JP4781977B2 - Base station apparatus and communication method - Google Patents

Description

  The present invention receives a QoS (Quality of Service) setting request from a wireless communication terminal, and can perform communication with the wireless communication terminal at a QoS rate determined according to the QoS setting request And, the base station apparatus receives a QoS (Quality of Service) setting request from the wireless communication terminal, and the base station apparatus communicates with the wireless communication terminal at the QoS rate determined according to the QoS setting request. The present invention relates to a communication method that can be performed.

2. Description of the Related Art Conventionally, in a mobile communication system using a code division multiple access (CDMA) method, a plurality of methods are generally employed as a method of data transmission including moving image data transmitted and received in an application such as an IP-TV phone. And have been introduced.
For example, in CDMA2000, as a data transmission method, a communication method using circuit switching (CDMA2000 1x) and a packet switching method are used. Uplink direction: 153.6 kbps, Downlink direction: Data rate (transmission speed) of about 2.4 Mbps (CDMA2000 1x EV-DO Rev. 0) and the Rev. A communication method (CDMA2000 1x EV-DO Rev. A) is specified that further speeds up the communication method 0 and realizes a data rate (transmission speed) of about 1.8 Mbps in the upstream direction and about 3.0 Mbps in the downstream direction. (For example, see Non-Patent Document 1 and Non-Patent Document 2).
In addition, CDMA2000 1x EV-DO Rev. Another feature of A is that a function for controlling QoS (Quality of Service) is added.

The initial connection in the mobile communication system will be described based on the sequence diagram of FIG.
When a call connection request (ConnectionRequest) signal is sent from the wireless communication terminal to the base station apparatus, the base station apparatus that receives the call sends an AC Ack signal, a traffic channel assignment (TrafficChannelAssignment) signal, and an RTC Ack signal to the wireless communication terminal. The wireless communication terminal that has returned and received these signals returns a traffic channel complete signal to the base station apparatus, and PPP (Point to Point Protocol) terminal authentication is performed between the wireless communication terminal and the base station apparatus. Thereafter, PPP user authentication is performed between the wireless communication terminal and the packet data serving node (PDSN), and registration (Regist) is performed between the wireless communication terminal and the SIP (Session Initiation Protocol) server. Then, after QoS establishment is made between the wireless communication terminal and the base station apparatus in response to a QoS setting request from the wireless communication terminal, RSVP negotiation (Resource reSerVation Protocol (RSVP) Negotiation) is performed, and then the wireless communication terminal and When the Invite signal is exchanged between the communication protocols (SIP) between the SIP servers, the wireless communication terminal can start communication.

  A connection (reconnection) from a standby state of a wireless communication terminal in which a wireless line (lower layer) during a call in a mobile communication system is disconnected will be described with reference to the sequence diagram of FIG. When a call connection request (ConnectionRequest) signal is sent from the wireless communication terminal to the base station apparatus, the base station apparatus that receives the call sends an AC Ack signal, a traffic channel assignment (TrafficChannelAssignment) signal, and an RTC Ack signal to the wireless communication terminal. When the wireless communication terminal that has returned and received those signals returns a traffic channel complete signal to the base station apparatus, the wireless communication terminal and the base station apparatus are connected, and the wireless communication terminal may start communication. It becomes possible.

  In the mobile communication system, when performing QoS, the wireless communication terminal basically requests the highest speed QoS rate, but the highest speed QoS rate is not allocated, and the mobile station is connected to the base station apparatus. Even when the wireless line (lower layer) of the wireless communication terminal that has been disconnected is disconnected and transitions to the standby state, connection to the base station apparatus is performed again, so that the highest QoS rate cannot be obtained. That is, the wireless communication terminal determines the QoS rate after connecting to the wireless line and starts a call at the QoS rate. However, if the wireless line (lower layer) is disconnected due to the influence of a tunnel or the like, In the dormant state, the lower layer is released and the upper session remains active. Thereafter, when the state of the wireless line is recovered, the wireless communication terminal reconnects to the wireless line, but the QoS rate at the time of reconnection is maintained at the QoS rate at the time of the first connection.

"Cdma2000 High Rate Packet Data Air Interface 3GPP2 C.S0024 Version 4.0", 3GPP2, October 2002 (Section 8.5.6.1, Section 9.3.1.3.2.3.2) “Cdma2000 High Rate Packet Data Air Interface 3GPP2 C.S0024-A Version 2.0”, 3GPP2, July 2005 (Section 13.2.1.3.1.1, Section 13.3.1.3.1.1)

  In the current mobile communication system, after the wireless communication terminal connected to the base station apparatus transitions to the dormant state, it returns to the active state from the dormant state. Since the QoS rate at the time of the reconnection is maintained at the QoS rate at the time of the first connection, for example, when the QoS rate at the time of the first connection is a QoS rate other than the maximum speed, the wireless communication terminal reconnects. Sometimes the highest speed QoS rate cannot be obtained.

The present invention performs readjustment of the QoS rate when returning from the dormant state to the active state, for example, by performing readjustment of the QoS rate set in the wireless communication terminal that has returned from the dormant state to the active state. A first object of the present invention is to provide a base station apparatus that can obtain the highest possible QoS rate in a wireless communication terminal after returning.
The present invention performs readjustment of the QoS rate when returning from the dormant state to the active state, for example, by performing readjustment of the QoS rate set in the wireless communication terminal that has returned from the dormant state to the active state. A second object of the present invention is to provide a communication method that enables a wireless communication terminal to obtain the highest possible QoS rate after returning.

  In order to achieve the first object, a base station apparatus according to claim 1 receives a QoS (Quality of Service) setting request from a wireless communication terminal, and uses a QoS rate determined according to the QoS setting request. A base station apparatus capable of communicating with the wireless communication terminal, wherein resource management means for managing a QoS resource allocated to a wireless communication terminal in the own station area in the base station apparatus, and setting a QoS When the QoS rate set in the wireless communication terminal can be changed when the wireless communication terminal is changed from the dormant state to the active state after transitioning to the dormant state, the resource management unit manages QoS rate readjustment means for readjusting the QoS rate set in the wireless communication terminal based on the QoS resources that are present. To.

  As a result of the readjustment by the QoS rate readjustment means, if the adjusted QoS rate is set lower than the pre-adjusted QoS rate, the handoff from which the base station device is likely to be handed off to another base station device is easy. It is preferable to have handoff threshold value setting instruction means for instructing the wireless communication terminal to set a threshold value in order to obtain the highest possible QoS rate in the wireless communication terminal after returning.

  As a result of the readjustment by the QoS rate readjustment means, when the adjusted QoS rate is set higher than the pre-adjusted QoS rate, the handoff is difficult to be handed off from the base station apparatus to another base station apparatus. It is preferable to have handoff threshold value setting instruction means for instructing the wireless communication terminal to set a threshold value in order to obtain the highest possible QoS rate in the wireless communication terminal after returning.

  In order to achieve the second object, a communication method according to claim 4 is configured such that a base station apparatus receives a QoS (Quality of Service) setting request from a wireless communication terminal and determines the QoS according to the QoS setting request. A communication method in which the base station apparatus can communicate with the wireless communication terminal at a QoS rate, managing a QoS resource allocated to a wireless communication terminal in a local area in the base station apparatus, and performing QoS If the QoS rate set in the wireless communication terminal can be changed when the set wireless communication terminal transitions to the dormant state and then returns from the dormant state to the active state, the resource management means Based on the managed QoS resource, the QoS rate set in the wireless communication terminal is readjusted.

  As a result of the readjustment of the QoS rate, when the adjusted QoS rate is set lower than the pre-adjusted QoS rate, a handoff threshold value at which handoff is easily performed from the base station apparatus to another base station apparatus is set. It is preferable to instruct the wireless communication terminal to set in order to obtain the highest possible QoS rate in the wireless communication terminal after returning.

  As a result of the readjustment of the QoS rate, when the adjusted QoS rate is set higher than the pre-adjusted QoS rate, a handoff threshold value at which handoff is difficult to be performed from the base station apparatus to another base station apparatus is set to Instructing the wireless communication terminal to set is preferable in order to obtain the highest possible QoS rate in the wireless communication terminal after returning.

  According to the present invention, the wireless communication terminal can obtain the highest possible QoS rate when returning from the dormant state to the active state after the wireless communication terminal setting the QoS transitions to the dormant state. In addition to improving the feasibility of QoS at the maximum speed, it is possible to maximize the resources of the base station apparatus, and the convenience of the user is improved compared to the current mobile communication system. .

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a base station apparatus according to the first embodiment of the present invention. The base station apparatus 100 according to the present embodiment uses a antenna 110 and uses a CDMA2000 1x EV-DO communication method (hereinafter referred to as an EV-DO system), and a radio communication terminal that supports the EV-DO system in its own station area. The communication system of CDMA2000 1x EV-DO Rev. CDMA2000 1x EV-DO Rev. 0, in addition to CDMA2000 1x EV-DO Rev. A is also supported. Alternatively, CDMA2000 1x EV-DO Rev. Only A is supported.

  In addition to the antenna 110, the base station apparatus 100 includes a DO RF unit 130, an RF control unit 140, a system control unit 150, an input unit 160, a display unit 170, a system storage unit 180, and the like. Unit 140 includes a reception unit 140a and a transmission unit 140b, and system control unit 150 includes a resource management unit 150a, a QoS rate acquisition unit 150b, a QoS rate readjustment unit 150c, and a handoff threshold setting instruction unit 150d. ing.

  The DO RF unit 130 converts data transmitted by the DO system into a high-frequency signal and transmits it from the antenna 110, or converts data input from the antenna 110 into a high-frequency signal.

  The RF control unit 140 controls communication (transmission / reception) of the DO system, measures the intensity of radio waves (RSSI, etc.) from a wireless communication terminal and other base station devices (not shown) received by an antenna, To do. Also, it functions as a receiving unit 140a and a transmitting unit 140b corresponding to the high-frequency signal input from the DO RF unit 130 and the high-frequency signal output to the DO RF unit 130. Also, a QoS setting request is received from the wireless communication terminal.

The system control unit 150 is a control unit that controls each unit of the base station apparatus 100 in an integrated manner.
The resource management unit 150a sends “own station and other base stations” sent from a base station controller (a host packet controller (PCF: Packet Control Function) for controlling a plurality of base station apparatuses; not shown). Based on the “resource information of the device”, QoS resources allocated to the wireless communication terminals in the local station area are managed.
The QoS rate acquisition unit 150b acquires the QoS rate set in the wireless communication terminal that has returned from the dormant state to the active state. In addition, you may acquire from the said radio | wireless communication terminal, and you may acquire from another base station apparatus or a packet control apparatus.
When the QoS rate of the wireless communication terminal acquired by the QoS rate acquisition unit 150b can be changed when the QoS rate readjustment unit 150c returns from the dormant state to the active state (for example, the QoS of the wireless communication terminal). When the rate is not set to the maximum rate), the QoS rate set in the wireless communication terminal is readjusted based on the QoS resource (QoS resource remaining amount) managed by the resource management unit 150a. is there.
When the adjusted QoS rate is set lower than the unadjusted QoS rate as a result of the readjustment by the QoS rate readjustment unit 150c, the handoff threshold setting instruction unit 150d As a result of instructing the wireless communication terminal to set a handoff threshold value at which handoff is likely to be performed to the station device, or by re-adjustment by the QoS rate readjustment unit 150c, the QoS rate after adjustment is higher than the QoS rate before adjustment. Is set low, the radio communication terminal instructs the base station apparatus to set a handoff threshold value that is likely to be handed off to another base station apparatus.

The input unit 160 is used when inputting information or selecting one of the options displayed on the display screen of the display unit 170, and has various keys and various buttons. Note that the input unit 160 and the display unit 170 can be omitted depending on the situation.
The system storage unit 180 includes a memory such as a RAM, and stores application programs and temporary data.

  Next, a communication method in a mobile communication system including the base station apparatus of this embodiment will be described based on the sequence diagram of FIG. FIG. 2 shows a base station when base station apparatus 100 is a connected base station before wireless communication terminal 200 transitions to the dormant state and is also a connected base station when the base station device 100 returns from the dormant state to the active state. An operation example of changing the QoS rate at the time of reconnection from a standby state (wireless line disconnection) performed by the apparatus is shown.

  In FIG. 2, when a call connection request (ConnectionRequest) signal is transmitted from the radio communication terminal 200 that has returned from the dormant state to the active state to the base station apparatus 100, the base station apparatus 100 that has received the call connection request signal transmits to the radio communication terminal 200. It returns an AC Ack signal and a traffic channel assignment (TrafficChannelAssignment) signal. The wireless communication terminal 200 that has received these signals returns a Prove signal, and the base station apparatus 100 that has received the Prove signal returns an RTC Ack signal to the wireless communication terminal 200. At the time of returning the RTC Ack signal, the base station apparatus 100 determines whether or not the radio communication terminal 200 has returned from the dormant state to the active state, and only when the radio communication terminal 200 has returned from the dormant state to the active state. In parallel with the reception of the traffic channel complete (TrafficChannelComplete) signal transmitted from the radio communication terminal 200, it is determined whether or not the acquired QoS rate of the radio communication terminal can be changed (in other words, the radio communication terminal (Determining whether the QoS rate is set to the highest rate). Here, only when it is determined that the QoS rate can be changed, the QoS rate is changed (adjusted) between the base station apparatus 100 and the radio communication terminal 200 based on the QoS resource managed by the resource management unit 150a. Is made. Thereafter, a handoff threshold value change instruction is sent from the base station apparatus 100 to the wireless communication terminal 200, and the wireless communication terminal 200 that has received this handoff threshold value change instruction performs “handoff threshold value adjustment control” to be described later.

  FIG. 3 is a flowchart showing handoff threshold adjustment control performed in response to a handoff threshold change instruction from the base station apparatus in the wireless communication terminal of the wireless communication system according to the first embodiment. First, in step S11 of FIG. 3, it is determined whether or not the QoS rate has actually changed before and after the adjustment of the QoS rate. Here, when it is determined that the QoS rate has not changed before and after the adjustment of the QoS rate, the appropriate QoS rate is maintained (therefore, the handoff threshold value change instruction is transmitted from the base station apparatus 100 to the wireless communication terminal). If it is not sent to 200), the processing ends as it is. On the other hand, if it is determined that the QoS rate has changed before and after the adjustment of the QoS rate, in the next step S12, whether or not the QoS rate has increased, in other words, “after the adjustment of the QoS rate before the adjustment. Whether the QoS rate is set higher or lower ”.

  If the determination in step S12 is Yes, that is, if the adjusted QoS rate is set higher than the unadjusted QoS rate, the process proceeds to step S13, and the determination in step S12 is No, that is, the QoS before adjustment. If the adjusted QoS rate is set lower than the rate, the process proceeds to step S14. In step S13, the handoff threshold value for the band class (BandClass), channel (Channel), and spread code (PN) before entering the dormant state (dormant state) is set (changed to a handoff threshold value in which handoff is difficult to be performed). In step S14, the handoff threshold for the band class (BandClass), the channel (Channel), and the spreading code (PN) before entering the dormant state (dormant: inactive state) is set to the “handoff threshold that facilitates handoff”. Set (change).

  Next, FIG. 3, FIG. 4 (a), (b) and FIG. 4 (a), (b), and FIG. A description will be given based on FIGS. 5A and 5B while comparing with the case of the prior art.

[When the QoS rate increases before and after returning from the dormant state to the active state]
In the handoff threshold adjustment control of FIG. 3, the wireless communication terminal 200 performs handoff when the QoS rate is changed when the wireless communication terminal 100 returns from the dormant state to the active state by executing Yes-Step S12 of Step S11. When the QoS rate is increased before and after the adjustment, the process proceeds from Yes in step S12 to step S13, and the band class (BandClass), channel (Channel) before return, The handoff threshold for the spreading code (PN) is set to “a handoff threshold at which handoff is difficult to be performed”. Thus, in the case of the prior art (in which the handoff threshold adjustment control of the present invention is not performed), whether or not the handoff is performed using the “normal handoff threshold” indicated by the solid line in FIG. Therefore, the time when the sensitivity of the wireless communication terminal 200 decreases and crosses the normal handoff threshold becomes the “handoff execution point”. However, when the adjustment control of the handoff threshold of the present invention is performed, FIG. In order to determine whether or not to perform handoff using the “handoff threshold at the time of QoS rate increase, which is a handoff threshold that is difficult to perform handoff compared to the normal handoff threshold” indicated by a dotted line in FIG. A time point (not shown) at which the sensitivity of the communication terminal 200 decreases and crosses the handoff threshold when the QoS rate increases is a “handoff execution point”. As a result, the handoff to another base station apparatus is not performed until the time when the sensitivity of the radio communication terminal 200 is lower than the normal time, and can remain for a long time in the base station apparatus to which a high QoS rate is assigned.

[When the QoS rate drops before and after returning from the dormant state to the active state]
In the handoff threshold adjustment control of FIG. 3, the wireless communication terminal 200 performs handoff when the QoS rate is changed when the wireless communication terminal 100 returns from the dormant state to the active state by executing Yes-Step S12 of Step S11. When the QoS rate decreases before and after the adjustment, the process proceeds from No in step S12 to step S14, where the band class (BandClass), channel (Channel), The handoff threshold value for the spreading code (PN) is set to “handoff threshold value that facilitates handoff”. Thus, in the case of the prior art (the handoff threshold adjustment control of the present invention is not performed), it is determined whether or not to perform handoff using the “normal handoff threshold” indicated by the solid line in FIG. For this reason, the time when the sensitivity of the wireless communication terminal 200 decreases and crosses the normal handoff threshold is the “handoff execution point”. However, when the handoff threshold adjustment control of the present invention is performed, FIG. In order to determine whether or not to perform handoff using the “handoff threshold at the time of QoS rate reduction, which is a handoff threshold that is easier to perform handoff than the normal handoff threshold” indicated by a dotted line in FIG. The point at which the sensitivity decreases and the handoff threshold when the QoS rate decreases crosses the handoff threshold is the “handoff execution point”. As a result, handoff to another base station apparatus is performed when the sensitivity of the radio communication terminal 100 is higher than normal, and it is easy to leave the base station apparatus to which a low QoS rate is assigned.

  2 and FIG. 3 described above, when “Activeset”, which is information indicating a neighboring base station that is a handoff destination candidate, is one, the QoS rate of the wireless communication terminal 200 can be changed. Although an example is shown in which the QoS rate is changed when the wireless communication terminal 200 returns from the dormant state to the active state, the case where there are two or more “Activeset” is the same as described above. The QoS rate is changed when the state returns to the active state, and when the number of received PNs increases or decreases, the QoS rate is triggered when the wireless communication terminal 200 returns from the dormant state to the active state in the same manner as described above. You only have to make changes.

According to the base station apparatus of the present embodiment, when the wireless communication terminal in which QoS is set transitions to the dormant state, when the wireless communication terminal returns from the dormant state to the active state, the wireless communication terminal has the highest possible QoS rate. Therefore, it becomes possible to improve the feasibility of QoS at the maximum speed, and to maximize the resources of the base station apparatus, which is more user-friendly than the current mobile communication system. Convenience is improved. In addition, by introducing the adjustment control of the handoff threshold, when the QoS rate increases before and after the adjustment of the QoS rate when the wireless communication terminal 200 returns from the dormant state to the active state, the base station apparatus is lengthened. If the QoS rate decreases before and after the adjustment of the QoS rate when the wireless communication terminal 200 returns from the dormant state to the active state, the base station device immediately before and after the return As a result of adjusting the handoff threshold according to the state of the base station apparatus, the highest possible QoS rate can be obtained in the wireless communication terminal after returning. Moreover, the communication method using this base station apparatus is a communication method in which the wireless communication terminal can obtain the highest possible QoS rate after returning. Therefore, it becomes possible to improve the feasibility of QoS at the maximum speed, and it is possible to maximize the resources of the base station apparatus, improving the convenience of the user compared to the current mobile communication system. To do.
In the present embodiment, the adjustment of the QoS rate has been described using the base station apparatus, but it may be realized by the base station control apparatus (PCF). Moreover, it is also possible to implement | achieve using both a base station apparatus and a base station control apparatus (PCF).

It is a block diagram which shows the structure of the base station apparatus of 1st Embodiment of this invention. It is a sequence diagram for demonstrating the communication method in the mobile communication system containing the base station apparatus of 1st Embodiment. It is a flowchart which shows the adjustment control of the handoff threshold value implemented according to the handoff threshold value change instruction | indication from a base station apparatus in the radio | wireless communication terminal of the radio | wireless communications system of 1st Embodiment. (A), (b) is a figure for demonstrating the effect | action of the adjustment control of the handoff threshold value implemented by a radio | wireless communication terminal according to the handoff threshold value change instruction | indication sent from the base station apparatus in 1st Embodiment. (A), (b) is a figure for demonstrating the effect | action of the adjustment control of the handoff threshold value implemented by a radio | wireless communication terminal according to the handoff threshold value change instruction | indication sent from the base station apparatus in 1st Embodiment. It is a sequence diagram for demonstrating the initial connection of the radio | wireless communication terminal in a mobile communication system. It is a sequence diagram for demonstrating the connection from the standby state of the radio | wireless communication terminal in a mobile communication system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Base station apparatus 110 Antenna 130 DO RF part 140 RF control part 140a Receiving part 140b Transmission part 150 System control part 150a Resource management part 150b QoS rate acquisition part 150c QoS rate readjustment part 150d Handoff threshold setting instruction part 160 Input part 170 Display unit 180 System storage unit

Claims (6)

A base station apparatus capable of receiving a QoS (Quality of Service) setting request from a wireless communication terminal and performing communication with the wireless communication terminal at a QoS rate determined according to the QoS setting request,
Resource management means for managing QoS resources to be allocated to wireless communication terminals in the own station area in the base station device;
When the QoS rate set in the wireless communication terminal can be changed when the wireless communication terminal in which QoS is set transitions to the dormant state and then returns from the dormant state to the active state, the resource management A base station apparatus comprising: QoS rate readjustment means for readjusting a QoS rate set in the wireless communication terminal based on a QoS resource managed by the means.   As a result of the readjustment by the QoS rate readjustment means, if the adjusted QoS rate is set lower than the pre-adjusted QoS rate, the handoff from which the base station device is likely to be handed off to another base station device is easy. The base station apparatus according to claim 1, further comprising handoff threshold value setting instruction means for instructing the wireless communication terminal to set a threshold value.   As a result of the readjustment by the QoS rate readjustment means, when the adjusted QoS rate is set higher than the pre-adjusted QoS rate, the handoff is difficult to be handed off from the base station apparatus to another base station apparatus. The base station apparatus according to claim 1, further comprising handoff threshold value setting instruction means for instructing the wireless communication terminal to set a threshold value. A base station apparatus receives a QoS (Quality of Service) setting request from a wireless communication terminal, and the base station apparatus communicates with the wireless communication terminal at a QoS rate determined according to the QoS setting request. A possible communication method,
Manage QoS resources allocated to wireless communication terminals in the own station area in the base station device,
When the QoS rate set in the wireless communication terminal can be changed when the wireless communication terminal in which QoS is set transitions to the dormant state and then returns from the dormant state to the active state, the resource management A communication method characterized by re-adjusting a QoS rate set in the wireless communication terminal based on a QoS resource managed by the means.   As a result of the readjustment of the QoS rate, when the adjusted QoS rate is set lower than the pre-adjusted QoS rate, a handoff threshold value at which handoff is easily performed from the base station apparatus to another base station apparatus is set. The communication method according to claim 4, wherein the wireless communication terminal instructs to set.   As a result of the readjustment of the QoS rate, when the adjusted QoS rate is set higher than the pre-adjusted QoS rate, a handoff threshold value at which handoff is difficult to be performed from the base station apparatus to another base station apparatus is set to The communication method according to claim 4, wherein the wireless communication terminal instructs to set.