JP6539593B2 - Switching control device, method and program - Google Patents

Description

  The present invention relates to a switching control apparatus, method and program in a wireless communication system.

In a wireless communication system, handover between base stations for a mobile terminal is an essential function, and there is a method for realizing handover in any wireless communication scheme without providing the handover function on the terminal side (for example, Patent Document 1) reference).
Also, in M2M (Machine to Machine) area network, a method of handling a plurality of wireless system (protocol) devices by switching the protocol by the initiative of the server using the server and the wireless dongle connected to the gateway (See, for example, Non-Patent Document 1).

JP, 2013-239967, A

Tatsuya Akiba and Hisashi Matsukawa, "A Study on Virtualization of M2M Area Network", Technical Report of IEICE. 115, no. 45, pp. 159-164, 2015

  In the technology of Non-Patent Document 1 described above, since switching of the access point is performed by the server, connection can not be established unless the access point and the device operate in the same protocol. That is, the device can not connect to the access point at any time. It is desirable to be able to connect to the server at any timing of the device, especially when it is desired to connect a highly urgent alarm or the like.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a switching control device, method and program capable of flexibly switching connections.

  In order to achieve the above object, the switching control device according to one aspect of the present invention analyzes means for analyzing whether the connection request signal transmitted from the device includes a connection emergency indicator indicating that the connection is urgently required. And, if the connection request signal includes the connection emergency indicator, determining means for determining a switching destination protocol to be switched from the currently operating operation protocol based on a device identifier related to the device, and the operation protocol And processing means for switching from the switching destination protocol to the switching destination protocol.

  Furthermore, the switching control device according to one aspect stores the correspondence table in which the device identifier, the information on the switching destination protocol, and the duration indicating the period to be operated by the switching destination protocol are associated with each other. And the determination unit determines the switching destination protocol with reference to the correspondence table.

  Furthermore, the switching control device according to one aspect is characterized in that the processing means switches the protocol in accordance with a predetermined schedule after operating for the duration for the switching destination protocol.

  Furthermore, the switching control device according to one aspect is characterized by further including notification means for notifying the external server of an emergency signal indicating that the connection emergency indicator has been received.

  That is, according to the present invention, connection can be switched flexibly.

FIG. 2 is a block diagram showing a switching control device according to the present embodiment. FIG. 5 is a sequence diagram showing an operation of a system including the switching control device according to the embodiment. The figure which shows the switching method of the protocol in a protocol process part. FIG. 2 is a diagram showing a first application example of the switching control device according to the present embodiment. The figure which shows the 2nd usage example of the switch control apparatus which concerns on this embodiment. The figure which shows the 3rd usage example of the switch control apparatus which concerns on this embodiment.

Hereinafter, a switching control apparatus, method, and program according to an embodiment of the present disclosure will be described in detail with reference to the drawings. In the following embodiments, the same operations are performed for the portions given the same numbers, and the overlapping description will be omitted.
The switching control apparatus regarding the communication system switching in this embodiment is demonstrated with reference to the block diagram of FIG.

The switching control device 100 illustrated in FIG. 1 includes a signal analysis unit 101, a packet analysis unit 102, a correspondence table storage unit 103, a switching determination unit 104, a protocol processing unit 106, and a notification unit 105.
In addition, below, the system which communicates between the device 120, the access point containing the switch control apparatus 100, and the administrator server 140 which is an external server is assumed. Further, it is assumed that the device 120 transmits a connection request signal including a device identifier which is information on a device represented by a transmission source MAC address or the like, and a connection emergency indicator indicating that a connection is urgently required. The connection emergency indicator may be represented by a 1-bit flag, which indicates that the connection is urgently requested when the flag is set. Also, the connection emergency indicator is not limited to the 1-bit flag, and any method may be used as long as it can indicate that the connection is urgently requested.

The signal analysis unit 101 receives a connection request signal from an external device 120 and analyzes the connection request signal. As a result of analyzing the connection request signal, when the connection request signal is transmitted by the current operation protocol, the signal analysis unit 101 sends the connection request signal to the protocol processing unit 106, and the connection request signal is transmitted by the current operation protocol If not, the connection request signal is sent to the packet analysis unit 102. The operating protocol indicates the currently operating protocol.
The packet analysis unit 102 receives a connection request signal from the signal analysis unit 101, and analyzes whether the connection request signal includes a connection emergency indicator. When the connection request signal includes a connection emergency indicator, the packet analysis unit 102 extracts the device identifier and the connection emergency indicator.

The correspondence table storage unit 103 stores a correspondence table in which the device identifier, the information on the switching destination protocol, and the duration time are associated with each other. The switching destination protocol indicates a protocol to be switched from the operation protocol. The duration indicates a period in which the access point operates in the switching destination protocol.
The switching determination unit 104 receives the device identifier and the connection emergency indicator from the packet analysis unit 102. The switching determination unit 104 determines to switch the protocol when the connection emergency indicator is received, and determines the switching destination protocol based on the device identifier. Specifically, the switching determination unit 104 refers to the correspondence table stored in the correspondence table storage unit 103, and acquires information on the switching destination protocol corresponding to the device identifier and the corresponding duration.

The notification unit 105 receives the connection emergency indicator from the switching determination unit 104, and notifies the external administrator server 140 or the like that the emergency connection signal has been received from the device 120. As the notification method, for example, the notification unit 105 may notify the administrator server 140 of an emergency signal indicating that the connection emergency indicator has been received.
The protocol processing unit 106 receives the connection request signal from the signal analysis unit 101, and receives the switching destination protocol and the duration from the switching determination unit 104. The protocol processing unit 106 switches the protocol from the operation protocol to the switching destination protocol, and performs protocol processing on the connection request signal. The protocol processing unit 106 switches the protocol according to a predetermined schedule when the operation period of the switching destination protocol reaches the duration.

  Next, the operation of the switching control device 100 according to the present embodiment will be described with reference to the sequence diagram of FIG. FIG. 2 shows a time series of the device 120, the switching control device 100, and the administrator server 140.

In step S201, the device 120 transmits a connection request signal to the switching control device 100.
In step S202, the packet analysis unit 102 of the switching control device 100 receives the connection request signal from the signal analysis unit 101, and analyzes the packet of the connection request signal. Here, it is assumed that by analyzing the packet, the packet of the connection request signal includes the connection emergency indicator.
In step S203, the notification unit 105 of the switching control device 100 receives the connection emergency indicator from the packet analysis unit 102 via the switching determination unit 104, and notifies the administrator server 140 of an emergency signal.

In step S204, the switching determination unit 104 of the switching control device 100 determines switching of the protocol. Specifically, it is determined whether the device identifier obtained by analyzing the packet matches the device identifier stored in the correspondence table. When the matching device identifier exists, the switching determination unit 104 acquires, from the correspondence table, information on the switching destination protocol corresponding to the matching device identifier and the duration.
In step S205, the protocol processing unit 106 of the switching control device 100 performs switching of the protocol. That is, the protocol processing unit 106 switches the protocol from the operation protocol to the switching destination protocol.

  Note that, in the example of FIG. 2, the connection request signal is periodically transmitted from the device 120, and it is not necessary to use the subsequent connection request signal after the process for the connection request signal is started once. For example, when processing has been started for a connection request signal from a device 120, the connection request signal subsequently transmitted from the device 120 may be discarded.

Further, as an operation at the time of device connection, in step S206, the device 120 transmits a connection request signal to the switching control device 100.
In step S207, since switching to the switching destination protocol is completed, the signal analysis unit 101 of the switching control device 100 receives a connection request signal from the device 120. Thereafter, the protocol processing unit 106 of the switching control device 100 transmits a connection permission signal to the device 120 for communication.

Next, a protocol switching method in the protocol processing unit 106 will be described with reference to FIG.
FIGS. 3 (a) to 3 (d) show a time series of operation periods of the protocol.
As shown in FIG. 3A, before the connection request signal including the connection emergency indicator is received, the protocol processing unit 106 selects a communication protocol based on a preset schedule (or rule) with respect to protocol switching. It is switching. For example, in the example of FIG. 3, an access point including the switching control device 100 is first operated by “protocol A”, then is operated by “protocol B”, and this is alternately repeated.

  As shown in FIG. 3B, when the switching determination unit 104 performs the protocol switching process, the protocol processing unit 106 switches the protocol using the switching destination protocol and the corresponding duration. In the example of FIG. 3B, assuming that the switching destination protocol is “protocol C”, if the connection request signal received during the operation by “protocol B” is analyzed and as a result, the protocol processing unit 106 is included. Switches the switching destination protocol corresponding to the device identifier to “protocol C”. The protocol processing unit 106 operates with “Protocol C” for the corresponding duration, and after the duration of “Protocol C” ends, according to a preset schedule, “Protocol A” scheduled as the next protocol It suffices to switch and operate.

  Note that the protocol switching schedule may be set backwards for the time spent in the operation of the switching destination protocol that was interrupted urgently. For example, as shown in FIG. 3 (c), while operating in "protocol B", after switching to "protocol C" which is the switching destination protocol and the duration of "protocol C" has elapsed, Switch to “Protocol B” and operate on “Protocol B” for the remaining time of the duration of “Protocol B”. After that, it may be operated with "Protocol A" scheduled as the next protocol.

Although the case where there is only one device 120 is assumed in the above description, the same processing can be applied to a plurality of devices 120 as well.
For example, when two or more connection request signals including connection emergency indicators are transmitted in duplicate from two devices 120, as shown in FIG. 3D, the duration of the switching destination protocol with respect to the previous connection request signal. It is sufficient to wait for the switching of the protocol for the later connection request signal until the process is completed.
In the example of FIG. 3 (d), the connection request signal (from the other device) is being processed while operating with “protocol C” which is the switching destination protocol by processing for the first connection request signal (connection request 1 in FIG. 3 (d)). In FIG. 3D, when the connection request 2) is transmitted, the switching destination protocol of the connection request 2 is switched after the continuation time of the "protocol C" is ended without switching the protocol during the continuation time of the "protocol C". It is sufficient to switch to "protocol D" and operate.

  In the case of processing a connection request signal including two connection emergency indicators, priority may be provided to be switched in preference to a switching destination protocol related to a connection emergency indicator having a high priority. For example, as described with reference to FIG. 3D, when the connection request 2 has a higher priority of the connection urgent indicator than the connection request 1, the protocol processing unit 106 performs connection during the duration of “protocol C”. When the request 2 is received, the protocol may be switched to the “protocol D” even during the duration of the “protocol C”.

  The priority may be transmitted from the device 120 by being associated with the connection emergency indicator, or may be stored in advance in the correspondence table stored in the correspondence table storage unit 103 in association with the device identifier. At the time of the determination process of 104, the priority may be acquired. The protocol processing unit 106 compares the priority of the device identifier corresponding to the switching destination protocol currently operated with the priority of the newly acquired device identifier, and selects the switching destination protocol corresponding to the higher priority. You can operate it with

(First use example)
Next, a first application example of the switching control device 100 according to the present embodiment will be described with reference to FIG.
System 400 shown in FIG. 4 includes device 120 and access point 410. The access point 410 includes a gateway device 401, a signal analysis dongle 402, and a protocol processing dongle 403.

  The gateway device 401 includes a packet analysis unit 102, a correspondence table storage unit 103, a switching determination unit 104, and a notification unit 105. The signal analysis dongle 402 includes a signal analysis unit 101. The protocol processing dongle 403 includes a signal analysis unit 101 and a protocol processing unit 106.

  The signal analysis dongle 402 is connected to the gateway device 401. The connection method may be, for example, USB connection, but any connection method capable of communicating with the gateway device 401 may be used. The signal analysis dongle 402 receives a connection request signal from the device 120 at an antenna (not shown), and sends the connection request signal to the packet analysis unit 102 of the gateway device 401.

The protocol processing dongle 403 receives the connection request signal from the device 120 through an antenna (not shown), and the signal analysis unit 101 sends the connection request signal to the protocol processing unit 106 if it is the current operation protocol. If it is not an operation protocol, the signal is discarded.
While the protocol processing unit 106 included in the protocol processing dongle 403 receives the connection request signal from the signal analysis unit 101 and performs protocol processing, the protocol processing unit 106 receives information on the switching destination protocol and the duration from the switching determination unit 104 of the gateway device 401. In the case, switch from the operation protocol to the switching destination protocol.

(Second use example)
Next, a second application example of the switching control device 100 according to the present embodiment will be described with reference to FIG.
The system 500 shown in FIG. 5 includes a device 120 and an access point 510. The access point 510 includes a gateway device 501 and a dongle 502 for signal analysis and protocol processing.
The signal analysis dongle 402 and the protocol processing dongle 403 according to the first usage example are the same as the first usage example except that processing is performed by one dongle as with the signal analysis and protocol processing dongle 502. Since the operation is performed, the detailed description is omitted.

(Third application example)
Next, a third application example of the switching control device 100 according to the present embodiment will be described with reference to FIG.
System 600 shown in FIG. 6 includes device 120 and access point 610. The access point 610 includes a gateway device 601, a dongle 602 for signal analysis and protocol processing, and a server 603. Note that instead of the signal analysis and protocol processing dongle 602, two dongles shown in the first usage example, that is, a signal analysis dongle 402 and a protocol processing dongle 403 may be used.

  The gateway device 601 includes the packet analysis unit 102, the correspondence table storage unit 103, and the switching determination unit 104, but instead of the gateway device 601, at least one of these units may be included in the server 603. By doing this, the processing load on the gateway device 601 can be reduced, and data of other gateway devices can also be collected by the server 603, so that processing efficiency can be improved.

(The 4th usage example)
Next, a fourth application example of the switching control device 100 according to the present embodiment will be described.
In general, the device 120 uses a method of detecting a connectable channel by transmitting signals in order in a plurality of channels when the connection destination channel used in communication with the connection destination access point is unknown. Therefore, transmitting signals in order on a plurality of channels when it is desired to connect urgently may be inefficient and may take time to connect. Therefore, in the fourth usage example, a channel is secured in advance for the connection request signal.

The system according to the first usage example shown in FIG. 4 may be used for the configuration of the fourth usage example.
The device 120 transmits a connection request signal on the channel for the connection request signal. For example, a predetermined channel using a 920 MHz band radio may be secured.
At the access point 410, the signal analysis dongle 402 is preset to operate on a specific channel for the connection request signal.
By setting as described above, the connection request signal transmitted by the device 120 can be processed on the access point 410 side without impairing the real time capability.

  The switching control device according to the present embodiment described above determines the switching destination protocol and the duration by referring to the correspondence table for the connection request signal including the connection emergency indicator, and changes the protocol from the operation protocol to the switching destination protocol. Switch. In this way, connection can be made to a highly urgent connection request signal even if the device transmitting the connection request signal is not operating in the same protocol as the access point, and the connection can be switched flexibly. be able to.

The instructions shown in the processing procedure shown in the above embodiment can be executed based on a program that is software.
In short, the present invention is not limited to the above embodiment as it is, and at the implementation stage, the constituent elements can be modified and embodied without departing from the scope of the invention. In addition, various inventions can be formed by appropriate combinations of a plurality of components disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, components in different embodiments may be combined as appropriate.

100 ... switching control device 101 ... signal analysis unit 102 ... packet analysis unit 103 ... correspondence table storage unit 104 ... switching determination unit 105 ... notification unit 106 ... protocol processing unit 120 ... Device 140 ... Administrator server 400, 500, 600 ... System 401, 501, 601 ... Gateway device 402 ... Signal analysis dongle 403 ... Protocol processing dongle 410, 510, 610: Access point 502, 602: dongle for signal analysis and protocol processing 603: server

Claims (5)

Analysis means for analyzing whether the connection request signal transmitted from the device includes a connection emergency indicator indicating that the connection is urgently required;
A determination unit that determines a switching destination protocol to be switched from the currently operating operation protocol based on a device identifier related to the device, when the connection request signal includes the connection emergency indicator;
Processing means for switching from the operation protocol to the switching destination protocol ;
A switching control device for switching the protocol according to a predetermined schedule after the processing means operates the continuation destination time period indicating the operation period according to the switching destination protocol in the switching destination protocol ; Said device identifier, further comprising the information on the switching destination protocol, a storage means for storing a correspondence table that those 該継 continued time and the associated respectively,
The switching control device according to claim 1, wherein the determination unit determines the switching destination protocol with reference to the correspondence table. The switch control device according to claim 1 or 2, further comprising notification means for notifying an external server of an emergency signal indicating that the connection emergency indicator has been received. Analyze whether the connection request signal sent from the device contains a connection emergency indicator indicating that the connection is urgently required,
If the connection request signal includes the connection emergency indicator, the switch destination protocol to be switched from the currently operating operation protocol is determined based on the device identifier of the device,
Switching from the operation protocol to the switching destination protocol ;
A switching control method for switching the protocol according to a predetermined schedule after operating the switching destination protocol for a continuous time indicating a period to be operated by the switching destination protocol . The program for making a computer run as each means of the switch control apparatus of any one of Claim 1 to 3 .