JP5953106B2 - Mobile station and radio base station - Google Patents

Description

  The present invention relates to a mobile station and a radio base station.

  As shown in FIG. 6, the radio base station eNB and the mobile station UE corresponding to the LTE (Long Term Evolution) scheme include a PHY (physical) layer, a MAC (Media Access Control) layer, and an RLC (Radio Link Control) layer. And a PDCP (Packet Data Convergence Protocol) layer and an RRC (Radio Resource Control) layer.

  The PDCP layer is configured to perform concealment processing, falsification detection processing, and header compression processing.

  Here, the COUNT value is used in the concealment process and the falsification detection process. As shown in FIG. 7, the COUNT value is composed of HFN (Hyper Frame Number) and PDCP-SN (Sequence Number).

  The PDCP-SN is configured with 12 bits or 7 bits, and is configured to be incremented every time a packet is transmitted to the RLC by the PDCP layer.

  The HFN is composed of 20 bits or 25 bits, and is configured to be incremented every time the PDCP-SN circulates.

  If the COUNT values are not synchronized between the PDCP layer on the transmission side and the PDCP layer on the reception side, the decryption process cannot be performed correctly in the PDCP layer on the reception side.

  Specifically, the PDCP layer on the transmitting side performs concealment processing (header compression processing and tamper detection processing) on the packet (PDCP-SDU) received from the RRC layer using the COUNT value, and PDCP is applied to the header. By adding -SN, it is configured to transmit to the RLC layer as PDCP-PDU.

  On the other hand, the PDCP layer on the receiving side manages the reception window. As shown in FIG. 8, the PDCP-SN assigned to the received packet (PDCP-PDU) is a PDCP-SN outside the reception window. For example, the packet is discarded.

  If the PDCP-SN assigned to the received packet (PDCP-PDU) is the PDCP-SN within the reception window, the PDCP layer on the receiving side performs the packet deciphering process from the current reception state. An HFN to be used is estimated, and a packet (PDCP-SDU) obtained by performing a concealment process on the packet using the estimated HFN is transmitted to an upper layer, and a reception window is updated. Has been.

  In the LTE system, there are three types of modes in the RLC layer: AM (Acknowledged Mode), UM (Unknownledged Mode), and TM (Transport Mode). Hereinafter, the RLC layer operating in the UM is referred to as an RLC-UM layer.

  The RLC-UM layer on the transmission side is configured to sequentially add an SN (Sequence Number) to a packet to be transmitted (RLC-SDU) and transmit the packet to the MAC layer.

  In order to maintain the real-time property, the RLC-UM layer on the transmission side is configured not to perform retransmission control without being aware of the reception status in the RLC-UM layer on the reception side.

  On the other hand, the RLC-UM layer on the receiving side manages the reception window, and is configured to observe the SN assigned to the received packet and update the reception window as shown in FIG. Yes.

  Further, as shown in FIG. 9, even if a large amount of packets transmitted by the RLC-UM layer on the transmission side are lost, the RLC-UM layer on the reception side does not follow the lost packet. Is received, the reception window is updated.

3GPP TS36.322 3GPP TS36.323

  However, in the conventional LTE scheme, when a large amount of packets transmitted by the RLC-UM layer on the transmission side are lost, the transmission between the RLC-UM layer on the transmission side and the RLC-UM layer on the reception side There was a problem in that “HFN missmatch” occurred and the RLC-UM layer on the receiving side could not normally perform the decryption process.

  Specifically, as shown in FIG. 10, the RLC-UM layer on the transmission side does not transmit a new packet even if a large amount of transmission packets are lost. Configured to continue.

  In this case, as shown in FIG. 10, the HFN used in the RLC-UM layer on the transmission side is incremented, while the HFN used in the RLC-UM layer on the reception side is not incremented.

  Therefore, the RLC-UM layer on the receiving side is incremented even though the RLC-UM layer on the transmitting side transmits a packet that has been concealed using the incremented HFN (= 1). There is a problem in that normal packets cannot be extracted because the deciphering process is performed using no HFN (= 0).

  Therefore, the present invention has been made in view of the above-described problems, and provides a mobile station and a radio base station that can suppress the occurrence of “HFN mismatch” due to the loss of a large amount of transmission packets. For the purpose.

  A first feature of the present invention is a mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a radio base station, Based on the number of ACKs for the transmission packet detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets, whether or not a predetermined amount of loss has occurred for the transmission packet is determined. And a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. To do.

  A second feature of the present invention is a mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a radio base station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer And a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A third feature of the present invention is a mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a radio base station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of the transmission packet per unit time at which ACK is received in the MAC layer And a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A fourth feature of the present invention is a mobile station that has a MAC layer, an RLC-UM layer, and a PDCP layer, and is configured to transmit a transmission packet to a radio base station. A determination unit configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on an out-of-sync duration in the link or an out-of-sync detection time in the uplink per unit time; and And a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A fifth feature of the present invention is a mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a radio base station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or ratio of ROHC control feedback packets in the PDCP layer; and a predetermined amount in the transmission packet And a control unit configured to execute a reconnection procedure when it is determined that the loss of data has occurred.

  A sixth feature of the present invention is a radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a mobile station, Based on the number of ACKs for the transmission packet detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets, whether or not a predetermined amount of loss has occurred for the transmission packet is determined. A configured determination unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet; The gist is to include a control unit.

  A seventh feature of the present invention is a radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a mobile station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. This is the gist.

  An eighth feature of the present invention is a radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a mobile station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of the transmission packet per unit time at which ACK is received in the MAC layer And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. This is the gist.

  A ninth feature of the present invention is a radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a mobile station, Based on the out-of-sync duration in the link or the out-of-sync detection time in the uplink per unit time (or the number of detections), it is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet. And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. It is a summary to comprise.

  A tenth feature of the present invention is a radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, and configured to transmit a transmission packet to a mobile station, A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or ratio of ROHC control feedback packets in the PDCP layer; and a predetermined amount in the transmission packet And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a loss has occurred.

  As described above, according to the present invention, it is possible to provide a mobile station and a radio base station that can suppress the occurrence of “HFN mismatch” due to the occurrence of loss of a large number of transmission packets.

1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention. FIG. 3 is a functional block diagram of a mobile station according to the first embodiment of the present invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 1st Embodiment of this invention. It is a functional block diagram of the radio base station which concerns on the 2nd Embodiment of this invention. It is a figure for demonstrating operation | movement of the mobile communication system which concerns on the 2nd Embodiment of this invention. It is a figure for demonstrating the conventional mobile communication system. It is a figure for demonstrating the conventional mobile communication system. It is a figure for demonstrating the conventional mobile communication system. It is a figure for demonstrating the conventional mobile communication system. It is a figure for demonstrating the conventional mobile communication system.

(Mobile communication system according to the first embodiment of the present invention)
With reference to FIG. 1 thru | or FIG. 3, the mobile communication system which concerns on the 1st Embodiment of this invention is demonstrated.

  As illustrated in FIG. 1, the mobile communication system according to the present embodiment includes a radio base station eNB and a mobile station UE. The radio base station eNB and the mobile station UE include a PHY (physical) layer and a MAC layer. And an RLC-UM layer, a PDCP layer, and an RRC layer.

  In the present embodiment, a case where an LTE mobile communication system is used will be described as an example. However, the present invention is not limited to such a case, and a mobile communication system using another communication method is used. It is also applicable to cases where

  As illustrated in FIG. 2, the mobile station UE according to the present embodiment includes a determination unit 11 and a control unit 12.

  The determination unit 11 is configured to determine whether or not a predetermined amount of loss has occurred in a packet (hereinafter referred to as a transmission packet) transmitted from the mobile station UE to the radio base station eNB.

  For example, the determination unit 11 generates a predetermined amount of loss for a transmission packet based on the number of ACKs for transmission packets detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets (MAC-ACK reception ratio). It may be configured to determine whether or not.

  That is, in the RLC-UM layer and the PDCP layer of the mobile station UE, there is no feedback information for transmission packets from the RLC-UM layer and the PDCP layer of the radio base station eNB, but in the MAC layer of the mobile station UE, the radio base station eNB Since there is feedback information (ACK / NACK / retransmission instruction) from the MAC layer, the determination unit 11 may count the number of transmission packets lost without reaching the radio base station eNB based on the feedback information. it can.

  For example, when the determination unit 11 detects that the number of ACKs or the MAC-ACK reception ratio for the transmission packet detected in the MAC layer is below a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine.

  In the example of FIG. 3, since the mobile station UE has received only two ACKs (ACKs for the transmission packets # 1 / # 3) even though the transmission packets # 1 to # 8 have been transmitted, the determination unit 11 may be configured to detect that the MAC-ACK reception ratio is below a predetermined threshold and determine that a predetermined amount of loss has occurred in the transmission packet.

  Alternatively, the determination unit 11 is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer. May be.

  For example, when the determination unit 11 detects that the number of NACKs or the number of DTXs for a transmission packet detected in the MAC layer exceeds a predetermined threshold value, the determination unit 11 determines that a predetermined amount of loss has occurred in the transmission packet. It may be configured to.

  Alternatively, the determination unit 11 is configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of transmission packets per unit time when ACK is received in the MAC layer. May be.

  For example, when the determination unit 11 detects that the number of packets or data amount per unit time when ACK is received in the MAC layer is below a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine.

  Alternatively, the determination unit 11 is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the uplink de-synchronization duration or the uplink de-synchronization detection time per unit time. May be.

  For example, when the determination unit 11 detects that the out-of-synchronization duration in the uplink or the out-of-synchronization detection time in the unit time per unit time exceeds a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine that it is present.

  Alternatively, the determination unit 11 is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number or ratio of feedback packets for ROHC (Robust Header Compression) control in the PDCP layer. May be.

  Here, the feedback packet of the ROHC control is a packet to be fed back to the PDCP layer of the mobile station UE when the PDCP layer of the radio base station eNB fails to expand the header in the transmission packet.

  For example, when the number of ROHC control feedback packets in the PDCP layer exceeds a predetermined threshold, the determination unit 11 or the ratio of the number of ROHC control feedback packets in the PDCP layer to the number of transmission packets (ROHC control feedback packets) The ratio may be determined that a predetermined amount of erasure has occurred in the transmission packet when the ratio exceeds a predetermined threshold.

  The control unit 12 is configured to execute the reconnection procedure when the determination unit 11 determines that a predetermined amount of loss has occurred in the transmission packet.

  According to the invention according to the present embodiment, when the mobile station UE determines that a predetermined amount of loss has occurred in the transmission packet, it refreshes the PDCP layer by executing the reconnection procedure, and the HFN and Since the PDCP-SN can be reset, it is possible to avoid the occurrence of “HFN missmatch” due to a predetermined amount of loss for the transmission packet.

(Second Embodiment)
Hereinafter, the mobile communication system according to the second embodiment of the present invention will be described with reference to FIG. 4 and FIG. 5 while focusing on the differences from the mobile communication system according to the first embodiment described above.

  As illustrated in FIG. 4, the radio base station eNB according to the present embodiment includes a determination unit 21 and a control unit 22.

  The determination unit 21 is configured to determine whether or not a predetermined amount of loss has occurred in a packet (hereinafter referred to as a transmission packet) transmitted from the radio base station eNB to the mobile station UE.

  For example, the determination unit 21 generates a predetermined amount of loss for a transmission packet based on the number of ACKs for transmission packets detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets (MAC-ACK reception ratio). It may be configured to determine whether or not.

  That is, in the RLC-UM layer and the PDCP layer of the radio base station eNB, there is no feedback information for transmission packets from the RLC-UM layer and the PDCP layer of the mobile station UE, but in the MAC layer of the radio base station eNB, the mobile station UE Since there is feedback information (ACK / NACK / retransmission instruction) from the MAC layer, the determination unit 21 can count the number of transmission packets lost without reaching the mobile station UE based on the feedback information. .

  For example, when the determination unit 21 detects that the number of ACKs for the transmission packet detected in the MAC layer or the MAC-ACK reception ratio is below a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine.

  In the example of FIG. 5, the radio base station eNB receives only two ACKs (ACKs for the transmission packets # 1 / # 3) even though the transmission packets # 1 to # 8 are transmitted. The unit 21 may be configured to detect that the MAC-ACK reception ratio is below a predetermined threshold and determine that a predetermined amount of loss has occurred in the transmission packet.

  Alternatively, the determination unit 21 is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer. May be.

  For example, when the determination unit 21 detects that the number of NACKs or the number of DTXs for transmission packets detected in the MAC layer exceeds a predetermined threshold value, the determination unit 21 determines that a predetermined amount of loss has occurred for the transmission packets. It may be configured to.

  Alternatively, the determination unit 21 is configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of transmission packets per unit time when ACK is received in the MAC layer. May be.

  For example, when the determination unit 21 detects that the number of packets or data amount per unit time when an ACK is received in the MAC layer is below a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine.

  Alternatively, the determination unit 21 is configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the uplink de-synchronization duration or the uplink de-synchronization detection time per unit time. May be.

  For example, when the determination unit 21 detects that the out-of-synchronization duration in the uplink or the out-of-synchronization detection time in the unit time per unit time exceeds a predetermined threshold, a predetermined amount of loss has occurred in the transmission packet. It may be configured to determine that it is present.

  Alternatively, the determination unit 21 may be configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number or ratio of ROHC control feedback packets in the PDCP layer.

  Here, the ROHC control feedback packet is a packet to be fed back to the PDCP layer of the radio base station eNB when the PDCP layer of the mobile station UE fails to expand the header in the transmission packet.

  For example, when the number of ROHC control feedback packets in the PDCP layer exceeds a predetermined threshold, the determination unit 21, or the ratio of the number of ROHC control feedback packets in the PDCP layer to the number of transmission packets (ROHC control feedback packets) The ratio may be determined that a predetermined amount of erasure has occurred in the transmission packet when the ratio exceeds a predetermined threshold.

  The control unit 22 is configured to instruct the mobile station UE to perform an intra-cell handover when it is determined by the determination unit 21 that a predetermined amount of transmission packet has been lost. Yes.

  Here, when Intra-cell handover is performed, “Layer-2 Re-establishment” is performed, that is, the PDCP layer and the like are refreshed.

  According to the mobile communication system according to the present embodiment, when the radio base station eNB determines that a predetermined amount of loss has occurred in the transmission packet, by causing the mobile station UE to perform an Intra-cell handover, Since the PDCP layer can be refreshed and the HFN and PDCP-SN can be reset, it is possible to avoid the occurrence of “HFN missmatch” due to a predetermined amount of loss for the transmitted packet.

  The characteristics of the present embodiment described above may be expressed as follows.

  The first feature of the present embodiment is a mobile station UE that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the radio base station eNB. Whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of ACKs to transmission packets detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets (MAC-ACK reception ratio) A determination unit 11 configured to determine a reconnection procedure when it is determined that a predetermined amount of erasure has occurred in a transmission packet, and a control unit 12 configured to execute a reconnection procedure The gist is to provide.

  The second feature of the present embodiment is a mobile station UE that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the radio base station eNB. And a determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer. 11 and a control unit 12 configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A third feature of the present embodiment is a mobile station UE that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the radio base station eNB. And a determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of transmission packets per unit time at which an ACK is received in the MAC layer 11 and a control unit 12 configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A fourth feature of the present embodiment is a mobile station UE that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the radio base station eNB. And a determination unit configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the out-of-synchronization duration in the uplink or the out-of-synchronization detection time in the uplink per unit time. 11 and a control unit 12 configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet.

  A fifth feature of the present embodiment is a mobile station UE that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the radio base station eNB. A determination unit 11 configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet, based on the number or ratio of ROHC control feedback packets in the PDCP layer; The gist is to include a control unit 12 configured to execute the reconnection procedure when it is determined that the disappearance of the fixed amount has occurred.

  A sixth feature of the present embodiment is a radio base station eNB that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the mobile station UE. Whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of ACKs to transmission packets detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets (MAC-ACK reception ratio) Intra-cell handover (intra-cell handover) is performed on the mobile station UE when it is determined that a predetermined amount of erasure has occurred in the transmission packet. The gist is to include a control unit 21 configured to instruct to perform the operation.

  The seventh feature of the present embodiment is a radio base station eNB that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the mobile station UE. And a determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTXs for the transmission packets continuously detected in the MAC layer. 21 and a control unit 21 configured to instruct the mobile station UE to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. The gist is to provide.

  The eighth feature of this embodiment is a radio base station eNB that has a MAC layer, an RLC-UM layer, and a PDCP layer, and is configured to transmit a transmission packet to the mobile station UE. And a determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number or data amount of transmission packets per unit time at which an ACK is received in the MAC layer 21 and a control unit 22 configured to instruct the mobile station UE to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. The gist is to provide.

  The ninth feature of the present embodiment is a radio base station eNB that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the mobile station UE. Thus, based on the uplink out-of-synchronization duration or the uplink out-of-synchronization detection time (or number of detections) per unit time, it is determined whether or not a predetermined amount of loss has occurred in the transmission packet. The configured determination unit 21 is configured to instruct the mobile station UE to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. And a control unit 22 provided.

  A tenth feature of the present embodiment is a radio base station eNB that has a MAC layer, an RLC-UM layer, and a PDCP layer and is configured to transmit a transmission packet to the mobile station UE. A determination unit 21 configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet, based on the number or ratio of ROHC control feedback packets in the PDCP layer; The gist is to include a control unit 22 configured to instruct the mobile station UE to perform an intra-cell handover when it is determined that a fixed amount of loss has occurred. .

  The operations of the mobile station UE and the radio base station eNB described above may be implemented by hardware, may be implemented by a software module executed by a processor, or may be implemented by a combination of both. .

  The software module includes a RAM (Random Access Memory), a flash memory, a ROM (Read Only Memory), an EPROM (Erasable Programmable ROM), an EEPROM (Electronically Erasable and Programmable ROM, a hard disk, a registerable ROM, a hard disk). Alternatively, it may be provided in a storage medium of an arbitrary format such as a CD-ROM.

  Such a storage medium is connected to the processor so that the processor can read and write information from and to the storage medium. Further, such a storage medium may be integrated in the processor. Such a storage medium and processor may be provided in the ASIC. Such an ASIC may be provided in the mobile station UE or the radio base station eNB. Further, the storage medium and the processor may be provided as a discrete component in the mobile station UE or the radio base station eNB.

  Although the present invention has been described in detail using the above-described embodiments, it is obvious to those skilled in the art that the present invention is not limited to the embodiments described in this specification. The present invention can be implemented as modified and changed modes without departing from the spirit and scope of the present invention defined by the description of the scope of claims. Therefore, the description of the present specification is for illustrative purposes and does not have any limiting meaning to the present invention.

UE ... mobile station eNB ... radio base station 11, 21 ... determination unit 12, 22 ... control unit

Claims (10)

A mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer and configured to transmit a transmission packet to a radio base station,
Based on the number of ACKs for the transmission packet detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets, whether or not a predetermined amount of loss has occurred in the transmission packet is determined. A determination unit configured in
A mobile station, comprising: a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. A mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer and configured to transmit a transmission packet to a radio base station,
A determination configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTX for the transmission packet continuously detected in the MAC layer And
A mobile station, comprising: a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. A mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer and configured to transmit a transmission packet to a radio base station,
A determination configured to determine whether a predetermined amount of loss has occurred for the transmission packet based on the number or data amount of the transmission packet per unit time at which an ACK is received in the MAC layer And
A mobile station, comprising: a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. A mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer and configured to transmit a transmission packet to a radio base station,
A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet, based on a loss of synchronization detection time in the uplink per unit time; and
A mobile station, comprising: a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. A mobile station having a MAC layer, an RLC-UM layer, and a PDCP layer and configured to transmit a transmission packet to a radio base station,
A determination unit configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number or ratio of ROHC control feedback packets in the PDCP layer;
A mobile station, comprising: a control unit configured to execute a reconnection procedure when it is determined that a predetermined amount of loss has occurred in the transmission packet. A radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, configured to transmit a transmission packet to a mobile station,
Based on the number of ACKs for the transmission packet detected in the MAC layer or the ratio of the number of ACKs to the number of transmission packets, whether or not a predetermined amount of loss has occurred in the transmission packet is determined. A determination unit configured in
And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. A featured radio base station. A radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, configured to transmit a transmission packet to a mobile station,
A determination configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet based on the number of NACKs or the number of DTX for the transmission packet continuously detected in the MAC layer And
And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. A featured radio base station. A radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, configured to transmit a transmission packet to a mobile station,
A determination configured to determine whether a predetermined amount of loss has occurred for the transmission packet based on the number or data amount of the transmission packet per unit time at which an ACK is received in the MAC layer And
And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. A featured radio base station. A radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, configured to transmit a transmission packet to a mobile station,
A determination unit configured to determine whether or not a predetermined amount of erasure has occurred in the transmission packet, based on a loss of synchronization detection time in the uplink per unit time; and
And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. A featured radio base station. A radio base station having a MAC layer, an RLC-UM layer, and a PDCP layer, configured to transmit a transmission packet to a mobile station,
A determination unit configured to determine whether or not a predetermined amount of loss has occurred in the transmission packet based on the number or ratio of ROHC control feedback packets in the PDCP layer;
And a control unit configured to instruct the mobile station to perform an intra-cell handover when it is determined that a predetermined amount of loss has occurred in the transmission packet. A featured radio base station.

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