, described device comprises: the first determination module, for according to covering grade, determines the running time-frequency resource position sending publicly-owned message; Sending module, for sending described publicly-owned message by described running time-frequency resource position, wherein, described publicly-owned message bearing on a traffic channel.

According to another aspect of the present invention, additionally provide a kind of publicly-owned message receiving apparatus, be positioned at end side, described device comprises: receiver module, for according to covering grade, receive publicly-owned message in specific running time-frequency resource position, wherein, described specific running time-frequency resource position is determined by network side, and described publicly-owned message bearing on a traffic channel.

According to another aspect of the present invention, additionally provide a kind of publicly-owned message delivery system, comprise above-mentioned publicly-owned message dispensing device and above-mentioned publicly-owned message receiving apparatus.

By the present invention, adopt base station according to covering grade, determine the running time-frequency resource position sending publicly-owned message; Publicly-owned message is sent by this running time-frequency resource position, wherein, this publicly-owned message bearing mode on a traffic channel, solve in correlation technique the problem not having a kind of method transmitting publicly-owned message under the scene of coverage enhancement to cause, thus provide a kind of method transmitting publicly-owned message under the scene of coverage enhancement.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of the frame structure of fdd mode according to correlation technique;

Fig. 2 is the schematic diagram of the frame structure of tdd mode according to correlation technique;

Fig. 3 is the schematic flow sheet of the publicly-owned message method according to the embodiment of the present invention;

Fig. 4 is the structural representation of the publicly-owned message dispensing device according to the embodiment of the present invention;

Fig. 5 is the structural representation of the publicly-owned message delivery system according to the embodiment of the present invention;

Fig. 6 a ~ Fig. 6 c is the schematic diagram being respectively one-level, secondary and three grades of resources taken according to the preferred embodiment of the invention in covering grade;

Fig. 7 is the schematic flow sheet one of publicly-owned according to the preferred embodiment of the invention method for message transmission;

Fig. 8 is the schematic flow sheet two of publicly-owned according to the preferred embodiment of the invention method for message transmission.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

Can perform in the computer system of such as one group of computer executable instructions in the step shown in the flow chart of accompanying drawing, and, although show logical order in flow charts, in some cases, can be different from the step shown or described by order execution herein.

Present embodiments provide a kind of publicly-owned message method, Fig. 3 is the schematic flow sheet of the publicly-owned message method according to the embodiment of the present invention, and as shown in Figure 3, this flow process comprises the steps:

Step S302, the running time-frequency resource position sending publicly-owned message, according to covering grade, is determined in base station;

Step S304, sends publicly-owned message by this running time-frequency resource position, and wherein, this publicly-owned message bearing on a traffic channel.

Pass through above-mentioned steps, base station is determined to send the running time-frequency resource position of publicly-owned message according to covering grade and sends publicly-owned message in the running time-frequency resource position determined, thus provide a kind of method transmitting publicly-owned message under the scene of coverage enhancement, and then can to solve when publicly-owned search volume is limited a large amount of problem repeating to transmit the blocking rate that causes and promote, ensure that normal, the steady operation of system.

Preferably, above-mentioned covering grade can confirm according to following mode one of at least: the leader resource that in pre-configured, random access procedure, subscriber equipment sends or measuring-signal, radio resource control layer (RadioResource Control layer, referred to as RRC) signaling that sequence, base station or subscriber equipment send.

Preferably, Traffic Channel repeats in running time-frequency resource position to send, and when carrying out repeating sending, can adopt the repetition transmission times of various ways determination Traffic Channel, such as, adopt following a kind of mode one of at least to determine:

1, the repetition transmission times carrying the Traffic Channel of publicly-owned message is arranged in the mode of the repetition transmission times being different from the Traffic Channel of being dispatched by the control channel of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI (CellRadio Network Temporary Identifier, referred to as C-RNTI) scrambling;

2, the repetition transmission times carrying the Traffic Channel of publicly-owned message can be set to identical repetition transmission times;

3, according to the type of the publicly-owned message of carrying, such as: system information block (System Information Block, referred to as SIB) message, accidental access response (Random Access Response, referred to as RAR) message or paging (Paging) message, determine the repetition transmission times of corresponding Traffic Channel.

Preferably, publicly-owned message can be the message of following one of at least type: SIB message, RAR message, Paging message.

Preferably, in aforesaid way, according to the type of publicly-owned message of carrying, determine that the repetition transmission times of corresponding Traffic Channel can adopt various ways, such as: adopt following mode one of at least:

1, for SIB message, according at least one mode among the period assignment of the maximal cover grade of the repetition transmission times of broadcast channel, base station, SIB message or the first predefine value, the repetition transmission times of the Traffic Channel carrying SIB message can be determined;

2, for RAR message, at least one mode among leading, the maximal cover grade of base station, the covering grade of subscriber equipment or the second predefine value that can send in Stochastic accessing according to subscriber equipment, determines the repetition transmission times of the Traffic Channel carrying RAR message;

3, for RAR message, at least one mode among the maximal cover grade of leading, the base station that can send in Stochastic accessing according to subscriber equipment, the covering grade of subscriber equipment, RRC signaling or the 3rd predefine value, determines the repetition transmission times of the Traffic Channel carrying Paging message.

Preferably, in aforesaid way, according to subscriber equipment send in Stochastic accessing leading, determine that the repetition transmission times of the Traffic Channel carrying RAR message or Paging message comprises: according to leading running time-frequency resource or leading sequence, determine the repetition transmission times of the Traffic Channel carrying RAR message or Paging message.

Preferably, the Traffic Channel of carrying SIB message can repeat to send according to predetermined period interval, wherein, this predetermined period can for fixing the cycle of the cycle of duration or one group of duration according to the 4th predefine value configuration, such as, it is a definite value that cycle is fixedly installed, or is set to the different cycles under different scenes.

Preferably, the Traffic Channel of carrying SIB message once repeats to send in predetermined period, and once repeats transmission and be arranged in one or more SIB cycle.

Preferably, the Traffic Channel of carrying SIB message is that aperiodicity repeats to send, and wherein, subscriber equipment can determine by blind Detecting the Traffic Channel carrying SIB message.

Preferably, in order to reduce the transmission times of Traffic Channel, subscriber equipment can attempt decoding by carrying out multiple cycle to the Traffic Channel of carrying SIB message, and preferably, multiple cycle can comprise one of following: 4,8,16,32,64.

Preferably, the Traffic Channel carrying publicly-owned message, when without control channel scheduling instruction, can determine the frequency domain resource repeating to send Traffic Channel in several ways, such as, by following mode one of at least:

1, in each frequency domain polymerization grade, determine Physical Resource Block (the Physical Resource Block that frequency domain resource takies, referred to as PRB) number of PRB in resource, wherein, this frequency domain resource adopts binary phase shift keying (Binary Phase ShiftKeying, referred to as BPSK) modulate or Quadrature Phase Shift Keying (Quadrature Phase Shift Keying, referred to as QPSK) modulation, and respectively by the first Radio Network Temporary Identifier (Radio Network Temporary Identifier, referred to as RNTI), 2nd RNTI and cyclic redundancy check (CRC) (Cyclic Redundancy Check corresponding to the publicly-owned message of the 3rd RNTI scrambling, referred to as CRC) bit, wherein, a RNTI comprises the different SI-RNTI(SIB-RNTI of value) and M-SI-RNTI(MTC-SIB-RNTI), for the scrambling of CRC bit corresponding to SIB message, 2nd RNTI comprises the different P-RNTI(Paging-RNTI of value) and M-P-RNTI(MTC-Paging-RNTI), for the scrambling of CRC bit corresponding to Paging message, 3rd RNTI comprises the different RA-RNTI(RAR-RNTI of value) and M-RA-RNTI(MTC-RAR-RNTI), for the scrambling of CRC bit corresponding to RAR message.

2, according to the instruction of RRC signaling, the PRB resource that frequency domain resource takies is determined;

3, according to the 5th predefine value, the PRB resource that frequency domain resource takies is determined.

Preferably, the original position of the PRB resource in aforesaid way can include but not limited to one of following mode further:

1, determine that numbering minimum PRB resource in PRB resource is original position;

2, determine that numbering maximum PRB resource in PRB resource is original position;

3, according to formula determine the original position of PRB resource; Wherein, L represents polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M ^(L)represent the Candidate Set quantity that polymerization grade L is corresponding; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; n _rNTIrepresent the RNTI value of scrambling CRC bit, SFN represents radio frame number, and mod represents modulo operation.Preferably, L=1,2,3,6; N _{pRB, k}=6.

Preferably, in the instruction according to RRC signaling or according to the 5th predefine value, when determining the RPB resource that frequency domain resource takies, PRB resource is continuous or discrete PRB resource, and the PRB number of RPB resource is less than or equal to 6.

Preferably, the original position of Traffic Channel in the subframe of transport service channel determining to carry publicly-owned message is the 3rd OFDM symbol, or, according to the bandwidth of system, determine the primary sign of Traffic Channel in subframe carrying publicly-owned message.

Preferably, in the bandwidth according to system, when the primary sign of the Traffic Channel determining to carry publicly-owned message in subframe, include but not limited to adopt one of following mode:

1, when system bandwidth is 1.4MHz, determine that the 5th OFDM symbol of subframe is primary sign;

2, when system bandwidth is greater than 1.4MHz, determine that the 4th OFDM symbol of subframe is primary sign.

Preferably, running time-frequency resource position shared when the Traffic Channel of the carrying SIB message running time-frequency resource position shared when larger covering grade comprises less covering grade, namely along with the increase covering grade, the running time-frequency resource position before taken does not change, but newly increases new running time-frequency resource position.

Preferably, the mode determining the original position of the subframe of transport service channel includes but not limited to under type:

1, according to the type of the publicly-owned message of carrying, determine the original position of subframe, such as, adopt the 6th predefine value, the Traffic Channel of publicly-owned message dissimilar for carrying is corresponded to different subframe original positions;

2, the original position of the subframe of the Traffic Channel of transmission bearer SIB message is determined according to K value, wherein, K value meets relational expression (K+h*n) mod M=i, wherein K represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤K≤h-1, n represents the radio frames at the subframe place being in original position, h is the quantity of the available descending sub frame comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1, wherein, serial number is re-started according to descending sub frame available in radio frames in a tdd system;

3, determine the original position of the subframe of the Traffic Channel of transmission bearer RAR message or Paging message according to L value, wherein, L value meets relational expression (L+h*n) mod N=j.Wherein L represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤L≤h-1, n represents the radio frames at the subframe place being in original position, h is the available descending sub frame quantity comprised in a radio frames, N represents iterative transfer times, 0≤j≤h-1, wherein, re-starts serial number according to descending sub frame available in radio frames in a tdd system;

4, determine the original position of the subframe of the Traffic Channel of transmission bearer Paging message according to H value, wherein, H value meets relational expression (H+h*n) mod T=j.Wherein H represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤H≤h-1, n represents the radio frames at the subframe place being in original position, h is the available descending sub frame quantity comprised in a radio frames, T represents the cycle repeating to transmit, 0≤j≤h-1, wherein, re-starts serial number according to descending sub frame available in radio frames in a tdd system;

5, according to a kind of mode among the type of the subframe at the leading sequence place in Stochastic accessing, this sequence, the covering grade of this leading corresponding base station or the 7th predefine value, the original position of the subframe of the Traffic Channel of transmission bearer RAR message is determined.

Preferably, following mode one of is at least included but not limited to according to the position of type determination frame of the publicly-owned message of carrying:

1, the subframe determining the Traffic Channel of transmission bearer RAR message adopts continuous print mode to send;

2, the subframe determining the Traffic Channel of transmission bearer Paging message adopts the mode of discrete selection to send;

3, the mode that the subframe determining the Traffic Channel of transmission bearer SIB message adopts the cycle to repeat sends.

Preferably, when the mode that the subframe of the Traffic Channel determining transmission bearer SIB message adopts the cycle to repeat sends, the mode that the control channel dispatching this Traffic Channel adopts the identical cycle to repeat sends.

Preferably, when the Traffic Channel carrying publicly-owned message adopts the cycle to repeat to send, the frequency domain resource carrying the Traffic Channel of publicly-owned message in the multiple subframes repeating transmission Traffic Channel is identical.

Preferably, when the Traffic Channel carrying publicly-owned message has control channel to indicate, for repeating to send multiple subframes of Traffic Channel, carry the resource size that control channel corresponding to the Traffic Channel of publicly-owned message take identical.

Preferably, according to the type of the publicly-owned message of the Traffic Channel carrying of the maximal cover grade of base station or correspondence, the repetition transmission times of control channel can also be determined.

Preferably, when the Traffic Channel carrying publicly-owned message has control channel to dispatch instruction, the control channel that the Traffic Channel of carrying SIB message is corresponding uses M-SI-RNTI or SI-RNTI scrambling CRC bit, and wherein, the value of M-SI-RNTI is different from the value of SI-RNTI.

Preferably, the Physical Downlink Control Channel of M-SI-RNTI scrambling is used to transmit in identical subframe or different subframe from the physical down Traffic Channel (being also called Physical Downlink Shared Channel) that Physical Downlink Control Channel is dispatched.

The present embodiment additionally provides a kind of publicly-owned message receival method, comprises the steps:

Subscriber equipment is according to covering grade, and receive publicly-owned message in specific running time-frequency resource position, wherein, this specific running time-frequency resource position is determined by network side, and this publicly-owned message bearing on a traffic channel.

Pass through above-mentioned steps, subscriber equipment receives publicly-owned message according to covering the specific running time-frequency resource position that grade is being determined by network side, thus provide a kind of method transmitting publicly-owned message under the scene of coverage enhancement, and then can solve due to publicly-owned search volume limited when to a large amount of problem repeating to transmit the blocking rate that causes and promote, ensure that normal, the steady operation of system.

Preferably, Traffic Channel repeats in running time-frequency resource position to receive, and wherein, the number of repetition of Traffic Channel is determined by following mode one of at least:

1, the number of repetition carrying the Traffic Channel of publicly-owned message is different from the number of repetition of the Traffic Channel of dispatching with the control channel of the control channel scrambling of C-RNTI scrambling;

2, the number of repetition carrying the Traffic Channel of publicly-owned message is identical;

3, according to the type of the publicly-owned message of carrying, the number of repetition of corresponding Traffic Channel is determined.

Preferably, this publicly-owned message comprises the message of following one of at least type: SIB message, RAR message, Paging message.

Preferably, according to the type of publicly-owned message of carrying, determine the number of repetition of corresponding Traffic Channel comprise following one of at least:

1, according at least one mode among the period assignment of the number of repetition of broadcast channel, maximal cover grade, SIB message or the first predefine value, the number of repetition of the Traffic Channel carrying SIB message is determined;

2, at least one mode among leading, the maximal cover grade of base station, the covering grade of subscriber equipment or the second predefine value that send in Stochastic accessing according to subscriber equipment, determines the number of repetition of the Traffic Channel carrying RAR message.

A kind of mode among the covering grade of leading, maximal cover grade, the subscriber equipment that 3, send in Stochastic accessing according to subscriber equipment, RRC signaling or the 3rd predefine value, determines the number of repetition of the Traffic Channel carrying Paging message.

Preferably, according to subscriber equipment send in Stochastic accessing leading, determine that the number of repetition of the Traffic Channel carrying RAR message or Paging message comprises: according to leading running time-frequency resource or leading sequence, determine the number of repetition of the Traffic Channel carrying RAR message or Paging message.

Preferably, the Traffic Channel of carrying SIB message repeats to receive according to predetermined period interval, and wherein, this predetermined period is the cycle of the cycle of fixing duration or one group of duration according to the 4th predefine value configuration.

Preferably, the Traffic Channel of carrying SIB message once repeats to receive in predetermined period, and once repeats reception and be arranged in one or more SIB cycle.

Preferably, when the Traffic Channel carrying SIB message be aperiodicity repeat to send, receive publicly-owned message in specific running time-frequency resource position and comprise: the Traffic Channel being determined carrying SIB message by blind Detecting.

Preferably, when subscriber equipment receives described publicly-owned message, the method also comprises: subscriber equipment is attempted decoding by carrying out multiple SIB cycle to the Traffic Channel of carrying SIB message, and wherein, multiple cycle comprises one of following: 4,8,16,32,64.The number of times that network side repeats to send Traffic Channel can be reduced by which.

Preferably, the Traffic Channel carrying publicly-owned message, when without control channel scheduling instruction, determines the frequency domain resource repeating to receive Traffic Channel by following mode one of at least:

1, in each frequency domain polymerization grade, the number of PRB in the PRB resource that blind check frequency domain resource takies, wherein, frequency domain resource adopts BPSK demodulation or QPSK demodulation, and respectively by CRC bit corresponding to a RNTI, the 2nd RNTI and the publicly-owned message of the 3rd RNTI descrambling; Wherein, a RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the descrambling of CRC bit corresponding to SIB message; 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the descrambling of CRC bit corresponding to Paging message; 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the descrambling of CRC bit corresponding to RAR message;

Preferably, the original position of PRB resource is determined by one of following mode:

3, according to formula determine the original position of PRB resource, wherein, L polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M ^(L)represent the Candidate Set quantity that polymerization grade L is corresponding; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; n _rNTIrepresent the RNTI value of scrambling CRC bit, SFN represents radio frame number, and mod represents modulo operation.Preferably, L=1,2,3,6; N _{pRB, k}=6.

Preferably, according to the bandwidth of system, the primary sign of Traffic Channel in subframe determining to carry publicly-owned message comprises one of following mode:

Preferably, specific running time-frequency resource position shared when the Traffic Channel of the SIB message running time-frequency resource position shared when larger covering grade comprises less covering grade is carried.

Preferably, the original position for receiving the subframe of Traffic Channel is determined one of in the following manner:

1, according to the type of the publicly-owned message of carrying, the original position of the 6th predefine value determination subframe is adopted;

5, according to a kind of mode among the type of the subframe at the leading targeting sequencing place in Stochastic accessing, targeting sequencing, the covering grade of leading corresponding base station or the 7th predefine value, the original position of the subframe of the Traffic Channel receiving carrying RAR message is determined.

Preferably, according to the type of publicly-owned message of carrying, determine the position of subframe comprise following one of at least:

1, the subframe determining the Traffic Channel of transmission bearer RAR message adopts continuous print mode to receive;

2, the subframe determining the Traffic Channel of transmission bearer Paging message adopts the mode of discrete selection to receive;

3, the mode that the subframe determining the Traffic Channel of transmission bearer SIB message adopts the cycle to repeat receives.

Preferably, when the mode that the subframe of the Traffic Channel determining transmission bearer SIB message adopts the cycle to repeat receives, the mode that the control channel dispatching this Traffic Channel adopts the identical cycle to repeat receives.

Preferably, when the Traffic Channel carrying publicly-owned message adopts the cycle to repeat to receive, the frequency domain resource carrying the Traffic Channel of publicly-owned message in the multiple subframes repeating reception Traffic Channel is identical.

Preferably, when the Traffic Channel carrying publicly-owned message has control channel to indicate, for repeating to receive multiple subframes of Traffic Channel, carry the resource size that control channel corresponding to the Traffic Channel of publicly-owned message take identical.

Preferably, according to the type of the publicly-owned message of the Traffic Channel carrying of maximal cover grade or correspondence, determine control channel repeat receive number of times.

Preferably, the Physical Downlink Control Channel of M-SI-RNTI scrambling is used to receive in identical subframe or different subframe from the physical down Traffic Channel that Physical Downlink Control Channel is dispatched.

The present embodiment additionally provides a kind of publicly-owned message dispensing device, be positioned at network side, base station can be arranged in, this device is used for realizing above-mentioned publicly-owned message method, the concrete implementation procedure of the device described in device embodiment carried out detailed description in embodiment of the method, did not repeat them here.

Fig. 4 is the structural representation of the publicly-owned message dispensing device according to the embodiment of the present invention, and as shown in Figure 4, this device comprises the first determination module 42 and sending module 44, wherein, first determination module 42, for according to covering grade, determines the running time-frequency resource position sending publicly-owned message; Sending module 44 is coupled to the first determination module 42, and for sending publicly-owned message by this running time-frequency resource position, wherein, this publicly-owned message bearing on a traffic channel.

Module involved in embodiments of the invention, unit can be realized by the mode of software, also can be realized by the mode of hardware.Described module in the present embodiment, unit also can be arranged within a processor, such as, can be described as: a kind of processor comprises the first determination module 42 and sending module 44.Wherein, the title of these modules does not form the restriction to this module itself under certain conditions, and such as, the first determination module can also be described to " for determining the module of the running time-frequency resource position sending publicly-owned message according to covering grade ".

1, the repetition transmission times carrying the Traffic Channel of publicly-owned message is arranged in the mode of the repetition transmission times being different from the Traffic Channel of being dispatched by the control channel of the control channel scrambling of C-RNTI scrambling;

3, according to the type of the publicly-owned message of carrying, such as: SIB message, RAR message or Paging message, the repetition transmission times of corresponding Traffic Channel is determined.

1, in each frequency domain polymerization grade, determine the number of PRB in the PRB resource that frequency domain resource takies, wherein, this comment resource adopt BPSK modulate or QPSK modulation, and respectively by CRC bit corresponding to a RNTI, the 2nd RNTI and the publicly-owned message of the 3rd RNTI scrambling; Wherein, a RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the scrambling of CRC bit corresponding to SIB message; 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the scrambling of CRC bit corresponding to Paging message; 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the scrambling of CRC bit corresponding to RAR message.

The present embodiment additionally provides a kind of publicly-owned message receiving apparatus, be positioned at end side, subscriber equipment can be arranged in, this device is used for realizing above-mentioned publicly-owned message receival method, the concrete implementation procedure of the device described in device embodiment carried out detailed description in embodiment of the method, did not repeat them here.

This publicly-owned message receiving apparatus comprises receiver module, for according to covering grade, receive publicly-owned message in specific running time-frequency resource position, wherein, this specific running time-frequency resource position is determined by network side, and this publicly-owned message bearing is on a traffic channel.

A kind of mode among the maximal cover grade of leading, the base station 3, sent in Stochastic accessing according to subscriber equipment, the covering grade of subscriber equipment, RRC signaling or the 3rd predefine value, determines the number of repetition of the Traffic Channel carrying Paging message.

This publicly-owned message dispensing device attempts decoding by carrying out multiple SIB cycle to the Traffic Channel of carrying SIB message, to reduce the number of times that network side repeats to send Traffic Channel.Wherein, multiple cycle comprises one of following: 4,8,16,32,64.

It should be noted that, above-mentioned " the first predefine value ", " the second predefine value " is referred to a group of can be configured by user or organizes corresponding relation more, " first ", " second " wherein etc. are for identifying these predefine values, with represent these predefine values non-essential be same predefine value, but also not limiting it must be all different predefine values, in some cases, in these predefine values certain some also can be identical.

The embodiment of the present invention additionally provides a kind of publicly-owned message delivery system, and Fig. 5 is the structured flowchart of the publicly-owned message delivery system according to the embodiment of the present invention, and as shown in Figure 5, this system comprises above-mentioned publicly-owned message dispensing device 52 and publicly-owned message receiving apparatus 54.

Be described below in conjunction with preferred embodiment and illustrate.

This preferred embodiment provides the transmission method of publicly-owned message in a kind of LTE/LTE-A system, to support by repeating to transmit the coverage enhancement demand realizing control channel.The transmission method of publicly-owned message proposed in the preferred embodiment, the terminal that can solve coverage enhancement demand receives the problem of publicly-owned message in LTE system, and under the prerequisite reducing control overhead, ensures the proper communication demand of terminal equipment.

This preferred embodiment provides a kind of transmission method of publicly-owned message, be applied to network equipment, the method comprises: base station is according to covering grade, select the publicly-owned message of specific running time-frequency resource location transmission, wherein, publicly-owned message is carried by Traffic Channel, and the Traffic Channel number of repetition carrying publicly-owned message meets following criterion one of at least:

Criterion one: the number of repetition of the Traffic Channel of carrying SIB, RAR, Paging message is different from the Traffic Channel number of repetition of dispatching with the control channel of C-RNTI scrambling.

Criterion two: the number of repetition of the Traffic Channel of carrying SIB, RAR, Paging message is identical;

Criterion three: according to publicly-owned type of message, determines the number of repetition of the Traffic Channel carrying publicly-owned message;

Preferably, according to publicly-owned type of message, determine the number of repetition of the Traffic Channel carrying publicly-owned message, comprise following one of at least:

The Traffic Channel number of repetition of carrying SIB message is determined according to the number of repetition of broadcast channel or is determined according to maximal cover grade or determine or predefine value according to the period assignment of SIB;

Leading (Preamble) that the Traffic Channel number of repetition of carrying RAR message sends in Stochastic accessing according to UE determines, or, determine according to maximal cover grade; Or, or determine according to predefine value; The Preamble that the Traffic Channel number of repetition of carrying Paging message sends in Stochastic accessing according to UE determines, or, determine according to maximal cover grade; Or, determine according to signaling, or determine according to predefine value;

Preferably, the Preamble sent according to terminal determines to comprise: according to the running time-frequency resource of Preamble, or Preamble sequence is determined.

Preferably, the Traffic Channel of carrying SIB message is carried out interval with cycle M and is repeated to send, and wherein, M is one and determines the value or set of values.Such as, only once repeat to send in cycle M, repeat transmission and be arranged in one or more SIB cycle.

Preferably, base station repeats to send in mode aperiodic, and terminal blind check repeats the Traffic Channel of the carrying SIB message sent.

Preferably, the Traffic Channel of carrying SIB message can be attempted decoding by multiple SIB cycle and be reduced repetition transmission times, and preferred multiple number of cycles is 4,8,16,32,64.

Preferably, the Traffic Channel carrying publicly-owned message repeats frequency domain resource when indicating without control channel scheduling and determines at least to comprise with one of under type:

Mode one: the PRB number that the Traffic Channel frequency domain repeating to transmit takies is optional in frequency domain polymerization grade 1,2,3,6, Modulation and Coding Scheme (Modulation and Coding Scheme, referred to as MCS) grade is fixing uses QPSK or BPSK modulation.Be equivalent to a RNTI by X-RNTI(), Y-RNTI(is equivalent to the 2nd RNTI), Z-RNTI(is equivalent to the 3rd RNTI) scrambling CRC bit.X-RNTI comprises SI-RNTI and M-SI-RNTI, and Y-RNTI comprises P-RNTI and M-P-RNTI, and Z-RNTI comprises RA-RNTI and M-RA-RNTI, and wherein M-SI-RNTI, M-P-RNTI are different with the value of M-RA-RNTI and SI-RNTI, P-RNTI with RA-RNTI.

Mode two: the PRB resource that the Traffic Channel frequency domain repeating to transmit takies is indicated by RRC signaling.

Mode three: the PRB resource that the Traffic Channel frequency domain repeating to transmit takies is predefined.

Preferably, the original position of PRB is from PRB numbering is minimum or maximum, or PRB original position is by formula determine, wherein L=1,2,3,6; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); N _{pRB, k}=6;

Preferably, for above-mentioned mode two and mode three, the PRB resource of distributing can be continuous or discrete, and is no more than 6 PRB.

Preferably, the Traffic Channel primary sign in each subframe repeating to transmit is determined according to system bandwidth, when system bandwidth is 1.4MHz, and fixing detection from the 5th OFDM symbol, as system bandwidth >1.4MHz, fixing detection from the 4th OFDM symbol.Or, repeat transmit Traffic Channel in primary sign unification in each subframe from the 3rd OFDM symbol.

Preferably, Fig. 6 a ~ Fig. 6 c is the schematic diagram being respectively one-level, secondary and three grades of resources taken according to the preferred embodiment of the invention in covering grade, as shown in Fig. 6 a ~ Fig. 6 c, when repeating the Traffic Channel carrying SIB transmitted, the resource taken when the resource taken when large covering grade comprises little covering grade.

Preferably, the subframe original position repeating the Traffic Channel transmitted is determined by with one of under type:

Mode one: the equal separate configurations of subframe original position of the Traffic Channel of carrying SIB, RAR, Paging message;

Mode two: the subframe original position k that carrying SIB message repeats the Traffic Channel transmitted meets relational expression (k+h*n) modM=i.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1;

Mode three: the subframe original position k that carrying RAR, paging message repeats the Traffic Channel transmitted meets relational expression (k+h*n) mod N=j.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, N represents iterative transfer times, 0≤j≤h-1;

The initial subframe of mode four: RAR is determine according to the subframe at Preamble sequence place, or the type according to Preamble sequence is determined, or the covering grade corresponding according to Preamble is determined, or, determine according to predefined covering grade.

Preferably, the subframe position repeating the Traffic Channel transmitted is determined by the publicly-owned type of message carried, and comprising:

The corresponding subframe of mode 1:RAR is continuous print model split;

The corresponding subframe of mode 2:Paging is discrete selection mode;

The mode 3:SIB corresponding cycle repeats send mode.

Preferably, when publicly-owned message adopts the cycle to repeat send mode, repeat to send frequency domain position subframe carrying the Traffic Channel of publicly-owned message identical.

Preferably, the Traffic Channel carrying publicly-owned message is when there being control channel to dispatch instruction, identical in the resource repeating to send control channel place corresponding to the Traffic Channel that subframe carries publicly-owned message;

Preferably, the number of repetition of shown control channel is determined according to maximal cover grade, or determines number of repetition according to publicly-owned type of message (SIB, RAR, Paging).

Preferably, carry the Traffic Channel of publicly-owned message when there being control channel to dispatch instruction, the control channel that the Traffic Channel of carrying SIB message is corresponding uses M-SI-RNTI or SI-RNTI scrambling CRC bit, and wherein, M-SI-RNTI is the predefine value being different from SI-RNTI value.

Preferably, the PDCCH of M-SI-RNTI scrambling can in identical subframe or different subframe from dispatched PDSCH;

This preferred embodiment additionally provides a kind of transmission method of publicly-owned message, be applied to terminal side equipment, the method comprises: terminal (being equivalent to above-mentioned subscriber equipment) is according to covering grade, select the publicly-owned message of specific running time-frequency resource position probing, wherein, publicly-owned message is carried by Traffic Channel, and the Traffic Channel number of repetition carrying publicly-owned message meets following criterion one of at least:

Criterion three: according to publicly-owned type of message, determines the number of repetition of the Traffic Channel carrying publicly-owned message.

Preferably, this terminal is MTC terminal.

Preferably, according to publicly-owned type of message, determine the number of repetition of the Traffic Channel carrying publicly-owned message, specifically comprise following one of at least:

The Preamble that the Traffic Channel number of repetition of carrying RAR message sends in Stochastic accessing according to UE determines, or, determine according to maximal cover grade; Or, determine according to predefine value;

The Preamble that the Traffic Channel number of repetition of carrying Paging message sends in Stochastic accessing according to UE determines, or, determine according to maximal cover grade; Or, determine according to RRC signaling, or determine according to predefine value;

Preferably, the Preamble sent according to UE determines to comprise: determine according to the running time-frequency resource of Preamble or Preamble sequence.

Preferably, the Traffic Channel of carrying SIB message is carried out interval with cycle M and is repeated to transmit, and wherein M is one and determines the value or set of values.Such as, in cycle M, only once merge reception, repeat transmission and be arranged in one or more SIB cycle.

Preferably, the Traffic Channel of carrying SIB message, terminal can be attempted decoding by multiple cycle and be reduced repetition transmission times, and preferred multiple number of cycles is 4,8,16,32,64.

Mode one: the PRB number that the Traffic Channel frequency domain repeating to transmit takies is optional in frequency domain polymerization grade 1,2,3,6, MCS grade is fixing uses BPSK or QPSK rectification.By X-RNTI, Y-RNTI, Z-RNTI descrambling CRC bit.X-RNTI comprises SI-RNTI and M-SI-RNTI, and Y-RNTI comprises P-RNTI and M-P-RNTI, and Z-RNTI comprises RA-RNTI and M-RA-RNTI, and wherein M-SI-RNTI, M-P-RNTI are different with the value of M-RA-RNTI and SI-RNTI, P-RNTI with RA-RNTI.

Preferably, for aforesaid way two and mode three, the PRB resource of distributing can be continuous or discrete, and is no more than 6 PRB.

Preferably, as shown in Figure 6, when repeating the Traffic Channel carrying SIB transmitted, the resource taken when the resource taken when large covering grade comprises little covering grade.

Mode one: the equal separate configurations of subframe original position of the Traffic Channel of carrying SIB, RAR, Paging message.

Mode two: the subframe original position k that carrying SIB message repeats the Traffic Channel transmitted meets relational expression (k+h*n) modM=i.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1.

Mode three: the subframe original position k that carrying RAR, paging message repeats the Traffic Channel transmitted meets relational expression (k+h*n) mod N=j.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, N represents iterative transfer times, 0≤j≤h-1.

The initial subframe of mode four: RAR is determine according to the subframe at Preamble sequence place, or the type according to Preamble sequence is determined, or the covering grade corresponding according to Preamble is determined, or, determine according to predefined covering grade;

Preferably, the subframe position repeating the Traffic Channel transmitted is determined by the publicly-owned type of message carried, and specifically comprises:

The corresponding subframe of mode 1:RAR is continuous print model split;

The corresponding subframe of mode 2:Paging is discrete selection mode;

The mode 3:SIB corresponding cycle repeats send mode;

Preferably, when publicly-owned message adopts the cycle to repeat receive mode, repeat to receive frequency domain position subframe carrying the Traffic Channel of publicly-owned message identical;

Preferably, carry the Traffic Channel of publicly-owned message when there being control channel to dispatch instruction, the control channel that the Traffic Channel of carrying SIB message is corresponding uses M-SI-RNTI or SI-RNTI scrambling CRC, and wherein, M-SI-RNTI is the predefine value being different from SI-RNTI value.

Below the preferred embodiment of the present invention is illustrated further.

The technical scheme adopted in the publicly-owned method for message transmission of network equipment that is applied in described in the preferred embodiment is: base station is according to covering grade, select the publicly-owned message of specific running time-frequency resource location transmission, wherein, publicly-owned message is carried by Traffic Channel, and the Traffic Channel number of repetition carrying publicly-owned message meets following criterion one of at least:

Such as, the number of repetition of the Traffic Channel of carrying SIB, RAR, Paging message can be transmitted with the number of repetition that community maximal cover grade is corresponding, and the Traffic Channel carrying of dispatching with the control channel of C-RNTI scrambling is user-specific information, now can specifically cover in conjunction with terminal the transmission that grade carries out corresponding number of repetition.

Such as, SIB determines according to maximal cover grade, and the Preamble that RAR sends in the random access procedure according to UE determines, Paging covers grade according to RRC signaling or UE and determines.Traffic Channel repeat to transmit the mode taking resource comprise high when covering grade corresponding taking correspondingly when resource comprises low covering grade take resource.

The Traffic Channel number of repetition of carrying SIB message is determined according to the number of repetition of broadcast channel or is determined according to maximal cover grade or determine or predefine value according to the period assignment of SIB; Such as, when the Traffic Channel number of repetition of carrying SIB message is determined according to the number of repetition of broadcast channel, first terminal receives the broadcast of base station, goes out to carry the number of repetition of the Traffic Channel of SIB message by the number of repetition correspondence of broadcast channel.When the Traffic Channel number of repetition of carrying SIB message is determined according to maximal cover grade, because publicly-owned message all terminals in community send, the Traffic Channel of carrying SIB message therefore can be sent according to the number of repetition corresponding to maximal cover grade when having and covering lifting demand.When the Traffic Channel number of repetition of carrying SIB message is determined according to the period assignment of SIB, within the SIB update cycle, in the continuous print SIB cycle, determine number of repetition.When the Traffic Channel number of repetition of carrying SIB message is determined according to predefine value, using predefine value as number of repetition.

The Preamble that the Traffic Channel number of repetition of carrying RAR message sends in the random access procedure according to UE determines, or, determine according to maximal cover grade; Or predefine value;

The Traffic Channel number of repetition of carrying Paging message covers grade according to UE and determines, or, determine according to maximal cover grade; Or, determine according to signaling, or predefine value; Concrete, signaling is positioned in SIB or Master Information Block (Master InformationBlock, referred to as MIB), or RRC signaling.

Preferably, the number of repetition of Traffic Channel repeating to transmit is predefined fixed value, and predefine value chooses in finite aggregate, preferred finite aggregate be 2,4,10,20,50,100,200,400}.Repeat the repetition subframe of the Traffic Channel transmitted for taking continuously or taking according to predefined mode.

Preferably, the Preamble sent according to terminal determines to comprise: determine according to the running time-frequency resource of Preamble and/or Preamble sequence.

Preferably, the Traffic Channel of carrying SIB message is carried out interval with cycle M and is repeated transmission, and wherein M is one and determines the value or set of values.Such as, only once repeat to send in cycle M, repeat transmission and be arranged in one or more SIB cycle.

Preferably, the intensive repetition only once carrying the Traffic Channel of SIB message in cycle M sends, and ensures the proper communication demand of conventional terminal.The preferred value of cycle M is 80ms, 160ms, 320ms, 640ms, 1280ms, 5120ms, 10240ms.

Preferably, the Traffic Channel of carrying SIB message can be attempted decoding by multiple cycle and be reduced repetition transmission times, and preferred multiple number of cycles is 4,8,16,32,64.Such as, demodulation N time in N number of cycle, as long as have 1 demodulation correctly namely to think correctly can obtain corresponding SIB message.

Mode one: the PRB number that the Traffic Channel frequency domain repeating to transmit takies is optional in frequency domain polymerization grade 1,2,3,6, MCS grade is fixing uses BPSK or QPSK modulation.By X-RNTI, Y-RNTI, Z-RNTI scrambling CRC bit.X-RNTI comprises SI-RNTI and M-SI-RNTI, and Y-RNTI comprises P-RNTI and M-P-RNTI, and Z-RNTI comprises RA-RNTI and M-RA-RNTI, and wherein M-SI-RNTI, M-P-RNTI are different with the value of M-RA-RNTI and SI-RNTI, P-RNTI with RA-RNTI.Such as, M-SI-RNTI is different from the value of SI-RNTI, and span is 0001-FFFC.M-P-RNTI is different from the value of P-RNTI, and span is 0001-FFFC.M-RA-RNTI is different from the value of RA-RNTI, and span is 003D-FFFC.

Preferably, in mode one, terminal needs blind Detecting to carry the PRB resource of the Traffic Channel of publicly-owned message, detects corresponding Candidate Set successively during detection according to polymerization grade.In mode two or mode three, terminal learns the PRB resource location of the Traffic Channel carrying publicly-owned message by RRC signaling or predefine mode, directly in the publicly-owned message of corresponding PRB resources measurement.

Preferably, the original position of PRB is from PRB numbering is minimum or maximum, or PRB original position is by formula determine, wherein L=1,2,3,6; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); N _{pRB, k}=6; A kind of possible search volume is as shown in table 1.

Table 1PRB search volume

Preferably, for mode two and mode three, the PRB resource of distributing can be continuous or discrete, and is no more than 6 PRB.

The Traffic Channel primary sign in each subframe preferably repeating to transmit is determined according to system bandwidth, such as, when system bandwidth is 1.4MHz, fixing detection from the 5th OFDM symbol, as system bandwidth >1.4MHz, fixing detection from the 4th OFDM symbol.Or, repeat transmit Traffic Channel in primary sign unification in each subframe from the 3rd OFDM symbol.

Mode two: the subframe original position k that carrying SIB message repeats the Traffic Channel transmitted meets relational expression (k+h*n) modM=i.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1.Concrete, i preferred value is 4 or 5 or 9.

Mode three: the subframe original position k that carrying RAR, paging message repeats the Traffic Channel transmitted meets relational expression (k+h*n) mod N=j.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, N represents iterative transfer times, 0≤j≤h-1.Concrete, when carry be Paging message time j preferred value be 0 or 5.

Preferably, the subframe position that the Traffic Channel repeating to transmit uses is determined by the publicly-owned type of message carried, and comprising:

The corresponding subframe of mode 1:RAR is continuous print model split;

The corresponding subframe of mode 2:Paging is discrete selection mode; Concrete, comprise the corresponding subframe of signal deployment.Such as: Y radio frames is a transmission cycle, have X the ad-hoc location that can transmit in a transmission cycle, each X is specifically for being continuous print subframe or discrete subframe;

The mode 3:SIB corresponding cycle repeats send mode; Concrete, send according to the cycle M1 comprising SIB message cycle integral multiple during transmission, terminal merges decoding in cycle M1, and wherein cycle M1 is less than the update cycle of SIB message.

Preferably, when publicly-owned message adopts the cycle to repeat send mode, repeat to send frequency domain position subframe carrying the Traffic Channel of publicly-owned message identical;

Preferably, the number of repetition of control channel is determined according to maximal cover grade, or determines number of repetition according to publicly-owned type of message (SIB, RAR, Paging).Concrete, SIB determines according to maximal cover grade, and the Preamble that RAR sends according to UE determines, Paging covers grade according to RRC signaling or UE and determines.Traffic Channel repeat to transmit the mode taking resource comprise high when covering grade corresponding taking correspondingly when resource comprises low covering grade take resource.

Preferably, carry the Traffic Channel of publicly-owned message when there being control channel to dispatch instruction, the control channel that the Traffic Channel of carrying SIB message is corresponding uses M-SI-RNTI or SI-RNTI scrambling CRC, and wherein, M-SI-RNTI is predefine value;

Preferably, the PDCCH of M-SI-RNTI scrambling can in identical subframe or different subframe from dispatched PDSCH.

Below for FDD and TDD system, explanation is described to the publicly-owned method for message transmission that this preferred embodiment provides.

Preferred implementation one

Fig. 7 is the schematic flow sheet one of publicly-owned according to the preferred embodiment of the invention method for message transmission, and as shown in Figure 7, the treatment step of base station side comprises:

Step S701, base station sends publicly-owned message, and the Traffic Channel simultaneously not using control channel to dispatch instruction bearing system message is transmitted.Fixing initial subframe position is the subframe 5 of radio frames.Repetition subframe takies the subframe 0,4,5,9 in radio frames.Now base station is according to maximal cover grade, determines that number of repetition is 20 times.The frequency domain polymerization grade of base station selected L=6 transmits publicly-owned message.The publicly-owned message that 20 sub-frame transmission now repeated are identical, and these subframes select the 1st position of Candidate Set in the search volume of L=6 as the resource of this publicly-owned message of transmission.This publicly-owned message adopts QPSK modulation system, and now the publicly-owned message CRC information of adding is by SI-RNTI or RA-RNTI or P-RNTI scrambling.

Step S702, the Traffic Channel sending the publicly-owned message of carrying is repeated in base station in the resource determined.Traffic Channel completes reach number of repetition in discrete predefine subframe after and once sends.

Fig. 8 is the schematic flow sheet two of publicly-owned according to the preferred embodiment of the invention method for message transmission, and as shown in Figure 8, the treatment step of end side comprises:

Step S801, terminal receives publicly-owned message, needs blind check to receive the Traffic Channel of the publicly-owned message of carrying.The subframe 5 of terminal in radio frames is as the beginning of one-time detection.According to maximal cover grade in community, terminal determines that this publicly-owned message repeats to transmit 20 times, therefore need to carry out merging for 20 times to receive process.Combining data detection is carried out in the subframe 0,4,5,9 of terminal in radio frames.Blind Detecting is carried out in frequency domain resource, corresponding Candidate Set is detected successively according to each polymerization grade, merging demodulation process is carried out to the identical Candidate Set of the same polymeric grade of each subframe, by obtaining the publicly-owned message that will receive according to scrambling RNTI verification on the CRC of publicly-owned message, otherwise after the Candidate Set of all polymerization grade is all detected, does not also obtain required publicly-owned message then thinks and do not receive corresponding publicly-owned message.

Step S802, terminal once repeats demodulation in the subframe 5 of each radio frames, and corresponding resource demodulates publicly-owned message.

By this preferred implementation, flexible configuration can carry the transmission resource of the Traffic Channel of publicly-owned message, repeat transmission by Traffic Channel, the terminal ensuring coverage enhancement demand receives the publicly-owned message of base station.

Preferred implementation two

Still with reference to figure 7, the treatment step of base station side comprises:

Step S701, base station sends SIB1 message, and the Traffic Channel simultaneously not using control channel to dispatch instruction carrying SIB1 message is transmitted.Fixing initial subframe position k meets relational expression (k+h*n) mod M=i.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, M represents that the cycle and M that intermittently repeat to transmit are now for 1280ms, i preferred value is 9.Repetition subframe takies the subframe 0,4,5,9 in radio frames.Now base station is according to covering grade, determines that number of repetition is 50 times.The frequency domain polymerization grade transmission SIB1 message of base station selected L=3.The SIB1 message that 20 sub-frame transmission now repeated are identical, and these subframes select the 1st position of Candidate Set in the search volume of L=3 as the resource of this SIB1 message of transmission.This SIB1 message adopts QPSK modulation system, and now the SIB1 message CRC information of adding is by M-SI-RNTI scrambling.

Step S702, the Traffic Channel sending carrying SIB1 message is repeated in base station in the resource determined.Traffic Channel completes reach number of repetition in discrete predefine subframe after and once sends.

Still with reference to figure 8, the treatment step of end side comprises:

Step S801, terminal receives SIB1 message, needs blind check to receive the Traffic Channel of carrying SIB1 message.Terminal meets the beginning of relational expression (k+h*n) mod M=i as one-time detection at fixing initial subframe position k.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, M represents that the cycle and M that intermittently repeat to transmit are now for 1280ms, i preferred value is 9.According to covering grade, terminal determines that this SIB1 message repeats to transmit 50 times, therefore need to carry out merging for 50 times to receive process.Combining data detection is carried out in the subframe 0,4,5,9 of terminal in radio frames.Blind Detecting is carried out in frequency domain resource, corresponding Candidate Set is detected successively according to each polymerization grade, merging demodulation process is carried out to the identical Candidate Set of the same polymeric grade of each subframe, by obtaining the SIB1 message that will receive according to scrambling RNTI verification on the CRC of SIB1 message, otherwise after the Candidate Set of all polymerization grade is all detected, does not also obtain required SIB1 message then thinks and do not receive corresponding SIB1 message.

Step S802, the subframe that terminal meets initial subframe position in cycle M once repeats demodulation, and corresponding resource demodulates publicly-owned message.

By this preferred implementation, can the transmission resource of Traffic Channel of flexible configuration carrying SIB1 message, repeat transmission by Traffic Channel, the terminal ensuring coverage enhancement demand receives the SIB1 message of base station.

Preferred implementation three

Step S701, base station sends SIB message, and the Traffic Channel simultaneously not using control channel to dispatch instruction carrying SIB message is transmitted.Fixing initial subframe position k meets relational expression (k+h*n) mod M=i.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, M represents that the cycle and M that intermittently repeat to transmit are now for 160ms, i preferred value is 4.Repetition subframe takies the subframe 4,9 in radio frames.Now base station is according to covering grade, determines that number of repetition is 10 times.Base station, in predefined frequency domain position transmission SIB message, 6 PRB of center 1.4MHz bandwidth is transmitted.The SIB message that 10 sub-frame transmission now repeated are identical, and these subframes all transmit this SIB message at 6 PRB of predefined center 1.4MHz bandwidth.This SIB message adopts QPSK modulation system, and now the SIB message CRC information of adding is by SI-RNTI scrambling.

Step S702, the Traffic Channel sending carrying SIB message is repeated in base station in the resource determined.Traffic Channel completes reach number of repetition in discrete predefine subframe after and once sends.

Still with reference to figure 8, the treatment step of end side comprises:

Step S801, terminal receives SIB message, needs direct-detection to receive the Traffic Channel of carrying SIB message.Terminal meets the beginning of relational expression (k+h*n) mod M=i as one-time detection at fixing initial subframe position k.Wherein k represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤k≤h-1, n represents the radio frames at initial subframe k place, h is the available descending sub frame quantity comprised in a radio frames, M represents that the cycle and M that intermittently repeat to transmit are now for 160ms, i preferred value is 4.According to covering grade, terminal determines that this SIB message repeats to transmit 10 times, therefore need to carry out merging for 10 times to receive process.Combining data detection is carried out in the subframe 4,9 of terminal in radio frames.Terminal carries out the trial decoding of 4 resting periods simultaneously.In predefined frequency domain resource, namely 6 PRB of center 1.4MHz bandwidth carry out receiving demodulation.By obtaining the SIB message that will receive according to scrambling RNTI verification on the CRC of SIB message, otherwise think and do not receive corresponding SIB message.

Step S802, the subframe that terminal meets initial subframe position in 4 cycle M once repeats demodulation, and corresponding resource demodulates publicly-owned message.

By this preferred implementation, can the transmission resource of Traffic Channel of flexible configuration carrying SIB message, repeat transmission by Traffic Channel, the terminal ensuring coverage enhancement demand receives the SIB message of base station.

Preferred implementation four

Step S701, base station sends SIB1 message, uses the Traffic Channel of control channel scheduling instruction carrying SIB1 message to transmit simultaneously.Initial subframe position separate configurations is the subframe 5 of even number radio frames.The SIB corresponding cycle repeats send mode, send according to the cycle M1 comprising SIB message cycle integral multiple during transmission, terminal merges decoding in cycle M1, and wherein cycle M1 is less than the update cycle of SIB message, now M1=320ms and be less than update cycle of SIB1 message.Base station side sent the control channel of this Traffic Channel of scheduling before the service subframe sending carrying SIB1 message.Now control channel iterative transfer times is determined according to maximal cover grade, and the subframe of these transmitting control channels all selects the 1st position of Candidate Set in the search volume of L=8 as the resource of this control information of transmission.The CRC information that the control channel now dispatching SIB1 message adds is by M-SI-RNTI scrambling.

Step S702, the resource that base station is dispatched according to control channel sends the Traffic Channel of carrying SIB1 message.Traffic Channel completes cycle and repeats to send in cycle M1.

Still with reference to figure 8, the treatment step of end side comprises:

Step S801, terminal receives SIB1 message, first needs blind check to dispatch the control channel of the Traffic Channel of instruction carrying SIB1 message.Terminal blind check repeat send control channel, use identical Candidate Set to carry out mergings receiving demodulation during same polymeric grade, and use M-SI-RNTI carry out the verification of CRC descrambling when judgement correct obtain corresponding control information.Content according to control information receives SIB1 message at corresponding frequency domain position, receive the subframe 5 merging reception process that SIB1 message can carry out even number radio frames within the M1 cycle, or carry out the trial decoding of unconsolidated demodulation with cycle M1, i.e. the trial decoding in 4 SIB1 cycles.

Step S802, terminal carries out a demodulation in cycle M1, and corresponding resource demodulates publicly-owned message.

This preferred implementation is by the Traffic Channel of control channel scheduling instruction carrying SIB1 message, but attempt decoding by cycle merging decoding or multiple cycle and obtain corresponding SIB1 message, the terminal ensuring coverage enhancement demand receives the SIB1 message of base station.

Preferred implementation five

Step S701, base station sends RAR message, and the Traffic Channel simultaneously not using control channel to dispatch instruction carrying RAR message is transmitted.The initial subframe of RAR is determine according to the subframe at Preamble sequence place, fixes the end sub-frame interval k subframe with Preamble sequence place, k=5.Repeat subframe to take in continuous subframes mode.Now according to the Preamble that UE sends, base station determines that number of repetition is 10 times.Base station, in predefined frequency domain position transmission RAR message, 2 PRB of center 1.4MHz bandwidth is transmitted.The RAR message that 10 sub-frame transmission now repeated are identical, and these subframes all transmit this RAR message at 2 PRB of predefined center 1.4MHz bandwidth.This RAR message adopts QPSK modulation system, and now the RAR message CRC information of adding is by M-RA-RNTI scrambling.

Step S702, the Traffic Channel sending carrying RAR message is repeated in base station in the resource determined.Traffic Channel completes reach number of repetition in continuous print subframe after and once sends.

Still with reference to figure 8, the treatment step of end side comprises:

Step S801, terminal receives RAR message, needs direct-detection to receive the Traffic Channel of carrying RAR message.Terminal with the beginning of an end sub-frame interval k subframe (k=5) as one-time detection self sending Preamble sequence place.According to Preamble, terminal determines that this RAR message repeats to transmit 10 times, therefore need to carry out merging for 10 times to receive process.Continuous 10 subframes of terminal after initial subframe carry out combining data detection.Frequency domain carries out blind check and receive merging, each polymerization grade carries out merging according to identical Candidate Set and receives.By obtaining the RAR message that will receive according to scrambling RNTI verification on the CRC of RAR message, otherwise think and do not receive corresponding RAR message.

Step S802, terminal continuous print 10 subframes after from initial subframe once repeat demodulation, and corresponding resource demodulates RAR message.

Can the transmission resource of Traffic Channel of flexible configuration carrying RAR message by this preferred implementation, repeat transmission by Traffic Channel, the terminal ensuring coverage enhancement demand receives the RAR message of base station.

Preferred implementation six

Step S701, base station sends Paging message, and the Traffic Channel simultaneously not using control channel to dispatch instruction carrying Paging message is transmitted.Fixing initial subframe position H meets relational expression (H+h*n) mod T=j.Wherein H represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤H≤h-1, n represents the radio frames at initial subframe H place, h is the available descending sub frame quantity comprised in a radio frames, T represents that the cycle and T that repeat to transmit are now for 640ms, j preferred value is 5.Repetition subframe takies the subframe 0,4,5,9 in radio frames.Now base station is according to covering grade, determines that number of repetition is 20 times.The frequency domain polymerization grade transmission Paging message of base station selected L=2.The Paging message that 20 sub-frame transmission now repeated are identical, and these subframes select the 2nd position of Candidate Set in the search volume of L=2 as the resource of this Paging message of transmission.This Paging message adopts QPSK modulation system, and now the Paging message CRC information of adding is by M-P-RNTI scrambling.

Step S702, the Traffic Channel sending carrying Paging message is repeated in base station in the resource determined.Traffic Channel completes reach number of repetition in discrete predefine subframe after and once sends.

Still with reference to figure 8, the treatment step of end side comprises:

Step S801, terminal receives Paging message, needs blind check to receive the Traffic Channel of carrying Paging message.Terminal meets the beginning of relational expression (H+h*n) mod T=j as one-time detection at fixing initial subframe position H.Wherein H represents the numbering (according to descending sub frame available in radio frames serial number again in TDD) of initial subframe available descending sub frame in radio frames, 0≤H≤h-1, n represents the radio frames at initial subframe H place, h is the available descending sub frame quantity comprised in a radio frames, T represents that the cycle and T that repeat to transmit are now for 640ms, j preferred value is 5.According to covering grade, terminal determines that this Paging message repeats to transmit 20 times, therefore need to carry out merging for 20 times to receive process.Combining data detection is carried out in the subframe 0,4,5,9 of terminal in radio frames.Blind Detecting is carried out in frequency domain resource, corresponding Candidate Set is detected successively according to each polymerization grade, merging demodulation process is carried out to the identical Candidate Set of the same polymeric grade of each subframe, by obtaining the Paging message that will receive according to scrambling RNTI verification on the CRC of Paging message, otherwise after the Candidate Set of all polymerization grade is all detected, does not also obtain required Paging message then thinks and do not receive corresponding Paging message.

Step S802, the subframe that terminal meets initial subframe position in cycle T once repeats demodulation, and corresponding resource demodulates Paging message.

Can the transmission resource of Traffic Channel of flexible configuration carrying Paging message by this preferred implementation, repeat transmission by Traffic Channel, the terminal ensuring coverage enhancement demand receives the Paging message of base station.

As can be seen from above-described embodiment, the publicly-owned method for message transmission that the above embodiment of the present invention, preferred embodiment and preferred implementation provide, to solve in LTE system when publicly-owned message in coverage enhancement situation repeats transmission in a large number the technical problems such as control overhead reduction, thus achieve while having coverage enhancement demand lower network side can not pass through to repeat to transmit control channel in a large number, ensure, to the publicly-owned message having the terminal of coverage enhancement demand correctly can receive base station to issue, to ensure this Terminal Type proper communication.Namely adopt technical scheme of the present invention, control information expense in LTE system can be reduced, promote publicly-owned transmission of messages efficiency, improve be deployed in terminal equipment have coverage enhancement demand environment under covering performance, ensure the normal communication of terminal equipment.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

More than above are only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. a publicly-owned message method, is characterized in that comprising:

The running time-frequency resource position sending publicly-owned message, according to covering grade, is determined in base station;

Send described publicly-owned message by described running time-frequency resource position, wherein, described publicly-owned message bearing on a traffic channel.

2. method according to claim 1, is characterized in that, described Traffic Channel repeats in described running time-frequency resource position to send, and wherein, the repetition transmission times of described Traffic Channel is determined by following mode one of at least:

The repetition transmission times carrying the described Traffic Channel of described publicly-owned message is different from the repetition transmission times of the Traffic Channel of dispatching with the control channel of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI scrambling;

Wherein, described publicly-owned message comprise following one of at least: system information block SIB message, accidental access response RAR message, paging Paging message.

3. method according to claim 2, is characterized in that, according to the type of described publicly-owned message of carrying, determine the repetition transmission times of corresponding described Traffic Channel comprise following one of at least:

At least one mode among the maximal cover grade of leading, the described base station sent in Stochastic accessing according to described subscriber equipment, the covering grade of described subscriber equipment, radio resource control layer RRC signaling or the 3rd predefine value, determines the repetition transmission times of the described Traffic Channel carrying described Paging message.

4. method according to claim 3, is characterized in that, according to described subscriber equipment send in Stochastic accessing described leading, determine that the repetition transmission times of the described Traffic Channel carrying described RAR message or described Paging message comprises:

According to described leading running time-frequency resource or described leading sequence, determine the repetition transmission times of the described Traffic Channel carrying described RAR message or described Paging message.

5. method according to claim 2, it is characterized in that, the described Traffic Channel carrying described SIB message repeats to send according to predetermined period interval, and wherein, described predetermined period is the cycle of the cycle of fixing duration or one group of duration according to the 4th predefine value configuration.

6. method according to claim 5, is characterized in that, the described Traffic Channel carrying described SIB message once repeats to send in described predetermined period, and describedly once repeats transmission and be arranged in one or more SIB cycle.

7. method according to claim 2, is characterized in that, the described Traffic Channel carrying described SIB message is that aperiodicity repeats to send.

8. method according to claim 1, is characterized in that, the described Traffic Channel carrying described publicly-owned message, when without control channel scheduling instruction, determines the frequency domain resource repeating to send described Traffic Channel by following mode one of at least:

In frequency domain polymerization grade, determine the number of PRB in the Physical Resource Block PRB resource that described frequency domain resource takies, wherein, described frequency domain resource adopt binary phase shift keying BPSK modulate or Quadrature Phase Shift Keying QPSK modulation, and respectively by cyclic redundancy check (CRC) bit corresponding to publicly-owned message described in the first Radio Network Temporary Identifier RNTI, the 2nd RNTI and the 3rd RNTI scrambling; Wherein, a described RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the scrambling of CRC bit corresponding to described SIB message; Described 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the scrambling of CRC bit corresponding to described Paging message; Described 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the scrambling of CRC bit corresponding to described RAR message;

9. method according to claim 8, is characterized in that, the original position of described PRB resource is determined by one of following mode:

According to formula determine the described original position of described PRB resource; Wherein, L represents polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M ^(L)represent the Candidate Set quantity that polymerization grade L is corresponding; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; n _rNTIrepresent the RNTI value of scrambling CRC bit, SFN represents radio frame number, and mod represents modulo operation.

10. method according to claim 8, it is characterized in that, in the instruction according to RRC signaling or according to the 5th predefine value, when determining the described RPB resource that described frequency domain resource takies, described PRB resource is continuous or discrete PRB resource, and the PRB number of described RPB resource is less than or equal to 6.

11. methods according to claim 8, it is characterized in that, determine that the original position of described Traffic Channel in the subframe of the described Traffic Channel of transmission carrying described publicly-owned message is the 3rd orthogonal frequency division multiplex OFDM symbol, or, according to the bandwidth of system, determine the primary sign of described Traffic Channel in described subframe carrying described publicly-owned message.

12. methods according to claim 11, is characterized in that, according to the bandwidth of system, the described primary sign of described Traffic Channel in described subframe determining to carry described publicly-owned message comprises one of following mode:

When described system bandwidth is 1.4MHz, determine that the 5th OFDM symbol of described subframe is described primary sign;

When described system bandwidth is greater than 1.4MHz, determine that the 4th OFDM symbol of described subframe is described primary sign.

13. methods according to any one of claim 2 to 7, it is characterized in that, running time-frequency resource position shared when the described Traffic Channel the carrying described SIB message running time-frequency resource position shared when larger covering grade comprises less covering grade.

14. methods according to any one of claim 2 to 7, is characterized in that, determine one of in the following manner for the original position transmitting the described subframe of described Traffic Channel:

The original position of the described subframe of the described Traffic Channel of SIB message described in transmission bearer is determined according to K value, wherein, described K value meets relational expression (K+h*n) mod M=i, wherein K represents the numbering of the available descending sub frame of subframe in radio frames being in original position, 0≤K≤h-1, n represents the radio frames at the subframe place being in original position, h is the quantity of the available descending sub frame comprised in a radio frames, the interval that represents M repeats the cycle of transmitting, 0≤i≤h-1, wherein, serial number is re-started according to descending sub frame available in radio frames in TDD system,

15. methods according to any one of claim 2 to 7, is characterized in that, according to the type of the described publicly-owned message of carrying, determine the position of described subframe comprise following one of at least:

16. methods according to claim 15, it is characterized in that, when the mode that the subframe of the described Traffic Channel determining SIB message described in transmission bearer adopts the cycle to repeat sends, the mode that the control channel of execution cost Traffic Channel adopts the identical cycle to repeat sends.

17. methods according to any one of claim 1 to 7, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message adopts the cycle to repeat to send, the frequency domain resource carrying the described Traffic Channel of described publicly-owned message in the multiple subframes repeating to send described Traffic Channel is identical.

18. methods according to any one of claim 1 to 7, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, for repeating the multiple subframes sending described Traffic Channel, carry the resource size that control channel corresponding to the described Traffic Channel of described publicly-owned message take identical.

19. methods according to claim 18, is characterized in that, according to the type of the described publicly-owned message that the maximal cover grade of described base station or the described Traffic Channel of correspondence carry, determine the repetition transmission times of described control channel.

20. methods according to any one of claim 2 to 7, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, carry control channel use M-SI-RNTI or the SI-RNTI scrambling CRC bit that the Traffic Channel of described SIB message is corresponding, wherein, the value of described M-SI-RNTI is different from the value of described SI-RNTI.

21. methods according to claim 20, is characterized in that, use the Physical Downlink Control Channel of described M-SI-RNTI scrambling to transmit in identical subframe or different subframe from the physical down Traffic Channel that described Physical Downlink Control Channel is dispatched.

22. 1 kinds of publicly-owned message receival methods, is characterized in that comprising:

Subscriber equipment is according to covering grade, and receive publicly-owned message in specific running time-frequency resource position, wherein, described specific running time-frequency resource position is determined by network side, and described publicly-owned message bearing on a traffic channel.

23. methods according to claim 22, is characterized in that, described Traffic Channel repeats in described specific running time-frequency resource position to receive, and wherein, the number of repetition of described Traffic Channel is determined by following mode one of at least:

The number of repetition carrying the described Traffic Channel of described publicly-owned message is different from the number of repetition of the Traffic Channel of dispatching with the control channel of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI scrambling;

24. methods according to claim 23, is characterized in that, according to the type of described publicly-owned message of carrying, determine the number of repetition of corresponding described Traffic Channel comprise following one of at least:

At least one mode among the maximal cover grade of leading, the described base station sent in Stochastic accessing according to described subscriber equipment, the covering grade of described subscriber equipment, radio resource control layer RRC signaling or the 3rd predefine value, determines the number of repetition of the described Traffic Channel carrying described Paging message.

25. methods according to claim 24, is characterized in that, according to described subscriber equipment send in Stochastic accessing described leading, determine that the number of repetition of the described Traffic Channel carrying described RAR message or described Paging message comprises:

26. methods according to claim 25, it is characterized in that, the described Traffic Channel carrying described SIB message repeats to receive according to predetermined period interval, and wherein, described predetermined period is the cycle of the cycle of fixing duration or one group of duration according to the 4th predefine value configuration.

27. methods according to claim 26, is characterized in that, the described Traffic Channel carrying described SIB message once repeats to receive in described predetermined period, and describedly once repeat reception and be arranged in one or more SIB cycle.

28. methods according to claim 23, it is characterized in that, when the described Traffic Channel carrying described SIB message is aperiodicity repetition, receives described publicly-owned message in described specific running time-frequency resource position and comprise: the described Traffic Channel determining to carry described SIB message by blind Detecting.

29. methods according to claim 23, is characterized in that, described method also comprises: the described Traffic Channel of described subscriber equipment to the described SIB message of carrying is carried out multiple SIB cycle and attempted decoding.

30. methods according to claim 23, it is characterized in that, the described Traffic Channel carrying described publicly-owned message, when without control channel scheduling instruction, determines the frequency domain resource repeating to receive described Traffic Channel by following mode one of at least:

In frequency domain polymerization grade, the number of PRB in the Physical Resource Block PRB resource that frequency domain resource described in blind check takies, wherein, described frequency domain resource adopts binary phase shift keying BPSK demodulation or Quadrature Phase Shift Keying QPSK demodulation, and respectively by cyclic redundancy check (CRC) bit corresponding to publicly-owned message described in the first Radio Network Temporary Identifier RNTI, the 2nd RNTI and the 3rd RNTI descrambling; Wherein, a described RNTI comprises different SI-RNTI and M-SI-RNTI of value, for the descrambling of CRC bit corresponding to described SIB message; Described 2nd RNTI comprises different P-RNTI and M-P-RNTI of value, for the descrambling of CRC bit corresponding to described Paging message; Described 3rd RNTI comprises different RA-RNTI and M-RA-RNTI of value, for the descrambling of CRC bit corresponding to described RAR message;

31. methods according to claim 30, is characterized in that, the original position of described PRB resource is determined by one of following mode:

According to formula determine the described original position of described PRB resource, wherein, L polymerization grade; Y _k=(An _rNTI) modD or Y _k=(AkSFNn _rNTI) modD; M=1,2 ..., M ^(L); M ^(L)represent the Candidate Set quantity that polymerization grade L is corresponding; N _{pRB, k}represent subframe numbers be k subframe on total for the PRB that takies without the Traffic Channel carrying publicly-owned message during controls transfer; D represents constant 65537; A represents constant 39827; K represents subframe numbers; I=0 ..., L-1 represents the search unit that a polymerization grade is corresponding; n _rNTIrepresent the RNTI value of scrambling CRC bit, SFN represents radio frame number, and mod represents modulo operation.

32. methods according to claim 30, it is characterized in that, in the instruction according to RRC signaling or according to the 5th predefine value, when determining the described RPB resource that described frequency domain resource takies, described PRB resource is continuous or discrete PRB resource, and the PRB number of described RPB resource is less than or equal to 6.

33. methods according to claim 30, it is characterized in that, determine that the original position of described Traffic Channel in the subframe of the described Traffic Channel of transmission carrying described publicly-owned message is the 3rd orthogonal frequency division multiplex OFDM symbol, or, according to the bandwidth of system, determine the primary sign of described Traffic Channel in described subframe carrying described publicly-owned message.

34. methods according to claim 33, is characterized in that, according to the bandwidth of system, the described primary sign of described Traffic Channel in described subframe determining to carry described publicly-owned message comprises one of following mode:

35. methods according to any one of claim 23 to 29, it is characterized in that, specific running time-frequency resource position shared when the described Traffic Channel the carrying described SIB message specific running time-frequency resource position shared when larger covering grade comprises less covering grade.

36. methods according to any one of claim 23 to 29, is characterized in that, determine one of in the following manner for the original position receiving the described subframe of described Traffic Channel:

37., according to the method described in claim 23 to 29, is characterized in that, according to the type of described publicly-owned message of carrying, determine the position of described subframe comprise following one of at least:

38. according to method according to claim 37, it is characterized in that, when the mode that the subframe of the described Traffic Channel determining SIB message described in transmission bearer adopts the cycle to repeat receives, the mode that the control channel of execution cost Traffic Channel adopts the identical cycle to repeat receives.

39. methods according to any one of claim 22 to 29, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message adopts the cycle to repeat to receive, the frequency domain resource carrying the described Traffic Channel of described publicly-owned message in the multiple subframes repeating to receive described Traffic Channel is identical.

40. methods according to any one of claim 22 to 29, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, for repeating the multiple subframes receiving described Traffic Channel, carry the resource size that control channel corresponding to the described Traffic Channel of described publicly-owned message take identical.

41. methods according to claim 40, is characterized in that, according to the type of the described publicly-owned message of the described Traffic Channel carrying of maximal cover grade or correspondence, determine described control channel repeat receive number of times.

42. methods according to any one of claim 23 to 29, it is characterized in that, when the described Traffic Channel carrying described publicly-owned message has control channel to dispatch instruction, carry control channel use M-SI-RNTI or the SI-RNTI scrambling CRC bit that the Traffic Channel of described SIB message is corresponding, wherein, the value of described M-SI-RNTI is different from the value of described SI-RNTI.

43. methods according to claim 42, is characterized in that, use the Physical Downlink Control Channel of described M-SI-RNTI scrambling to receive in identical subframe or different subframe from the physical down Traffic Channel that described Physical Downlink Control Channel is dispatched.

44. 1 kinds of publicly-owned message dispensing devices, be positioned at network side, it is characterized in that, described device comprises:

First determination module, for according to covering grade, determines the running time-frequency resource position sending publicly-owned message;

Sending module, for sending described publicly-owned message by described running time-frequency resource position, wherein, described publicly-owned message bearing on a traffic channel.

45. 1 kinds of publicly-owned message receiving apparatus, are positioned at end side, it is characterized in that, described device comprises:

Receiver module, for according to covering grade, receive publicly-owned message in specific running time-frequency resource position, wherein, described specific running time-frequency resource position is determined by network side, and described publicly-owned message bearing is on a traffic channel.

46. 1 kinds of publicly-owned message delivery systems, is characterized in that, comprise publicly-owned message dispensing device according to claim 44 and publicly-owned message receiving apparatus according to claim 45.