WO2015019182A2 - Method and apparatus for transmitting and receiving paging message in machinte type communication - Google Patents

Abstract

The present invention provides a method of transmitting a paging message in Machine Type Communication (MTC), comprising: calculating a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device; attaching the calculated CRC code to the paging message; removing at least part of the target MTC device identifier from the paging message; transmitting the paging message. The present invention further provides a method of receiving a paging message in Machine Type Communication (MTC), and a base station and an MTC device corresponding to the above method. The present invention simplifies the paging message of low-cost MTC UE for coverage enhancement. The payload size of the paging message is reduced, and the UE-specific coverage enhancement needs are supported very well so that a spectrum efficiency for the low-cost MTC UE is improved.

Description

METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING PAGING MESSAGE IN MACHINTE TYPE COMMUNICATION

Field of the Invention

Embodiments of the present invention generally relates to a method and apparatus for transmitting and receiving a paging message, and more specifically to a method of transmitting and receiving a paging message in Machine Type Communication, a base station and a Machine Type Communication device. Background of the Invention

A Machine Type Communication (MTC) device is a UE that is used by a machine for specific application. An example of such MTC device is a smart utility meter. Some of these smart meters are located in basement, which suffer from high penetration loss and therefore it is difficult for the MTC device to communicate with the network. Therefore, in 3 GPP a new Work Item for Low Cost MTC UE and coverage enhancement is approved. The coverage enhancement aspect aims at extending the coverage of such MTC UE by 15 dB. These UEs are referred to as CE-MTC (Coverage Enhanced MTC) UEs in the context of the present invention.

Repetition is identified as the main technique to enhance the coverage. The amount of repetition required is expected to be very significant (in the 100 times), which has a significant impact to the spectral efficiency. In a practical cellular network, for different MTC devices in the coverage holes, the amount of coverage extension required is likely to range between 0 dB and 15 dB. To alleviate the loss of spectrum efficiency caused by repeated transmission, it is necessary to configure different coverage enhancement levels for the MTC UEs with different coverage requirements. Paging is used to notify a UE in an idle mode by broadcasting a paging message for the UE in all the cells within a Tracking Area. In the existing paging message, multiple UEs are multiplexed into one paging message, which is broadcast in all cells within a Tracking Area. The paging message is therefore designed to reach the UE with the poorest radio condition in a cell. However, this mechanism becomes very inefficient for CE-MTC UE since the difference in the amount of repetition between the CE-MTC UE with the weakest radio condition (i.e. 15 dB coverage hole) and an acceptable radio condition (e.g. 5 dB coverage hole) is significant. Therefore, the technical problem to be solved is to find an efficient way to transmit the paging message for CE-MTC UEs.

3GPP has just discussed and agreed the general strategy to support multiple coverage enhancement level for low cost MTC UE to alleviate the spectrum efficiency of coverage enhanced MTC in the last RAN1#73 meeting. The legacy paging message does not support such feature and causes waste of resources. To the best knowledge of the Inventor, there is no discussion about the UE-specific coverage enhancement level support and simplification for the paging message to make the transmission of paging message efficient currently.

Summary of the Invention

In view of the above, a basis idea of the technical solutions of embodiments of the present invention is to target the paging message to a specific CE-MTC UE and simplify the paging message.

Therefore, according to a first aspect of embodiments of the present invention, there is provided a method of transmitting a paging message in Machine Type Communication (MTC). The method comprises: calculating a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device; attaching the calculated CRC code to the paging message; removing at least part of the target MTC device identifier from the paging message; and transmitting the paging message.

According to a second aspect of embodiments of the present invention, there is provided a method of receiving a paging message in Machine Type Communication (MTC). The method comprises: the MTC device receives the paging message; the MTC device attaches at least part of its own identifier to the received paging message; CRC check is performed for the paging message to which the MTC device identifier is attached; if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

According to a third aspect of embodiments of the present invention, there is provided a base station, comprising: a calculating module configured to calculate a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device; a paging message processing module configured to attach the calculated CRC code to the paging message, and remove at least part of the target MTC device identifier from the paging message; a transmitting module configured to transmit the paging message.

According to a fourth aspect of embodiments of the present invention, there is provided a Machine Type Communication (MTC) device, comprising: a receiving module configured to receive the paging message; a calculating module configured to attach at least part of the MTC device identifier to the received paging message and perform the CRC check for the paging message to which the MTC device identifier is attached; a judging module configured in a way that: if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

According to a fifth aspect of embodiments of the present invention, there is provided a communication system, comprising the above base station and the MTC device.

The technical solutions of the embodiments of the present invention simplify the paging message of low-cost MTC UE for coverage enhancement. The payload size of the paging message is reduced, and the UE-specific coverage enhancement needs are supported very well. As a result, the spectrum efficiency for the low-cost MTC UE is improved.

Brief Description of the Drawings

Fig. l illustrates a flow chart of a method of transmitting a paging message in Machine Type Communication (MTC) according to an embodiment of the present invention.

Fig.2 illustrates a flow chart of a method of receiving a paging message in Machine Type Communication (MTC) according to an embodiment of the present invention.

Fig.3 illustrates a block diagram of a base station according to an embodiment of the present invention.

Fig.4 illustrates a block diagram of a Machine Type Communication (MTC) device according to an embodiment of the present invention.

Fig.5 illustrates a processing flowchart of simplifying the paging message for the MTC by directly removing all or partial UE identifier according to an embodiment of the present invention.

Fig.6 illustrates a flow chart of UE receiving a paging message according to an embodiment of the present invention.

Detailed Description of Preferred Embodiments

Embodiments of the present invention will be described in detail below. In the following description, some specific embodiments are only used for description purpose and should not be understood as limiting the present invention, and these embodiments are only examples of the present invention. Noticeably, embodiments only depict difference between the present invention and the prior art and omit depictions regarding conventional structures or means to avoid unclear understanding of the present invention.

First, the Inventor recognizes that the CE-MTC UE have no mobility and therefore would be attached to a single cell during idle mode. It should be appreciated that CE-MTC UEs are only operational during non-busy hour (e.g. lam to 3am) of the day where it would send/receive short messages and move into idle mode. As such, the spectrum is very inefficient and therefore the CE-MTC UE would likely be switched off. Hence, during idle mode, it is highly unlikely that there will be any change in cell. This allows the paging message to be targeted to a specific CE-MTC UE using a repetition amount that is appropriate for its radio condition.

Furthermore, the Inventor recognizes that the first aspect of targeting a single UE using the existing paging message would remove the multiplexing gain and increase the average payload size. If each paging message only corresponds to a specific user's message, an appropriate repetition amount may be determined for the paging message according to the specific user's needs to avoid unnecessary redundant repetition; furthermore, the paging message may offset the loss in multiplexing gain by means of other simplification, and even bring about improvement of spectral efficiency. This is achieved by reducing the size of the UE ID in the paging message, e.g. IMSI or S-TMSI by transmitting only part of the UE ID in the message and the remaining part is masked with the CRC of the Transport Block. It should be noted that for such a paging message, the legacy P-RNTI is no longer used and is therefore not masked to the CRC.

In 3GG discussion, in a candidate scheme, PDCCH is not used to indicate to CE-MTC UE of a possible paging message. A predefined PDSCH resource (e.g. indicated in the SIB or in the specification) is used to carry the paging message. The present invention completely supports application of such candidate scheme. This PDSCH resource will be repeated and would start at the start in the subframe of the paging occasion where the paging message is expected. It should be noted that if there is no paging message, this PDSCH resource can be used for other transmission and a CE-MTC UE that tries to decode this for a paging message would fail.

Recently, 3GPP proposed to improve the coverage by 15dB for low cost MTC UE to bring business benefit to MTC vendors and operators. All the physical channels need to be enhanced based on the MCL calculation. In order to achieve such a goal, time domain repetition is considered as the most important method.

According to the recent simulation results, hundreds of repetitions are required to meet the most critical demand. However, it is noted that 15dB is just an extreme case and most of the MTC UEs may not need such huge improvement due to the different deployment locations, it is not spectral efficient to repeat for the maximum times for all the MTC UEs due to the loss of spectrum efficiency. In recent 3GPP RAN1#73 meeting, a more efficient way is proposed and supported. The key idea is to support multiple coverage enhancement levels in one cellular. For each individual UE, the information repeats for the proper times according to its best-match coverage enhancement level based on its own channel condition.

However, it is not easy to support different UE- specific coverage enhancement levels flexibly when transmitting paging messages. The reason is that the paging information for multiple UEs is usually multiplexed in one paging message. Therefore, in order to ensure the successful reception of all the relevant UEs, the paging message has to support the worst UE's coverage enhancement level. As a result, the paging information for the other UEs is repeated excessively. This is a waste of resources, especially considering the significant gap of the required transmission times between different coverage enhancement levels.

An embodiment of the present invention provides an efficient scheme to support

UE-specific coverage enhancement level for paging message. In the embodiment of the present invention, each paging message is set to only serve one specific UE. In such scenario, the embodiment of the present invention simplifies the paging message to greatly reduce the payload size of the paging message by removing at least partly of the UE-identification field. The removed part of the UE-identification is obtained through CRC check. In summary, two merits are obtained according to the embodiment of the present invention: the average payload size for paging one UE is reduced and UE-specific coverage enhancement level is well supported.

Exemplary embodiments of the present invention will be described in detail with reference to figures.

Fig. l illustrates a flow chart of a method of transmitting a paging message in Machine Type Communication (MTC) according to an embodiment of the present invention.

In step 110, first, a cyclic redundancy check (CRC) code of the paging message is calculated, wherein the paging message includes an identifier of a target MTC device. According to a preferred embodiment of the present invention, the identifier of the MTC device may be IMSI or S-TMSI. According to another preferred embodiment of the present invention, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI. According to other embodiments of the present invention, the identifier of the MTC device may be other identifiers for identifying the UE. According to another preferred embodiment of the present invention, the MTC device may be a coverage-enhanced MTC (CE-MTC) device.

In step 120, the calculated CRC code is attached to the paging message.

In step 130, at least part of the target MTC device identifier is removed from the paging message. According to an embodiment of the present invention, all of the target MTC device identifier may be removed from the paging message. According to another embodiment of the present invention, part of the target MTC device identifier may be removed from the paging message.

In step 140, the paging message is transmitted. According to a preferred embodiment of the present invention, channel coding is performed for the paging messaging before being transmitted. According to another preferred embodiment of the present invention, it is feasible to determine repeated transmission times of the paging message and perform repeated transmission of the paging message according to a channel environment of the target MTC device.

Fig.2 illustrates a flow chart of a method of receiving a paging message in Machine Type Communication (MTC) according to an embodiment of the present invention.

In step 210, the MTC device receives the paging message. According to a preferred embodiment of the present invention, the MTC device may be a coverage-enhanced MTC (CE-MTC) device. According to another preferred embodiment of the present invention, the paging message, after being received, is subjected to channel decoding.

In step 220 the MTC device attaches at least part of its own identifier to the received paging message. According to an embodiment of the present invention, the MTC device may attach only part of its own identifier to the received paging message. According to another embodiment of the present invention, the MTC device may attach all of its own identifier to the received paging message. According to an embodiment of the present invention, the identifier of the MTC device is IMSI or S-TMSI. According to another embodiment of the present invention, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI. According to other embodiments of the present invention, the identifier of the MTC device may be other identifiers for identifying the UE.

In step 230, CRC check is performed for the paging message to which the MTC device identifier is attached.

In step 240, if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

Fig.3 illustrates a block diagram of a base station 300 according to an embodiment of the present invention.

As shown in Fig.3, the base station 300 comprises a calculating module 310. The calculating module 310 is configured to calculate a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device. According to a preferred embodiment of the present invention, the identifier of the MTC device may be IMSI or S-TMSI. According to another preferred embodiment of the present invention, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI. According to other embodiments of the present invention, the identifier of the MTC device may be other identifiers for identifying the UE. According to another preferred embodiment of the present invention, the MTC device may be a coverage-enhanced MTC (CE-MTC) device.

Besides, the base station 300 further comprises a paging message processing module 320. The paging message processing module 320 is configured to attach the calculated CRC code to the paging message, and remove at least part of the target MTC device identifier from the paging message. According to an embodiment of the present invention, the paging message processing module 320 is configured to remove all of the target MTC device identifier from the paging message or remove part of the target MTC device identifier from the paging message.

In addition, the base station 300 further comprises a transmitting module 330. The transmitting module 330 is configured to transmit the paging message. According to a preferred embodiment of the present invention, the base station 300 may further comprise a channel coding module configured to perform channel coding for the paging messaging before being transmitted. According to another preferred embodiment of the present invention, the transmitting module 330 may determine repeated transmission times of the paging message and perform repeated transmission of the paging message according to a channel environment of the target MTC device.

Fig.4 illustrates a block diagram of a Machine Type Communication (MTC) device 400 according to an embodiment of the present invention.

As shown in Fig.4, the MTC device 400 comprises a receiving module 410. The receiving module 410 is configured to receive the paging message. According to a preferred embodiment of the present invention, the MTC device may be a coverage-enhanced MTC (CE-MTC) device. According to another preferred embodiment of the present invention, the paging message, after being received, is subjected to channel decoding.

In addition, the MTC device 400 further comprises a calculating module 420. The calculating module 420 is configured to attach at least part of the MTC device identifier to the received paging message and perform the CRC check for the paging message to which the MTC device identifier is attached. According to an embodiment of the present invention, the calculating module is configured to attach only part of the MTC device identifier to the received paging message. According to another embodiment of the present invention, the calculating module may attach all of the MTC device identifier to the received paging message. According to an embodiment of the present invention, the identifier of the MTC device is EVISI or S-TMSI. According to another embodiment of the present invention, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI. According to other embodiments of the present invention, the identifier of the MTC device may be other identifiers for identifying the UE. According to an embodiment of the present invention, the MTC device 400 may further comprise a decoding module configured to perform channel decoding for the paging message after being received.

Besides, the MTC device 400 further comprises a judging module 430. The judging module 430 is configured in a way that: if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

Fig.5 illustrates a processing flowchart of simplifying the paging message for the MTC by directly removing all or partial UE identifier according to an embodiment of the present invention.

As shown in Fig.5, an initial paging message has a bit map representing information, and then a user identifier of the target MTC device is attached to the paging message; then, the CRC check code is attached to the paging message; then all or partial user identifier of the target MTC device is removed from the paging message; then the paging message, after being subjected to channel coding, is finally transmitted.

Fig.6 illustrates a flow chart of UE receiving a paging message according to an embodiment of the present invention.

As shown in Fig.6, first, the paging message in an air interface is demodulated, and then subjected to channel decoding. Then, the MTC device attaches all or part of its own EVISI (or TMSI) to information obtained from the decoding; and then performs CRC check for the information to which all or partial IMSI (or TMSI) is attached: if the CRC check passes, it is determined that the paging message is transmitted to the MTC device; if the CRC check does not pass, the MTC device drops the paging message.

As mentioned briefly in the preceding text of the description, in order to support

UE-specific coverage enhancement level, the present invention makes each paging message contain only one UE's paging information. In this way, each paging message can be configured with a proper repetition times according to the corresponding UE's channel condition, and the unnecessary repetitions can be avoided.

Furthermore, in order to further improve the spectrum efficiency, the paging message is simplified to reduce the payload size. For the paging message with paging list, only one MTC

UE's identification is contained, i.e., each paging message is for a certain specific MTC UE. In this scenario, the UE-identification (which can use IMSI/S-TMSI, or else can use IMSI and 1 bit to indicate paging message is IMSI or S-TMSI of a normal UE's paging message in a corresponding current system) in paging message can be transmitted implicitly. In other words, at least part of UE-identification is not actually transmitted in the air interface, it is implied by

CRC check. This can be accomplished in the following way.

The key idea of the present disclosure is to use the CRC message to implicitly transmit at least partial UE identification. This can be accomplished by simplifying the UE-identification in the transmission block in eNodeB before transmission. There are two options in generating the paging message. One option is to remove the entire UE-identification. The simplification of paging message for low cost MTC of this option is depicted below.

Another option is to remove part of the UE-identification. In this option, part of the

UE-identification is removed to reduce the overload size, and the other part of the UE-identification is still transmitted to ensure reliable transmission. The flow chart represented in Fig.5 is still applicable. However, a more reliable procedure is illustrated in Fig.6.

For example, if 24 bits of IMSI is removed, the remaining 8 bits can ensure almost perfect recovery of the IMSI.

Although the UE-identification is removed, the CRC itself contains UE-identification information. The UE will check CRC to know whether this paging information is for itself. When the MTC UE received a paging message, it first demodulates and decodes the received packet. After that, the MTC UE attaches its own identification in the decoded data to recover the complete transmission block and then checks CRC. If CRC check is passed, the UE knows the paging is for itself, otherwise the UE considers it is other's paging message. The flowchart of UE reception is illustrated in Fig.6.

Then, analysis is performed for the performance of the present invention-proposed scheme in terms of required bits per UE and error rate.

First, comparison is performed for the number of the occupied bits per UE of the normal paging message and that of the present invention-proposed paging message. For the convenience of comparison, assuming IMSI is included in paging message for all the normal UE. It should be mentioned that if S-TMSI is used for paging normal UE, more bits are required.

For a paging message mitigating m (0<m<17) normal user's indication, its overall size is 8 bits (MAC header)+m*(2+32)bits (IMSI)+6bits(other payload)+24bits (CRC). Thus each UE occupies 34+38/m bits in legacy paging message. As analyzed before, for the categories of UEs with 1.4MHz PDSCH, m=l or 2. As a result, the paging information for each UE occupies 60-80bits.

On the other hand, in the present invention-proposed paging message, each UE occupies 6bits (legacy payload; another option is a bit map can be used and 6 bits are enough)+24bits (CRC) + x = 30+x bits, where x is bit number of the not omitted part in IMSI. It should be mentioned that large x leads to larger payload size but lower error rate.

It can be seen that the present invention-proposed scheme does not increase the payload size. On the contrary, it reduces the payload size about 30%-50% to achieve more efficient usage of the resources.

Analysis about error rate proposed in the present invention is presented as follows.

It is concerned that the implicit transmission of UE-identification may cause adverse impact on the reliability. Notice that the UE-identification is not transmitted in the air interface, the Invention asserts that the UE-identification can be seen as always perfectly received. Notice that the IMSI sequence is longer than the CRC sequence, the additional error case occurs when different UE-identification generates the same CRC sequence. In other words, the additional false alarm probability should be evaluated. Since the reliable 24-bit CRC is used to inherently contain the UE-identification for the directly elimination scheme, and consideration is given to the quite limited amount of low cost MTC UEs in the same cellular, it can be inferred that the false alarm probability is rather low. Moreover, if x>=8, the additional false alarm will be eliminated and the overload size of paging message is 38bits, significantly lower than the average overload.

As can be seen from the above analysis, the additional false alarm probability is very marginal. Hence the present invention-proposed scheme is satisfactory in terms of transmission reliability.

Based on the proposed solution and the corresponding performance analysis, the benefit of this invention is clear. It supports UE- specific coverage enhancement level flexibly and unnecessary repetition would not happen. Besides, the simplification of paging message further improves its efficiency.

The present invention simplifies the paging message of low-cost MTC UE for coverage enhancement. The pay load size of the paging message is reduced, and the UE- specific coverage enhancement needs are supported very well. As a result, the spectrum efficiency for the low-cost MTC UE is improved.

In contrast, the solutions in the prior art do not support UE- specific coverage enhancement needs, and unnecessary repetition will occur with the paging message. Besides, an average payload size of the paging message in the prior art is very large. The present invention reduces the average payload size by 30%-50%, and supports UE-specific coverage enhancement needs very well.

Although the present invention is described with reference to specific embodiments, these embodiments are only used for illustration purpose, not intended to define the present invention. Those skilled in the art should appreciate that various amendments and changes may be made to these embodiments in form or details without departing from the spirit and scope of the present invention. The scope of the present invention shall be defined by the appended claim set.

Claims

WHAT IS CLAIMED IS:

1. A method of transmitting a paging message in Machine Type Communication (MTC), characterized in that the method comprises:

calculating a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device;

attaching the calculated CRC code to the paging message;

removing at least part of the target MTC device identifier from the paging message;

transmitting the paging message.

2. The method according to claim 1, characterized in that only part of the target MTC device identifier is removed from the paging message and the remaining portion of the target MTC device identifier is retained in the paging message.

3. The method according to claim 1, characterized in that all of the target MTC device identifier is removed from the paging message.

4. The method according to one of claims 1-3, characterized in that, the method further comprises: determining repeated transmission times of the paging message and performing repeated transmission of the paging message according to a channel environment of the target MTC device.

5. The method according to one of claims 1-3, characterized in that, channel coding is performed for the paging messaging before being transmitted.

6. The method according to one of claims 1-3, characterized in that, the identifier of the MTC device is IMSI or S-TMSI.

7. The method according to claim 6, characterized in that, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI.

8. The method according to one of claims 1-3, characterized in that, the MTC device is a coverage-enhanced MTC (CE-MTC) device.

9. A method of receiving a paging message in Machine Type Communication (MTC), characterized in that, the method comprises:

an MTC device receives the paging message;

the MTC device attaches at least part of its own identifier to the received paging message; CRC check is performed for the paging message to which the MTC device identifier is attached;

if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

10. The method according to claim 9, characterized in that, the MTC device attaches only part of its own identifier to the received paging message.

11. The method according to claim 9, characterized in that, the MTC device attaches all of its own identifier to the received paging message.

12. The method according to one of claims 9-11, characterized in that, the paging message, after being received, is subjected to channel decoding.

13. The method according to one of claims 9-11, characterized in that, the identifier of the MTC device is IMSI or S-TMSI.

14. The method according to claim 13, characterized in that, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI.

15. The method according to one of claims 9-11, characterized in that, the MTC device is a coverage-enhanced MTC (CE-MTC) device

16. A base station, characterized in that, the base station comprises:

a calculating module configured to calculate a cyclic redundancy check (CRC) code of the paging message, wherein the paging message includes an identifier of a target MTC device; a paging message processing module configured to attach the calculated CRC code to the paging message, and remove at least part of the target MTC device identifier from the paging message;

a transmitting module configured to transmit the paging message.

17. The base station according to claim 16, characterized in that, the paging message processing module is further configured to remove only part of the target MTC device identifier from the paging message and retain the remaining portion of the target MTC device identifier in the paging message.

18. The base station according to claim 16, characterized in that, the paging message processing module is further configured to remove all of the target MTC device identifier from the paging message.

19. The base station according to one of claims 16-18, characterized in that, the transmitting module is further configured to determine repeated transmission times of the paging message and perform repeated transmission of the paging message according to a channel environment of the target MTC device.

20. The base station according to one of claims 16-18, characterized in that, the base station further comprises a channel coding module configured to perform channel coding for the paging messaging before being transmitted.

21. The base station according to one of claims 16-18, characterized in that, the identifier of the MTC device may be IMSI or S-TMSI.

22. The base station according to clam 21, characterized in that, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI.

23. The base station according to one of claims 16- 18, characterized in that, the MTC device is a coverage-enhanced MTC (CE-MTC) device.

24. A Machine Type Communication (MTC) device, characterized in that the MTC device comprises:

a receiving module configured to receive the paging message;

a calculating module configured to attach at least part of the MTC device identifier to the received paging message and perform the CRC check for the paging message to which the MTC device identifier is attached;

a judging module configured in a way that: if the CRC check passes, the MTC device determines that the paging message is transmitted to itself; if the CRC check does not pass, the MTC device drops the paging message.

25. The MTC device according to claim 24, characterized in that, the calculating module is configured to attach only part of the MTC device identifier to the received paging message.

26. The MTC device according to claim 24, characterized in that, the calculating module is configured to attach all of the MTC device identifier to the received paging message.

27. The MTC device according to one of claims 24-26, characterized in that, the MTC device further comprises a channel decoding module configured to perform channel decoding for the paging messaging after being received.

28. The MTC device according to one of claims 24-26, characterized in that, the identifier of the MTC device is IMSI or S-TMSI.

29. The MTC device according to claim 28, characterized in that, one bit in a bit map in the paging message is used to indicate whether the identifier is IMSI or S-TMSI.

30. The MTC device according to one of claims 24-26, characterized in that, the MTC device is a coverage-enhanced MTC (CE-MTC) device.

31. A communication system, characterized in that, the system comprises:

the base station according to one of claims 16-23; and

the MTC device according to one of claims 24-30.