KR101845557B1 - Data tranceiver in wireless communication system supporting mbms and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for transmitting and receiving data in a wireless communication system supporting MBMS, and more particularly, to an apparatus and method for transmitting and receiving data in a wireless communication system supporting an MBMS, including an indicator for indicating whether random access is performed, Receiving; Generating a random number associated with the viewpoint; Confirming whether or not the random access is performed based on the indicator and performing the random access at any one of a time point before reception of data from the base station or after data reception from the base station based on the probability value and the random number And a data transmission / reception method of the terminal.

Description

TECHNICAL FIELD [0001] The present invention relates to a data transmission / reception apparatus and a method thereof in a wireless communication system supporting MBMS,

The present invention relates to an apparatus and a method for transmitting / receiving data in a wireless communication system supporting MBMS, and more particularly, to a system and method for transmitting / receiving data in a wireless communication system supporting MBMS for reducing power consumption of a terminal, ≪ / RTI >

Recently, there has been an increasing interest in M2H (Machine to Machine) communication as well as H2H (Human to Human) communication. The M2M communication is characterized in that there are many MTC (Machine Type Communication) terminals and these terminals transmit and receive a small amount of information.

On the other hand, if H2H communication method is applied for M2M communication, resource efficiency becomes poor. Therefore, the application of MBMS (Multimedia Broadcast Multicast Service) can be considered as an example for efficiently performing M2M communication. The MBMS is a method for transmitting the same information to all UEs or UEs in a specific group. If MBMS is used, the same resources can be allocated to UEs receiving the same information, thereby increasing resource efficiency.

However, when the MBMS is applied to the M2M communication, the terminal must monitor the MCCH (Multicast Control Channel) as a control channel periodically in order to receive the data, so that the power consumption of the terminal becomes large. In addition, when the UE transmits data after the data reception ends, when attempting RA (Random Access) to change to the RRC_Connected state, a collision occurs between terminals attempting RA, Is generated.

The present invention relates to a data transmitting and receiving apparatus and method for reducing power consumption of a terminal and providing a smooth connection in a wireless communication system supporting MBMS.

The present invention also relates to a data transmitting and receiving apparatus and method for reducing power consumption of a UE by applying a group-based paging scheme in a wireless communication system supporting MBMS.

The present invention also relates to a data transmitting and receiving apparatus and method for distributing an attempted RA between terminals in a wireless communication system supporting MBMS, will be.

According to an aspect of the present invention, there is provided a method for transmitting a random access, the method comprising: receiving, from a base station, an indicator indicating whether to perform random access and a probability value regarding a time point at which the random access is performed; Generating a random number associated with the viewpoint; Confirming whether or not the random access is performed based on the indicator and performing the random access at any one of a time point before reception of data from the base station or after data reception from the base station based on the probability value and the random number And a data transmission / reception method of the terminal including the data transmission / reception method.

According to another aspect of the present invention, there is provided a communication system including: a receiving unit for receiving data from a base station; A transmitter for transmitting data to the base station; An indicator for indicating whether or not to perform random access from the base station and a probability value regarding a point of time at which the random access is performed, generating a random number related to the point-in-time, And performing control to perform the random access at any one of a time point before reception of data from the base station or a time point after data reception from the base station based on the probability value and the random number .

The present invention can reduce the power consumption of the UE because it monitors only when the UE receives the MGID of the UE group to which the UE belongs without periodically monitoring the MCCH.

Also, according to the present invention, collision between terminals can be prevented by dispersing the time points of RA attempts of terminals belonging to the terminal group, thereby enabling seamless connection between the terminal and the base station.

Brief Description of the Drawings Fig. 1 is a diagram illustrating a method for a terminal to monitor MCCH in an M2M communication supporting MBMS according to an embodiment of the present invention. Fig.
2 is a diagram illustrating a communication method in a case where terminals belonging to a terminal group perform data reception and transmission and all terminals transmit RAck in M2M communication supporting MBMS according to an embodiment of the present invention;
3 is a diagram illustrating a communication method in a case where terminals belonging to a terminal group receive data only and only some terminals transmit RAck in M2M communication supporting MBMS according to an embodiment of the present invention.
4 is a diagram illustrating a communication method in a case where terminals belonging to a terminal group perform data reception and transmission in M2M communication supporting MBMS according to an embodiment of the present invention, and all terminals do not transmit RAck;
5 is a diagram illustrating a communication method in a case where terminals belonging to a terminal group perform data reception and transmission and only some terminals transmit RAck in M2M communication supporting MBMS according to an embodiment of the present invention.
6 is a flowchart illustrating a method of receiving data in a terminal in an M2M communication supporting MBMS according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating a method for transmitting a RAck or an uplink data after a UE receives data as shown in FIG. 6; FIG.
FIG. 8 is a flowchart illustrating a method for retrying after an RA fails in an M2M communication supporting MBMS according to an embodiment of the present invention. FIG.
FIG. 9 illustrates a terminal in an M2M communication supporting MBMS according to an embodiment of the present invention; FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing an embodiment of the present invention, the wireless communication is described as an example of M2M communication, and the data transmitting and receiving apparatus is exemplified as a terminal of a wireless communication system.

FIG. 1 is a diagram illustrating a method in which a terminal monitors MCCH in an M2M communication supporting MBMS according to an embodiment of the present invention. Referring to FIG. In the following description, the terminal group 100 may be understood as a group of terminals receiving the same paging message according to group-based paging.

1, when a base station 110 transmits an MGID (Multicast Group ID), which is an ID of a terminal group 100, to a specific terminal group 100 through a paging message 120, 100 determines whether the MGID of the group to which the UE belongs is included in the paging message, and if so, monitors the MCCH to receive data through MBMS (130). The UE monitors the MCCH and obtains information on data to be received by the UE, and receives data through an MBMS data transfer procedure 140 using the received information. The MBMS data transfer procedure uses known techniques and is obvious to those skilled in the art, so a detailed description thereof will be omitted.

Meanwhile, when the UE receives data that is not received after receiving the MBMS data, or receives the data again when it receives the data completely, or transmits the RAck (Reception acknowledgment) to the base station 110, An Associated Delivery Procedure 150 may be performed. In this case, the UE performs an RA for uplink synchronization (UL Synchronization).

In the case of not attempting the RA, the terminal only receives data from the base station 110 and does not perform uplink transmission such as RAck to the base station 110. When a plurality of terminals transmit RAck or attempt RA at the same time for data transmission in the uplink, the terminals according to the present embodiment perform distributed connection to prevent congestion, which will be described in detail below.

1 will be referred to when the same reference numerals as those in FIG. 1 are not described in the following description.

FIG. 2 is a diagram illustrating a communication method in a case where terminals belonging to the terminal group 100 perform data reception and transmission and all terminals transmit RAck in the M2M communication supporting the MBMS according to an embodiment of the present invention.

Some of the terminals belonging to the terminal group 100 according to the present embodiment may attempt the RA before receiving data and the other terminal may attempt the RA after receiving the data. In order to do this, the UE must know whether or not its own RA is attempted before the related transmission procedure 150 starts, and therefore the BS 110 needs to know the RAck indicator and the Probability value (160) using the MCCH.

The RAck indicator has a value of '0' in the case of, for example, 1 bit and not transmitting RAck (NO RAck), and a value of '1' in other cases. Therefore, if the UE checks the RAck indicator through the MCCH and then has a value of 1, it can know that it should try RA, and generates Rn (Random number) for RA (170). Rn is generated for each terminal belonging to the terminal group 100, and may be different for each terminal. Also, the base station 110 may transmit a reference value to the terminal group 100 in order to generate Rn of the terminal.

The probability value is related to the RA attempt point of the UE. The Rn generated after the UE generates Rn is compared with the probability value. If Rn is smaller than the probability value, the RA is tried before data reception. Otherwise, Try RA. For example, the UE may receive a probability value through the MCCH or use a probability value in access barring of broadcast information in a cell. access barring is information broadcasted to terminals including basic information of the system, and includes access information and probability values.

2, when the terminal group 100 receives the RAck indicator '1' and the probability value '40' through the MCCH from the base station 110 (160), the terminal group 100 ) Generates Rn (170). If Rn is smaller than the probability value, the UE attempts an RA before data reception, i.e., before the MBMS data transmission procedure (1) (180). On the other hand, if Rn is greater than the probability value, after receiving the MBMS data from the BS 110, an RA is attempted in an associated transmission procedure 150 (190).

3 is a diagram illustrating a communication method in a case where terminals belonging to the terminal group 100 receive data only and only some terminals transmit RAck in the M2M communication supporting MBMS according to an embodiment of the present invention.

Referring to FIG. 3, when the RAck indicator is '1' and the first probability value is '0' (160), it is known that the terminal should try the RA, but before attempting to receive the data, Indicates that only some of the terminals attempt RA in the related transmission procedure 150 after receiving the data. Therefore, the UE only generates Rn after receiving the MCCH (170) and receives the data in the MBMS data transfer procedure (1). The UE then receives a second probability value from the base station 110 in an associated transmission procedure 150 and compares the Rn generated in step 170 with a second probability value to determine if Rn is greater than a second probability value (190) an RA in the associated transmission procedure 150. [0050]

4 is a diagram illustrating a communication method in a case where terminals belonging to the terminal group 100 perform data reception and transmission in M2M communication supporting MBMS according to an embodiment of the present invention and all terminals do not transmit RAck .

Referring to FIG. 4, although the UE does not transmit RAck, an RA attempt is required to transmit data in the uplink. Accordingly, the BS 110 transmits a RAck indicator '1' and a probability value '40' to the terminal group 100 (160). If the Rn is smaller than the probability value, the UE attempts an RA before the data reception (180). If the Rn is larger than the probability value, the UE generates an Rn because the RAck indicator is '1' Thereafter, an RA is attempted (190).

5 is a diagram illustrating a communication method in a case where terminals belonging to the terminal group 100 perform data reception and transmission and only some terminals transmit RAck in the M2M communication supporting the MBMS according to an embodiment of the present invention .

Referring to FIG. 5, since the RAck indicator is '1' and the first probability value is '0' (160), it is known that the terminal should attempt RA for RAck transmission, , Rn only (170) and receive data. The terminal then receives (175) a second probability value from the base station 110 in an associated transmission procedure 150, compares the generated Rn with the second probability value, and if the Rn is less than the second probability value, The RA is tried in the transfer procedure 150 (180).

On the other hand, in FIG. 5, in the case of a terminal having Rn greater than the second probability value, an RA can be attempted for data transmission in the uplink. Therefore, in the communication method according to the present embodiment, the pre-backoff method is used to adjust the RA attempt time of the terminal in which Rn is larger than the second probability value. The pre-backoff method means that a terminal having Rn greater than the second probability value tries the RA after the pre-backoff time (185). More specifically,

[Equation 1]

(i) Back-off Time = offset time + RandomTimePeriod

(ii) preBackOff = offset time + RandomTimePeriodWindow [Associated DeliveryProcedure]

(iii) Back-off time (2) = preBackOff + Back-off time (1)

(i), the Back-off Time indicates the time when the UEs whose Rn is smaller than the second probability value try the RA in the related transmission procedure 150, the offset time is the initial time, the RandomTimePeriod is the time ≪ / RTI > The terminal attempts the RA at any time in the RandomTimePeriod.

(ii), preBackOff indicates the maximum time that the UEs can try the RA in the related transmission procedure 150, and RandomTimePeriodWindow indicates the maximum time interval in which the UEs attempt the RA.

The UEs whose Rn is smaller than the first probability value try RA for the preBackOff time of (i) and the UEs whose Rn is larger than the second probability value try the RA after the preBackOff time of (ii) .

(i), the back-off time (2) indicates the time when the UEs whose Rn is smaller than the second probability value retry the RA, and the Back-off Time (1) Time. That is, when the UEs whose Rn is less than the second probability value retry the RA, the preBackOff time which is the maximum time for the initial RA attempt and the time for the RA attempt by the terminals whose Rn is larger than the second probability value Lt; / RTI >

6 is a flowchart illustrating a method of receiving data in a terminal in an M2M communication supporting MBMS according to an embodiment of the present invention.

6, when the terminal group 100 receives the MGID from the base station 110 through the paging message (600), the terminal belonging to the terminal group 100 includes the MGID of the group to which the terminal belongs in the paging message If it is included (Yes in 610), MCCH monitoring is performed (620). Otherwise (No in 610), the process proceeds to step 600 and MGID is received and confirmed. When the UE monitors the MCCH, the UE checks the RAck indicator and the probability value transmitted by the base station 110 using the MCCH to determine whether or not to attempt the RA. That is, if the RAck indicator is '0' (NO in 630), the RA is not attempted but only the data is received. If the RAck indicator is '1' (630), Rn is generated (640) And the probability value to determine the time point of the RA trial. In this case, when all the terminals attempt RA, the terminal attempts to perform RA 660 before data transmission (No in step 650) in case of a terminal having Rn smaller than the probability value, Example) Try to RA after receiving data. In addition, when only some terminals attempt RA, only terminals having Rn less than the probability value after receiving data try RA. The contents of attempting RA after data reception will be described with reference to FIG.

FIG. 7 is a diagram illustrating a method for transmitting a RAck or an uplink data after a UE receives data as shown in FIG. 6.

Referring to FIG. 7, when all terminals do not transmit RAck (NO in step 700), if the terminal does not transmit data in the uplink (No in step 705), only data is received. On the other hand, when the UE transmits data in the uplink (Yes in 705), the base station 110 sets the RAck indicator to '1' for data transmission without transmitting the RAck. Therefore, in the case of the terminal having Rn less than the probability value (NO in 710), as shown in FIG. 6, since the RA attempt is made before the data reception, if the RRC connection is established, data transmission is performed in the uplink at step 720. On the other hand, in the case of the terminal having Rn larger than the probability value (YES in 710), since the RA is not tried before the data reception, the RA is attempted after receiving the data (715). If an RRC connection is established between the UE and the BS 110 through an RA attempt, the UE transmits data in an uplink (step 720).

On the other hand, if all terminals transmit RAck (ALL RAck of 700), if the terminal has Rn less than the probability value (NO in 725), since there is an RA attempt before data reception, if RRC connection is established, (735). On the other hand, in the case of the UE having Rn larger than the probability value (or the first probability value) (YES in step 725), the UE performs an RA attempt (step 730) and transmits a RAck (step 735). Thereafter, if the UE needs to transmit data in the uplink (740), it transmits data (745). Otherwise, it only receives data (740).

When a certain terminal transmits an RAck (a part RAck of 700), the base station 110 sets the RAck indicator to '1', a probability value (or first probability value) '0' Try it. After receiving the data, the terminal receives the second probability value from the base station 110 (750). If the Rn is smaller than the second probability value (NO in 755), the UE attempts an RA (step 760). If the RRC connection is established, the UE transmits a RAck using the second probability value (765). Thereafter, when data transmission is required in the uplink (770 example), data is transmitted (775). Otherwise (770 is no), only data reception is performed.

On the other hand, when Rn is larger than the second probability value (YES in step 755), RAck transmission is not required. However, if data transmission is required in the uplink, an RA attempt is made after the preBackOff time (steps 785 and 790) When transmission is not required (No in 755), only data reception is performed.

FIG. 8 is a flowchart illustrating a method of retrying after an RA fails in an M2M communication supporting an MBMS according to an embodiment of the present invention.

Referring to FIG. 8, a first group 800 is a terminal group that tries RA before receiving data among the terminal group 100, and a second group 810 is a terminal group that tries RA after receiving data.

If the terminal of the group 1 800 attempts the RA 815 and the RRC connection is established 825 if the RA succeeds (820), the terminal fails (820) Wait (830) and retry the RA. At this time, in order to prevent an RA collision with the terminal of the group 2 (810), the terminal of the group 1 800 performs a backoff in which the terminal of the group 2 attempts the RA after the time of attempting the RA. To explain this in detail, reference is made to Equation (2).

&Quot; (2) "

Backoff time = offset time + RandomtimePeriod

Offset time = RandomTimePeriodWindow

Here, the offset time is the initial time, and the RandomtimePeriod indicates the time interval during which the UEs attempt the RA. In the communication method according to the present embodiment, the Offset time is set to RandomTimePeriodWindow, where RandomTimePeriodWindow represents the maximum time interval during which terminals belonging to other groups attempt RA. Therefore, the UEs belonging to group 1 perform RA retry after the maximum time interval for RA attempts of the UEs belonging to group 2, and the UEs belonging to group 2 belong to group 1 after the maximum time interval for RA attempts of UEs belonging to group 1 Try RA.

Referring to FIG. 8, when the UE of the first group 800 performs a RA retry after receiving the data (NO in 820), the UE performs an RA in step 835 and then attempts an RA in step 840. If the RA is successful (845 example), the RRC connection is established (850); otherwise (845 no) the backoff is attempted (860) and then the RA is attempted again (862).

On the other hand, in the case of the second group 810, the RRC connection is established (875) if the RA succeeds (870 example) after the data reception (865) (880) Retry the RA (890).

9 is a diagram illustrating a terminal 900 in an M2M communication supporting MBMS according to an embodiment of the present invention.

9, the terminal 900 includes a receiving unit 910, a transmitting unit 920, and a controlling unit 930.

The receiving unit 910 receives the data, and the transmitting unit 920 transmits the data.

The receiving unit 910 and the transmitting unit 920 include a general communication module for transmitting and receiving data through a wireless network. As described in FIGS. 2 to 8, the control unit 930 controls the operation of the terminal according to an exemplary embodiment of the present invention so as to perform transmission / reception procedures related to RAck transmission, transmission time determination, Rn generation, .

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

100: terminal group 110: base station
120: MGID transmission 130: MCCH monitoring
140: MBMS DATA TRANSFER PROCEDURE
150: ASSOCIATED DELIVERY PROCEDURE

Claims (20)

A method for transmitting and receiving data of a terminal in a wireless communication system,
Receiving, from the base station, an indicator indicating whether or not to perform random access and a probability value regarding a point of time when the random access is performed;
Generating a random number associated with the viewpoint;
Confirming whether or not the random access is performed based on the indicator and performing the random access at any one of a time point before reception of data from the base station or after data reception from the base station based on the probability value and the random number And transmitting the data to the terminal.
The method according to claim 1,
The receiving step
Receiving a paging message from the base station;
Confirming whether the terminal group information of the terminal is included in the paging message;
And receiving the indicator and the probability value from the base station according to whether the terminal group information is included. delete delete The method according to claim 1,
And if the random number is smaller than the probability value, performs the random access before receiving the data. The method according to claim 1,
And if the random number is greater than the probability value, performing the random access after receiving the data. The method according to claim 1,
Further comprising receiving a different probability value from the base station if the probability value indicates that the random access is not performed prior to receiving the data,
And if the random number is smaller than the other probability value, performs the random access after receiving the data. 8. The method of claim 7,
When the random number is larger than the other probability value, performs random access after performing random access by at least one terminal that generates a random number smaller than the other probability value among at least one terminal belonging to the same terminal group as the terminal And transmitting the data to the terminal. The method according to claim 1,
After performing random access by at least one terminal performing random access after receiving the data among at least one terminal belonging to the same terminal group as the terminal if the random access before the data reception fails, And transmitting the data to the terminal. The method according to claim 1,
And performing random access again after performing random access by at least one terminal that has failed to perform a random access before data reception among at least one terminal belonging to the same terminal group as the terminal in case of failure in random access after data reception And transmitting the data to the terminal. A data transmission / reception terminal in a wireless communication system,
A receiver for receiving data from a base station;
A transmitter for transmitting data to the base station;
An indicator for indicating whether or not to perform random access from the base station and a probability value regarding a point of time at which the random access is performed, generating a random number related to the point-in-time, And performing control to perform the random access at any one of a time point before reception of data from the base station or data reception from the base station based on the probability value and the random number. 12. The method of claim 11,
Wherein,
Wherein the control unit checks whether the terminal group information of the terminal is included in the paging message received by the receiving unit, and controls to receive the indicator and the probability value according to whether the terminal group information is included. delete delete 12. The method of claim 11,
Wherein,
And performs the random access before the data reception if the random number is smaller than the probability value. 12. The method of claim 11,
Wherein,
And controls to perform the random access after the data reception when the random number is larger than the probability value. 12. The method of claim 11,
Wherein,
And to receive another probability value from the base station if the probability value indicates that the random access is not performed before the data reception,
And performs the random access after the data reception when the random number is smaller than the other probability value. 18. The method of claim 17,
Wherein,
When the random number is larger than the other probability value, performs random access after performing random access by at least one terminal that generates a random number smaller than the other probability value among at least one terminal belonging to the same terminal group as the terminal And controlling the terminal. 12. The method of claim 11,
Wherein,
If at least one terminal that performs random access after receiving the data among the at least one terminal belonging to the same terminal group as the terminal fails to perform the random access, And controlling the terminal. 12. The method of claim 11,
Wherein,
When the random access after the data reception fails, the random access is re-performed after at least one terminal that has failed to perform the random access before the data reception among the at least one terminal belonging to the same terminal group as the terminal fails To the terminal.

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