JP2018046375A - Switching timing adjustment method, communication device, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a switching timing adjustment method, a communication device, and a program that can reduce devices which the communication device cannot connect with.SOLUTION: A communication device 700 monitors the number of connected communication devices and a connection request time necessary to connect with each of the communication devices, stores a management table 7041 associating a connection device ID with the connection request time in a device state holding database 704 whenever a master unit mode (mode 1) is started, refers to the management table 7041 to estimate a connection request time from the past connection situations, and thereby can variably set a mode start time without depending on the number of connection devices and a type of device.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a switching timing adjustment method, a communication apparatus, and a program used in a system that performs transmission / reception by switching the directivity of a directional antenna.

  In recent years, communication devices have become more multifunctional. For example, there is a communication apparatus that has a directional antenna and performs data transmission and switching between directional antennas at regular intervals. This communication apparatus can be operated as a slave or a master.

  Specifically, the communication device can realize wireless communication with the parent device by functioning as a child device. In addition, this communication device functions as a parent device, so that it can be connected to the Internet from another child device, for example, a game machine having a wireless child device interface, via the communication device. .

  By the way, in a plurality of modes using a directional antenna, the modes are switched at a constant cycle, and each time switching is performed, start / stop / start processing is necessary. For example, in the antenna that switches between Wi-Fi (registered trademark) and the tethering mode and supports it, even when it becomes a parent device, the communication device connected to the parent device is once disconnected and started up again as the parent device In this case, after the communication device detects it and performs connection request and authentication again, only the authentication permission device can connect.

Japanese Patent No. 2,596,983

  However, since the minimum time that should exist in the mode differs depending on the number of communication devices to be connected and the type of communication device, it may happen that the time required for the connection mode is not satisfied when the mode is switched in advance.

  An object of the present invention is to provide a switching timing adjustment method, a communication apparatus, and a program that can reduce the number of devices that cannot be connected.

  In order to achieve the above object, one aspect of the present invention provides a first operation mode in which at least one communication device is connected, and a second operation in which a communication device that is the same as or different from the first operation mode is connected. Mode, and a switching timing adjustment method used in a communication device that switches between the first operation mode and the second operation mode at regular intervals.

  When operating in the first operation mode, the communication device monitors the number of communication devices to be connected and the connection request time required until the communication device is connected, and the communication device A management table in which a device ID that identifies the currently connected communication device is associated with the connection request time is stored, and the communication apparatus determines, based on the management table, the minimum required time of the first operation mode. The communication device calculates the switching time from the first operation mode to the second operation mode, or from the second operation mode to the first operation mode, based on the minimum required time. The switching time is adjusted.

  According to one aspect of the present invention, a management table that associates the number of communication devices to be connected with a connection request time required until a communication device is connected when activated in the first operation mode. Each time the first operation mode is activated, the mode activation time can be determined regardless of the number of connected devices or the type of device by storing and estimating from the past connection status with reference to the management table. . This makes it possible to reduce the number of communication devices that cannot be connected when the mode is switched and the mode is returned again.

The figure which shows the usage example of the communication apparatus which concerns on one Embodiment of this invention. The block block diagram of the communication apparatus used before. The figure shown in order to demonstrate the mode switching method in the communication apparatus used before. The figure shown in order to demonstrate the mode switching method in one Embodiment. The figure shown in order to demonstrate the other mode switching method in the communication apparatus used before. The figure shown in order to demonstrate the other example of the mode switching method in one Embodiment. The block block diagram of the communication apparatus which concerns on one Embodiment of this invention. The figure which shows an example of the management table which matched device ID which identifies the communication device in connection in one Embodiment, and the connection request time. The figure which shows an example of the list | wrist which matched base-device mode corresponding | compatible period (mode corresponding | compatible start time and mode corresponding | compatible end time), and device ID of the communication device connected for every frequency | count of starting of the main | base station mode in one Embodiment. . The flowchart which shows the mode switching time adjustment operation | movement of a communication status monitoring part in one Embodiment. The timing diagram shown in order to explain the example in which the connected communication device fails when the mode switching time is constant. The timing diagram shown in order to demonstrate the example which rescues the communication device which failed in connection when mode switching time is variably set in one embodiment.

Prior to describing the embodiment according to the present invention, the current situation will be described.
FIG. 1 shows an example of use of the previous communication device 100. For the communication device 100, for example, an access point, a smartphone with a tethering function, or the like is used. The communication device 100 is configured to be able to realize wireless communication via a mobile communication network and wireless communication based on a wireless LAN. The communication device 100 can operate in two operation modes of a slave mode and a master mode in wireless communication conforming to a wireless LAN.

  The communication device 100 that operates in the slave mode performs wireless communication with the access point 200 as a master unit as a slave unit. The access point 200 forms a wireless area and collects data observed using a sensor (not shown) included in the communication device 100 in the wireless area. Alternatively, the access point 200 forms a wireless area, and exchanges information with a plurality of communication devices 301 to 30m (m is an integer) via the communication device 100 in the wireless area via a wireless line. Also good. Access point 200 is connected to an external Internet (not shown) or a server (not shown). Further, the communication device 100 can be connected to the Internet via a base station (not shown) by wireless communication using a mobile communication network.

  The communication device 100 that operates in the parent device mode performs wireless communication with a plurality of communication devices 301 to 30m as child devices as a parent device. Here, the communication device 100 can relay communication via the wireless LAN and the mobile communication network. Accordingly, the plurality of communication devices 301 to 30m can be connected to the Internet or a server via the communication device 100.

FIG. 2 is a block configuration diagram of the communication device 100.
The communication device 100 includes a communication control unit 101, a switching control unit 102, and an input interface (IF) 103. The communication control unit 101 communicates with the communication devices 301 to 30m existing in the radio wave reachable range (wireless area) of the own device via a directional antenna (not shown). The switching control unit 102 performs communication control so that the own device is switched between the slave mode and the master mode at regular intervals based on switching time information supplied from the host system (not shown) via the input IF 103. The unit 101 is controlled.

By the way, as shown in FIG. 3, in the method of switching the communication apparatus 100 at regular intervals based on the switching time information, the following problems occur.
(A1) Since the minimum secured time is not taken into account regarding the parent device mode, a communication device that cannot be connected is generated. In particular, the communication device (Device d3) 303 can not be connected with the master unit mode corresponding period T ₁ of the in FIG. 3 (a).

(A2) with respect to the master unit mode, Figure 3 one communication device in the master unit mode corresponding period T ₂ of the (b) in (device d1) 301 only is connected, may be assigned a secure time to other is there.

Therefore, in the present embodiment, as shown in FIG. 4A, communication devices (devices d1, d2, d3) 301, which can be connected in each mode corresponding period T ₃ , T ₄ , 302, 303 are observed, the device IDs of the communication devices (devices d1, d2, d3) 301, 302, 303 connected in the divided mode corresponding periods T ₃ , T ₄ are compared, and devices connected at the same time By predicting the number of devices from not only the number but also the device ID that can be connected, as shown in FIG. 4B, the minimum time T ₅ required for the mode is determined, and based on the determined time length , Adjust the timing.

Further, as shown in FIG. 5, the following problem occurs in the method of switching the communication device 100 at regular intervals based on the switching time information.
Devices A and B can be connected in the channel 1 corresponding period (period (1)), and device C can be connected in the channel 2 corresponding period (period (2)). Here, it is assumed that the communication apparatus 100 can communicate with the device A but cannot communicate with the device B in the period (1) -1. Since device B performs communication at the same timing, communication with the communication apparatus 100 may not be performed for a long time.

  Therefore, in this embodiment, in order to solve the above problem, as shown in FIG. 6, the channel 2 (Wi-SUN (B)) child corresponding period (period (2) -2) is variably set. The communication apparatus 100 can communicate with the device B.

In order to solve the above problems, an embodiment of the present invention will be described in detail below.
(Constitution)
FIG. 7 is a block diagram showing a configuration of a communication apparatus 700 according to an embodiment of the present invention. The communication device 700 can operate in two operation modes of a slave mode and a master mode in wireless communication compliant with a wireless LAN. In the master mode, a plurality of communication devices 301 serving as slave units are available. Wireless communication with ~ 30m.

  The communication device 700 includes a communication control unit 701, a switching control unit 702, a communication state monitoring unit 703, a device state holding database (DB) 704, and an input interface 705.

  The communication control unit 701 performs communication with the communication devices 301 to 30m existing in the radio wave reachable range (in the wireless area) of the own device via a directional antenna (not shown). The switching control unit 702 performs communication so that the own apparatus is switched between the slave mode and the master mode at regular intervals based on switching time information supplied from the host system (not shown) via the input interface 705. The controller 701 is controlled.

  The communication state monitoring unit 703 includes, for example, a CPU, a ROM, a hard disk, and the like, and includes a connection completion time calculation unit 7031, a minimum required time calculation unit 7032, and an adjustment control unit 7033. The connection completion time calculation unit 7031 monitors the number of communication devices 301 to 30m to be connected and the connection request time required until each communication device 301 to 30m is connected when operating in the master mode. As shown in FIG. 4, a management table 7041 in which device IDs for identifying connected communication devices 301 to 30m and connection request times are associated is stored in the device state holding database 704 every time the master mode is activated. Further, as illustrated in FIG. 9, the connection completion time calculation unit 7031 includes a parent device mode correspondence period (mode correspondence start time and mode correspondence end time), and a communication device 301 to be connected, for each number of activations of the parent device mode. A list 7042 in which device IDs of ˜30 m are associated is stored in the device state holding database 704.

  Based on the management table 7041, the minimum required time calculation unit 7032 calculates the minimum required time in the parent device mode. That is, the minimum required time calculation unit 7032 compares the device IDs before the n−1th time and the nth time when the number n (n is an integer) of the parent device mode is greater than or equal to the second time. The minimum request time is calculated from the added device ID and the connection request time until the communication device corresponding to the device ID is connected.

  Based on the calculated minimum required time, adjustment control unit 7033 controls switching control unit 702 to adjust the switching time from the parent device mode to the child device mode or the switching time from the child device mode to the parent device mode.

  In addition, although the example in which the communication state monitoring unit 703 includes the connection completion time calculation unit 7031, the minimum required time calculation unit 7032, and the adjustment control unit 7033 has been described, the connection completion time calculation unit 7031 and the minimum request time The calculation unit 7032 and the adjustment control unit 7033 may be separated.

(Operation)
Next, the operation in the above configuration will be described.
In one embodiment of the present invention, the switching time between the parent device mode (920IP) and the child device mode (Wi-SUN (B)) is adjusted by the following method.
When reception from the communication device (device B) 302 in the connection list has not occurred within the predetermined period D, the communication apparatus 700 transmits a data acquisition request to the communication device 302. If there is previous acquisition data, the previous value is retained. If the value has changed, it is determined that communication has occurred somewhere within a certain period of time when there was no communication. Shift the time to switch to the period corresponding to the handset mode.

  FIG. 10 is a flowchart showing the switching time adjustment operation of the communication state monitoring unit 703.

The communication state monitoring unit 703 monitors the number of connected communication devices 301 to 30m and the time until each of the communication devices 301 to 30m comes into connection (step ST10a). Is stored in the device state holding database 704 together with the device ID (step ST10b).
t _x the time connected to the device x, t time _sn has been switched to the mode in the n-th, t _en denotes the time at which the mode is ended n-th.
Represents the n-th mode corresponding period.

  The communication state monitoring unit 703 grasps the maximum number X of communication devices to be connected by monitoring the number of communication devices connected during the maximum activation in the parent device mode, for example (step ST10c). When the mode activation number n is equal to or greater than the second (YES), the n-th connected device ID is compared with the n-1th or earlier (step ST10d). If the connected device IDs do not match before the n−1th time and the nth time (step ST10e: YES), the communication state monitoring unit 703 adds the added device ID to the time R_Dx until the device is connected. Thus, the minimum required time is calculated (step ST10f).

  Thereafter, the communication state monitoring unit 703 proceeds to step ST10a and repeats the observation until the number of registered devices x to be connected becomes X.

  Then, the communication state monitoring unit 703 determines the mode correspondence period as the maximum value of the past connection time of the number of devices X, calculates the switching timing (step ST10g), and controls the mode switching at the designated time. (Step ST10h).

(Minimum required time calculation method)
Assuming that the n-th mode correspondence period is P and the (n + 1) -th mode correspondence period is P ′, P ′ is expressed by the following equation.
At this time, it is assumed that m is a list of device IDs that are not connected for the nth time among all device IDs connected in the past L period with a time limit.

  The past with time limit means that it is not necessary to compare whether or not the communication devices 301 to 30m having a frequency of usually within one hour were connected five months ago, and thus past information to be viewed is limited.

  L is dynamically changed based on the data transmission frequency estimated from the data from the communication devices 301 to 30m. For example, in the case of a metering device, the deadline of 30 minutes * c is set as the deadline for referring to the past state, once in about 30 minutes. C may be a fixed value or may be a random variable from time to time.

  If P = P ′ is not satisfied, if the set of connected device IDs matches the set of connected device IDs at the (n + 1) th time, adding P′−P alone has no effect. Judging, n = n + 1, and P + 1 after the (n + 1) th update are randomly increased or decreased.

For example, f (x) to be increased at random is determined by generating random numbers according to a normal distribution by setting μ as (difference between maximum corresponding time max (P) and current corresponding time P / 2). The random number generation means is not limited to the following.

  It is determined that the device ID is not necessarily requested for connection within all the n-th mode correspondence periods, and information is updated by polling.

  In this case, the communication state monitoring unit 703 transmits a data acquisition request to the communication device 302 when, for example, the communication device 302 determines that there is no data reception even after a predetermined time has elapsed since the connection or first data reception. (Polling) to acquire data and determine whether or not the data of the communication device 302 has been acquired at least once in the past. If there is no previous data acquisition, the communication state monitoring unit 703 makes a data acquisition request to the communication device 302 again and confirms whether or not the value has been changed.

  On the other hand, when the data of the communication device 302 has been acquired at least once in the past, the communication state monitoring unit 703 compares the acquired data with the data at the previous acquisition, and determines whether the data is different from the previous data. Do.

  Here, when different from the previous data, the communication state monitoring unit 703 delays the switching time to the slave mode by the slave mode corresponding period T. If it is the same as the previous data, the communication state monitoring unit 703 further doubles the certain period until confirmation (confirmation by polling) for the communication device 302. Here, the reason for doubling is that the transmission cycle varies in minutes, hours, days, etc. depending on the communication device.

(Usage example of one embodiment)
As shown in FIG. 11, when the communication apparatus 700 is operating in the parent device mode (mode 1), the user of the communication device (dev1) 301 performs a connection request operation to the external Internet (not shown). Suppose.

  Then, the communication device (dev1) 301 transmits a connection request to the access point 200 via the communication device 700 (S11a). Thereafter, when connection permission (ACK) is received from the access point 200 (S11b), a communication link is formed between the communication device 301 and the access point 200 via the communication device 700 (S11c), and the communication device (dev1) ) 301 enables data transmission to the external Internet (not shown) (S11d).

  Similarly, the communication device (dev2) 302 transmits a connection request to the access point 200 via the communication device 700 (S11e). Thereafter, when connection permission (ACK) is received from the access point 200 (S11f), a communication link is formed between the communication device 302 and the access point 200 via the communication device 700 (S11g). Note that the communication device 700 may be included in the access point 200.

  On the other hand, for the communication device (dev3) 303, even if the communication device 700 is switched from the parent device mode (mode 1) to the child device mode (mode 2), a connection request is transmitted to the access point 200 via the communication device 700. The access point 200 does not receive a connection request (S11i). Note that a connection request from a device corresponding to mode 2 can be received by the access point 200 (S11j), and a connection permission can be returned (S11k).

  Therefore, in the above embodiment, the communication device 700 monitors the number of connected communication devices and the connection request time required until the communication device is connected, and associates the connection device ID with the connection request time. The management table 7041 is stored in the device state holding database 704 every time the master mode (mode 1) is activated, and the number of connected devices is estimated by referring to the management table 7041 and estimating from the past connection status. The mode activation time can be set variably regardless of the device type.

And a connection request is transmitted to the access point 200 via the communication apparatus 700 about the communication device (dev3) 303 (S12a). Then, a connection permission (ACK) is received from the access point 200 (S12b), a communication link is formed between the communication device 303 and the access point 200 via the communication device 700 (S12c), and the communication device (dev3). Data can be transmitted from 303 to the external Internet (not shown) (S12d).
As a result, it is possible to secure a connection with the communication device 303 that fails to be connected.

(Other embodiments)
Note that a management table in which a device ID that identifies a connected communication device and a calculated connection request time are associated with each other, and a parent device mode support period (mode support start time and mode Although the example in which the list in which the correspondence end time) is associated with the device ID of the connected communication device is stored in the device state holding database has been described, the list may be stored other than the device state holding database.

  In addition, an example in which the base unit mode compatible period is variably set to connect a plurality of communication devices when the communication apparatus is operating in the base unit mode has been described. However, the communication apparatus is operating in the slave mode. Similarly, in order to connect a plurality of communication devices, the slave mode compatible period may be set variably. In addition to the parent device mode and the child device mode, a communication apparatus having a first operation mode to which a communication device is connected and a second operation mode to which a communication device that is the same as or different from the first operation mode is connected. Even if it exists, it can implement similarly. Furthermore, even a communication device that switches a plurality of modes in the parent device mode can be implemented in the same manner.

  The configuration and type of the communication device, the type of communication device, the minimum required time calculation method, the switching time adjustment method, and the like can be implemented with various modifications without departing from the scope of the present invention.

  Each process described in the above communication device can be processed by software by a computer program. In this case, the program can be recorded on a recording medium or provided through a network.

  In short, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Further, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

  DESCRIPTION OF SYMBOLS 100,700 ... Communication apparatus, 101,701 ... Communication control part, 702 ... Switching control part, 703 ... Communication state monitoring part, 102, 405 ... Switching control part, 103, 705 ... Input interface, 200 ... Access point, 301- 30m ... Communication device, 704 ... Device state holding database, 7031 ... Connection completion time calculation unit, 7032 ... Minimum required time calculation unit, 7033 ... Adjustment control unit, 7041 ... Management table, 7042 ... List.

Claims (5)

A first operation mode in which at least one communication device is connected; and a second operation mode in which a communication device that is the same as or different from the first operation mode is connected. A switching timing adjustment method used in a communication device for switching between a mode and the second operation mode,
When operating in the first operation mode, the communication device monitors the number of communication devices to be connected and the connection request time required until the communication device is connected;
The communication device stores a management table in which a device ID that identifies the currently connected communication device and the connection request time are associated each time the first operation mode is activated,
The communication device calculates a minimum required time of the first operation mode based on the management table;
The communication device determines a switching time from the first operation mode to the second operation mode or a switching time from the second operation mode to the first operation mode based on the minimum required time. A switching timing adjustment method characterized by adjusting. Further, the communication apparatus stores the correspondence period of the first operation mode and the number of connected communication devices in association with each number of activations of the first operation mode,
The minimum required time is calculated by comparing the device IDs before the n−1th time and the nth time when the number of activations n (n is an integer) of the first operation mode is the second time or more. 2. The switching timing adjustment method according to claim 1, wherein the minimum request time is calculated based on the connection request time until the communication device corresponding to the added device ID and the device ID is connected in some cases. . A first operation mode in which at least one communication device is connected; and a second operation mode in which a communication device that is the same as or different from the first operation mode is connected. A communication device for switching between a mode and the second operation mode,
A monitoring unit that monitors the number of communication devices to be connected and the connection request time required until the communication device is connected when operating in the first operation mode;
A storage unit that stores a management table that associates a device ID that identifies the currently connected communication device with the connection request time monitored by the monitoring unit, each time the first operation mode is activated;
A calculation unit that calculates a minimum required time of the first operation mode based on the management table;
An adjustment unit that adjusts a switching time from the first operation mode to the second operation mode or a switching time from the second operation mode to the first operation mode based on the minimum required time; A communication apparatus comprising: The storage unit stores the correspondence period of the first operation mode and the number of connected communication devices in association with the number of activations of the first operation mode,
The calculation unit compares the device IDs before the n-1th time and the nth time when the number n (n is an integer) of the first operation mode is greater than or equal to the second time, and is added when there is a mismatch The communication apparatus according to claim 3, wherein the minimum required time is calculated based on the connection request time until the communication device corresponding to the device ID and the corresponding device ID is connected. A first operation mode in which at least one communication device is connected; and a second operation mode in which a communication device that is the same as or different from the first operation mode is connected. When the communication apparatus that switches between the mode and the second operation mode operates in the first operation mode, the number of communication devices to be connected and the connection request time required until the communication device is connected are monitored. A monitoring unit to
A storage unit that stores a management table that associates a device ID that identifies the currently connected communication device with the connection request time monitored by the monitoring unit, each time the first operation mode is activated;
A calculation unit that calculates a minimum required time of the first operation mode based on the management table;
As an adjustment unit that adjusts the switching time from the first operation mode to the second operation mode or the switching time from the second operation mode to the first operation mode based on the minimum required time. The program to be run.