JP4598946B2 - Mobile communication terminal management method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention performs location management of mobile communication terminals that perform communication by moving through a plurality of networks. Mobile communication terminal management method About.
[0002]
[Prior art]
In recent years, with the development of mobile communication technology and the miniaturization of computers, it is expected to realize mobile computing in which a user using a communication terminal having a network address performs communication while moving between a plurality of networks.
[0003]
While it is possible to treat the network address assigned to a conventional fixed communication terminal as invariable, in mobile computing that involves the assignment of a new network address in the destination network, the address has changed. Even in such a case, a system that guarantees movement transparency is required so that continuous communication is maintained. Therefore, standardization of Mobile IP (REC2202) is being promoted by IETF (Internet Engineering Task Force).
[0004]
Hereinafter, a mobile communication method using Mobile IP will be described with reference to FIGS.
[0005]
FIG. 11 is a diagram illustrating a configuration of a system that performs Mobile IP. In the figure, reference numeral 1101 denotes a mobile terminal (MN), and a communication partner of the mobile terminal (MN) 1101 is a CN (Corresponding Node) 1102. A network to which the mobile terminal (MN) 1101 originally belongs is a home network (HN) 1103, and a network after movement is a foreign network (FN) 1104. Further, the management node of the home network (HN) 1103 is the home agent (HA) 1105, and location information indicating which network the mobile terminal (MN) 1101 is currently connected to is registered. The foreign node 1106 is a management node of the foreign network (FN) 1104. Reference numeral 1107 denotes an external IP network other than the network.
[0006]
Each agent periodically broadcasts an agent advertisement in the managed network. For the agent advertisement, a message in which Mobility Agent Advertisement Extension is extended to ICMP Router Advertisement message used in the function of Router Discovery of ICMP (Internet Control Message Protocol) is used.
[0007]
The format of this Mobility Agent Advertisement Extension message is shown in FIG.
[0008]
By receiving the agent advertisement, the mobile terminal (MN) 1101 can know the agent to which the mobile terminal (MN) 1101 is currently connected, that is, the connected network.
[0009]
The registration procedure when the mobile terminal (MN) 1101 moves to the foreign network (FN) 1104 is as follows. Here, a case where communication is continuously performed is considered.
[0010]
First, the mobile terminal (MN) 1101 is located in the home network (HN) 1103 and receives an agent advertisement sent by the home agent (HA) 1105. In this case, communication with the CN 1102 is transferred to the mobile terminal (MN) 1101 through the home agent (HA) 1105 as usual. When the mobile terminal (MN) 1101 starts moving toward the foreign network (FN) 1104, the agent advertisement from the home agent (HA) 1105 becomes unreachable and is received when the mobile terminal (MN) 1101 leaves the home network (HN) 1103. Disappear. When the mobile terminal (MN) 1101 does not receive an agent advertisement from the new home agent (HA) 1105 even after the time specified in the Lifetime field of the ICMP Router Advertisement included in the agent advertisement has elapsed. , Home network, (HN) 1103 is determined to have been disconnected.
[0011]
If the mobile terminal (MN) 1101 has already received an agent advertisement from the foreign agent (FA) 1106, the foreign network (FN) 1104 is registered as the destination network. In this registration, first, the mobile terminal (MN) 1101 transmits a registration request shown in FIG. 13 to the foreign agent (FA) 1106. The foreign agent (FA) 1106 that has received the registration request transfers the registration request to the home agent (HA) 1105 at the address indicated in the Home Agent field of the registration request.
[0012]
The home agent (HA) 1105 that has received the registration request receives the address for managing the mobile terminal (MN) 1101 by the foreign network (FN) 1104 indicated in the Care-of Address field. Approve and register as information, and send a registration response shown in FIG. 14 to the foreign agent (FA) 1106. The foreign agent (FA) 1106 transfers the received registration response to the mobile terminal (MN) 1101. When the mobile terminal (MN) 1101 receives the registration response, the registration procedure is terminated.
[0013]
Next, as a data transmission method, in this case, data transmitted from the CN 1102 with the IP address addressed to the mobile terminal (MN) 1101 is first received by the home agent (HA) 1105 as usual. In the home agent (HA) 1105, an IP address addressed to Care-of Address is added to the data from the registered location information of the mobile terminal (MN) 1101 (capsuling), and then to the foreign agent (FA) 1106. Send. When the foreign agent (FA) 1106 receives the encapsulated packet, it removes the IP address addressed to the Care-of Address (decapsulation), changes the packet to the mobile terminal ( By transmitting to the (MN) 1101, the mobile terminal (MN) 1101 can communicate using the original home address even in the destination network (tunneling).
[0014]
[Problems to be solved by the invention]
However, in the registration procedure in the above prior art, after confirming that the mobile terminal (MN) 1101 does not receive the agent advertisement from the agent before the movement for the minimum Lifetime time, the destination foreign agent (FA) 1106 is newly set. The mobile terminal (MN) 1101 cannot receive data from any agent during this period when the agent advertisement is not received, but communication is interrupted.
[0015]
The period of ICMP Router Advertisement specified in RFC1256 is at least 4 seconds. When communication using continuous media is performed, the reception of data for such a long time is severely affected. It will cause a decline. Also, ICMP Suppresses momentary interruptions due to movement by triggering movement detection by receiving destination agent advertisement instead of time-out it can However, the instantaneous interruption time can be reduced by using a message transmitted from the base station when the mobile communication terminal (mobile body) moves through the base station.
[0016]
The present invention has been made to solve the above-described problems of the prior art. the purpose Tried to shorten the time of data disconnection associated with the registration procedure of mobile communication terminals Mobile communication terminal management method Is to provide.
[0018]
[Means for Solving the Problems]
the above the purpose To achieve According to the invention In the mobile communication terminal management method, a mobile communication terminal that performs communication by moving through a plurality of networks A state where the mobile communication terminal moves to a first network different from a home network to which the mobile communication terminal belongs and receives a first message transmitted by a mobile communication terminal management apparatus connected to the first network In The mobile communication terminal receives both the second message and the first message transmitted by a mobile communication terminal management apparatus connected to a second network different from the home network and the first network. When moved to a location, a registration request for registering the second network as a destination is transmitted to the mobile communication terminal management apparatus connected to the first network, and the movement connected to the first network The communication terminal management device The registration request is transferred to a mobile communication terminal management apparatus connected to the home network.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, each embodiment of the present invention will be described with reference to FIGS.
[0029]
(First embodiment)
First, a first embodiment of the present invention will be described with reference to FIGS.
[0030]
FIG. 1 is a diagram showing movement from a home network (HN) to a foreign network (FN) in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to the present embodiment.
[0031]
In FIG. 1, reference numeral 101 denotes a wireless mobile communication terminal (MN) having an IP address belonging to a home network (HN) 102. Reference numeral 102 denotes a home network (HN), which represents an area where a radio mobile communication terminal (MN) 101 can receive radio waves from a base station (BSH) 104 connected to a home agent (HA) 103. Reference numeral 105 denotes a foreign network (FN), which represents an area where the radio mobile communication terminal (MN) 101 can receive radio waves from a base station (BSF) 107 connected to a foreign agent (FA) 106. Here, one or a plurality of base stations may be provided, and the area covered by one base station is not related to the network area. 108 is a Corresponding Node (CN) connected to an external network, and 109 is an IP network which is an external network.
[0032]
Next, while the wireless mobile communication terminal (MN) 101 maintains communication with the Correspond Node (CN) 108 connected to the IP network 109, the wireless mobile communication terminal (MN) 101 moves to the foreign network (FN) 105. The registration procedure in the case of moving will be described with reference to FIGS.
[0033]
FIG. 2 is a diagram showing a flow of registration processing accompanying movement from the home network (HN) to the foreign network (FN) in the wireless mobile communication system according to the present embodiment.
[0034]
First, the wireless mobile communication terminal (MN) 101 is located in the home network (HN) 102 to which it originally belongs, and communicates with the Corresponding Node (CN) 108 (101a in FIG. 1). The agent advertisement (202 in FIG. 2) from the falling agent (FA) 106 is still unreachable to the wireless mobile communication terminal (MN) 101, and the wireless mobile communication terminal (MN) 101 receives the home agent (HA). ) Only the agent advertisement (201 in FIG. 2) from 103 is received.
[0035]
In the home network (HN) 102 according to the Mobile IP rule, the wireless mobile communication terminal (MN) 101 does not make a registration request to the home agent (HA) 103, and communication within the home network (HN) 102 is normal. Similar to the fixed IP network of FIG. 2, data addressed to the wireless mobile communication terminal (MN) 101 from the Corresponding Node (CN) 108 is transferred to the wireless mobile communication terminal (MN) 101 by the home agent (HA) 103, and wirelessly. Data addressed to the Corresponding Node (CN) 108 from the mobile communication terminal (MN) 101 is transferred to the Corresponding Node (CN) 108 by the home agent (HA) 103.
[0036]
Next, the wireless mobile communication terminal (MN) 101 starts moving toward the foreign network (FN) 105. When the wireless mobile communication terminal (MN) 101 moves to some extent, the wireless mobile communication terminal (MN) 101 overlaps the home network (HN) 102 and the foreign network (FN) 105 so that both base stations (BSH) ) 104 and (BSF) 107 reach an area where radio waves can be received (101b in FIG. 1).
[0037]
Here, the wireless mobile communication terminal (MN) 101 receives the first agent advertisement (203 in FIG. 2) from the foreign agent (FA) 106, and the presence of the foreign agent (FA) 106 and the wireless mobile communication terminal (MN) 101. Is detected to be inside the foreign network (FN) 105. At this time, the communication is still performed with the home agent (HA) 103, and the data transmitted by the Corresponding Node (CN) 108 is transferred directly from the home agent (HA) 103 to the wireless mobile communication terminal (MN) 101. Has been.
[0038]
When the wireless mobile communication terminal (MN) 101 receives the agent advertisement (203 in FIG. 2), the foreign agent (MN) 101 immediately receives the foreign agent (HA) 103 without waiting for the non-arrival of the agent advertisement. (FA) 106 is attempted to be registered as an agent of a new connection destination network.
[0039]
By the way, at the position 101b in FIG. 1, the wireless mobile communication terminal (MN) 101 can receive the agent advertisement from the home agent (HA) 103, but the function of the wireless mobile communication terminal such as transmission power can be received. It is assumed that transmission from the wireless mobile communication terminal (MN) 101 to the base station of the foreign network (FN) 105 is impossible due to physical restrictions.
[0040]
Therefore, the wireless mobile communication terminal (MN) 101 is connected to the home network (HN) 102 that is currently capable of bidirectional communication regardless of whether or not transmission to the base station of the foreign network (FN) 105 is possible. A registration request is made directly to the home agent (HA) 103 through the base station (204 in FIG. 2).
[0041]
Since this registration request uses a message indicating the format shown in FIG. 13, Care-of Address of the destination network is necessary, but the wireless mobile communication terminal (MN) 101 has already been transferred from the foreign agent (FA) 106 to the agent. The advertisement is received, and the Care-of Address of the foreign agent (FA) 106 can be known from the advertisement as shown in the format in FIG.
[0042]
The home agent (HA) 103 that has received the registration request from the wireless mobile communication terminal (MN) 101 registers and approves the Care-of Address of the foreign agent (FA) 106 included in the registration request message, and the foreign agent (FA ) 106, a registration response (205 in FIG. 2) is transmitted. After the registration response transmission, the home agent (HA) 103 starts tunneling, and a packet addressed to the wireless mobile communication terminal (MN) 101 from the Corresponding Node (CN) 108 is transmitted to the foreign agent (FA) in the home agent (HA) 103. An IP address destined for 106 Care-of Address is added and transmitted to the foreign network (FN) 105.
[0043]
Accordingly, the wireless mobile communication terminal (MN) 101 enters a disconnected state after receiving the data transmitted by the home agent (HA) 103 immediately before the registration response (205 in FIG. 2). The foreign agent (FA) 106 that has received the registration response (205 in FIG. 2) from the home agent (HA) 103 transfers this to the wireless mobile communication terminal (MN) 101 as in the case of normal Mobile IP (FIG. 2). 206).
[0044]
When the registration procedure is completed when the wireless mobile communication terminal (MN) 101 receives a registration response from the foreign agent (FA) 106, the wireless mobile communication terminal (MN) 101 receives data from the foreign agent (FA) 106. Start.
[0045]
As described above, according to the present embodiment, the data reception disconnection period according to the registration procedure is from the transmission of the registration response (205 in FIG. 2) to the reception of the registration response (206 in FIG. 2). The disconnection time is reduced to the same extent as the round-trip transmission delay between the wireless mobile communication terminal (MN) 101 and the foreign agent (FA) 106, as compared with the conventional method in which a registration request is triggered by the advertisement timeout.
[0046]
That is, when continuous communication is performed while moving between a plurality of networks using Mobile IP, the disconnection time of data reception accompanying the registration processing of the location information of the wireless mobile communication terminal (MN) is set as the home agent (HA ) Can be shortened to a period from when the registration response is transmitted until the record response is received at the wireless mobile communication terminal (MN). Therefore, it is particularly effective when continuity is required for communication, such as reception of continuous media.
[0047]
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS.
[0048]
FIG. 3 is a diagram showing movement from a foreign network (FNcur) to another foreign network (FNnew) in a wireless mobile communication system (mobile communication terminal communication system) having the mobile communication terminal management system according to the present embodiment. .
[0049]
In FIG. 3, 301 is a wireless mobile communication terminal (MN), 302 is a foreign network (FNcur), 303 is a foreign agent (FAcur), 304 is a base station (BSFur), 305 is a foreign network (FNnew), and 306 is a foreign agent. (FAnew), 307 is a base station (BSFnew), 308 is a Corresponded Node (CN), 309 is a home agent (HA), and 310 is an IP network (external network).
[0050]
Next, a case where the wireless mobile communication terminal (MN) 301 moves from one foreign network (FNcur) 302 to another foreign network (FNnew) 306 will be described with reference to FIGS.
[0051]
FIG. 4 is a diagram showing a flow of registration processing accompanying movement from a foreign network (FNcur) to another foreign network (FNnew) in the wireless mobile communication system according to the present embodiment.
[0052]
The wireless mobile communication terminal (MN) 301 has already moved to one foreign network (FNcur) 302 by, for example, the method described in the first embodiment. The home agent (HA) 309 registers Care-of Address of the foreign agent (FAcur) 303 as position information of the connection network of the wireless mobile communication terminal (MN) 301, and is transmitted from the Corresponding Node (CN) 308. The data is tunneled in the home agent (HA) 309 and delivered to the wireless mobile communication terminal (MN) 301 via the foreign agent (FAcur) 303.
[0053]
First, the wireless mobile communication terminal (MN) 301 receives only the agent advertisement (401 in FIG. 4) from the foreign agent (FAcur) 303, and the agent advertisement (402 in FIG. 4) from the foreign agent (FAnew) 306. ) Has not reached the wireless mobile communication terminal (MN) 301 (301a in FIG. 3).
[0054]
Next, when the wireless mobile communication terminal (MN) 301 starts moving toward the foreign network (FNnew) 305, moves to the position 301b in FIG. 3 and enters the foreign network (FNnew) 305 area, An agent advertisement (402 in FIG. 4) from the agent (FAnew) 306 can be received.
[0055]
The wireless mobile communication terminal (MN) 301 that has detected movement upon reception of the first agent advertisement (403 in FIG. 4) from the foreign agent (FAnew) 306 registers the foreign network (FNnew) 305 as a new connection destination network. Request for registration immediately. In this registration request, Care-of Address of the foreign agent (FAnew) 306 specified in the received agent advertisement from the foreign agent (FAnew) 306 is set as Care-of Address in the movement destination network, and bidirectional communication is currently performed. A registration request message is transmitted to the foreign agent (FAcur) 303 (404 in FIG. 4).
[0056]
The foreign agent (FAcur) 303 that has received the registration request transfers this to the home agent (HA) 309 according to the Mobile IP rules (405 in FIG. 4). Upon receiving the registration request from the foreign agent (FAcur) 303, the home agent (HA) 309 registers and approves the Care-of Address of the foreign agent (FAnew) 306 included in the registration request message, and the foreign agent (FAnew) 306 After transmitting a registration response to (406 in FIG. 4), the packet addressed to the wireless mobile communication terminal (MN) 301 is transferred to the foreign network (FNnew) 305 by tunneling.
[0057]
The foreign agent (FAnew) 306 that has received the registration response from the home agent (HA) 309 transfers it to the wireless mobile communication terminal (MN) 301 (407 in FIG. 4), which is then transmitted to the wireless mobile communication terminal (MN). The reception of 301 completes the mobile registration procedure of the wireless mobile communication terminal (MN) 301 from the foreign network (FNcur) 302 to the foreign network (FNnew) 305.
[0058]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS.
[0059]
FIG. 5 is a diagram illustrating movement to a base station of a different network in a wireless mobile communication system (mobile communication terminal communication system) having the mobile communication terminal management system according to the present embodiment.
[0060]
In FIG. 5, reference numeral 501 denotes a wireless mobile communication terminal (MN) having an IP address belonging to a home network (HN) 512 managed by a home agent (HA) 510. 505 and 509 are base stations (BTS1) and (BTS2), 504 and 508 are base station controllers (BSC1) and (BSC2), 503 and 507 are mobile exchanges (MSC1) and (MSC2), which are connected to an external network. I do. Reference numerals 502 and 506 denote foreign networks representing areas where the base stations (BTS1) 505 and (BTS2) 509 and the wireless mobile communication terminal (MN) 501 can communicate. Each base station controller (BSC1) 504, (BSC2) 508 has a function as a foreign agent (FA), and the network managed by each base station is a foreign network (FN1) 502, (FN2) 506 of the base station. It shall be consistent with Reference numeral 511 denotes a Corresponding Node (CN), and 513 denotes an IP network which is an external network.
[0061]
While the mobile radio communication terminal (MN) 501 is located in the foreign network (FN1) 502 and is connected to the base station (BTS1) 505, a normal Mobile IP transmission procedure is taken. That is, data transmitted from the Corresponding Node (CN) 511 to the wireless mobile communication terminal (MN) 501 is first sent to the home agent (HA) that is the management node of the network to which the wireless mobile communication terminal (MN) 501 originally belongs. Received at 510.
[0062]
In this home agent (HA) 510, address information of a foreign agent (FA1) 504, which is a management node of the foreign network (FN1) 502 to which the current wireless mobile communication terminal (MN) 501 belongs, is registered. The agent (HA) 510 adds the address to the received data as Care-of Address and transfers it to the foreign network (FN1) 502. Upon receiving this, the foreign agent (FA1) 504 removes the address added to the data and transmits this data to the wireless mobile communication terminal (MN) 501, thereby Communication with the Corresponding Node (CN) 511 is performed.
[0063]
A procedure when the wireless mobile communication terminal (MN) 501 moves to the foreign network (FN2) 506 from this state will be described with reference to FIGS.
[0064]
FIG. 6 is a diagram showing a flow of registration processing accompanying movement to a base station in a different network in the wireless mobile communication system according to the present embodiment.
[0065]
When the wireless mobile communication terminal (MN) 501 moves to some extent, it receives a pilot channel transmitted by the base station (BTS2) 509 (601 in FIG. 6).
[0066]
With this as a trigger, the mobile radio communication terminal (MN) 501 performs a handover procedure for the base station. First, the mobile radio communication terminal (MN) 501 measures the reception strength of the received pilot channel (602 in FIG. 6), and if the reception strength sufficient to communicate is obtained, the pilot channel identifier is included. A message is transmitted (603 in FIG. 6). The base station (BTS2) 509 that has received this message notifies the base station control device (BSC2) 508 of this (604 in FIG. 6), and the base station control device (BSC2) 508 receives the wireless mobile communication terminal (MN). ) 501 is handed over to the receivable base station (BTS2) 509, and the handover is notified to the wireless mobile communication terminal (MN) 501 and the base station controller (BSC1) 504 (605 in FIG. 6). Is completed (606 in FIG. 6).
[0067]
At this stage, it is impossible to receive the data sent to the base station controller (BSC1) 504. According to the above procedure, the wireless mobile communication terminal (MN) 501 is connected to the network simultaneously with the movement of the base station. The base station management information of the base station control device can immediately detect that the mobile IP handover is necessary after moving beyond the mobile IP, and the instantaneous interruption can be achieved by synchronizing the mobile IP handover. Can be suppressed.
[0068]
Therefore, the base station control device (BSC1) 504 that has received the handover notification from the base station control device (BSC2) 508 and the address of the wireless mobile communication terminal (MN) 501 managed as a function of the foreign agent (FA) Using the address of the base station controller (BSC2) 508, a registration request is made to the home agent 510 in the format shown in FIG. 13 (607 in FIG. 6).
[0069]
Upon receiving the registration request from the base station controller (BSC1) 504, the home agent (HA) 510 registers and approves Care-of Address included in the registration request message (608 in FIG. 6), and the base station controller ( BSC2) 508 transmits a registration response in the format shown in FIG. 14 (609 in FIG. 6).
[0070]
After the registration response transmission, the home agent (HA) 510 starts tunneling, and packets addressed to the wireless mobile communication terminal (MN) 501 from the Corresponding Node (CN) 511 are transmitted to the base station controller (HA) in the home agent (HA) 510. BSC2) An IP address destined for Care-of Address of 508 is added and transmitted to the foreign network (FN2) 506.
[0071]
Receiving the registration response (609 in FIG. 6) from the home agent (HA) 510, the base station controller (BSC2) 508 transfers this to the wireless mobile communication terminal (MN) 501 (610 in FIG. 6). When the registration procedure is completed when the wireless mobile communication terminal (MN) 501 receives a registration response from the base station controller (BSC2) 508 (611 in FIG. 6), the wireless mobile communication terminal (MN) 501 Data reception from the base station controller (BSC2) 508 is started (612 in FIG. 6).
[0072]
In the present embodiment described above, the data reception disconnection period does not depend on the transmission timing of the agent advertisement transmitted by the base station control device (BSC2) 508, and the registration response is received from the completion of the handover of the base station (606) ( 611), the disconnection time can be shortened to the same extent as the round-trip transmission delay between the base station controller (BSC1) 504 and the home agent (HA)) 510.
[0073]
That is, when performing continuous communication while moving between a plurality of networks using Mobile IP, the disconnection time of data reception accompanying the registration procedure processing of the location information of the wireless mobile communication terminal (MN) is set as the foreign agent ( It is possible to shorten the round trip delay between the FA) and the home agent (HA). Therefore, it is particularly effective when continuity is required for communication, such as reception of continuous media.
[0074]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIG.
[0075]
FIG. 7 is a diagram illustrating movement to a base station in the same network in a wireless mobile communication system (mobile communication terminal communication system) having the mobile communication terminal management system according to the present embodiment.
[0076]
In FIG. 7, reference numeral 701 denotes a wireless mobile communication terminal (MN), and reference numeral 702 denotes a base station controller (BSC) having a foreign agent (FA) function. 703 and 704 are base stations (BTS1) and (BTS2), and 705 is a foreign network (FN).
[0077]
In the present embodiment, a plurality of base stations (BTS1) 703 and (BTS2) 704 are connected to one base station controller (BSC) 702.
[0078]
In this embodiment, the wireless mobile communication terminal (MN) 701 performs handover of the base stations (BTS1) 703 and (BTS2) 704, and any of the base stations (BTS1) 703 and (BTS2) 704 Since it belongs to the foreign network (FN) 705 managed by the base station controller (BSC) 702, a Mobile IP handover does not occur.
[0079]
(Fifth embodiment)
Next, a fifth embodiment of the present invention will be described with reference to FIGS.
[0080]
FIG. 8 is a diagram illustrating movement to a base station of a different network in a wireless mobile communication system (mobile communication terminal communication system) having the mobile communication terminal management system according to the present embodiment.
[0081]
In FIG. 8, 801 is a wireless mobile communication terminal (MN), 802 and 808 are foreign networks (FA1) and (FA2), 803 and 809 are mobile exchanges (MSC1) and (MSC2), and functions of a foreign agent (FA). have. 804, 806, and 810 are base station controllers (BSC11), (BSC12), and (BSC2), 805, 807, and 811 are base stations (BTS11), (BTS12), (BTS2), and 812 is a home agent (HA). ), 813 is a Corresponding Node (CN), 814 is a home network (HN), and 815 is an IP network which is an external network.
[0082]
Next, mobile exchanges (MSC1) 803 and (MSC2) 809 have a foreign agent (FA) function, and base station controllers (BSC11) 804, (BSC12) 806 and (BSC2) 810 are foreign agent (FA) functions. A procedure in the configuration according to the present embodiment that has no function and is included in one network will be described with reference to FIGS.
[0083]
FIG. 9 is a diagram showing a flow of registration processing accompanying movement to a different base station in the wireless mobile communication system according to the present embodiment.
[0084]
First, the case where the wireless mobile communication terminal (MN) 801 connected to the base station (BTS11) 805 performs a handover to another base station (BTS12) 807 in the same foreign network (FN1) 802 will be described.
[0085]
First, the procedure (901 to 904 in FIG. 9) between the wireless mobile communication terminal (MN) 801 to the base station controller (BSC11) 804, (BSC12) 806, and (BSC2) 810 in the handover of the base station has been described above. This is the same as in the third embodiment.
[0086]
The base station (BTS12) 807 executes handover of the base station and notifies the handover to the mobile switch (MSC1) 803 (905 in FIG. 9). In the mobile switch (MSC1) 803, whether the base station (BTS11) 804 and the base station controller (BSC11) 804 to which the wireless mobile communication terminal (MN) 801 is currently connected belong to the same network as itself Judge whether or not. If it is detected that the mobile switch (MSC1) 803 is a node managed by the mobile switch (MSC1) 803, it is determined that Mobile IP handover is unnecessary, the process is terminated, and the base station handover is completed (FIG. 9). 906).
[0087]
Next, a case where the wireless mobile communication terminal (MN) 801 connected to the base station (BTS12) 807 moves to the foreign network (FN2) 808 will be described with reference to FIG.
[0088]
In this case as well, the wireless mobile communication terminal (MN) 801 receives the pilot channel transmitted by the base station (BTS2) 811 and measures the reception intensity and transmits the message (1001 to 1003 in FIG. 10). This is the same as in the third embodiment.
[0089]
The base station (BTS2) 811 that has received the message notifies the base station controller (BSC2) 810 to that effect (1004 in FIG. 10), and the base station controller (BSC2) 810 decides to perform the handover. Shi and This is notified to the wireless mobile communication terminal (MN) 801 and the mobile exchange (MSC2) 809 (1005 in FIG. 10).
[0090]
When the mobile switch (MSC2) 809 receives the handover notification, the base station (BTS11) 805 and the base station (BTS12) 807, to which the wireless mobile communication terminal (MN) 801 is connected, manage their own foreign networks (FN2). ) Determine whether the node is 808.
[0091]
Now, since the base station controller (BSC11) 804 is a node of the foreign network (FN1) 802, the mobile switchboard (MSC2) 809 has moved beyond the network by the mobile radio communication terminal (MN) 801 as the base station moves. It is detected that the movement has been performed, and the new connection destination address information after the movement is updated together with other mobile exchanges (MSCs).
[0092]
Then, when the update is performed by another mobile switch (MSC), the mobile switch (MSC1) 803 detects that the wireless mobile communication terminal (MN) 801 has performed a handover using Mobile IP, and has registered. The registration request is made in the format shown in FIG. 13 using the address of the wireless mobile communication terminal (MN) 801 and the address of the mobile exchange (MSC2) 809 that has notified the change. The procedure after this registration request is the same as that in the third embodiment described above.
[0093]
Note that the present invention is not limited to only the system, apparatus, and method for realizing each of the above-described embodiments, and each of the above-described embodiments can be applied to a computer (CPU or MPU) in the system or apparatus. A program code of software for realizing the embodiment is supplied, and when the above-described embodiments are realized by causing the computer of the system or apparatus to operate various devices according to the program code, the scope of the present invention is also included. included.
[0094]
In this case, the program code of the software itself realizes the functions of the above-described embodiments, and the program code itself and means for supplying the program code to the computer, specifically, the program A storage medium storing codes is included in the scope of the present invention.
[0095]
As a storage medium for storing such a program code, a hard disk, floppy disk, optical disk, magneto-optical disk, CD-R, DVD, magnetic tape, nonvolatile memory card, ROM, CD-ROM, or the like can be used. .
[0096]
In addition, the computer controls various devices according to only the supplied program code so that the functions of the above-described embodiments are realized, as well as an OS in which the program code is running on the computer. The program code is also included in the scope of the present invention when the above-described embodiments are realized in cooperation with (operating system) or other application software.
[0097]
Further, after the supplied program code is stored in a memory provided in a function expansion board of a computer or a function expansion unit connected to the computer, the function expansion board or function expansion unit is based on an instruction of the program code. It is also included in the scope of the present invention when the CPU or the like provided in the above performs part or all of the actual processing and the above-described embodiments are realized by the processing.
[0098]
【The invention's effect】
As detailed above, the present invention Mobile communication terminal management method According to the present invention, when performing continuous communication while moving between a plurality of networks, it is possible to shorten the disconnection (disconnection) time of data reception accompanying the registration procedure processing of the location information of the mobile communication terminal. it can .
[Brief description of the drawings]
FIG. 1 shows movement from a home network (HN) to a foreign network (FN) in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to a first embodiment of the present invention. FIG.
FIG. 2 is a diagram showing a flow of registration processing accompanying movement from a home network (HN) to a foreign network (FN) in the wireless mobile communication system according to the first embodiment of the present invention.
[Fig. 3] Movement from a foreign network (FNcur) to another foreign network (FNnew) in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to a second embodiment of the present invention. FIG.
FIG. 4 is a diagram showing a flow of registration processing accompanying a movement from a foreign network (FNcur) to another foreign network (FNnew) in a wireless mobile communication system according to a second embodiment of the present invention.
FIG. 5 is a diagram showing movement to a base station of a different network in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to a third embodiment of the present invention. is there.
FIG. 6 is a diagram showing a flow of registration processing accompanying movement to a base station of a different network in the wireless mobile communication system according to the third embodiment of the present invention.
FIG. 7 is a diagram showing movement to another base station in the same network in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to a fourth embodiment of the present invention.
FIG. 8 is a diagram illustrating movement to a base station of a different network in a wireless mobile communication system (mobile communication terminal communication system) having a mobile communication terminal management system according to a fifth embodiment of the present invention.
FIG. 9 is a diagram showing a flow of registration processing accompanying movement to a base station in a different network in the wireless mobile communication system according to the fifth embodiment of the present invention.
FIG. 10 shows a registration process when a wireless mobile communication terminal (MN) connected to a base station (BTS 12) in a wireless mobile communication system according to a fifth embodiment of the present invention moves to a foreign network (FN2). It is a figure which shows a flow.
FIG. 11 is a diagram illustrating a configuration of a wireless mobile communication system that performs conventional Mobile IP.
FIG. 12 is a diagram showing a format of Mobility Agent Advertisement Extension.
FIG. 13 is a diagram showing a format of a registration request message.
FIG. 14 is a diagram illustrating a format of a registration response message.
[Explanation of symbols]
101 Wireless mobile communication terminal (MN)
102 Home network (HN)
103 Home Agent (HA)
104 Base station (BSH)
105 Foreign Network (FN)
106 Foreign Agent (FA)
107 Base station (BSF)
108 Correspondent Node (CN)
109 IP network (external network)
301 Mobile radio communication terminal (MN)
302 Foreign Network (FNcur)
303 Foreign Agent (FAcur)
304 Base Station (BSFur)
305 Foreign Network (FNnew)
306 Foreign Agent (FAnew)
307 Base Station (BSFnew)
308 Corresponded Node (CN)
309 Home Agent (HA)
310 IP network
501 Wireless mobile communication terminal
502 Foreign Network (FN1)
503 Mobile Switch (MSC1)
504 Base station controller (BSC1)
505 Base station (BTS1)
506 Foreign Network (FN2)
507 Mobile exchange (MSC2)
508 Base Controller (BSC2)
509 Base station (BTS2)
510 Home Agent (HA)
511 Correspondent Node (CN)
512 Home Network (HN)
513 IP network (external network)
701 Wireless mobile communication terminal (MN)
702 Base Station Controller (BSC)
703 Base station (BTS1)
704 Base station (BTS2)
705 Foreign Network (FN)

Claims (1)

A mobile communication terminal management apparatus connected to the first network, wherein a mobile communication terminal that performs communication by moving through a plurality of networks moves to a first network different from a home network to which the mobile communication terminal belongs The mobile communication terminal management apparatus connected to a second network different from the home network and the first network transmits the second message transmitted by the mobile communication terminal in a state where the first message transmitted by the mobile communication terminal is received . And a registration request for registering the second network as a destination to the mobile communication terminal management apparatus connected to the first network. Send
The mobile communication terminal management apparatus connected to the first network transfers the registration request to the mobile communication terminal management apparatus connected to the home network.

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