JP2012100106A - Base station device and handover method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a base station device and a handover method capable of avoiding an audio interruption when switching a base station to be handed over.SOLUTION: When radio quality measured by a mobile phone terminal 300 is received, an LTE macro base station 800 determines whether a cell other than a serving cell exists or not. When there is a cell of another base station, radio wave intensity of another base station is determined. When the radio wave intensity is high, a type of another base station is determined. When another base station is an LTE macro base station, handover is carried out to the LTE macro base station. When another base station is a CDMA macro base station, handover is suspended. When another base station is a HeNB, handover to the HeNB is carried out when a delay is allowed in service performed by the mobile phone terminal 300, and the handover is suspended when the delay is not allowed in the service performed by the mobile phone terminal 300.

Description

  The present invention relates to a base station apparatus and a handover method.

  As a next-generation wireless communication system, LTE (Long Term Evolution) system is standardized by 3GPP (3rd Generation Partnership Project). In the LTE system, a small base station for a mobile station called Home-eNB that is connected to a core network (mobile communication network) of a mobile phone operator via a broadband line is defined. Since the mobile phone terminal performs handover to the Home-eNB, the user can occupy a small base station, and thus can enjoy a comfortable data communication environment. In addition, by using the Home-eNB, a user who has been outside the service area of the macro base station can use the service easily and inexpensively if there is a broadband line. In addition, the mobile phone service provider has the advantages that the area of the mobile phone terminal can be improved at a low cost and that the capacity of the existing base station can be increased by allowing the macro base station traffic to escape to the Home-eNB.

  On the other hand, LTE terminals corresponding to a plurality of wireless communication systems have been put into practical use so that the service can be used even in areas where the service by the LTE system is not provided. From the LTE system to the CDMA (Code Division Multiple Access) system, Alternatively, handover between different radio communication systems (Inter RAT (Radio Access Technology) handover) can be performed from the CDMA system to the LTE system (see Non-Patent Document 1).

3GPP TS36.300

  As described above, LTE terminals include multimode terminals compatible with a plurality of wireless communication systems such as a CDMA system and a Global System for Mobile Communications (GSM) system, and the multimode terminals are communication resources in the LTE system. When there is a shortage of data, handover between different radio communication systems is implemented in the CDMA system or GSM system.

  However, in the LTE system, not only a base station provided by a conventional mobile phone operator but also a Home-eNB is assumed. Therefore, the Home-eNB is handed over, and the Home-eNB is connected to the core network via the Internet. In such a case, the delay time is unstable compared to a base station provided by a mobile phone operator, and there is a problem that the voice is interrupted when a service that is difficult to delay such as a voice call is used.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a base station apparatus and a handover method for switching a base station to be handed over so as to avoid the problem of voice interruption. There is to do.

  In order to achieve the above object, a base station apparatus of the present invention receives, in a base station apparatus where a mobile phone terminal is located, the radio quality of the base station apparatus measured by the mobile phone terminal and the base station apparatus adjacent thereto. And a control unit for controlling the transmission / reception unit, wherein the control unit provides a communication service performed by the mobile phone terminal when the wireless quality received by the transmission / reception unit is equal to or higher than a predetermined value. A handover is executed according to the type.

  In the base station apparatus of the present invention, the handover is preferably a handover between the same or different radio communication systems.

  In addition, the handover method of the present invention enables the base station device where the mobile phone terminal is located when the radio quality of the base station device measured by the mobile phone terminal and the base station device adjacent to the mobile station is equal to or higher than a predetermined value. A handover method comprising: performing handover according to a service type of communication performed by the mobile phone terminal.

  In the handover method of the present invention, it is preferable that the handover is a handover between the same or different radio communication systems.

  The present invention switches the base station to be handed over so that the low-delay communication network of the mobile phone operator can be used when the mobile phone terminal performs communication of a service that does not allow delay such as VoIP. It is possible to avoid the problem of sound interruption due to instability of the sound.

It is a schematic block diagram of the mobile communication system containing Home-eNB and a LTE macro base station (base station apparatus). It is a functional block diagram which shows schematic structure of the LTE macro base station (base station apparatus) which concerns on embodiment of this invention. It is a flowchart explaining operation | movement of a LTE macro base station when a mobile telephone terminal is connected to a LTE macro base station. It is a flowchart explaining operation | movement of a LTE macro base station when a mobile telephone terminal exists in the range of a LTE macro base station, and the mobile telephone terminal is connected to HeNB. 10 is a flowchart for explaining the operation of the LTE macro base station when the mobile phone terminal is within the LTE macro base station and the mobile phone terminal is connected to the CDMA macro base station.

  Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a mobile communication system including a Home-eNB and an LTE macro base station (base station apparatus). As shown in FIG. 1, a mobile communication system includes an LTE Home-eNB (hereinafter referred to as HeNB) 100, which is a small base station installed in a general household, a router 200, and the Internet 400 (broadband line). A gateway (GW) 500 connected to the HeNB 100 via the core network, a MME (Mobility Management Entity) 700 connected to the gateway 500 via the core network (CN) 600, and a gateway 500 and the MME 700 connected via the core network 600. LTE macro base station (eNB) 800 (base station apparatus) and a mobile phone terminal 300. The mobile phone terminal 300 is a multimode terminal that supports the LTE system and the CDMA system and can be wirelessly connected to the HeNB 100, the LTE macro base station (eNB) 800 (base station apparatus), and a CDMA macro base station (not shown). .

  FIG. 2 is a functional block diagram showing a schematic configuration of the LTE macro base station (base station apparatus) according to the embodiment of the present invention. The LTE macro base station 800 (base station apparatus) of the present invention includes a transmission / reception unit 10 and a control unit 20.

  The transmission / reception unit 10 transmits / receives various data to / from the mobile phone terminal. For example, the transmission / reception unit 10 receives Measurement Report, which is a measurement result of the radio quality measured by the mobile phone terminal within the LTE macro base station 800.

  The control unit 20 includes a serving cell determination unit 21, a radio wave strength determination unit 22, a base station determination unit 23, a service type determination unit 24, and a handover control unit 25.

The serving cell determination unit 21 receives the Measurement Report from the transmission / reception unit 10 and determines whether there is a serving cell of another base station that can establish a radio link with the mobile phone terminal.
When there is a serving cell of another base station, the radio wave strength determination unit 22 determines whether the radio wave from the base station is strong enough to communicate, that is, whether the radio quality is equal to or higher than a predetermined value.
The base station determination unit 23 determines the type of the base station determined to have strong radio wave strength (radio quality is equal to or higher than a predetermined value), for example, LTE macro base station, CDMA macro base station, or HeNB.
The service type determination unit 24 determines the service type of communication performed by the mobile phone terminal.
The handover control unit 25 controls the execution of handover according to the service type of communication performed by the mobile phone terminal.

  FIG. 3 is a flowchart for explaining the operation of the LTE macro base station when the mobile phone terminal is connected to the LTE macro base station. When the LTE macro base station 800 receives the Measurement Report, which is the measurement result of the wireless quality of the location where the mobile phone terminal 300 exists, measured by the mobile phone terminal 300 (S101), the LTE macro base station 800 serves as a serving cell (Serving Cell). In addition to the above, it is determined whether there is a cell of another base station that can establish a wireless link with the mobile phone terminal 300 (S102). If there is no cell of another base station, execution of the handover is suspended (S107). If there is a cell of another base station, it is determined whether or not the radio wave from the other base station is strong enough to communicate (S103). If the radio wave intensity is weak, the execution of the handover is suspended (S107). If the radio field intensity is strong, the type of another base station is determined (S104). If the other base station is a normal base station (LTE macro base station), a handover to the normal base station (LTE macro base station) is executed (S106). If the other base station is a CDMA macro base station, the execution of the handover is suspended (S107).

  In S104, if the other base station is not a normal base station (LTE macro base station) but a HeNB, communication currently being performed by the mobile phone terminal 300 with the LTE macro base station 800 allows a delay. It is determined whether or not the communication is to be performed (S105). When the mobile phone terminal 300 is performing communication (data communication) of a service that allows a delay such as FTP, even if a handover to the HeNB is performed, the increase or decrease of the delay does not greatly affect the service. Since it can be occupied and an improvement in throughput is expected, handover to the HeNB is executed (S106). When the mobile phone terminal 300 is performing communication (voice communication) of a service that does not allow delay such as VoIP, handover to the HeNB results in communication via the Internet where the communication quality is unstable, and the quality of the call service Therefore, it is suspended without executing the handover (S107).

  FIG. 4 is a flowchart for explaining the operation of the LTE macro base station when the mobile phone terminal is within the LTE macro base station and the mobile phone terminal is connected to the HeNB. When the LTE macro base station 800 receives the Measurement Report, which is the measurement result of the wireless quality measured by the mobile phone terminal 300 and is the location where the mobile phone terminal 300 exists (S201), the LTE macro base station 800 receives the mobile phone in addition to the serving cell. It is determined whether there is a cell of another base station that can establish a radio link with the terminal 300 (S202). If there is no cell of another base station, execution of the handover is suspended (S208). If there is a cell of another base station, it is determined whether or not the radio wave from the other base station is strong enough to communicate (S203). If the radio wave intensity is weak, the execution of the handover is suspended (S208). If the radio field intensity is strong, the type of another base station is determined (S204). When another base station is a HeNB, a handover to the HeNB is executed (S206).

  In S204, when the other base station is not a HeNB but a normal base station (LTE macro base station), the communication currently performed by the mobile phone terminal 300 with the HeNB is a communication that allows a delay. It is determined whether or not (S205). When the mobile phone terminal 300 performs voice communication that does not allow delay, it is assumed that the delay time is shortened, and therefore a handover to a normal base station (LTE macro base station) is executed (S206). . When the mobile phone terminal 300 is performing data communication that allows delay, the HeNB can occupy the band and the throughput is expected to be improved, so the execution of the handover is suspended (S208).

  In S204, if the other base station is a CDMA macro base station, it is determined whether or not the communication currently being performed by the mobile phone terminal 300 with the HeNB is a communication that allows delay (S207). When the mobile phone terminal 300 performs communication that does not allow delay, it is assumed that the delay time is shortened, so a handover to the CDMA macro base station (Inter RAT handover) is executed (S206). When the mobile phone terminal 300 is performing communication that allows delay, the HeNB can occupy the band and can be expected to improve the throughput, so the execution of the handover is suspended (S208).

  FIG. 5 is a flowchart for explaining the operation of the LTE macro base station when the mobile phone terminal is within the LTE macro base station and the mobile phone terminal is connected to the CDMA macro base station. When the LTE macro base station 800 receives the Measurement Report, which is a measurement result of the wireless quality of the location where the mobile phone terminal 300 exists, measured by the mobile phone terminal 300 (S301), in addition to the serving cell, the mobile phone It is determined whether there is a cell of another base station that can establish a radio link with the terminal 300 (S302). If there is no cell of another base station, the execution of the handover is suspended (S307). If there is a cell of another base station, it is determined whether or not the radio waves from the other base station are strong enough to communicate (S303). If the radio wave intensity is weak, the execution of the handover is suspended (S307). If the radio field intensity is strong, the type of another base station is determined (S304). If the other base station is an LTE macro base station, a handover to the LTE macro base station (Inter RAT handover) is executed (S306). When the other base station is a CDMA macro base station, a handover to the CDMA macro base station is executed (S306).

  If the other base station is a HeNB in S304, it is determined whether or not the communication currently being performed by the mobile phone terminal 300 with the CDMA macro base station is a communication that allows delay (S305). When the mobile phone terminal 300 is performing communication that allows delay, a connection to the HeNB is expected to improve the throughput, so a handover to the HeNB (Inter RAT handover) is executed (S306). When the mobile phone terminal 300 performs communication that does not allow delay, it is assumed that the communication quality is deteriorated by handing over to the HeNB.

  As described above, when the mobile phone terminal performs communication (voice communication) of a service that does not allow delay such as VoIP, the handover is performed so that the low-delay communication network of the mobile phone carrier can be used. Since the base station to be switched is switched, the problem of voice interruption due to unstable delay time can be avoided.

DESCRIPTION OF SYMBOLS 10 Transmission / reception part 20 Control part 21 Serving cell determination part 22 Radio field strength determination part 23 Base station determination part 24 Service type determination part 25 Handover control part 100 LTE Home-eNB (HeNB)
200 router 300 mobile phone terminal 400 internet 500 gateway (GW)
600 Core network (CN)
700 MME
800 LTE macro base station (eNB)

Claims (4)

In the base station device where the mobile phone terminal is located,
A transmitting / receiving unit that receives the radio quality of the base station device adjacent to the own station and the own station measured by the mobile phone terminal;
A control unit for controlling the transceiver unit,
The base station apparatus, wherein the control unit performs handover according to a service type of communication performed by the mobile phone terminal when the wireless quality received by the transmission / reception unit is equal to or higher than a predetermined value.   The base station apparatus according to claim 1, wherein the handover is a handover between the same or different wireless communication systems.   When the wireless quality of the base station device measured by the mobile phone terminal and the base station device adjacent to the mobile station is equal to or higher than a predetermined value, the base station device in which the mobile phone terminal is located is performed by the mobile phone terminal A handover method, wherein handover is executed according to a communication service type.   The handover method according to claim 3, wherein the handover is a handover between the same or different wireless communication systems.

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