JP3657248B2 - Mobile terminal communication method and mobile terminal - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile terminal communication method and a mobile terminal, and in particular, mobile terminal communication between a mobile terminal having a plurality of communication interfaces and a plurality of counterpart terminals each having one or more communication interfaces. The present invention relates to a method and a mobile terminal used directly for its implementation.
[0002]
[Prior art]
Generally, a mobile terminal such as a notebook PC (PC: personal computer), PDA (personal digital assistant), or mobile phone is connected to a wired LAN (LAN: local area network), wireless LAN, PHS (personal handyphone system), Bluetooth ( When a communication interface (such as Bluetooth) is connected to communicate with a remote terminal on an arbitrary network, it is necessary to design the system of the required communication network with due consideration for the characteristics of the mobile terminal. .
[0003]
FIG. 11 is a diagram for explaining a conventional mobile terminal communication method using a mobile terminal having a single communication interface (see, for example, Japanese Patent Laid-Open No. 2001-285359).
[0004]
As shown in the figure, when a mobile terminal M having a single communication interface MI communicates with a counterpart terminal T to which a counterpart address A is assigned, first, a home address HA assigned to the mobile terminal M is assigned. And the care-of-address CoA acquired from the network segment (not shown) at its current destination, and notifies the home agent AG of the state of connection (home address HA → care-of-address CoA).
[0005]
When a packet is transmitted from the partner terminal T to the home address HA of the mobile terminal M, the home agent AG transfers the packet addressed to the home address HA to the care of address CoA of the mobile terminal M. Accordingly, the mobile terminal M notifies the partner terminal T of the connection state.
[0006]
On the other hand, FIG. 12 is a diagram for explaining a conventional mobile terminal communication method by a mobile terminal having a plurality of communication interfaces (see, for example, Japanese Patent Laid-Open No. 11-355322).
[0007]
As shown in the figure, when a mobile terminal M having a plurality (two) of communication interfaces MI1 and MI2 performs communication with a partner terminal T to which a partner address A is assigned, first, the mobile terminal M is assigned to itself. And the care-of address CoA2 in the second communication interface acquired from the network segment (not shown) in its current destination, and the state of the connection (home address HA → care Of the address CoA2) to the home agent AG.
[0008]
When a packet is transmitted from the counterpart terminal T to the home address HA of the mobile terminal M, the home agent AG transfers the packet addressed to the home address HA to the care-of address CoA2 of the mobile terminal M. To do.
[0009]
[Problems to be solved by the invention]
By the way, when it is assumed that the mobile terminal M communicates with a plurality of partner terminals T, the conventional mobile terminal communication method has the following problems.
[0010]
That is, the mobile terminal M cannot connect the communication interface MI used for packet transmission to each partner terminal T that is to communicate. This is because the conventional mobile terminal M does not have a means for managing the communication interface MI used for transmission for each counterpart terminal T (see FIG. 11).
[0011]
In addition, the mobile terminal M cannot connect the communication interface MI used to receive the packet for each partner terminal T that is to communicate. This is because the conventional mobile terminal M does not have means for managing the communication interface MI used for reception and notifying each partner terminal T of each partner terminal T (see FIG. 11).
[0012]
Further, when the mobile terminal M includes a plurality of communication interfaces MI1 and MI2, the mobile terminal M cannot accommodate different partner terminals T in the communication interfaces MI1 and MI2 at the same time and perform communication. This is because the mobile terminal M can manage only one connection state between the home address HA and the care-of address CoA2 (see FIG. 12).
[0013]
Here, the main objects to be solved by the present invention are as follows.
[0014]
That is, a first object of the present invention is to provide a mobile terminal communication method and mobile terminal capable of individually managing a plurality of communication interfaces used for packet transmission and reception for each counterpart terminal that is to communicate. It is to be provided.
[0015]
The second object of the present invention is to provide a mobile terminal communication method and mobile terminal capable of simultaneously communicating with a plurality of counterpart terminals.
[0016]
Other objects of the present invention will become apparent from the specification, drawings, and particularly the description of each claim.
[0017]
[Means for Solving the Problems]
First, in the method of the present invention, the mobile terminal generates, for each type of each partner terminal, transmission combination information that defines the type of each communication interface to be applied when transmitting a packet to each partner terminal. Generating reception combination information that defines the type of each communication interface to be applied when receiving a packet from each partner terminal, and each partner terminal based on the generated transmission combination information and reception combination information. A characteristic configuration technique is adopted in which each communication interface to be applied to the required packet transmission to the mobile station and the required packet reception from each counterpart terminal is individually determined.
[0018]
On the other hand, in the device according to the present invention, the mobile terminal generates, for each type of each partner terminal, transmission combination information that defines the type of each communication interface to be applied when transmitting a packet to each partner terminal. Based on the generated combined information and received combined information, combined information generating means for generating received combined information that defines the type of each communication interface to be applied when receiving packets from each counterpart terminal, Each is provided with a characteristic configuration means that includes interface determination means for individually determining each communication interface to be applied to required packet transmission to each counterpart terminal and reception of the required packet from each counterpart terminal.
[0019]
More specifically, in order to solve the problem, the present invention aims to achieve the above-mentioned object by adopting a novel characteristic configuration method or means ranging from the superordinate concept listed below to the subordinate concept. Is done.
[0020]
That is, the first feature of the method of the present invention is a communication method between a mobile terminal having a plurality of communication interfaces and a plurality of counterpart terminals each having one or more communication interfaces, In the mobile terminal, a plurality of care-of addresses to be used in each of its own communication interfaces are obtained from the network segment at its current destination, and each of the plurality of counterpart terminals attempting to communicate with each other Obtaining a plurality of partner addresses respectively used by the partner terminals, and receiving packets from each partner terminal for each type of each partner terminal based on the acquired plurality of care-of addresses and the plurality of partner addresses. In this case, the received connection information is defined by defining the type of each communication interface to be applied. And determining each communication interface to be applied to the required packet reception from each partner terminal based on the generated reception combination information, and receiving the required packet from each partner terminal. Prior to each of the counterpart terminals, the reception combination information generated by itself is notified to each of the counterpart terminals, to each of the communication interfaces of the mobile terminal specified by the reception combination information. The configuration of the mobile terminal communication method is such that packet transmission is performed.
[0021]
A second feature of the method according to the present invention is a communication method between a mobile terminal having a plurality of communication interfaces and a plurality of counterpart terminals each having one or more communication interfaces, In the terminal, a plurality of care-of addresses to be used in each communication interface are acquired from the network segment in the current destination of the terminal, and each of the partner terminals from the plurality of partner terminals trying to communicate is acquired. In each of the types of each partner terminal, when sending a packet to each partner terminal, by using the plurality of care-of addresses and the plurality of partner addresses respectively obtained in each Generates transmission coupling information that defines the type of each communication interface to be applied And generating reception combination information that defines the type of each communication interface to be applied when receiving packets from each counterpart terminal, and based on the generated transmission combination information and reception combination information, Respectively determine each communication interface to be applied to the required packet transmission to each counterpart terminal and the required packet reception from each counterpart terminal, and the required packet reception from each counterpart terminal Prior to the notification, the reception combination information generated by itself is notified to each counterpart terminal so that each of the counterpart terminals is directed to each communication interface of the mobile terminal specified by the reception combination information. Thus, the configuration of the mobile terminal communication method in which packet transmission is performed is employed.
[0022]
On the other hand, the first feature of the device of the present invention is a mobile terminal having a plurality of communication interfaces so that communication can be performed with a plurality of counterpart terminals each having one or more communication interfaces. Acquire a plurality of care-of addresses to be used for each communication interface from the network segment at its current destination, and use it at each partner terminal from the plurality of partner terminals to communicate with each other. Each partner terminal for each type of each partner terminal by means of an address acquiring unit for acquiring a plurality of partner addresses, and the plurality of care-of addresses and the plurality of partner addresses acquired by the address acquiring unit. Define the type of each communication interface to be applied when receiving packets from A combination information generating means for generating the received combination information, and each communication interface to be applied to reception of the required packet from each counterpart terminal based on the reception combination information generated by the combination information generation means. So that the packet transmission is performed from each partner terminal to each of the communication interfaces of its own specified by the reception combination information generated by the combination information generation unit. Prior to the reception of the required packet from each counterpart terminal, the mobile terminal is configured to have a combined information notification means for notifying each of the counterpart terminals of the received combined information.
[0023]
The second feature of the device of the present invention is that in a mobile terminal having a plurality of communication interfaces, a mobile terminal having a plurality of communication interfaces so that communication is performed with a plurality of counterpart terminals each having one or more communication interfaces. A plurality of care-of addresses to be used for each of its own communication interfaces are obtained from the network segment at the current destination, and are used by each of the partner terminals from the plurality of partner terminals to be communicated. Address acquisition means for acquiring a plurality of addressees,
The type of each communication interface to be applied when transmitting a packet to each partner terminal, for each type of each partner terminal, based on the plurality of care-of addresses and the plurality of partner addresses acquired by the address acquiring unit. A combination information generating means for generating reception combination information that defines a type of each communication interface to be applied when receiving a packet from each counterpart terminal; Based on the transmission combination information and the reception combination information generated by the combination information generation means, respectively, it should be applied to the required packet transmission to each counterpart terminal and the required packet reception from each counterpart terminal, respectively. Interface determining means for individually determining each communication interface; and From each of the counterpart terminals so that the packet transmission is performed toward each of the communication interfaces specified by the reception combination information generated by the combination information generation unit. In addition, the mobile terminal has a configuration that includes combined information notification means for notifying each of the counterpart terminals of the received combined information.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the accompanying drawings. First, the principle of the present invention will be described, and subsequently, an apparatus example of the present invention and an example of a method corresponding thereto will be described.
[0029]
(principle)
First, FIG. 1 is a conceptual diagram for explaining the principle of the present invention.
[0030]
As shown in the figure, in the present invention, assigned to the first and second communication interfaces MI1 and MI2 (wired LAN, wireless LAN, PHS, Bluetooth, etc.) in the mobile terminal M (notebook PC, PDA, mobile phone, etc.) The mobile terminal M uses the received care-of addresses CoA1 and CoA2 and the partner addresses A1 and A2 assigned to the first and second partner terminals T1 and T2 to transmit packets to any partner terminals T1 and T2. Each communication interface MI1 and MI2 to be used, and each communication interface MI1 and MI2 used by the mobile terminal M to receive packets from arbitrary counterpart terminals T1 and T2, have a function of managing the coupling state. It is characterized by that.
[0031]
Here, the above combination is the type of the first and second communication interfaces MI1 and MI2 included in the mobile terminal M, the type of network to which the first and second communication interfaces MI1 and MI2 are connected, or This is performed without depending on the types of the first and second counterpart terminals T1 and T2, and can be changed at an arbitrary timing without terminating the ongoing communication.
[0032]
Therefore, the communication interfaces MI1 and MI2 used for transmission of packets to the counterpart terminals T1 and T2 and reception of packets from the counterpart terminals T1 and T2 can be changed at an arbitrary timing.
[0033]
Further, the above combination can be managed for each of the partner terminals T1 and T2, and can be individually set for each transmission and reception of the packet. In addition, the combination is individually notified to the partner terminals T1 and T2. Therefore, the mobile terminal M can use a plurality of communication interfaces MI1 and MI2 at the same time, and communicates with a plurality of partner terminals (T1 and T2) through separate communication interfaces (MI1 and MI2). be able to.
[0034]
(Example of equipment)
Next, FIG. 2 is a figure which shows the structure of the mobile terminal which concerns on the example of an apparatus of this invention with the structure of a some other party terminal.
[0035]
As shown in the figure, the mobile terminal Ma according to this device example is provided for each of the first to nth communication interfaces MI1 to MIn used for transmission of packets to the first to nth counterpart terminals Ta1 to Tan, and Each of the first to nth communication interfaces MI1 to MIn used for receiving packets from the first to nth counterpart terminals Ta1 to Tan includes a coupling control unit 1 that manages the coupling.
[0036]
The coupling control unit 1 defines, for each type of each partner terminal Ta1 to Tan, transmission coupling information that defines the type of each communication interface MI1 to Min that should be applied when transmitting packets to each partner terminal Ta1 to Tan. And an interface combining unit 11 (referred to as “the present invention”) that generates reception combination information that defines the types of communication interfaces MI1 to MIn that should be applied when receiving packets from the counterpart terminals Ta1 to Tan. A combined information generating means)).
[0037]
The coupling control unit 1 stores transmission coupling information generated by the interface coupling unit 11, and also transmits a transmission coupling information storage unit 12 configured to set the first to nth communication interfaces MI1 to MIn. The reception coupling information generated by the interface coupling unit 11 is temporarily stored, and each communication interface MI1 to MIn specified by the reception coupling information generated by the interface coupling unit 11 is received from each partner terminal Ta1 to Tan. In order to transmit a packet toward the terminal, prior to receiving the required packet from each of the counterpart terminals Ta1 to Tan, a reception combination information notification unit 13 (not shown) that notifies the reception combination information to each of the counterpart terminals Ta1 to Tan. "Combined information notifying means") according to the invention.
[0038]
Here, the reception coupling information notified from the plurality of communication interfaces MI1 to MIn of the mobile terminal Ma to the counterpart terminals Ta1 to Tan is the communication interfaces TI1 to TI1 set to the counterpart terminals Ta1 to Tan, respectively. Received by TIn (“one or more communication interfaces” according to the present invention, which does not prevent all or a part of each partner terminal from having a plurality of communication interfaces), and further within each partner terminal Ta1 to Tan. The data is stored in the reception coupling information storage units 31 to 3n set in the coupling control units 21 to 2n.
[0039]
With the above configuration, the mobile terminal Ma sets the first transmission coupling TB1 and the first reception coupling RB1 with the illustrated first counterpart terminal Ta1, and the n-th counterpart terminal Tan. N-th transmission coupling TBn and n-th reception coupling RBn.
[0040]
Next, FIG. 3 is a diagram for explaining an interface coupling procedure performed by the interface coupling unit 11 shown in FIG.
[0041]
As shown in the figure, the interface combining unit 11 generates each of the communication interfaces MI1 to MIn from the network segment (not shown) at the current destination of the mobile terminal Ma when generating the transmission combination information and the reception combination information. A plurality of care-of addresses CoA1 to CoAn to be used are acquired and given to each communication interface TI1 to TIn of each partner terminal Ta1 to Tan from a plurality of partner terminals Ta1 to Tan trying to communicate. A plurality of (individual) partner addresses A1 to An are acquired ("address acquisition means" in the present invention).
[0042]
And the interface coupling | bond part 11 couple | bonds the acquired care of address CoA1-CoAn and the other party address A1-An for every other party terminal Ta1-Tan in the direction of transmission and reception seeing from the mobile terminal Ma. .
[0043]
Next, FIG. 4 is a diagram illustrating a functional configuration of a route control unit included in the connection control unit 1 in the mobile terminal Ma illustrated in FIG.
[0044]
As shown in the figure, a route control table 15 is set in the route control unit 14, and the transmission control information storage unit 12 receives the control from the transmission connection information storage unit 12. The transmission combination information stored in is stored.
[0045]
Here, when the mobile terminal Ma transmits a packet to the counterpart terminals Ta1 to Tan, the transmission packet PK1 passes through the route control unit 14 in the IP layer (IP: Internet protocol), and the route control unit 14 In accordance with the contents of the routing control table 15, the mobile terminal Ma determines communication interfaces TI1 to TIn to be used for packet transmission, and transmits them through the determined communication interfaces TI1 to TIn.
[0046]
Next, FIG. 5 is a diagram showing a functional configuration of a destination address generation unit included in the combination control unit 21 in the first counterpart terminal Ta1 shown in FIG.
[0047]
As shown in the figure, a destination address table 33 is set in the destination address generation unit 32, and the destination address table 33 is controlled by the reception combination information storage unit 31 to receive the reception combination information storage unit. The reception combination information stored in 31 is written.
[0048]
Here, when the first counterpart terminal Ta1 transmits a packet to the mobile terminal Ma, the transmission packet PK2 passes through the destination address generation unit 32 in the IP layer, and the destination address in the destination address generation unit 32 In accordance with the contents of the table 33, the destination address of the communication interfaces TI1 to TIn (that is, the care-of addresses CoA1 to CoAn) that the mobile terminal Ma should use to receive the packet is determined, and the determined destination address is given to the packet header Has been sent.
[0049]
(Example method)
Subsequently, a specific example of the mobile terminal communication method implemented by the apparatus example configured as described above will be described.
[0050]
First, FIG. 6 is a sequence chart for explaining a transmission combining operation in the combining control unit 1 in the mobile terminal Ma shown in FIG.
[0051]
As shown in the figure, in the transmission coupling operation in the mobile terminal Ma, first, the interface coupling unit 11 in the coupling control unit 1 generates transmission coupling information and stores the transmission coupling information storage request in the transmission coupling information storage. This is started by performing the operation on the unit 12.
[0052]
Next, the transmission coupling information storage unit 12 continues to store the transmission coupling information given from the interface coupling unit 11 until a new storage request arrives, and performs control to write the transmission coupling information into the path control table 15. Do.
[0053]
At this time, the transmission packet PK1 transmitted from the mobile terminal Ma makes a route control request to the route control unit 14, and the route control unit 14 refers to the route control table 15 along with this request. The corresponding reference result is acquired from the route control table 15.
[0054]
Next, the path control unit 14 determines the communication interfaces MI1 to MIn based on the reference result acquired from the path control table 15. If the determination is the first communication interface MI1, the first control interface MI1 is used. The transmission packet PK1 is delivered to the communication interface MI1.
[0055]
Then, the first communication interface MI1 transmits the required transmission packet PK1 to the corresponding counterpart terminals Ta1 to Tan.
[0056]
Next, FIG. 7 is a sequence chart for explaining the reception combining operation in the combining control unit 1 in the mobile terminal Ma shown in FIG.
[0057]
As shown in the figure, in the reception coupling operation in the mobile terminal Ma, first, the interface coupling unit 11 in the coupling control unit 1 generates reception coupling information and sends a reception coupling information notification request to the reception coupling information notification. This is started by performing the operation on the unit 13.
[0058]
Next, the reception coupling information notification unit 13 receives the notification request from the interface coupling unit 11, generates a notification packet from the reception coupling information given from the interface coupling unit 11, and sets this notification packet as the transmission packet PK1. .
[0059]
At this time, the transmission packet PK1 transmitted from the mobile terminal Ma makes a route control request to the route control unit 14, and the route control unit 14 refers to the route control table 15 along with this request. A corresponding reference result is acquired from the route control table 15.
[0060]
Next, the path control unit 14 determines the communication interfaces MI1 to MIn based on the reference result acquired from the path control table 15, and if the determination is the first communication interface MI1, the first communication interface MI1 is determined. The transmission packet PK1 is delivered to the communication interface MI1.
[0061]
Then, the first communication interface MI1 transmits the required transmission packet PK1 to the corresponding counterpart terminals Ta1 to Tan.
[0062]
Next, FIG. 8 is a sequence chart for explaining the reception coupling operation in the coupling control unit 21 in the first counterpart terminal Ta1 shown in FIG.
[0063]
As shown in the figure, the reception combining operation in the first mobile terminal Ta1 first receives a transmission packet (PK1 notification packet) including reception combination information from the mobile terminal Ma at the corresponding communication interface TI1. Then, the communication interface TI1 starts by making a request for storing the reception combination information included in the transmission packet to the reception combination information storage unit 31.
[0064]
Next, the reception combination information storage unit 31 continues to store the reception combination information included in the transmission packet until a new storage request arrives, and performs control to write the reception combination information in the destination address table 33.
[0065]
At this time, the transmission packet PK2 transmitted from the first counterpart terminal Ta1 requests the destination address generation unit 32 to generate a destination address, and accordingly, the destination address generation unit 32 stores the destination address table 33 in the destination address table 33. Reference is performed and the corresponding reference result is obtained from the destination address table 33.
[0066]
Next, the destination address generation unit 32 writes the destination address in the transmission packet PK2 based on the reference result acquired from the destination address table 33 (adds the destination address to the packet header), and sends the transmission packet PK2 to the communication interface TI1. Hand over to.
[0067]
Then, the communication interface TI1 transmits a required transmission packet PK2 to the corresponding mobile terminal Ma.
[0068]
As described above, according to this method example, the transmission combination information and the reception combination information are individually stored in the transmission combination information storage unit 12 in the mobile terminal Ma and the reception combination information storage unit 31 in the counterpart terminals Ta1 to Tan, respectively. Since the mobile terminal Ma uses different communication interfaces MI1 to MIn for packet transmission and packet reception, the mobile terminal Ma uses different communication interfaces MI1 to MIn for each communication terminal Ta1 to Tan. It becomes possible to communicate using.
[0069]
【Example】
Next, an example in which the present invention is applied to a mobile terminal having an IPv6 and mobile IPv6 communication function will be described.
[0070]
First, FIG. 9 is a diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention.
[0071]
As shown in the figure, in the mobile terminal Mb according to this embodiment, transmission coupling is set to the routing table 16 provided in the IPv6 function on the mobile terminal Mb. That is, in the routing table 16, the communication interface names MI1, MI2,..., MIn of the mobile terminal Mb used for transmission are written based on the addresses (destination addresses) A1, A2,. ing.
[0072]
Here, when transmitting the transmission packet PK3, the communication interface MI1, obtained when referring to the routing table 16 with the addresses (destination addresses) A1, A2,... MI2,..., MIn are selected, thereby realizing the transmission coupling setting.
[0073]
In addition, in order to use different communication interfaces MI1, MI2,..., MIn for each partner terminal for packet transmission, a routing table 16 having appropriate contents is written for each partner terminal. In other words, the addresses (destination addresses) A1, A2,..., An and the communication interface names MI1, MI2,. It has become.
[0074]
At this time, the transmission packet PK3 indicates whether or not the content having the same address exists in the routing table 16 based on the addresses (destination addresses) A1, A2,..., An of the counterpart terminals assigned to the transmission packet PK3. If there is a matching content, the communication interfaces MI1, MI2,..., MIn (any one) possessed by the content are acquired, and a required packet is transmitted from the acquired communication interface.
[0075]
Note that the communication interface names MI1, MI2,..., MIn of the mobile terminal Mb used for transmission can be written in the routing table 16 for each counterpart terminal. It is possible to set communication interfaces MI1, MI2,..., MIn used for arbitrary packet transmission for the counterpart terminal.
[0076]
Further, when setting the transmission coupling using the routing table 16, the writing to the routing table 16 is performed by using a host route (Host Route), a default route (Default Route), or the like that is a function of the routing table 16. Further, in addition to the routing table 16, it is also possible to apply a transmission coupling having a function equivalent to this in order to perform a required transmission coupling.
[0077]
Next, FIG. 10 is a diagram illustrating a configuration of a first counterpart terminal applied to the mobile terminal Mb according to the embodiment of the present invention.
[0078]
As shown in the figure, in the first partner terminal Tb1, notification and storage of reception binding, notification of reception binding information using a binding update packet, and binding cache (Binding Cache) are respectively provided. This is realized by storing the received coupling information used (binding cache reception coupling information storage unit 34).
[0079]
That is, the mobile terminal Mb uses the address of the communication interface used for packet reception at the mobile terminal Mb as the care-of address of the mobile terminal Mb, and notifies this to the counterpart terminal Tb1 using the binding update packet. To do.
[0080]
On the other hand, the partner terminal Tb1 stores the notified care-of address in the binding cache reception coupling information storage unit 34, and the mobile IPv6 communication function of the partner terminal Tb1 is the contents of the binding cache reception coupling information storage unit 34. The destination address addressed to the mobile terminal Mb is determined from the care-of address.
[0081]
As a result, the counterpart terminal Tb1 transmits a required transmission packet PK4 to the communication interface notified from the mobile terminal Mb, thereby realizing reception coupling setting (notification and storage of reception coupling information).
[0082]
In addition, in order to use different communication interfaces MI1, MI2,..., MIn for each partner terminal for receiving a packet, a care-of address is generated for each partner terminal and notified to the partner terminal Tb1 using a binding update packet. To. That is, the addresses of the communication interfaces MI1, MI2,..., MIn used for reception of the mobile terminal Mb by the number of counterpart terminals are notified to the counterpart terminal Tb1 as a care-of address of the mobile terminal Mb using a binding update packet. Is done.
[0083]
Each counterpart terminal Tb1 stores the notified care-of address in the binding cache reception combination information storage unit 34, and the mobile IPv6 communication function of the counterpart terminal Tb1 is the binding cache reception combination information storage unit 34. Based on the contents of the address, the destination address addressed to the mobile terminal Mb is determined from the care-of address.
[0084]
As a result, each counterpart terminal Tb1 transmits the required transmission packet PK4 toward the communication interface notified from the mobile terminal Mb.
[0085]
Since the binding update packet can be notified for each partner terminal, a communication interface used for arbitrary reception can be set for any partner terminal.
[0086]
In addition to using the above-described binding update packet and binding cache reception combination information storage unit 34, notification having the same function as these may be applied to notification and storage of the reception combination information.
[0087]
As described above, according to this embodiment, the mobile terminal Mb can create the transmission combination information and the reception combination information and notify the reception combination information at an arbitrary timing, and the partner terminal Tb1 By explicitly requesting the binding update packet from the mobile terminal Mb, the mobile terminal Mb can request the creation of the transmission coupling information and the reception coupling information and the notification of the reception coupling information at an arbitrary timing. become.
[0088]
Furthermore, according to the present embodiment, when the mobile terminal Mb creates transmission coupling information and reception coupling information, the type of application with which the mobile terminal Mb and the counterpart terminal Tb1 communicate, and the communication interface MI1, the mobile terminal Mb Select the most appropriate connection according to the state of MI2, ..., MIn, the state of the network to which these communication interfaces MI1, MI2, ..., MIn are connected, or an instruction from the user of the mobile terminal Mb or the partner terminal Tb1, Can be created.
[0089]
In particular, when selecting and creating the optimum connection in the mobile terminal Mb in accordance with an instruction from the user or the counterpart terminal Tb1, for example, “power consumption” of the communication interfaces MI1, MI2,. By considering factors such as the “bandwidth” of the network to which the communication interfaces MI1, MI2,..., MIn are connected, or the “utilization fee (provider fee)” of the network, It can be set according to the network usage policy at the user of the mobile terminal Mb or the partner terminal Tb1.
[0090]
As described above, the embodiments of the present invention have been described with reference to the apparatus examples and the corresponding method examples, and more specific examples have been described. However, the present invention is not limited to the above-described means and It is not limited only to the technique, and can be appropriately changed within a range having the effects described later.
[0091]
【The invention's effect】
As described above in detail, according to the present invention, each partner terminal that is to communicate with each other has the binding information of the communication interface used for packet transmission. It is possible to individually determine a communication interface to be used when performing packet transmission to the terminal.
[0092]
In addition, according to the present invention, each partner terminal that is to communicate with each other has the binding information of the communication interface used to receive the packet and notifies the partner terminal of the binding information. Makes it possible to individually determine a communication interface to be used when receiving a packet from a counterpart terminal.
[0093]
Furthermore, according to the present invention, each partner terminal that is to communicate with each other is individually provided with a combination of communication interfaces used for packet transmission / reception with the partner terminal, so that a plurality of partner terminals can be connected to a plurality of communication interfaces. Since the allocation is made, it is possible to distribute the load on the communication interfaces.
[0094]
Furthermore, according to the present invention, when a part of a plurality of communication interfaces included in a mobile terminal becomes unusable, the continuity of communication is ensured by switching to another usable communication interface. It becomes possible.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram for explaining the principle of the present invention.
FIG. 2 is a diagram showing a configuration of a mobile terminal according to an example of the apparatus of the present invention together with configurations of a plurality of counterpart terminals.
FIG. 3 is a diagram for explaining a procedure of interface coupling performed by the interface coupling unit shown in FIG. 2;
4 is a diagram illustrating a functional configuration of a route control unit included in a connection control unit in the mobile terminal illustrated in FIG. 2;
FIG. 5 is a diagram showing a functional configuration of a destination address generation unit included in a combination control unit in the first counterpart terminal shown in FIG. 2;
6 is a sequence chart for explaining a transmission combining operation in a combining control unit in the mobile terminal shown in FIG.
FIG. 7 is a sequence chart for explaining a reception combining operation in a combining control unit in the mobile terminal shown in FIG.
8 is a sequence chart for explaining a reception coupling operation in a coupling control unit in the first counterpart terminal shown in FIG.
FIG. 9 is a diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention.
FIG. 10 is a diagram illustrating a configuration of a first counterpart terminal applied to a mobile terminal according to an embodiment of the present invention.
FIG. 11 is a diagram for explaining a conventional mobile terminal communication method by a mobile terminal having a single communication interface;
FIG. 12 is a diagram for explaining a conventional mobile terminal communication method by a mobile terminal having a plurality of communication interfaces.
[Explanation of symbols]
A, A1 to An ... Counter address
AG ... Home Agent
CoA, CoA1 to CoAn ... Care of Address
M, Ma, Mb ... mobile terminal
MI, MI1 to MIn ... communication interface (in mobile terminal)
PK1 to PK4 ... Transmission packet
RB1, RBn: Receive coupling
T, T1, T2, Ta1 to Tan, Tb1, ... partner terminal
TB1, TBn ... transmission coupling
TI1 to TIn ... Communication interface (inside terminal)
1 ... Coupling control unit (in mobile terminal)
11 ... Interface coupling part
12 ... Transmission coupling information storage unit
13. Reception combined information notification unit
14: Route control unit
15 ... Routing control table
16 ... Routing table
21 to 2n: Coupling control unit (in partner terminal)
31. Reception coupling information storage unit
32 ... Destination address generator
33 ... Destination address table
34 ... Binding cache reception coupling information storage unit

Claims (4)

A communication method between a mobile terminal having a plurality of communication interfaces and a plurality of counterpart terminals each having one or more communication interfaces,
In the mobile terminal,
Acquire a plurality of care-of addresses to be used for each communication interface from the network segment at its current destination, and use it at each partner terminal from the plurality of partner terminals to communicate with each other. Get multiple addresses
The plurality of care-of addresses and the plurality of partner addresses acquired thereby define, for each type of each partner terminal, the type of each communication interface to be applied when receiving a packet from each partner terminal. Generate incoming binding information,
Based on the generated reception combination information, determine each communication interface to be applied to the required packet reception from each counterpart terminal,
Prior to receiving the required packet from each counterpart terminal, the reception combination information generated by itself is notified to each counterpart terminal, so that each of the counterpart terminals is identified by the reception combination information. Packet transmission to each communication interface of the mobile terminal
A mobile terminal communication method. A communication method between a mobile terminal having a plurality of communication interfaces and a plurality of counterpart terminals each having one or more communication interfaces,
In the mobile terminal,
Acquire a plurality of care-of addresses to be used for each communication interface from the network segment at its current destination, and use it at each partner terminal from the plurality of partner terminals to communicate with each other. Get multiple addresses
The plurality of care-of addresses and the plurality of partner addresses acquired thereby define, for each type of each partner terminal, the type of each communication interface to be applied when transmitting a packet to each partner terminal. Generating transmission coupling information, and generating reception coupling information that defines the type of each communication interface to be applied when receiving packets from each counterpart terminal,
Based on the generated transmission combination information and the reception combination information, the communication interfaces to be applied to the required packet transmission to each counterpart terminal and the required packet reception from each counterpart terminal, respectively. Decide individually,
Prior to receiving the required packet from each counterpart terminal, the reception combination information generated by itself is notified to each counterpart terminal, so that each of the counterpart terminals is identified by the reception combination information. Packet transmission to each communication interface of the mobile terminal
A mobile terminal communication method. In a mobile terminal having a plurality of communication interfaces so that communication is performed with a plurality of counterpart terminals each having one or more communication interfaces,
Acquire a plurality of care-of addresses to be used for each communication interface from the network segment at its current destination, and use it at each partner terminal from the plurality of partner terminals to communicate with each other. Address acquisition means for acquiring a plurality of addressees,
The type of each communication interface to be applied when receiving a packet from each partner terminal, for each type of each partner terminal, based on the plurality of care-of addresses and the plurality of partner addresses acquired by the address acquisition means A combined information generating means for generating received combined information by defining
Interface determining means for determining each communication interface to be applied to reception of the required packet from each counterpart terminal based on the received combined information generated by the combined information generating means;
From each of the counterpart terminals, the required transmission from each of the counterpart terminals is performed so that packet transmission is performed toward each of the communication interfaces of its own specified by the reception combination information generated by the combination information generation unit. Prior to packet reception, each has a combined information notification means for notifying the reception combined information to each counterpart terminal,
A mobile terminal characterized by that. In a mobile terminal having a plurality of communication interfaces so that communication is performed with a plurality of counterpart terminals each having one or more communication interfaces,
Acquire a plurality of care-of addresses to be used for each communication interface from the network segment at its current destination, and use it at each partner terminal from the plurality of partner terminals to communicate with each other. Address acquisition means for acquiring a plurality of addressees,
The type of each communication interface to be applied when transmitting a packet to each partner terminal, for each type of each partner terminal, based on the plurality of care-of addresses and the plurality of partner addresses acquired by the address acquiring unit. And a combined information generating means for generating received combined information that defines the type of each communication interface to be applied when receiving a packet from each counterpart terminal,
Based on the transmission combination information and the reception combination information generated by the combination information generation means, respectively, it applies to the required packet transmission to each counterpart terminal and the required packet reception from each counterpart terminal. Interface determining means for individually determining each communication interface to be
From each of the counterpart terminals, the required transmission from each of the counterpart terminals is performed so that packet transmission is performed toward each of the communication interfaces of its own specified by the reception combination information generated by the combination information generation unit. Prior to packet reception, each has a combined information notification means for notifying the reception combined information to each counterpart terminal,
A mobile terminal characterized by that.

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