JP2013258547A - Mobile communication system and mobile communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent service deterioration due to the processing capacity of a home agent (HA) in a form in which each mobile terminal is accommodated by the HA and receives a service.SOLUTION: A mobile communication system includes: a mobile terminal 1 which transmits a quality request to specify any of a low quality home agent (HA) 8 or a high quality HA 9 providing a higher quality communication service than the low quality HA 8 as the HA to be connected to its own terminal; and a connection terminal management server which determines the low quality HA 8 or high quality HA 9 as a changeover destination HA which is a new connection destination of the mobile terminal 1 according to the quality specified by the quality request when the quality request has been received. The mobile terminal 1 performs hand-off from a changeover source HA, a current connection partner, to the changeover destination HA determined by the quality request after transmitting the quality request.

Description

  The present invention relates to a mobile communication system and a mobile communication method.

  The number of users of mobile terminals represented by recent smartphones is increasing. When using these mobile terminals to view content with a large amount of data such as images, music, streaming video, etc., a sufficient communication band for distributing the content is required. If this communication band is not secured in all (End-to-End) routes from the content server to the mobile terminal via the wireless base station, a part of the route becomes a bottleneck, It becomes impossible to do smoothly.

  Therefore, Patent Literature 1 describes that the bandwidth setting of the wired network is transmitted to the wireless base station in order to perform the bandwidth setting of the wireless access network and the bandwidth setting of the wired network in cooperation with each other. . As a result, it is possible to set an end-to-end bandwidth across a wireless route and a wired route.

JP 2005-79740 A

  In addition to a mode in which each mobile terminal is directly connected to the content server and receives a service through the respective connection, an HA (Home Agent) installed between the mobile terminal and the content server is a service instead of the mobile terminal. The form which receives is also considered. From the viewpoint of the content server, the load is reduced by managing connections with a small number of HAs rather than managing connections with many mobile terminals as communication partners.

  However, since HA is actually realized by a physical computer, its computer resources are limited. Therefore, if one HA accommodates (represents) a large number of mobile terminals to the extent that it exceeds its processing capacity limit, the HA processing capacity becomes a bottleneck, and the quality of service provided by the content server Will deteriorate. Here, from the mobile terminal held by the user, it is possible to acquire only the communication quality (radio wave condition) between itself and the wireless base station that is directly connected as a degradation factor of service quality. It cannot be understood that the HA located on the carrier network side is a cause of deterioration in service quality.

On the other hand, if the HA performance and the number of units are easily increased, the service quality provided to the user via the mobile terminal is guaranteed, but depending on the carrier, the additional equipment cost of the HA increases. The cost of the wireless communication service provided to the mobile terminal cannot be recovered.
Here, Patent Document 1 describes means for setting so as to guarantee the bandwidth of the wired network on the carrier side, but describes means for eliminating the bottleneck of the HA processing capacity on the carrier side. Absent.

  Accordingly, the present invention has as its main object to solve the above-described problems and to suppress service degradation due to HA processing capacity in a mode in which each mobile terminal is accommodated in an HA (Home Agent) and receives a service. .

In order to solve the above problems, a mobile communication system of the present invention
A mobile terminal that transmits a quality request for designating either a low-quality HA or a high-quality HA that provides a higher-quality communication service than the low-quality HA as an HA (Home Agent) connected to itself When,
When the quality request is received, the mobile terminal is configured including a connection terminal management server that identifies the low quality HA or the high quality HA that is a new connection destination of the mobile terminal as a switching destination HA according to the specification of the quality request,
After the mobile terminal transmits the quality request, the mobile terminal performs a handoff from the switching source HA, which is the current connection partner, to the switching destination HA specified by the quality request. And establishing a connection that meets the quality requirements.
Other means will be described later.

  ADVANTAGE OF THE INVENTION According to this invention, in the form which each mobile terminal accommodates in HA (Home Agent) and receives a service, the service deterioration by the processing capacity of HA can be suppressed.

It is a block diagram which shows the network system regarding one Embodiment of this invention. It is a block diagram which shows each apparatus of the network system regarding one Embodiment of this invention. It is a block diagram which shows each database of the network system regarding one Embodiment of this invention. It is a flowchart which shows the connection main process of the mobile terminal regarding one Embodiment of this invention. It is a flowchart which shows the switching registration process regarding one Embodiment of this invention. It is a flowchart which shows the handoff process regarding one Embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a configuration diagram showing a network system (mobile communication system). A mobile terminal 1, a base station 2, an AP (Access Point) 3, an access GW (Gateway) 6, a core NW (Network) switch 7, a low quality HA 8, and a high quality HA 9 that are each device of the network system. The rear switch 10, the Internet 11, the content server 12, the connection control server 16, and the charging authentication server 17 are connected by a network (wide area network 4, ISP network 5, charging authentication network 15). The
Each device of these network systems is configured as a computer including a control unit (CPU: Central Processing Unit), a storage unit (memory, hard disk, etc.), and a communication unit (network interface).

The mobile terminal 1 is a terminal carried by each user such as a smartphone or a mobile phone.
The base station 2 is a mobile communication relay base station for the mobile terminal 1.
The AP 3 is a relay base station for providing the mobile terminal 1 with wireless communication according to the Wi-Fi (registered trademark) standard. The AP 3 provides higher quality communication (high speed, low delay, etc.) than the base station 2, but the number of mobile terminals 1 to be accommodated is often smaller than that of the base station 2.
The wide area network 4 is a carrier network that relays between the base station 2 and the access GW 6. For example, communication according to the Ethernet (registered trademark) standard is performed.
An ISP (Internet Services Provider) network 5 is a relay network managed by the ISP, and relays between the AP 3 and the access GW 6.
The access GW 6 switches the connection between the low quality HA 8 and the high quality HA 9 as a communication partner of the data communication of the mobile terminal 1.

The core NW switch 7 connects the access GW 6 to a low quality HA 8 and a high quality HA 9 that are each HA (Home Agent), and is a transfer device at the center of the core network.
The HA accommodates the mobile terminal 1, so that the role of a DHCP (Dynamic Host Configuration Protocol) server that distributes communication settings of the mobile terminal 1 that accommodates the mobile terminal 1 (such as an IP address assigned to the mobile terminal 1), and the content server 12 It also serves as a proxy server acting on behalf of the mobile terminal 1 that accommodates the other communication partner. Therefore, the number of mobile terminals 1 accommodated by the HA is limited to the processing capacity of the HA.

Hereinafter, in order to make the explanation easy to understand, the HA is classified into two types of low quality HA8 and high quality HA9. The low quality HA 8 provides low quality communication to the mobile terminal 1 accommodated therein, and the high quality HA 9 provides high quality communication to the mobile terminal 1 accommodated therein. The following is an example of the definitions of “low quality” and “high quality”, but these definitions are only examples, and the definitions may be added or deleted later according to the policy settings of the network administrator. Is also possible. Furthermore, these definitions may be combined.
(Definition 1) The low quality HA 8 performs band control for limiting the communication band that can be used by each mobile terminal 1 for each mobile terminal 1 accommodated. On the other hand, the high quality HA 9 does not perform band control for limiting the communication band for each mobile terminal 1 accommodated.
(Definition 2) The low quality HA 8 provides best effort communication to each mobile terminal 1 without limiting the number of mobile terminals 1 to be accommodated. On the other hand, the high quality HA 9 is a guarantee type that limits the number of mobile terminals 1 accommodated according to its processing capability and guarantees sufficient communication quality for each mobile terminal 1 accommodated.
(Definition 3) The low quality HA 8 does not charge its own usage fee for the mobile terminal 1 to be accommodated. On the other hand, the high quality HA 8 charges its own usage fee to the mobile terminal 1 to be accommodated by a pay-per-use system according to the packet communication amount or communication connection time.
(Definition 4) The low quality HA 8 does not guarantee the communication quality in the route to the content server 12 (rear switch 10 → Internet 11 → content server 12). On the other hand, the high quality HA 8 guarantees the communication quality defined by the SLA (Service Level Agreement) in the route to the content server 12.

  Note that one high quality HA 9 may not be able to accommodate all the connected mobile terminals 1 due to processing capacity limitations. Therefore, a plurality of high-quality HAs 9 in the network system are installed so that all the connected mobile terminals 1 can be accommodated (two in FIG. 1), and the mobile terminals 1 to be accommodated are respectively high. It is desirable to distribute the load so that the quality HA9 is substantially uniform.

The rear switch 10 connects each HA (low quality HA8, high quality HA9) and the Internet 11.
The content server 12 is connected to the Internet 11 and distributes content managed by the content server 12 to the mobile terminal 1. For example, the route of download data communication to the mobile terminal 1c under AP3 is as shown by the broken line arrow in FIG. 1, the content server 12 → Internet 11 → rear switch 10b → high quality HA 9b → core NW switch 7 → access GW 6b → ISP network 5 → AP3 → mobile terminal 1c.

The charging authentication network 15 connects the core NW switch 7, the connection control server 16, and the charging authentication server 17. The billing authentication network 15 and each device connected to the billing authentication network 15 may be arranged on the core network side where the core NW switch 7 is installed, or on the billing management network side different from the core network side. It may be arranged.
The connection control server 16 switches between the low quality HA 8 and the high quality HA 9 for each mobile terminal 1 as a connection partner (accommodation destination) of the mobile terminal 1.
The charging authentication server 17 determines the accommodation destination HA for the mobile terminal 1 according to the instruction of the connection control server 16 and performs metered charging for the mobile terminal 1 using the high quality HA 9.
The connection control server 16 and the billing authentication server 17 may be configured as separate casings or may be configured as the same casing (connection terminal management server).

FIG. 2 is a configuration diagram showing each device of the network system.
The mobile terminal 1 includes a connection quality change instruction unit 21 and a connection request unit 22. The connection control server 16 includes a terminal management unit 61 and a terminal registration DB (Database) 62. The billing authentication server 17 includes a terminal authentication unit 71, a switching registration unit 72, a terminal connection DB 73, and an HA resolution unit 74.

  The connection quality change instruction unit 21 transmits a request (high quality request, low quality request) to change the communication quality connected between the mobile terminal 1 and the HA to the terminal management unit 61. When the mobile terminal 1 is a smartphone, the connection quality change instruction unit 21 is configured as a program (called an application or an application) that operates on the smartphone.

The terminal management unit 61 receives a request from the connection quality change instruction unit 21, stores the request content in the terminal registration DB 62, and notifies the terminal authentication unit 71 of the request content.
The terminal authentication unit 71 receives the request content from the terminal management unit 61, authenticates the requesting mobile terminal 1, and notifies the switching registration unit 72 of the request content that passed the authentication.
The switching registration unit 72 writes the switching registration for changing the communication quality in the terminal connection DB 73 based on the notified request content.

Upon receiving a response (high quality response, low quality response) to the request from the connection quality change instruction unit 21, the connection request unit 22 sends the access GW 6 to the HA after switching (high quality HA9, low if it is a high quality request). If the quality is required, a handoff to the low quality HA 8) is instructed. For this purpose, the HA resolution unit 74 inputs a list of HAs (low quality HA8, high quality HA9) to be assigned as HA after switching by an administrator or the like in advance.
The access GW 6 performs handoff instructed to the HA after switching based on the address information of the HA after switching read from the terminal connection DB 73 by the HA resolution unit 74.

  FIG. 3 is a configuration diagram showing each database (terminal registration DB 62, terminal connection DB 73) of the network system. Note that FIG. 3A and FIG. 3B show the same two databases, and the difference is the content of the record related to “terminal T001” in the first row. FIG. 3B is used in the description of a flowchart described later.

  The terminal registration DB 62 stores a terminal ID, a user ID, a set date and time, and a flag in association with each other. For example, the first line of FIG. 3A shows that the mobile terminal 1 with the terminal ID “T001” with which the user with the user ID “U001” has contracted has the connection quality “2012/3/31 12:00” This indicates that a low quality request (flag = L) has been transmitted from the change instruction unit 21. Note that flag = H is a high quality requirement.

The terminal connection DB 73 stores the HA address and authentication data in association with the four columns of the terminal registration DB 62 (terminal ID, user ID, setting date and time, and flag).
For example, the first line of FIG. 3A shows that the mobile terminal 1 with the terminal ID “T001” with which the user with the user ID “U001” has contracted has the connection quality “2012/3/31 12:00” In response to the transmission of the low quality request from the change instructing unit 21, after successfully authenticating the mobile terminal 1 with authentication data “1234” such as a password registered in advance, the address of the low quality HA 8a that satisfies the low quality requirement is moved. This indicates that the payment has been made to the terminal 1.

  FIG. 4 is a flowchart showing the main connection process of the mobile terminal.

As S11, the mobile terminal 1 starts from a state where it is accommodated in the low quality HA 8 and performs low quality data communication. At this time, the flag is “L” as shown in the terminal registration DB 62 and the terminal connection DB 73 in FIG.
As S12, the connection quality change instruction unit 21 of the mobile terminal 1 detects an opportunity to switch to high-quality data communication. The trigger is, for example, when an operation input for direct switching is received from the user of the mobile terminal 1 or when an instruction command from an application different from the connection quality change instruction unit 21 of the mobile terminal 1 is received. It is done.
Another application is, for example, a video playback application, and transmits an instruction command to the connection quality change instruction unit 21 when it detects that the currently played video frame drop or buffer amount is equal to or less than a predetermined value. .
As S <b> 13, the connection quality change instruction unit 21 of the mobile terminal 1 transmits a high quality request to the connection control server 16 in response to the trigger of S <b> 12. The high quality request is a high quality request in addition to information registered in the terminal registration DB 62 (terminal ID = own ID, user ID = own user ID, set date = current time, flag = H). A message type (for example, “ON”) is included.

In S14, the connection control server 16 receives the high quality request in S13, and switches and registers the connection destination HA of the mobile terminal 1 from the low quality HA8 to the high quality HA9 to the charging authentication server 17 (for details, see FIG. 5).
As S15, the connection control server 16 transmits a high quality response to the mobile terminal 1 as a response to S11.
As S16, the connection quality change instruction unit 21 of the mobile terminal 1 receives the high quality response of S15, and hands off its own accommodation destination HA (connection destination HA) from the low quality HA8 to the high quality HA9 for the access GW6. (For details, see FIG. 6).
As S21, the mobile terminal 1 is accommodated in the high-quality HA 9 that is the new connection destination HA, and high-quality data communication is possible, and there is no stress from the content server 12 via the high-quality HA 9 (no frames are dropped). Can receive content distribution service.

As S22, the connection quality change instruction unit 21 of the mobile terminal 1 detects an opportunity to switch to low-quality data communication. For example, when the mobile terminal 1 receives an operation input for switching directly or when the mobile terminal 1 becomes unable to communicate with the AP 3 (no longer under the control of the wireless LAN), the base station 2 Is when communication is possible.
As S23, the connection quality change instruction unit 21 of the mobile terminal 1 receives the opportunity of S22 and transmits a low quality request to the connection control server 16. The low quality request is a low quality request in addition to information registered in the terminal registration DB 62 (terminal ID = own ID, user ID = own user ID, set date = current time, flag = L). A message type (for example, “OFF”) is included.

In S24, the connection control server 16 receives the low quality request in S23, and switches and registers the connection destination HA of the mobile terminal 1 from the high quality HA9 to the low quality HA8 to the charging authentication server 17 (for details, see FIG. 5).
As S25, the connection control server 16 transmits a low quality response to the mobile terminal 1 as a response to S23.
As S26, the connection quality change instruction unit 21 of the mobile terminal 1 receives the low quality response of S25, and hands off its own accommodation destination HA (connection destination HA) from the high quality HA9 to the low quality HA8 to the access GW6. (For details, see FIG. 6).
As S27, similarly to S11, the mobile terminal 1 is accommodated in the low quality HA8 which is a new connection destination HA, and enables low quality data communication.

  FIG. 5 is a flowchart showing details of the switching registration process (S14, S24). Hereinafter, when called from S14, <switching source HA = low quality HA8, switching destination HA = high quality HA9>, and when called from S24, <switching source HA = high quality HA9, switching destination HA = Low quality HA8>.

  As S <b> 101, the terminal management unit 61 of the connection control server 16 registers the content of the request (high quality request or low quality request) related to the mobile terminal 1 from the connection quality change instruction unit 21 in the terminal registration DB 62. The registration here is a process of preparing a new record in the terminal registration DB 62 and writing out the data included in the request regarding the mobile terminal 1 to the data in the record.

  In S102, when the switching destination HA = high quality HA9, the capacity of the high quality HA9 is checked, and when there is no acceptable high quality HA9, “request impossible” is returned to the mobile terminal 1 as a high quality response. The capacity check is accepted when, for example, the number of records corresponding to the flag “H” in the terminal registration DB 62 is acquired and the number of records exceeds a predetermined capacity calculated from the processing capability of the high quality HA 9. This is a check process for determining that the operation is impossible.

As S <b> 103, the terminal management unit 61 of the connection control server 16 issues an HA switching request to the billing authentication server 17. The HA switching request includes the contents registered in S101.
As S104, the terminal authentication unit 71 authenticates whether or not the user with the user ID included in the HA switching request in S103 is valid by referring to the terminal connection DB 73. The authentication process is a process for determining that the authentication is successful when, for example, the password included in the high quality request or the low quality request matches the password registered as the authentication data in the terminal connection DB 73. When the authentication is unsuccessful, “request impossible” is returned to the mobile terminal 1 as a high-quality response.

As S <b> 105, the switching registration unit 72 of the charging authentication server 17 registers HA switching in the terminal connection DB 73. The flag sequence of the record retrieved from the terminal connection DB 73 using the <terminal ID, user ID> pair included in the HA switching request as a search key is rewritten to “H” for a high quality request (see FIG. 3 (b)). If requested, it is rewritten to “L” (see FIG. 3A).
As S106, the accounting authentication server 17 transmits an HA switching response to the connection control server 16 as a response to the HA switching request of S104. Note that various response messages such as the HA switching response include a message type (for example, “ACK”) indicating a response.

  FIG. 6 is a flowchart showing the handoff process. Hereinafter, when called from S16, <switching source HA = low quality HA8, switching destination HA = high quality HA9>, and when called from S26, <switching source HA = high quality HA9, switching destination HA = Low quality HA8>.

  As S201, the connection request unit 22 of the mobile terminal 1 transmits a connection change request to the currently connected access GW 6. In the connection change request message, the terminal ID of its own mobile terminal 1 is included, but it is not necessary to specify the changed new connection destination (switch destination HA). Instead, the switch source HA is included. Also good.

  As S202, the access GW 6 transmits an access request (Access Request) including the terminal ID in the connection change request of S201 to the charging authentication server 17.

As S <b> 203, the HA resolution unit 74 of the billing authentication server 17 executes address resolution of the switching destination HA in the terminal connection DB 73. Specifically, the HA resolution unit 74 searches the terminal connection DB 73 using the terminal ID in the access request as a search key, and assigns the address of any high quality HA 9 if the flag of the corresponding record is “H”. If the flag of the record to be performed is “L”, the address of any low quality HA 8 is assigned.
The HA resolution unit 74 assigns a high quality HA 9 having the smallest number of already assigned high quality HAs 9 as a new switching destination HA, so that the high quality HA 9 is load-distributed from a plurality of installed high quality HAs 9. The address of HA9 may be assigned.

As S204, the HA resolution unit 74 of the billing authentication server 17 transmits to the access GW 6 an access response (Access Accept) including the address of the switching destination HA whose address has been resolved in S203.
In S211, the access GW 6 transmits a terminal connection request (PMIP Registration Request) to the switching destination HA notified in S204 (low quality HA8 if flag “L”, high quality HA9 if flag “H”).
In S212, the switching destination HA executes the address resolution of the mobile terminal 1 by associating the terminal ID of the mobile terminal 1 included in the terminal connection request with the communication settings (IP address, domain name, etc.) assigned to the terminal. To do.
As S213, the switching destination HA transmits a terminal connection response (PMIP Registration Reply) including the communication settings of the mobile terminal 1 solved in S212 to the access GW 6.

As described above, the accommodation destination (low quality HA8, high quality HA9) of the mobile terminal 1 can be changed by the request from the mobile terminal 1 (high quality request, low quality request). Here, if the mobile terminal 1 is allowed to select either high quality or low quality without limitation, there is a risk that higher quality than necessary may be selected until it is not actually used.
Therefore, the billing authentication server 17 can suppress high-quality overselection by performing metered billing during the period in which the mobile terminal 1 is using the high-quality HA 9.
The charging authentication server 17 starts metered charging at the start of use of the high quality HA 9 (for example, after the processing of S204 called from S16), and at the end of use of the high quality HA 9 (for example, after the processing of S103 called from S24) ) End metered billing.

  Further, when the connection quality change instruction unit 21 detects that the mobile terminal 1 accommodated in the high quality HA 9 does not flow a packet for a predetermined time, the connection quality change instruction unit 21 disconnects the connection with the HA (low quality HA 8 or high quality HA 9). In addition, the billing authentication server 17 may be instructed to end the metered billing. As a result, it is possible to eliminate the inconvenience of the user who is charged for usage even though the high-quality communication is not used.

In the present embodiment described above, a communication setting method by a mobile communication system (a mobile phone system, a mobile terminal connected to a wireless LAN) is shown.
By sending a high quality request from the connection quality change instruction unit 21 of the mobile terminal 1, the high quality HA 9 is temporarily used only when high quality communication is required, such as when watching a video. There is a smooth communication service.
Further, on the communication carrier side, in addition to the low-quality HA 8 that can be used only with a flat-rate packet fee (without usage-based charges), the high-quality HA 9 that can be used with packet-based charging (additional charges) is provided, so that additional usage-based charging is added. Revenue can be used to increase the communication facilities of the entire core network.

In addition, this invention is not limited to an above-described Example, Various modifications are included. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described.
Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment.
Further, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment. Each of the above-described configurations, functions, processing units, processing means, and the like may be realized by hardware by designing a part or all of them with, for example, an integrated circuit.
Each of the above-described configurations, functions, and the like may be realized by software by interpreting and executing a program that realizes each function by the processor.

Information such as programs, tables, and files for realizing each function is stored in a recording device such as a memory, a hard disk, an SSD (Solid State Drive), or a recording medium such as an IC (Integrated Circuit) card, an SD card, or a DVD. be able to.
Further, the control lines and information lines indicate what is considered necessary for the explanation, and not all the control lines and information lines on the product are necessarily shown. Actually, it may be considered that almost all the components are connected to each other.

1 Mobile terminal 2 Base station 3 AP
4 Wide area network 5 ISP network 6 Access GW
7 Core NW switch 8 Low quality HA
9 High quality HA
DESCRIPTION OF SYMBOLS 10 Rear switch 11 Internet 12 Content server 15 Charge authentication network 16 Connection control server 17 Charge authentication server 21 Connection quality change instruction part 22 Connection request part 61 Terminal management part 62 Terminal registration DB
71 terminal authentication unit 72 switching registration unit 73 terminal connection DB
74 HA Resolution Department

Claims (6)

A mobile terminal that transmits a quality request for designating either a low-quality HA or a high-quality HA that provides a higher-quality communication service than the low-quality HA as an HA (Home Agent) connected to itself When,
When the quality request is received, the mobile terminal is configured including a connection terminal management server that identifies the low quality HA or the high quality HA that is a new connection destination of the mobile terminal as a switching destination HA according to the specification of the quality request,
After transmitting the quality request, the mobile terminal performs a handoff from the switching source HA, which is the current connection partner, to the switching destination HA specified by the quality request. And establishing a connection meeting the quality requirements. The connection terminal management server uses the high-quality HA during a period from the time when the quality request for designating the high-quality HA is received until the time when the quality request for designating the low-quality HA is received. 2. The mobile communication system according to claim 1, wherein pay-per-use processing corresponding to the amount is performed on the mobile terminal which is a connection partner of the high quality HA. When the mobile terminal detects that no packet is flowing for a predetermined time in a period of establishing a connection with the high quality HA, the mobile terminal disconnects the connection with the high quality HA and manages the connection terminal. The mobile communication system according to claim 2, wherein the server is instructed to end the pay-per-use. The connection terminal management server is connected to the mobile terminal different from the predetermined mobile terminal from a plurality of high quality HAs in the process of specifying the high quality HA as the switching destination HA for the predetermined mobile terminal. 2. The mobile communication system according to claim 1, wherein the high-quality HA having the smallest number of units is specified as the switching destination HA. 2. The movement according to claim 1, wherein the connection terminal management server identifies, as the switching destination HA, the low-quality HA that is band-limited or the high-quality HA that is not band-limited. Communications system. A mobile terminal that transmits a quality request for designating either a low-quality HA or a high-quality HA that provides a higher-quality communication service than the low-quality HA as an HA (Home Agent) connected to itself When,
Upon receiving the quality request, the mobile terminal is configured to include a connection terminal management server that specifies the low quality HA or the high quality HA that is a new connection destination of the mobile terminal as a switching destination HA according to the specification of the quality request Executed by the mobile communication system,
After transmitting the quality request, the mobile terminal performs a handoff from the switching source HA, which is the current connection partner, to the switching destination HA specified by the quality request. And establishing a connection that meets the quality requirements.

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