JP3583751B2 - Packet route control method, packet route control system, route control device, and switching device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a packet route control method, a packet route control system, a route control device, and a switching device for controlling a route of a packet in packet communication.
[0002]
[Prior art]
In conventional packet communication, when data is transmitted from a transmission source to a transmission destination, the data is divided into packet units, and routing is performed for each packet before transmission. Therefore, the destination may receive the packet in a different order from the transmission order from the source, depending on the difference in the transmitted route. Therefore, it is necessary to implement a protocol such as TCP in order to guarantee the order control performed between the transmission source and the transmission destination.
[0003]
[Problems to be solved by the invention]
However, when a protocol such as TCP is implemented as described above, the processing becomes complicated, so that there is a problem that a processing load for each data is large and an improvement in throughput is hindered.
[0004]
Accordingly, the present invention has been made in view of such circumstances, and a packet route control method, a packet route control system, a route control device, and a switching device that can guarantee the order of packets by simple processing. The purpose is to provide.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, a packet path control method according to the present invention, PaSource of the packetIs a portable terminal, The destination of the packet,Portable terminalA plurality of switching devices for transferring packets between a destination and a destination; andPortable terminalA packet route control method executed in a packet route control system including a route control device that controls an entire route of a packet from a destination to a destination, wherein the route control device includes:Portable terminalReceiving the packet transmitted from the, the path control device, from the received packet,Portable terminalAn acquisition step of acquiring both or one of the transmission source information for identifying the transmission destination information and the transmission destination information for identifying the transmission destination, and the path control device uniquely corresponds to the acquired information based on a predetermined rule. A determining step of determining one overall route, and the route control device performing overall route information indicating one overall route;, And path control device information for identifying the path control deviceStoring the packet in the header of the packet, and the route control deviceAnd path control deviceTransmitting the packet in which the packet is stored in accordance with the general path information, andAnd path control deviceAnd receiving the packet in which the packet is stored in accordance with the overall path information.
[0006]
senderIs a portable terminalWhen the data is transmitted from to the destination, the data is divided and transmitted in packet units. At this time, each packet is transmitted by one whole path uniquely corresponding to both or one of the source information and the destination information. , So the series of packets isPortable terminalTo the destination via the same overall route. Therefore, at the destination,Portable terminal, The packets can be received in the same order as the transmission order, that is, it is possible to guarantee the order of a series of packets.In addition, the route control device stores the route control device information for identifying the route control device in the header of the packet together with the whole route information indicating one whole route. For this reason, such a route control device is connected to a packet processing module ( Packet Processing Module , Hereinafter referred to as “PPM”), even when the portable terminal that is the source moves during data transmission and the PPM for transferring the packet is changed due to handover, the different PPMs are used. A packet is transmitted through one entire route, and the PPM that has transferred each packet can be specified from the route control device information stored in the header. As a result, the transmission destination can receive packets in the same order as the transmission order from the portable terminal for each PPM, and the order of a series of packets is guaranteed.
[0009]
Furthermore, in order to achieve the above object, a packet route control method according to the present invention, PaSource of the packetIs a portable terminal, The destination of the packet, andPortable terminalA packet path control method executed in a packet path control system including a plurality of switching devices for transferring a packet between the destination and a destination, wherein the switching device comprises:Portable terminalAnd a receiving step of receiving the packet transmitted from the switching device, from the received packet,Portable terminalAn acquisition step of acquiring both or one of transmission source information for identifying the transmission destination and transmission destination information for identifying the transmission destination; and an exchange device that uniquely corresponds to the acquired information based on a predetermined rule. And a transmission step in which the switching device transmits the received packet according to one path.However, when the switching device is a packet processing module, the switching device stores switching device information for identifying the switching device in a packet header before the transmission process.The feature is to do.
[0010]
According to such a packet route control method, the sourceIs a portable terminalFor each packet transmitted from the switch to the destination, one path uniquely corresponding to both or one of the source information and the destination information is determined in the switching apparatus that has received the packet, and the path between the switching apparatuses is determined. Is sent according to the route ofPortable terminalTo the destination via the same route. Therefore, at the destination,Portable terminal, Packets can be received in the same order as the transmission order from the, and it is possible to guarantee the order of a series of packets. Each switching device may determine one path based on the same predetermined rule, or may determine one path based on different predetermined rules.In addition, when the switching device is a packet processing module, that is, a PPM, the switching device stores switching device information for identifying the switching device in the header of the packet before transmitting the packet. Therefore, even when the portable terminal that is the transmission source moves during data transmission and the PPM that transfers the packet changes due to handover, packets are transmitted from different PPMs along one path. , The PPM that has transferred each packet can be specified from the switching device information stored in the header. As a result, the transmission destination can receive packets in the same order as the transmission order from the portable terminal for each PPM, and the order of a series of packets is guaranteed.
[0013]
by the way,Mentioned aboveThe invention relating to the packet route control method can be described as follows from the viewpoint of the packet route control system, the route control device, and the switching device. These are based on the same technical idea as the invention of the packet route control method, and the solution means is also based on the same idea as above.
[0014]
The packet routing control system according to the present invention, PaSource of the packetIs a portable terminal, The destination of the packet,Portable terminalA plurality of switching devices for transferring packets between a destination and a destination; andPortable terminalA packet path control system configured to include a path control device that controls an entire path of a packet from a destination to a destination, wherein the path control device includes:Portable terminalReceiving means for receiving a packet transmitted from thePortable terminalAcquisition means for acquiring both or one of the transmission source information for identifying the transmission destination information and the transmission destination information for identifying the transmission destination, and, based on a predetermined rule, one overall route uniquely corresponding to the acquired information. Determination means for determining, and overall route information indicating one overall route, And path control device information for identifying the path control deviceStorage means for storing in the header of a packet, and overall route informationAnd path control deviceAnd transmitting means for transmitting the packet in which the packet is stored in accordance with the entire route information.And path control deviceWhen receiving a packet in which is stored, there is a transfer means for transferring the packet in accordance with the entire route information.
[0016]
Furthermore, the packet path control system according to the present invention, PaSource of the packetIs a portable terminal, The destination of the packet, andPortable terminalA packet path control system including a plurality of switching devices that transfer packets between the destination and the destination, wherein the switching device comprises:Portable terminalReceiving means for receiving a packet transmitted from thePortable terminalAcquiring means for acquiring both or one of the source information for identifying the destination and the destination information for identifying the destination, and determining one route uniquely corresponding to the acquired information based on a predetermined rule And transmission means for transmitting the received packet according to one route.If the switching device is a packet processing module, the switching device stores switching device information for identifying the switching device in the header of the packet before the transmitting unit transmits the packet.May be a feature.
[0018]
Also, the route control device according to the present invention, PaSource of the packetIs a portable terminal, The destination of the packet, andPortable terminalA packet path control system provided with a plurality of switching devices provided between the transmission destination and the destination according to the information stored in the header of the packet,Portable terminalA route control device that controls the entire route of a packet from a destination to a destination,Portable terminalReceiving means for receiving a packet transmitted from thePortable terminalAcquisition means for acquiring both or one of the transmission source information for identifying the transmission destination information and the transmission destination information for identifying the transmission destination, and, based on a predetermined rule, one overall route uniquely corresponding to the acquired information. Determination means for determining, and overall route information indicating one overall route, And path control device information for identifying the path control deviceStorage means for storing in the header of a packet, and overall route informationAnd path control device informationAnd transmitting means for transmitting the packet in which is stored according to the overall route information.
[0020]
The exchange device according to the present invention, PaSource of the packetIs a portable terminalAnd a packet routing system together with the destination of the packet,Portable terminalAnd a plurality of switching devices that are provided between the destination and the destination to transfer packets.Portable terminalReceiving means for receiving a packet transmitted from thePortable terminalAcquiring means for acquiring both or one of the source information for identifying the destination and the destination information for identifying the destination, and determining one route uniquely corresponding to the acquired information based on a predetermined rule Means for determiningStorage means for storing the switching device information for identifying the switching device in the header of the received packet; and storing the switching device information.And transmitting means for transmitting the packet according to one route.
[0022]
Note that the above-described packet route control method, packet route control system, route control device, and switching device can be applied to a mobile communication network., PaA packet can be viewed from both the perspective of a packet transmitted from a portable terminal or a packet transmitted from another network (eg, the Internet) connected to a packet routing system.
[0023]
Also, as a header for storing the above-described route information, route control device information, or exchange device information,, PaA header provided in a layer corresponding to an application layer as viewed from a packet communication network, for example, an upper header as viewed from a packet communication network in a mobile communication network can be applied.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
The overall configuration of the packet routing control system 10 according to the first embodiment of the present invention will be described with reference to FIG.
[0025]
The packet path control system 10 is a system for controlling the entire path of a packet in a mobile communication network. As shown in the figure, a portable terminal 14 that divides data to be transmitted into packets 12 and transmits the data, Base station 16 that has established communication with the mobile terminal 14, a PPM 18 that manages the base station 16, and an M-SCP (Mobile-Service) that is connected to the PPM 18 via a relay network 20 and manages subscriber information. A control point (PGW) 22 and a gateway PGW (Packet Gateway module) 24 that is connected to the PPM 18 via the relay network 20 and manages a predetermined Internet provider.
[0026]
The gateway PGW 24 once restores the original data from a series of packets 12 transmitted from the portable terminal 14 via the base station 16, the PPM 18, and the relay network 20, converts the data to a protocol for the Internet 28, and Is transmitted to the Internet 28 by an Internet provider managed by the gateway PGW 24.
[0027]
As shown in FIG. 2, the packet 12 includes a user data part 30, its IP header 32, and an upper header 34 as viewed from the packet communication network in the mobile communication network (the application layer as viewed from the packet communication network). (A header provided in a layer corresponding to the above). The upper header 34 stores information (source information) indicating the subscriber number of the portable terminal 14.
[0028]
The configurations of the PPM 18 and the relay network 20 will be described with reference to FIG.
[0029]
The PPM 18 controls the entire route of the packet 12 from the portable terminal 14 to the gateway PGW 24, and receives a packet transmission request including the subscriber number from the portable terminal 14 as shown in FIG. A subscriber information confirmation unit 36 for acquiring information (destination information) indicating a network ID for identifying an Internet provider associated with the mobile terminal 14 and establishing a packet channel with the portable terminal 14; It has a receiving unit 38 for receiving the packet 12 transmitted from the portable terminal 14 via the base station 16 and an acquiring unit 40 for acquiring the subscriber number information from the upper header 34 of the received packet 12. .
[0030]
Further, the PPM 18 determines a single overall route uniquely corresponding to the subscriber number and the network ID based on a predetermined rule described later, a total route information indicating the one general route, and a network ID. The storage unit 44 stores information and PPM information (path control device information) for identifying the PPM 18 in the upper header 34 of the packet 12, and stores the packet 12 storing the entire path information in the relay network according to the entire path information. 20.
[0031]
The relay network 20 includes a plurality of relay PGWs 48, and the transmission unit 46 of the PPM 18 is connected to the two relay PGWs 48 via a first path 50 and a second path 52, respectively. Each relay PGW 48 is also connected to two other relay PGWs 48 by a first route 50 and a second route 52, respectively. When receiving the packet 12, each relay PGW 48 acquires the entire route information from the upper header 34 of the packet 12 and transfers the packet 12 according to the overall route information.
[0032]
The above-described predetermined rule in the determination unit 42 of the PPM 18 will be described with reference to FIG. The deciding unit 42 reads the least significant bit A of the subscriber number in binary notation from the subscriber number information acquired by the acquiring unit 40 (Step S402). Further, it reads out the least significant bit B of the binary number of the network ID from the network ID information acquired by the subscriber information confirmation unit 36 (step S404). The deciding unit 42 performs a logical operation (A xor B) using the read least significant bit, and determines whether or not the result is “0” (step S406). If the result is "0", the first route 50 is determined (step S408). If the result is not "0", the second route 52 is determined (step S410). For example, if the least significant bit of the subscriber number is “1” and the least significant bit of the network ID is “0”, the result of step S406 is “0”, so the first route 50 is determined. As described above, the determined entire route uniquely corresponds to the subscriber number and the network ID.
[0033]
In the present embodiment, a case has been described in which the PPM 18 and the relay PGW 48 have two paths, and the determining unit 42 of the PPM 18 determines one of the two paths. The above-described route may be provided, and the determination unit 42 of the PPM 18 may determine any one of the three or more routes.
[0034]
Next, the operation of the packet path control system 10 will be described with reference to FIG.
[0035]
When receiving the packet transmission request including the subscriber number from the portable terminal 14 (step S502), the subscriber information confirmation unit 36 of the PPM 18 sends the M-SCP 22 the network ID information associated with the subscriber number. It requests acquisition (step S504), acquires the network ID information from the M-SCP 22 (step S506), and establishes a packet channel with the portable terminal 14 (step S508). Thereby, the receiving unit 38 of the PPM 18 receives the packet 12 transmitted from the portable terminal 14 (Steps S510, S512), and the obtaining unit 40 of the PPM 18 obtains the subscriber number information from the upper header 34 of the packet 12. (Step S514).
[0036]
Subsequently, the determination unit 42 of the PPM 18 determines one overall route that uniquely corresponds to the acquired subscriber number information and network ID information based on the above-described predetermined rule (Step S516). The storage unit 44 of the PPM 18 stores the network ID information and the PPM information in the upper header 34 of the packet 12 together with the overall route information indicating the one overall route (step S518), and the transmission unit 46 of the PPM 18 Is transmitted to the relay PGW 48 of the relay network 20 according to the entire route information (steps S520 and S522). In step S518, conversion from a protocol applied between the portable terminal 14 and the PPM 18 to a protocol applied between the PPM 18 and the gateway PGW 24 is performed.
[0037]
The relay PGW 48 that has received the packet 12 acquires the entire path information from the upper header 34 of the packet 12, and transmits the packet 12 to the next relay PGW 48 according to the entire path information (steps S524 and S526).
[0038]
In this manner, a series of packets 12 transmitted from the portable terminal 14 is transmitted to the gateway PGW 24 through one entire route determined by the PPM 18. FIG. 6 is a diagram illustrating an entire route when the packet 12 is transmitted on the first route 50. As illustrated, the PPM 18 and the relay PGW 48 that has received the packet 12 transmit the packet 12 via the first route 50. 12 has been transmitted. As a result, the gateway PGW 24 receives the packets 12 in the same order as the transmission order from the portable terminal 14, that is, it is possible to guarantee the order of a series of packets 12 according to the order in which they are received. The original data can be restored.
[0039]
Also, when the portable terminal 14 moves during data transmission and the PPM 18 that transfers a series of packets 12 is changed by handover, the packets 12 are transmitted from different PPMs 18 in one overall path. Sent. FIG. 7 is a diagram illustrating an entire route when the packet 12a is transmitted from the PPM 18a via the base station 16a and the packet 12b is transmitted from the PPM 18b via the base station 16b due to the movement of the portable terminal 14. As shown, the relay PGW 48 that has received the PPM 18a and the packet 12a transmits the packet 12a via the first path 50, and the relay PGW 48 that has received the PPM 18b and the packet 12b also receives the packet 12b via the first path 50. Has been sent. At this time, since the PPM information is stored in the upper header 34 of each of the packets 12a and 12b together with the overall path information, the PPM to which each packet has been transferred can be specified. As a result, the gateway PGW 24 can receive packets in the same order as the transmission order from the portable terminal 14 for each PPM, and the order of a series of packets is guaranteed.
[0040]
[Second embodiment]
As shown in FIG. 1, the packet path control system 60 according to the second embodiment of the present invention has the same overall configuration as the packet path control system 10 of the first embodiment, and has the functions and functions of the PPM 18. The configuration of the relay PGW 48 is different. Hereinafter, in the description of the packet path control system 60, the same or corresponding parts as those of the packet path control system 10 are denoted by the same reference numerals, and overlapping description will be omitted.
[0041]
The PPM 18 in the packet path control system 60 has a configuration similar to that of the PPM 18 illustrated in FIG. 3 described in the first embodiment, and includes a subscriber information confirmation unit 36, a reception unit 38, an acquisition unit 40, and a determination unit 42. The functions are the same, and the functions of the storage unit 44 and the transmission unit 46 are different.
[0042]
That is, the storage unit 44 stores the network ID information and the PPM information (switching device information) for identifying the PPM 18 in the upper header 34 of the packet 12, and the transmission unit 46 determines the one of the ones determined by the determination unit 42. The packet 12 is transmitted to the relay network 20 according to the route.
[0043]
As shown in FIG. 8, the relay PGW 48 in the packet path control system 60 obtains the subscriber number information and the network ID from the upper header 34 of the packet 12 and the receiving unit 62 that receives the packet 12 transmitted from the PPM 18. An acquiring unit 64, a determining unit 66 that determines one path uniquely corresponding to the subscriber number and the network ID in the same manner as the determining unit 42 of the PPM 18 described in the first embodiment, And a transmitting unit 68 for transmitting the packet 12 to the relay network 20 in accordance with the following.
[0044]
Next, the operation of the packet route control system 60 will be described with reference to FIG.
[0045]
When receiving the packet transmission request including the subscriber number from the portable terminal 14 (step S902), the subscriber information confirmation unit 36 of the PPM 18 sends the M-SCP 22 the network ID information associated with the subscriber number. It requests acquisition (step S904), acquires the network ID information from the M-SCP 22 (step S906), and establishes a packet channel with the portable terminal 14 (step S908). Thereby, the receiving unit 38 of the PPM 18 receives the packet 12 transmitted from the portable terminal 14 (Steps S910 and S912), and the acquiring unit 40 of the PPM 18 acquires the subscriber number information from the upper header 34 of the packet 12. (Step S914).
[0046]
Subsequently, the determination unit 42 of the PPM 18 determines one path that uniquely corresponds to the acquired subscriber number information and network ID information based on the predetermined rule described in the first embodiment (Step S916). . When the storage unit 44 of the PPM 18 stores the network ID information and the PPM information in the upper header 34 of the packet 12 (Step S918), the transmission unit 46 of the PPM 18 The packet 12 is transmitted to the relay PGW 48 (steps S920 and S922).
[0047]
When the receiving unit 62 of the relay PGW 48 to which the packet 12 has been transmitted receives the packet 12 (step S924), the obtaining unit 64 of the relay PGW 48 obtains the subscriber number information and the network ID from the upper header 34 of the packet 12. (Step S926). Subsequently, the determining unit 66 of the relay PGW 48 determines one route that uniquely corresponds to the acquired subscriber number information and network ID information based on the predetermined rule described in the first embodiment (step S928). ). The transmitting unit 68 of the relay PGW 48 transmits the packet 12 to the next relay PGW 48 according to the one route determined by the determining unit 66 (Steps S930 and S932).
[0048]
In this manner, a series of packets 12 transmitted from the portable terminal 14 is transmitted to the gateway PGW 24 through one path determined by the PPM 18 and the relay PGW 48 that has received the packet 12. For example, when the relay PGW 48 that has received the PPM 18 and the packet 12 transmits the packet 12 through the first path 50, as shown in FIG. 6, a series of packets 12 is transmitted in one path from the portable terminal 14 to the gateway PGW 24. Sent by As a result, the gateway PGW 24 receives the packets 12 in the same order as the transmission order from the portable terminal 14, that is, it is possible to guarantee the order of a series of packets 12 according to the order in which they are received. The original data can be restored.
[0049]
Also, when the portable terminal 14 moves during data transmission and the PPM 18 for transferring the series of packets 12 is changed by handover, as shown in FIG. 7, the PPM 18a and the packet 12a are changed. The received relay PGW 48 transmits the packet 12a to the gateway PGW 24 by one route by deciding on the first route 50, and the relay PGW 48 that has received the PPM 18b and the packet 12b also has the first route 50, respectively. By deciding on the route 50, the packet 12b is transmitted to the gateway PGW 24 by one route. At this time, since the PPM information is stored in the upper header 34 of each of the packets 12a and 12b, it is possible to specify the PPM to which each packet has been transferred. As a result, the gateway PGW 24 can receive packets in the same order as the transmission order from the portable terminal 14 for each PPM, and the order of a series of packets is guaranteed.
[0050]
As described above, a preferred embodiment of the present invention has been described in detail, but it is needless to say that the present invention is not limited to the above embodiment.
[0051]
For example, one route of the packet determined in the above embodiment uniquely corresponds to both the subscriber number as the transmission source information and the network ID as the transmission destination information. The information may uniquely correspond to one of the transmission source information and the transmission destination information. Also in this case, a series of packets can be transmitted by only one route.
[0052]
In addition, the predetermined rule for determining one route may not use a logical operation as in the above-described embodiment, but may use a data table or the like created in advance and follow the rule. .
[0053]
In the above embodiment, the case where the packet path control system is applied to the mobile communication network has been described. However, the packet path control system of the present invention can be applied to other packet communication networks such as the Internet.
[0054]
【The invention's effect】
As described above, according to the present invention,Packet order can be guaranteed by simple processing, and based on the order,The original data can be restored. Therefore, without implementing a protocol such as TCP, the order is guaranteed by simple processing, and processing such as retransmission control is not required. As a result, throughput can be improved.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a packet route control system according to an embodiment of the present invention.
FIG. 2 is a configuration diagram of a packet in the packet path control system.
FIG. 3 is a configuration diagram of a PPM and a relay network in the packet path control system.
FIG. 4 is a flowchart illustrating a process of a PPM determining unit in the packet path control system.
FIG. 5 is a transition diagram illustrating an operation of the packet path control system according to the first embodiment of the present invention.
FIG. 6 is a diagram illustrating an example of a path through which a packet is transmitted in the packet path control system.
FIG. 7 is a diagram illustrating an example of a path through which a packet is transmitted at the time of handover in the packet path control system.
FIG. 8 is a configuration diagram of a relay PGW in the packet path control system according to the second embodiment of the present invention.
FIG. 9 is a transition diagram illustrating an operation of the packet path control system according to the second embodiment of the present invention.
[Explanation of symbols]
10, 60: Packet routing control system, 12: Packet, 14: Portable terminal, 18: PPM, 20: Relay network, 22: M-SCP, 24: Gateway PGW, 34: Upper header, 36: Subscriber information confirmation Unit, 38, 62 ... receiving unit, 40, 64 ... obtaining unit, 42, 66 ... determining unit, 44 ... storage unit, 46, 68 ... transmitting unit, 48 ... relay PGW, 50 ... first path, 52 ... Path two.

Claims (12)

The portable terminal that is the source of the packet, the destination of the packet, the plurality of switching devices that transfer the packet between the portable terminal and the destination, and the switching device from the portable terminal to the destination A packet route control method executed in a packet route control system including a route control device that controls an entire route of a packet,
A receiving step of receiving the packet transmitted from the portable terminal ,
An acquisition step in which the path control device acquires, from the received packet, both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination,
The route control device, based on a predetermined rule, a determining step of determining one overall route uniquely corresponding to the acquired information,
A storage step in which the route control device stores the entire route information indicating the one entire route , and the route control device information for identifying the route control device in a header of the packet,
A transmission step in which the path control device transmits the packet in which the entire path information and the path control apparatus are stored, according to the entire path information;
And a transfer step of, when the switching device receives the packet storing the overall route information and the route control device, forwarding the packet in accordance with the overall route information. . In a packet path control system including a portable terminal that is a packet transmission source , a transmission destination of the packet, and a plurality of switching devices that transfer the packet between the portable terminal and the transmission destination A packet routing method to be performed, the method comprising:
A receiving step of receiving the packet transmitted from the portable terminal ,
An acquisition step in which the switching device acquires, from the received packet, both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination,
A determination step in which the switching device determines one path uniquely corresponding to the acquired information, based on a predetermined rule,
Said switching device, said packets received have a, a transmission step of transmitting according to the route of the one,
When the switching device is a packet processing module, the switching device stores switching device information for identifying the switching device in a header of the packet before the transmitting step. Control method. 3. The packet routing control method according to claim 1, wherein the packet is a packet transmitted from a portable terminal or a packet transmitted from another network connected to the packet routing control system. . The header is a packet routing method according to any one of claims 1 to 3, characterized in that provided in the layer corresponding to the application layer when viewed from the packet communication network. The portable terminal that is the source of the packet, the destination of the packet, the plurality of switching devices that transfer the packet between the portable terminal and the destination, and the switching device from the portable terminal to the destination A packet path control system including a path control device that controls an entire path of a packet,
The path control device,
Receiving means for receiving the packet transmitted from the portable terminal ,
Acquisition means for acquiring both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination from the received packet,
Determining means for determining one overall route uniquely corresponding to the acquired information, based on a predetermined rule,
Storage means for storing the entire route information indicating the one entire route and the route control device information for identifying the route control device in a header of the packet;
Transmitting means for transmitting the packet in which the entire route information and the route control device are stored, according to the overall route information,
The exchange device,
A packet routing control system comprising: a transfer unit configured to transfer a packet according to the routing information when the routing control device receives the packet stored in the routing information. A packet path control system including a portable terminal that is a packet transmission source , a transmission destination of the packet, and a plurality of switching devices that transfer the packet between the portable terminal and the transmission destination. hand,
The exchange device,
Receiving means for receiving the packet transmitted from the portable terminal ,
Acquisition means for acquiring both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination from the received packet,
Based on a predetermined rule, determining means for determining one path uniquely corresponding to the acquired information,
Received the packet have a, and transmitting means for transmitting according to the route of the one,
When the switching device is a packet processing module, the switching device stores switching device information for identifying the switching device in a header of the packet before the transmitting unit transmits the packet. Characteristic packet routing control system. 7. The packet routing system according to claim 5 , wherein the packet is a packet transmitted from a portable terminal or a packet transmitted from another network connected to the packet routing system. . The packet routing control system according to any one of claims 5 to 7 , wherein the header is provided in a layer corresponding to an application layer when viewed from a packet communication network. A portable terminal that is a packet transmission source , a transmission destination of the packet, and a plurality of exchanges provided between the portable terminal and the transmission destination for transferring the packet in accordance with information stored in a header of the packet. A route control device that constitutes a packet route control system together with the device, and controls an entire route of the packet from the portable terminal to the transmission destination,
Receiving means for receiving the packet transmitted from the portable terminal ,
Acquisition means for acquiring both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination from the received packet,
Determining means for determining one overall route uniquely corresponding to the acquired information, based on a predetermined rule,
Storage means for storing the entire route information indicating the one entire route , and the route control device information for identifying the route control device in the header of the packet;
A transmission unit that transmits the packet storing the entire route information and the route control device information according to the overall route information. The path control device according to claim 9 , wherein the packet is a packet transmitted from a portable terminal or a packet transmitted from another network connected to the packet path control system. A switching device that constitutes a packet path control system together with a portable terminal that is a source of a packet and a destination of the packet, and is provided between the portable terminal and the destination to transfer the packet. ,
Receiving means for receiving the packet transmitted from the portable terminal ,
Acquisition means for acquiring both or one of transmission source information for identifying the portable terminal and transmission destination information for identifying the transmission destination from the received packet,
Based on a predetermined rule, determining means for determining one path uniquely corresponding to the acquired information,
Storage means for storing switching apparatus information for identifying the switching apparatus in a header of the received packet;
Transmitting means for transmitting the packet storing the switching device information in accordance with the one route. The switching device according to claim 11 , wherein the packet is a packet transmitted from a portable terminal or a packet transmitted from another network connected to the packet routing system.

Images