JP7099432B2 - Terminal equipment, base station equipment and scheduling request method - Google Patents

Description

The present invention relates to a terminal device, a base station device, and a scheduling request method.

In today's networks, the traffic of mobile terminals (smartphones and feature phones) occupies most of the network resources. In addition, the traffic used by mobile terminals tends to continue to grow.

On the other hand, in line with the development of IoT (Internet of a things) services (for example, monitoring systems for transportation systems, smart meters, devices, etc.), it is required to support services with various requirements. Therefore, in the communication standard of the 5th generation mobile communication (5G or NR (New Radio)), in addition to the standard technique of 4G (4th generation mobile communication) (for example, Non-Patent Documents 1 to 11), the communication standard is further higher. There is a demand for technology that realizes higher data rates, larger capacities, and lower delays. Regarding the 5th generation communication standard, technical studies are underway by the working group of 3GPP (for example, TSG-RAN WG1, TSG-RAN WG2, etc.). (Non-Patent Documents 12 to 39). Currently, the first edition of the 5G standard specifications specified by 3GPP has been released.

As mentioned above, in order to support a wide variety of services, many uses classified into eMBB (Enhanced Mobile BroadBand), Massive MTC (Machine Type Communications) and URLLC (Ultra-Reliable and Low Latency Communication) in 5G. Case support is expected.

In wireless networks, wireless resources need to be allocated for terminals to transmit data. Therefore, the terminal device executes the scheduling request procedure for the connected base station device. When a PUCCH (Physical Uplink Control CHannel) resource is allocated for transmitting a scheduling request (SR), the terminal device transmits SR using the PUCCH resource. That is, PUCCH is used as the transmission channel of SR.

The base station device that has received the SR gives a UL grant (UL grant) for transmission of the uplink by the terminal device. When the terminal device receives the UL grant, the terminal device reports the amount of data accumulated in the data buffer to the base station device. This report is sometimes called BSR (Buffer Status Report). Upon receiving the BSR, the base station device grasps the amount of data accumulated in the data buffer of the terminal device, allocates an appropriate amount of uplink radio resources to the terminal device, and sends a UL grant notifying this radio resource to the terminal device. Send. As a result, the terminal device transmits the uplink data to the base station device using the notified radio resource. The above procedure may be referred to as SR PUCCH.

On the other hand, when the PUCCH resource is insufficient, the base station device may not allocate the PUCCH resource for SR to the terminal device. In this case, the terminal device needs to perform a random access (RA) procedure in order to transmit uplink data. In the RA procedure, four signals are transmitted and received between the terminal device and the base station device. Specifically, the following messages are sent and received.

Msg1 (from terminal device to base station device): Includes random access preamble. RACH (Random Access CHannel) is used as the channel.

Msg2 (from base station appliance to terminal appliance): Includes random access response. PDSCH (Physical Downlink Shared CHannel) is used as the channel. The information transmitted includes the identification information of the random access preamble in Msg1 received by the base station apparatus and the UL grant for the next message transmitted on the uplink.

Msg3 (from terminal device to base station device): PUSCH (Phisical Uplink Shared CHannel) is used as the channel. The radio resource for transmitting Msg3 is notified by UL Grant of Msg2. In addition, the identifier of the terminal device is transmitted by Msg3. As a result, the base station device that receives Msg3 can identify the terminal device that is performing the RA procedure.

Msg4 (from base station equipment to terminal equipment): Includes UL grant. The terminal device that receives this UL grant determines that the RA procedure has been successful.

If the RA procedure is successful, the terminal unit sends a BSR using the UL grant of Msg4 and allocates an appropriate amount of uplink radio resources as in the case of SR PUCCH. Receive from and send uplink data. The above procedure may be referred to as SR RACH.

Regarding the SR RACH cancellation procedure, the UL grant is assigned to the C-RNTI (Cell-Radio Network Temporary Identifier), and the MAC (Media Access Control) PDU (Protocol Data Unit) transmitted by the PUSCH is the terminal device. It is considered to cancel the above procedure when the BSR reflecting the latest buffer state (data retention state) of the above is included (Non-Patent Documents 21 and 39).

3GPP TS 36.211 V15.1.0 (2018-03) 3GPP TS 36.212 V15.1.0 (2018-03) 3GPP TS 36.213 V15.1.0 (2018-03) 3GPP TS 36.300 V15.1.0 (2018-03) 3GPP TS 36.321 V15.1.0 (2018-03) 3GPP TS 36.322 V15.0.1 (2018-04) 3GPP TS 36.323 V14.5.0 (2017-12) 3GPP TS 36.331 V15.1.0 (2018-03) 3GPP TS 36.413 V15.1.0 (2018-03) 3GPP TS 36.423 V15.1.0 (2018-03) 3GPP TS 36.425 V14.1.0 (2018-03) 3GPP TS 37.340 V15.1.0 (2018-03) 3GPP TS 38.201 V15.0.0 (2017-12) 3GPP TS 38.202 V15.1.0 (2018-03) 3GPP TS 38.211 V15.1.0 (2018-03) 3GPP TS 38.212 V15.1.1 (2018-04) 3GPP TS 38.213 V15.1.0 (2018-03) 3GPP TS 38.214 V15.1.0 (2018-03) 3GPP TS 38.215 V15.1.0 (2018-03) 3GPP TS 38.300 V15.1.0 (2018-03) 3GPP TS 38.321 V15.1.0 (2018-03) 3GPP TS 38.322 V15.1.0 (2018-03) 3GPP TS 38.323 V15.1.0 (2018-03) 3GPP TS 38.331 V15.1.0 (2018-03) 3GPP TS 38.401 V15.1.0 (2018-03) 3GPP TS 38.410 V0.9.0 (2018-04) 3GPP TS 38.413 V0.8.0 (2018-04) 3GPP TS 38.420 V0.8.0 (2018-04) 3GPP TS 38.423 V0.8.0 (2018-04) 3GPP TS 38.470 V15.1.0 (2018-03) 3GPP TS 38.473 V15.1.1 (2018-04) 3GPP TR 38.801 V14.0.0 (2017-04) 3GPP TR 38.802 V14.2.0 (2017-09) 3GPP TR 38.803 V14.2.0 (2017-09) 3GPP TR 38.804 V14.0.0 (2017-03) 3GPP TR 38.900 V14.3.1 (2017-07) 3GPP TR 38.912 V14.1.0 (2017-06) 3GPP TR 38.913 V14.3.0 (2017-06) R2-1804572, "Miscellaneous corrections", 3GPP TSG RAN WG2 Meeting # 101bis, Sanya, China, 16-20 April 2018

However, in the SR RACH cancellation procedure currently under consideration, there is a problem that it is unclear whether or not to cancel. Specifically, in scheduling where periodic radio resources are allocated, such as SPS (Semi-Persistent Scheduling) in LTE-A (Long Term Evolution-Advanced), the terminal device is UL grant from the base station device. It may be possible to send BSR without receiving. That is, the terminal device may transmit the BSR using the radio resource of the uplink allocated in advance. In such a case, the SR RACH is not canceled because the BSR is not transmitted using the UL grant. Therefore, even though the BSR has already been transmitted, the SR RACH procedure for transmitting the BSR is continued, and unnecessary processing occurs.

The technique disclosed is made in view of such a point, and an object of the present invention is to provide a terminal device, a base station device, and a scheduling request method capable of appropriately canceling a random access procedure.

The terminal device disclosed in the present application is, in one embodiment, a radio communication unit capable of transmitting a scheduling request regarding an uplink radio resource, and a UL grant other than the UL grant provided by a random access response in a random access procedure. It has a control unit capable of stopping the random access procedure when the MAC PDU is transmitted using the above.

According to one aspect of the terminal device, the base station device, and the scheduling request method disclosed in the present application, there is an effect that the random access procedure can be appropriately canceled.

FIG. 1 is a block diagram showing a configuration of a terminal device according to an embodiment. FIG. 2 is a block diagram showing a configuration of a base station device according to an embodiment. FIG. 3 is a sequence diagram showing a specific example of the scheduling request. FIG. 4 is a sequence diagram showing another specific example of the scheduling request. FIG. 5 is a diagram showing an example of description of the contents according to one embodiment in the standard specifications.

Hereinafter, an embodiment of the terminal device, the base station device, and the scheduling request method disclosed in the present application will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

FIG. 1 is a block diagram showing a configuration of a terminal device 100 according to an embodiment. The terminal device 100 shown in FIG. 1 has a processor 110, a memory 120, and a wireless communication unit 130.

The processor 110 includes, for example, a CPU (Central Processing Unit), an FPGA (Field Programmable Gate Array), a DSP (Digital Signal Processor), or the like, and controls the entire terminal device 100 in an integrated manner. Specifically, the processor 110 has a BSR (Buffer Status Report) generation unit 111, a UL (UpLink) transmission control unit 112, and a cancellation control unit 113.

The BSR generation unit 111 refers to the transmission buffer of the terminal device 100 when executing the scheduling request requesting the transmission of the uplink, and grasps the amount of data to be transmitted by the uplink. That is, the BSR generation unit 111 grasps the amount of data retention in the transmission buffer of the terminal device 100. Then, the BSR generation unit 111 generates a buffer state report (BSR) for reporting the amount of data retention.

The UL transmission control unit 112 controls transmission of an uplink (UpLink) from the terminal device 100 to the base station device. Specifically, the UL transmission control unit 112 determines whether or not the PUCCH radio resource for the scheduling request is allocated to the terminal device 100 in advance when executing the scheduling request requesting the transmission of the uplink. do. Then, when the radio resource of the PUCCH is allocated, the UL transmission control unit 112 causes the wireless communication unit 130 to transmit the scheduling request by using the radio resource of the allocated PUCCH. Further, for example, when a periodic radio resource is allocated to the terminal device 100 in advance, the UL transmission control unit 112 uses this radio resource to wirelessly transmit the scheduling request and the BSR generated by the BSR generation unit 111. It may be transmitted from the communication unit 130.

On the other hand, when the PUCCH radio resource is not allocated, the UL transmission control unit 112 executes a scheduling request according to a random access procedure and sends and receives various messages. Specifically, the UL transmission control unit 112 uses a RACH (Random Access CHannel) to transmit a random access preamble from the wireless communication unit 130. Then, when the UL transmission control unit 112 receives the random access response including the identification information of the random access preamble transmitted from the terminal device 100 and the UL grant, the UL transmission control unit 112 receives the PUSCH (Physical Uplink Shared CHannel) assigned by the UL grant. Is used to transmit the identification information of the terminal device 100 from the wireless communication unit 130. After that, when the UL grant indicating that the random access procedure is successful is received, the UL transmission control unit 112 causes the wireless communication unit 130 to transmit the BSR generated by the BSR generation unit 111.

The UL transmission control unit 112 notifies the cancellation control unit 113 of the messages transmitted and received in the random access procedure. Then, when the cancellation control unit 113 instructs to cancel the random access procedure, the running random access procedure is canceled.

The cancellation control unit 113 determines whether or not to cancel the random access procedure executed at the time of the scheduling request, based on the content of the message sent / received in the random access procedure and the allocation status of the radio resource to the terminal device 100. Specifically, the cancellation control unit 113 cancels the running random access procedure when the BSR is transmitted using the radio resource pre-allocated to the terminal device 100 during the execution of the random access procedure. .. That is, in the cancellation control unit 113, for example, when a periodic radio resource is assigned to the terminal device 100 and a BSR is transmitted using this radio resource, the random access procedure is performed even if the UL grant is not received. To cancel.

Further, the cancellation control unit 113 determines that the random access procedure is continued without being canceled when the BSR is transmitted in response to the UL grant included in the random access response, for example, during the execution of the random access procedure. That is, when the BSR is transmitted together with the identification information of the terminal device 100 according to the UL grant received in the middle of the random access procedure, the cancellation control unit 113 continues the random access procedure and the last UL grant. Complete the reception of.

The memory 120 includes, for example, a RAM (Random Access Memory) or a ROM (Read Only Memory), and stores information used by the processor 110 to execute processing.

The wireless communication unit 130 performs wireless transmission processing such as D / A (Digital / Analog) conversion and up-conversion on the transmission data generated by the processor 110, and wirelessly transmits the transmission data via the antenna. Further, the wireless communication unit 130 performs wireless reception processing such as down-conversion and A / D (Analog / Digital) conversion on the received data wirelessly received via the antenna, and outputs the received data to the processor 110.

FIG. 2 is a block diagram showing the configuration of the base station apparatus 200 according to the embodiment. The base station apparatus 200 shown in FIG. 2 has a wireless communication unit 210, a processor 220, a memory 230, and a network IF (Interface) unit 240.

The wireless communication unit 210 performs wireless reception processing such as down-conversion and A / D conversion on the received data wirelessly received via the antenna, and outputs the received data to the processor 220. Further, the wireless communication unit 210 performs wireless transmission processing such as D / A conversion and up-conversion on the transmission data generated by the processor 220, and wirelessly transmits the transmission data via the antenna.

The processor 220 includes, for example, a CPU, FPGA, DSP, or the like, and controls the entire base station apparatus 200 in an integrated manner. Specifically, the processor 220 has a scheduling unit 221, an RA (Random Access) processing unit 222, and a cancellation control unit 223.

The scheduling unit 221 executes scheduling for allocating uplink radio resources to the terminal device 100 when a scheduling request is transmitted from the terminal device 100. Specifically, the scheduling unit 221 acquires the BSR transmitted from the terminal device 100, and determines the radio resource for transmitting the data retained in the transmission buffer of the terminal device 100.

The RA processing unit 222 executes random access processing for transmitting and receiving various messages when the scheduling request by the terminal device 100 is executed by the random access procedure. Specifically, when the random access preamble is received, the RA processing unit 222 adds identification information to the random access preamble, and the UL grant indicating the identification information and the radio resource for transmitting the message of the next uplink. A random access response including and is transmitted from the wireless communication unit 210. Then, when the identification information of the terminal device 100 is received, the RA processing unit 222 causes the wireless communication unit 210 to transmit a UL grant indicating the radio resource allocated to the terminal device 100 by the scheduling unit 221.

The cancellation control unit 223 determines whether or not to cancel the random access procedure executed at the time of the scheduling request, based on the content of the message sent and received in the random access procedure and the allocation status of the radio resource to the terminal device 100. Specifically, the cancellation control unit 223 is executing the random access process by the RA processing unit 222 when the BSR is received by the radio resource pre-allocated to the terminal device 100 during the execution of the random access procedure. To cancel. That is, the cancellation control unit 223 cancels the random access process regardless of whether the UL grant is transmitted or not, for example, when a periodic radio resource is assigned to the terminal device 100 and the BSR is received by this radio resource. Let me.

Further, the cancellation control unit 223 determines that, for example, when the BSR is received according to the UL grant included in the random access response during the execution of the random access procedure, the random access procedure is continued without being canceled. That is, the cancellation control unit 223 continues the random access procedure when the BSR is received together with the identification information of the terminal device 100 according to the UL grant received in the middle of the random access procedure, and the last UL grant. Complete the transmission.

The memory 230 includes, for example, RAM or ROM, and stores information used by the processor 220 to execute processing.

The network IF unit 240 is, for example, an interface connected by wire to a device constituting the core network.

Next, a specific example of the scheduling request in the wireless communication system having the terminal device 100 and the base station device 200 configured as described above will be described with reference to FIGS. 3 and 4. FIG. 3 is a sequence diagram showing a specific example of a scheduling request executed by a random access procedure.

In the wireless communication system shown in FIG. 3, before the scheduling request is executed, the base station apparatus 200 allocates periodic wireless resources to the terminal apparatus 100 in advance, and the terminal apparatus 100 can be used for uplink transmission. The wireless resource is notified to the terminal device 100 (step S101). Therefore, the terminal device 100 can execute the transmission of the uplink by using the periodic radio resource allocated in advance even if the explicit UL grant is not received. However, since the periodic radio resources allocated in advance are limited, the terminal device 100 receives a scheduling request using PUCCH or RACH when data to be transmitted is generated by using the uplink. Requests uplink scheduling to the base station apparatus 200. Here, it is assumed that the scheduling request is executed by the random access procedure using RACH, and the description will be continued.

In the random access procedure, the terminal device 100 transmits a random access preamble to the base station device 200 (step S102). Upon receiving the random access preamble, the base station apparatus 200 imparts identification information to the random access preamble, and the random access response including the identification information and a UL grant indicating a radio resource available for transmission of the next uplink. Is transmitted to the terminal device 100 (step S103).

By the way, when the transmission timing of the periodic radio resource allocated to the terminal device 100 in advance arrives while the random access procedure is being executed, the terminal device 100 periodically starts transmission of the uplink at an early stage. BSR may be transmitted using a typical radio resource (step S104). This BSR transmission does not correspond to the UL grant included in the random access response, and may occur even before the random access response is received by the terminal device 100. That is, the terminal device 100 may transmit the BSR at an early stage by using the radio resource allocated in advance regardless of whether the UL grant is received or not.

When the BSR is transmitted, the cancellation control unit 113 of the terminal device 100 determines whether or not to cancel the random access procedure (step S105). Similarly, the cancellation control unit 223 of the base station apparatus 200 also determines whether or not to cancel the random access processing by the RA processing unit 222 (step S105). In the cancellation determination here, the random access procedure is canceled when the BSR is transmitted according to the UL grant or when the BSR is transmitted using the periodic radio resource allocated to the terminal device 100 in advance. Is determined. That is, the random access procedure is canceled not only when the BSR is transmitted according to the UL grant, but also when the BSR is transmitted by the pre-allocated radio resource regardless of the presence or absence of the UL grant.

After the random access procedure is canceled, the UL transmission control unit 112 stops transmitting and receiving the random access procedure message in the terminal device 100, and the base station device 200 stops the transmission / reception of the random access procedure message by the RA processing unit 222. Sending and receiving is stopped. As a result, it is possible to prevent the random access procedure from being unnecessarily continued after the BSR is transmitted from the terminal device 100 and the scheduling by the base station device 200 becomes executable. In other words, the random access procedure can be canceled appropriately.

FIG. 4 is a sequence diagram showing another specific example of the scheduling request executed by the random access procedure. In FIG. 4, the same parts as those in FIG. 3 are designated by the same reference numerals.

In the wireless communication system shown in FIG. 4, unlike FIG. 3, periodic wireless resources are not allocated to the terminal device 100 in advance. Therefore, when the data to be transmitted by using the uplink is generated, the terminal device 100 requests the base station apparatus 200 to schedule the uplink by a scheduling request using PUCCH or RACH. Here, it is assumed that the scheduling request is executed by the random access procedure using RACH, and the description will be continued.

In the random access procedure, the terminal device 100 transmits a random access preamble to the base station device 200 (step S102). Upon receiving the random access preamble, the base station apparatus 200 imparts identification information to the random access preamble, and the random access response including the identification information and a UL grant indicating a radio resource available for transmission of the next uplink. Is transmitted to the terminal device 100 (step S103).

Upon receiving the random access response, the terminal device 100 transmits the identification information of the terminal device 100 to the base station device 200 according to the UL grant included in the random access response (step S201). At this time, the terminal device 100 may transmit the BSR together with the identification information of the terminal device 100 in order to start the transmission of the uplink at an early stage.

When the BSR is transmitted, the cancellation control unit 113 of the terminal device 100 determines whether or not to cancel the random access procedure (step S105). Similarly, the cancellation control unit 223 of the base station apparatus 200 also determines whether or not to cancel the random access processing by the RA processing unit 222 (step S105). In the cancellation determination here, when the BSR is transmitted according to the UL grant, it is determined to cancel the random access procedure, but when the BSR is transmitted according to the UL grant included in the random access response. Is determined to continue without canceling the random access procedure. That is, the random access procedure is canceled except when the BSR is transmitted according to the UL grant and the BSR is transmitted according to the UL grant included in the random access response.

When the BSR is transmitted according to the UL grant included in the random access response, the random access procedure is continued, so that the base station apparatus 200 transmits the UL grant that allows the terminal apparatus 100 to transmit the uplink. (Step S202), the random access procedure is completed. Since the UL grant transmitted here specifies a radio resource that can be used by the terminal device 100 for uplink transmission, the terminal device 100 may start transmission of data accumulated in the transmission buffer at an early stage. can. Further, after the random access procedure is completed, the base station apparatus 200 executes scheduling according to the BSR, and the UL grant is transmitted to the terminal apparatus 100.

As described above, according to the present embodiment, when the scheduling request is executed by the random access procedure, the buffer status report is transmitted according to the UL grant other than the random access response, and the UL grant. Cancel the random access procedure if a buffer status report is sent by a pre-allocated periodic radio resource, with or without it. Therefore, when the buffer status report used for uplink scheduling is transmitted regardless of the presence or absence of UL grant, it is possible to prevent the random access procedure for transmitting the buffer status report from being unnecessarily executed. can do. In other words, the random access procedure can be canceled appropriately.

Further, when the buffer status report is transmitted according to the UL grant included in the random access response, the random access procedure is continued without being canceled. Therefore, the UL grant transmitted according to the random access procedure is excluded from the condition for canceling the random access procedure, and it is possible to prevent the cancellation of the excessive random access procedure.

It should be noted that the cancellation of the random access procedure may be paraphrased as, for example, stopping the pending scheduling request. Also, the cancellation of the random access procedure is performed, for example, by the MAC entity. Specifically, the MAC PDU is transmitted using a UL grant (eg, a second UL grant) other than the UL grant (eg, the first UL grant) provided (or will be provided) by the random access process. If the MAC entity is a random access procedure initiated by the MAC entity prior to configuring the MAC PDU and has no valid PUCCH resources configured, it is an ongoing random access for a pending scheduling request. You can stop the procedure.

Further, as for the content according to the above embodiment, for example, the item of the scheduling request described in Non-Patent Document 21 (TS38.321) can be updated as shown in FIG. 5, for example.

Further, the cancellation (stop) of the random access procedure may be performed in any state of the random access procedure. For example, the cancellation of the random access procedure may be executed depending on whether or not the random access response is transmitted from the base station device 200 to the terminal device 100. Specifically, when the random access response is sent, the random access procedure is continued (not canceled), and when the random access response is not sent, the random access procedure is canceled. Further, when the terminal device 100 does not receive the random access response (when it does not receive the random access response for a predetermined time or when it receives another random access response), the terminal device 100 performs the process assuming that the random access procedure has been cancelled.

110, 220 Processor 111 BSR generation unit 112 UL transmission control unit 113, 223 Cancel control unit 120, 230 Memory 130, 210 Wireless communication unit 221 Scheduling unit 222 RA processing unit 240 Network IF unit

Claims (20)

A wireless communication unit that can send scheduling requests for uplink wireless resources,
Having a control unit capable of stopping the random access procedure when a buffer status report is transmitted using a UL grant other than the UL (UpLink) grant provided by the random access response in the random access procedure. A terminal device characterized by. The terminal device according to claim 1, wherein the random access procedure includes transmission of a random access preamble and reception of the random access response. The terminal device according to claim 1, wherein the buffer state report is transmitted using a radio resource indicated by a UL grant other than the UL grant provided by the random access response . The random access procedure continues when a buffer status report is transmitted using the radio resources provided by the random access procedure, or a UL grant other than the UL grant provided by the random access response. The terminal device according to claim 1, wherein the terminal device is stopped when a buffer status report is transmitted by using the terminal device. The terminal device according to claim 1, wherein the buffer state report is included in the MAC PDU and transmitted . The terminal device according to claim 1, wherein the transmission of the buffer status report is executed in the random access procedure. The terminal device according to claim 1, wherein the random access response corresponds to a random access preamble. Stopping the running random access procedure includes stopping the reception of the UL grant in the random access procedure after sending a buffer status report using a UL grant other than the UL grant provided by the random access response. The terminal device according to claim 1. The terminal device according to claim 1, wherein the control unit stops all operations being executed in the random access procedure. A wireless communication unit capable of transmitting a UL (UpLink) grant or transmitting a random access response in a random access procedure,
It has a receiving unit capable of receiving a buffer status report transmitted using the UL grant or a buffer status report transmitted using the UL grant provided by the random access response.
The base station apparatus, wherein the random access procedure is stopped when a buffer status report is transmitted using a UL grant other than the UL grant provided by the random access response in the random access procedure. 10. The base station apparatus according to claim 10, wherein the random access procedure continues when the receiving unit receives a buffer status report transmitted using the UL grant provided by the random access response. The base station apparatus according to claim 10, wherein the random access procedure includes receiving a random access preamble and transmitting the random access response. The base station apparatus according to claim 10, wherein the buffer state report is received by a radio resource indicated by a UL grant other than the UL grant provided by the random access response . The random access procedure continues when a buffer status report is received in the radio resource provided by the random access procedure, or is a radio resource indicated by a UL grant other than the UL grant provided by the random access response. 10. The base station apparatus according to claim 10, wherein the base station apparatus is stopped when a buffer status report is received. The base station apparatus according to claim 10, wherein the buffer state report is included in the MAC PDU . The base station apparatus according to claim 10, wherein the reception of the buffer state report is executed in the random access procedure. The base station apparatus according to claim 10, wherein the random access response corresponds to a random access preamble. Stopping the running random access procedure includes stopping the transmission of the UL grant in the random access procedure after receiving a MAC PDU using a UL grant other than the UL grant provided by the random access response. The base station apparatus according to claim 10. Sends a scheduling request for uplink radio resources and
A scheduling request method comprising stopping the random access procedure when a buffer status report is transmitted using a UL grant other than the UL (UpLink) grant provided by the random access response in the random access procedure. Send a UL (UpLink) grant, or send a random access response in a random access procedure,
Upon receiving either the buffer status report transmitted using the UL grant or the buffer status report transmitted using the UL grant provided by the random access response,
The random access procedure is a scheduling request method comprising stopping when a buffer status report is transmitted using a UL grant other than the UL grant provided by the random access response .

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