JP7253189B2 - Communication system, relay device and relay method - Google Patents

Description

The present invention relates to a communication system having a plurality of devices, a relay device and a relay method used in the communication system.

AODV (Ad hoc On-Demand Distance Vector), DSR (Dynamic Source Routing), etc. are known as communication protocols between a plurality of devices in an ad-hoc network using radio. Since these protocols dynamically select a transfer route, they are suitable for environments in which communication quality changes depending on various conditions such as the communication environment, the number of passengers, and the position of the passenger, such as inside a car.

Also, in an ad-hoc network using radio, when a transmitting device cannot directly communicate with a receiving device, another device belonging to the network acts as a relay device and transmits to the receiving device instead of the transmitting device. As a method for performing this in a short time, there is a proxy communication method (see Patent Document 1).

Further, it is known that when there is a plurality of data accumulated in a buffer, the relay device aggregates the plurality of data and collectively transmits the aggregated data to another relay device (see Patent Document 2). In Patent Literature 2, the relay device aggregates data stored in a buffer every predetermined time.

JP 2014-225859 A JP 2014-27406 A

Patent Literature 1 discloses proxy communication, and Patent Literature 2 discloses periodically aggregating data when a plurality of data are accumulated in a buffer. However, since the timing at which communication occurs is not constant, when the relay device periodically aggregates data, the data may stagnate in the relay device or wait for data unnecessarily.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a communication system, a relay device, and a relay method used in a communication system that appropriately aggregate data accumulated in the buffer of the relay device.

In order to solve the above problems, a first feature of the present invention relates to a communication system comprising a plurality of receiving devices as transmission destinations of target data and a relay device capable of communicating with each of the plurality of transmitting devices. In the communication system according to the first feature, the relay device receives target data in response to transmission of target data from one transmission device among the plurality of transmission devices to one reception device among the plurality of reception devices. When detecting that a reception notification indicating that the device has received the target data is not transmitted, an overheard processing unit that stores the target data in the relay data, and sets the target data that was aggregated to the predetermined receiving device last time. A configured aggregate number calculation unit that calculates the currently configured aggregate number by increasing or decreasing the number of aggregates based on the delay time, which is an index of the state of congestion in the communication system, and the allowable delay time, which is an allowable value for the delay time. Then, when the number of each target data addressed to the predetermined receiving device reaches the current set aggregate count, the aggregated data of each target data addressed to the predetermined receiving device is transmitted to the predetermined receiving device. It has a relay unit that

If the value obtained by subtracting the delay time from the allowable delay time is within a predetermined range, the set aggregate number calculation unit calculates the previous set aggregate number as the current set aggregate number, and calculates the delay time from the allowable delay time. If the value obtained by subtracting is greater than the specified range, increase the number of previously configured aggregates to calculate the number of configured aggregates this time, and the value obtained by subtracting the delay time from the allowable delay time is greater than the specified range. If it is smaller, the current set aggregate number may be calculated by reducing the previous set aggregate number.

The increase/decrease number from the previous set aggregate number may be a fixed value.

The increase/decrease number from the previously set number of aggregates may be determined by a function that defines the relationship between the value obtained by subtracting the delay time from the allowable delay time and the increase/decrease number.

A second feature of the present invention relates to a relay device used in a communication system including a plurality of receiving devices serving as transmission destinations of target data and a relay device capable of communicating with each of the plurality of transmitting devices. A relay device according to a second aspect of the present invention is a relay device in which one transmission device among a plurality of transmission devices transmits target data to one reception device among a plurality of reception devices, and receives When detecting that a reception notification indicating that the device has received the target data is not transmitted, an overheard processing unit that stores the target data in the relay data, and sets the target data that was aggregated to the predetermined receiving device last time. A configured aggregate number calculation unit that calculates the currently configured aggregate number by increasing or decreasing the number of aggregates based on the delay time, which is an index of the state of congestion in the communication system, and the allowable delay time, which is an allowable value for the delay time. Then, when the number of each target data addressed to the predetermined receiving device reaches the current set aggregate count, the aggregated data of each target data addressed to the predetermined receiving device is transmitted to the predetermined receiving device. It has a relay unit that

A third feature of the present invention relates to a relay method used in a communication system including a plurality of receivers serving as transmission destinations of target data and a relay device capable of communicating with each of the plurality of transmitters. A relay method according to a third aspect of the present invention is such that the relay device transmits the target data to one of the plurality of receivers by one of the plurality of transmitters. on the other hand, if the receiving device detects that a reception notification indicating that the target data has been received is not transmitted, storing the target data in the relay data; a step of increasing or decreasing the set aggregate number of the target data based on the delay time, which is an index of congestion in the communication system, and the allowable delay time, which is an allowable value for the delay time, to calculate the current set aggregate number; Then, when the number of each target data addressed to the predetermined receiving device reaches the set aggregate count this time, the relay device aggregates the target data addressed to the predetermined receiving device to the predetermined receiving device. transmitting to.

Advantageous Effects of Invention According to the present invention, it is possible to provide a communication system, a relay device and a relay method used in a communication system that appropriately aggregate data accumulated in a buffer of a relay device.

1 is a system configuration diagram of a communication system according to an embodiment of the present invention; FIG. It is an example of a data structure transmitted by the relay device according to the embodiment of the present invention. 1 is a sequence diagram of a communication method according to an embodiment of the present invention; FIG. It is a figure explaining the hardware constitutions and functional blocks of the relay apparatus which concern on embodiment of this invention. It is a figure explaining an example of the structure of the relay data and data which concern on embodiment of this invention. 7 is a flowchart for explaining processing of an overhear processing unit according to the embodiment of the present invention; 4 is a flowchart for explaining processing of a relay unit according to the embodiment of the present invention; 9 is a flowchart for explaining processing of an aggregate number calculation unit according to the embodiment of the present invention; FIG. 10 is an example of a function that is referred to when determining the number of increases or decreases in the number of set aggregates in the first modification; FIG.

Next, embodiments of the present invention will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals.

(Communications system)
A communication system 5 according to an embodiment of the present invention will be described with reference to FIG. A communication system 5 includes a plurality of communication devices 1, and each communication device is connected in a mesh to form a wireless mesh network.

The communication system 5 shown in FIG. 1 includes a first communication device 1a, a second communication device 1b, a third communication device 1c and a fourth communication device 1d. In the embodiment of the present invention, when the first communication device 1a, the second communication device 1b, the third communication device 1c, and the fourth communication device 1d are not particularly distinguished, they may be simply referred to as the communication device 1. . Also, although FIG. 1 includes four communication devices, the number of communication devices is not limited to this.

In the embodiment of the present invention, each communication device 1 functions as a transmitter, a receiver, or a relay device according to its role in each communication. Each communication device 1 may function as a transmission device when transmitting target data. Further, each communication device 1 may function as a receiving device when it becomes a transmission destination of target data. Also, each communication device 1 may function as a relay device that relays communication between a transmission device and a reception device. Here, the target data is data relating to a request or a response transmitted from the transmitting device to the receiving device, and is data to be subjected to proxy communication, which will be described later.

A communication system 5 according to an embodiment of the present invention is installed in a limited space such as the inside of a passenger car. Each communication device 1 is installed in the controller, and is installed corresponding to each facility such as a car door, room lamp, window, etc., and transmits the status of each facility to the controller, and transmits the status of each facility from the controller. receive instructions to change

The communication system 5 implements wireless communication between the communication devices 1 in an ad-hoc manner. Depending on the position of each communication device 1, radio wave environment, etc., each communication device 1 may not be able to communicate directly. In the embodiment of the present invention, the first communication device 1a can communicate with the second communication device 1b and the third communication device 1c, but cannot communicate with the fourth communication device 1d. The second communication device 1b can communicate with the first communication device 1a, the third communication device 1c and the fourth communication device 1d. The third communication device 1c can communicate with the first communication device 1a, the second communication device 1b and the fourth communication device 1d. The fourth communication device 1d can communicate with the second communication device 1b and the third communication device 1c, but cannot communicate with the first communication device 1a.

In such a situation, when the first communication device 1a attempts to transmit target data to the fourth communication device 1d, the first communication device 1a and the fourth communication device 1d cannot communicate directly. Therefore, the second communication device 1b (or the third communication device 1c) communicates instead of the first communication device 1a (proxy communication). Specifically, when the first communication device 1a transmits target data to the fourth communication device 1d, communication is performed according to the following procedure.

(1) Overhear When the first communication device 1a transmits target data to the fourth communication device 1d, the second communication device 1b performs overhear. In overheard, the second communication device 1b detects that target data has been transmitted from the first communication device 1a to the fourth communication device 1d. Further, the second communication device 1b detects that the reception acknowledgment (Ack) for the target data was not sent after the target data was sent.

(2) Proxy Communication After overhearing, the second communication device 1b performs proxy communication. In proxy communication, the second communication device 1b transmits proxy communication data including the target data to the fourth communication device 1d instead of the first communication device 1a. After the proxy communication, the second communication device 1b waits for reception notification of proxy communication data from the fourth communication device 1d. When the reception notification is not received from the fourth communication device 1d, the second communication device 1b may repeat transmission of proxy communication data at predetermined time intervals and predetermined times.

(3) Notification of Completion of Proxy Communication When the second communication device 1b receives a reception notification from the fourth communication device 1d in response to proxy communication of target data to the fourth communication device 1d, the first communication is performed. It notifies the device 1a of completion notification of proxy communication. When the first communication device 1a receives the proxy communication completion notification, it recognizes that the target data has been received by the fourth communication device 1d. This completes a series of communications for transmitting the target data from the source to the destination.

Data related to proxy communication transmitted and received by the second communication device 1b in such proxy communication includes, for example, source address P1 and destination address P2 as link addresses, and source address P3 and destination address as end addresses, as shown in FIG. It has an address P4, a type P5 and data P6. Data related to proxy communication may include items other than the items shown in FIG.

The link address specifies the address of the communication device 1 directly connected by Link to Link for the data of proxy communication performed by the second communication device 1b. The end address is set to the address of the end-to-end communication device 1 that transmits/receives target data for proxy communication data transmitted by the second communication device 1b. When the second communication device 1b performs proxy communication for communication from the first communication device 1a to the fourth communication device 1d, the address of the second communication device 1b is set as the transmission source address P1 of the link address, The address of the fourth communication device 1d is set as the destination address P2. The address of the first communication device 1a is set as the source address P3 of the end address, and the address of the fourth communication device 1d is set as the destination address P4. In the type P5, a data type related to proxy communication, such as proxy communication or notification of completion of proxy communication, is set.

The data P6 is data (payload) to be transmitted, and is set with target data or with a completion notification. The data P6 may have a fixed length or a variable length. If the length is variable, an item indicating the data length may be provided. Data P6 includes a delay time in the embodiment of the present invention.

(Communication method)
A communication method according to an embodiment of the present invention will be described with reference to FIG. In the example shown in FIG. 3, a solid line indicates that communication is possible, and a dashed line indicates that communication is not possible. In FIG. 3, the case where the second communication device 1b functions as a relay device will be described.

In step S1, the second communication device 1b calculates the number of set aggregates. For example, after aggregating the target data addressed to the predetermined receiving device, the second communication device 1b stores the target data addressed to the predetermined receiving device in the relay data (buffer) for aggregation. Calculate the number of aggregates. When the target data addressed to the predetermined receiving device reaches the set aggregate number calculated in step S1, the second communication device 1b aggregates the target data and transmits the target data to the receiving device. In the example shown in FIG. 3, the second communication device 1b calculates the number of set aggregates regarding the target data addressed to the fourth communication device 1d.

First, the case where direct communication succeeds will be described. Here, the transmitting device is the first communication device 1a and the receiving device is the third communication device 1c.

In step S2, the first communication device 1a attempts direct communication of the first target data to the third communication device 1c. At this time, the second communication device 1b intercepts the communication in step S2, temporarily stores the first target data in step S3, and monitors the reception notification (Ack) regarding the first target data for a predetermined time. In step S4, when a reception notification for the first target data is transmitted from the third communication device 1c to the first communication device 1a within a predetermined time, the second communication device 1b detects the reception notification. . In step S5, the second communication device 1b deletes the first target data temporarily stored in step S3.

On the other hand, a case where direct communication fails and proxy communication is performed will be described. Here, the transmitting device is the first communication device 1a and the receiving device is the fourth communication device 1d. Since the first communication device 1a and the fourth communication device 1d cannot communicate directly, the second communication device 1b serves as a relay device for proxy communication.

In step S6, the first communication device 1a attempts direct communication of the second target data to the fourth communication device 1d. At this time, the second communication device 1b intercepts the communication in step S6, temporarily saves the second target data in step S7, and monitors reception notification regarding the second target data for a predetermined period of time. Since the direct communication of the second target data attempted in step S6 is not transmitted to the fourth communication device 1d, in step S8, the second data is sent from the fourth communication device 1d to the first communication device 1a within a predetermined time. Receipt notification for the target data of is not sent. Accordingly, in step S9, the second communication device 1b stores the second target data temporarily stored in step S7 in the relay data, and waits for proxy communication of the second target data.

The second target data waits within the relay data until the transmission conditions are met. During this time, in the communication system 5, direct transmission of a plurality of target data is attempted. When overheard occurs, the second communication device 1b sequentially stores the overheard target data in the relay data. As a result, multiple pieces of target data are stored in the relay data. There may be multiple destinations for the target data stored in the relay data, and there may be multiple target data to be transmitted to a given destination.

In step S10, the second communication device 1b determines whether or not the target data stored in the relay data satisfies a predetermined transmission condition. For example, the second communication device 1b determines whether or not the number of target data addressed to the fourth communication device 1d among the target data stored in the relay data reaches the set aggregate number calculated in step S1. do. The process of step S10 may be executed at a timing when the second communication device 1b can transmit.

When it is determined that the number of target data addressed to the fourth communication device 1d reaches the set aggregate count calculated in step S1, the second communication device 1b determines in step S11 that the target data addressed to the fourth communication device 1d Aggregate data and communicate on behalf of others. In this case, the second communication device 1b sets, for example, the source address P1 of the link address to the address of the second communication device 1b, and sets the destination address P2 to the address of the fourth communication device 1d. The second communication device 1b sets values corresponding to each target data stored in the relay data to the end address, type, and data. When the end address of each target data is common, the data items may be appropriately set such that the end address is not set repeatedly.

In step S12, when the reception notification for step S11 is received, in step S13 the second communication device 1b transmits a completion notification indicating that the proxy communication has been completed to the communication device 1 that performed the proxy communication. If there are a plurality of senders of the end addresses of the plurality of pieces of target data that have been subjected to proxy communication in step S11, the second communication device 1b transmits a proxy communication completion notification to each of the communication devices 1 that are the senders.

(Communication device)
A communication device 1 according to an embodiment of the present invention will be described with reference to FIG. FIG. 4 shows the configuration when the communication device 1 functions as a relay device, and the configuration when the communication device 1 functions as a transmission device or a reception device is omitted. The communication device 1 may be directly connected to the transmitting device and the receiving device, or may be connected via another communication device 1 .

The communication device 1 is a general computer including a storage device 10 , a processing device 20 and a communication control device 30 . The functions shown in FIG. 4 are realized by executing a general communication program (relay program).

The storage device 10 is a ROM (Read Only Memory), a RAM (Random Access Memory), a hard disk, or the like, and stores various data such as input data, output data, and intermediate data for the processing device 20 to execute processing. . The processing device 20 is a CPU (Central Processing Unit), reads and writes data stored in the storage device 10, inputs and outputs data to and from the communication control device 30, and executes processing in the communication device 1. . The communication control device 30 is an interface for connecting the communication device 1 to other communication devices 1 so as to be able to communicate with each other.

The storage device 10 stores a communication program, and also stores relay data 11 and set aggregate number data 12 . The storage device 10 also temporarily stores data intercepted when the communication device 1 overhears.

The relay data 11 is a target data group for proxy communication of the communication device 1 and is a buffer of the target data. As shown in FIG. 5, the relay data 11 sequentially stacks target data for proxy communication. FIG. 5 shows that the communication device 1 overheards the target data A, the target data B, and the target data C in this order.

The relay data 11 holds target data for proxy communication until each target data transmitted to the same receiving device satisfies the transmission condition. In the embodiment of the present invention, the transmission conditions are whether or not the target data satisfying the set number of aggregates have been gathered, and whether or not the maximum waiting time has elapsed since the target data was stored in the relay data 11. whichever comes first. The relay data 11 holds the elapsed time after starting to hold each target data. This elapsed time is used for comparison with the maximum waiting time set as the transmission time. Also, when target data addressed to a plurality of receiving devices satisfy the transmission condition at the same time, the elapsed time may be used to transmit target data addressed to the receiving device including target data with a longer elapsed time. Also, when the target data addressed to a certain receiving device exceeds the set aggregate count, it may be used to select target data within the set aggregate count.

The set aggregate number data 12 is the number of target data to be aggregated when the relay unit 22 aggregates and transmits a plurality of target data. The number of set aggregates is set for each destination receiving terminal.

The processing device 20 includes an overhear processing unit 21 , a relay unit 22 and a set aggregate number calculation unit 23 .

The overhear processing unit 21, in response to the fact that one transmitting device among the plurality of transmitting devices has transmitted target data to one receiving device among the plurality of receiving devices, the receiving device transmits the target data. When detecting that the reception notification indicating the reception is not transmitted, this target data is stored in the relay data 11 . The overheard processing unit 21 may periodically or at a predetermined timing inquire whether communication is being performed.

When one transmission device among the plurality of transmission devices transmits target data to one reception device among the plurality of reception devices, the overhear processing unit 21 stores the target data in the storage device 10. Temporarily save. When the overheard processing unit 21 detects that a reception notification indicating that the receiving device has received the target data is not transmitted within a predetermined time, the overheard processing unit 21 stores the temporarily saved target data in the relay data 11 to prepare for proxy communication. .

The processing of the overhear processor 21 will be described with reference to FIG.

First, in step S101, when the overhear processing unit 21 detects that the target data has been transmitted in the communication system 5, in step S102, it waits for a reception notification regarding the target data for a predetermined time. If the reception notification is not transmitted within the predetermined time, the target data detected in step S101 is stored in the relay data 11 in step S103, and the process ends.

When the number of target data destined for a predetermined receiving device reaches the currently set aggregate number, the relay unit 22 aggregates the target data destined for the predetermined receiving device and transmits the aggregated data to the predetermined receiving device. Send to. The set aggregate number is calculated in advance by a set aggregate number calculation unit 23, which will be described later.

Also, in the relay data 11, if the elapsed time from the start of holding each target data exceeds the maximum waiting time, the relay unit 22 You may send target data. At this time, the relay unit 22 may aggregate and transmit the target data having the same destination as the target data whose elapsed time exceeds the maximum waiting time.

Processing of the relay unit 22 will be described with reference to FIG. The relay unit 22 executes when the communication device 1 can transmit.

First, in step S<b>201 , the relay unit 22 determines whether or not there is target data for which the maximum waiting time has passed among the target data held by the relay data 11 . If there is target data for which the maximum waiting time has elapsed, the relay unit 22 transmits the target data in step S203. At this time, data addressed to the same receiving device as the target data is aggregated and transmitted.

If there is no target data for which the maximum waiting time has passed, the process proceeds to step S202. In step S<b>202 , the relay unit 22 determines whether or not the number of target data for each receiving device, which is the destination of each target data included in the relay data 11 , reaches the set aggregate number. If there is no receiver that reaches the set aggregate number, the relay unit 22 returns to step S201.

If there are receiving devices that reach the set aggregate number, the relay unit 22 aggregates the target data addressed to the receiving devices that reach the set aggregate number in step S203, and performs proxy communication.

The set aggregate number calculation unit 23 calculates the current set aggregate number by increasing or decreasing the set aggregate number of the target data aggregated to the predetermined receiving device last time based on the delay time and the allowable delay time. do. The delay time is an index of congestion in the communication system 5, and the allowable delay time is the allowable value for the delay time.

When the number of set aggregates is large, there is an advantage that the amount of traffic in the communication system 5 can be reduced and the load on the relay device 1 can be reduced compared to the case where target data is transmitted each time without being aggregated. However, when the number of set aggregates is large, the target data may wait in the relay device 1 until the target data of the set number of aggregates are prepared, which has the disadvantage of increasing the delay time. On the other hand, when the number of set aggregates is small, the waiting time of the target data in the relay device 1 is shortened, and there is an advantage that the delay time is shortened. However, when the number of set aggregates is small, the frequency of transmission of target data increases, leading to an increase in the traffic volume of the communication system 5 , which has the disadvantage of increasing the load on the communication system 5 . Therefore, the set aggregate number calculation unit 23 appropriately sets the set aggregate number based on the delay time and the allowable delay time.

In the embodiment of the present invention, the delay time is set in the target data that motivates the set aggregate number calculation unit 23 to calculate the set aggregate number. When the relay data 11 does not contain target data addressed to a predetermined receiving device and the target data addressed to the receiving device is stored in the relay data 11, the delay time is set to the target data stored in the relay data 11. be.

In the example shown in FIG. 3, the delay time is set in the first communication device 1a, which is the transmission source of the target data. The delay time is the time from when the first communication device 1a transmits the target data until it receives the proxy communication completion notification regarding the target data. Specifically, in FIG. 3, the delay time is the time from when the first communication device 1a transmits the first target data in step S2 to when it receives the proxy communication completion notification in step S13. . The delay time may be set to the time required for the most recent communication by the communication device that is the transmission source of the end address, or may be set to the average value of the time required for communication within a predetermined period. As described above, the delay time is the time required for the communication device 1 to confirm that the target data has been transmitted after the target data is transmitted, and reflects the state of congestion in the communication system 5 and the communication device 1. It is a thing.

On the other hand, the permissible delay time is a fixed value preset in the relay device 1 . The permissible delay time is set in advance according to the scale and processing load of the communication system 5, the position and processing load of the relay device 1, and the like. The relay device 1 performs control so that the time from when the first communication device 1a transmits the target data until it receives the proxy communication completion notification regarding the target data is within the allowable delay time.

If the value obtained by subtracting the delay time from the allowable delay time is within a predetermined range, the set aggregate number calculation unit 23 calculates the previous set aggregate number as the current set aggregate number, and calculates the delay from the allowable delay time. If the value after subtracting the time is larger than the specified range, increase the number of aggregates set last time to calculate the number of aggregates set this time, and the value obtained by subtracting the delay time from the allowable delay time is below the specified range. is also small, the number of aggregates set this time is calculated by reducing the number of aggregates set last time. The calculated number of set aggregates is calculated for each destination receiving apparatus and referred to by the relay unit 22 . As a result, the relay device 1 can appropriately increase or decrease the number of set aggregates in consideration of congestion conditions in the communication system 5 .

If the value obtained by subtracting the delay time from the allowable delay time is within a predetermined range, the congestion condition of the communication system 5 is moderate, data can be transmitted and received within the allowable delay time, and the state is stable. The set aggregate number calculation unit 23 sets the current set aggregate number to be the same as the previous set aggregate number.

If the value obtained by subtracting the delay time from the allowable delay time is larger than the predetermined range, the communication system 5 is lightly congested and data can be transmitted and received within the allowable delay time. The set aggregate number calculation unit 23 sets the current set aggregate number to be larger than the previous set aggregate number. As a result, the relay unit 22 can aggregate more target data and transmit them to the receiving device, thereby reducing the amount of traffic in the communication system 5 and reducing the load. In addition, although the time for which the target data waits in the relay device 1 increases, the data can be transmitted and received with a margin within the allowable delay time. can be expected to

If the value obtained by subtracting the delay time from the allowable delay time is smaller than the predetermined range, the communication system 5 is extremely congested and data is being transmitted and received within the allowable delay time. The set aggregate number calculation unit 23 sets the current set aggregate number to be smaller than the previous set aggregate number. As a result, the relay unit 22 can aggregate the target data and transmit it to the receiving device at an earlier timing, so that the standby time in the relay device 1 can be shortened and the delay time can be expected to be shortened.

In the embodiment of the present invention, the increase/decrease number from the previous set aggregate number is a fixed value. By setting the increase/decrease number to a fixed value, the processing load on the set aggregate number calculation unit 23 can be reduced.

Also, the upper limit and lower limit of the number of set aggregates may be determined in advance and controlled so as not to exceed the upper limit and lower limit. For example, if the previously set number of aggregates is the upper limit, even if the value obtained by subtracting the delay time from the allowable delay time is greater than the specified range, the number of aggregates set this time will be less than the previously set number of aggregates. It does not change. Similarly, if the previously set number of aggregates is the lower limit, even if the value obtained by subtracting the delay time from the allowable delay time is smaller than the specified range, the number of aggregates set this time will be It does not change.

In the embodiment of the present invention, when the overhear processing unit 21 overhears, the set aggregate number calculation unit 23 determines whether or not the relay data 11 includes target data with the same destination as the overheard target data. When there is no target data with the same destination and the destination of the overheard target data is the first destination, the set aggregate number calculation unit 23 calculates the set aggregate number for the destination of the overheard target data. As another embodiment, the relay unit 22 may calculate the number of set aggregates for the receiving device after transmitting data to a predetermined receiving device.

The processing of the set aggregate number calculation unit 23 will be described with reference to FIG. The example shown in FIG. 8 shows a case where the number of set aggregates is increased or decreased by one. Note that in FIG. 8, threshold a>threshold b.

First, in step S<b>301 , the set aggregate number calculation unit 23 determines whether the destination of the target data overheard by the overhear processing unit 21 is included in the destination of the target data of the relay data 11 . If the destination of the overheard target data is included in the destination of the target data of the relay data 11, the number of set aggregates has already been calculated, so the processing ends as it is.

If the destination of the target data of the relay data 11 does not include the destination of the overheard target data, in step S302, the set aggregate number calculation unit 23 determines whether or not the target data has a delay time setting. judge. If there is no delay time setting, the process is terminated as it is.

If the delay time is set, in step S303, the set aggregate number calculation unit 23 distributes the processing based on the relationship between the allowable delay time (X) and the delay time (t).

If the value obtained by subtracting the delay time (t) from the allowable delay time (X) is equal to or greater than the predetermined threshold a, the process proceeds to step S304. In step S304, the set aggregate number calculation unit 23 sets the number obtained by adding 1 to the previous set aggregate number as the current set aggregate number.

If the value obtained by subtracting the delay time (t) from the allowable delay time (X) is larger than the predetermined threshold value b and smaller than the predetermined threshold value a, the process proceeds to step S305. In step S305, the set aggregate number calculation unit 23 sets the previous set aggregate number to the current set aggregate number.

If the value obtained by subtracting the delay time (t) from the allowable delay time (X) is less than or equal to the predetermined threshold b, the process proceeds to step S306. In step S306, the set aggregate number calculation unit 23 sets the number obtained by subtracting 1 from the previous set aggregate number as the current set aggregate number.

The relay device 1 according to the embodiment of the present invention refers to the delay time, which is an indicator of the congestion situation in the communication system 5, and increases or decreases the number of set aggregates according to the margin of the delay time with respect to the allowable delay time. do. Accordingly, it is possible to reduce the load on communication by adjusting the number of aggregates within a range in which data can be transmitted and received within the allowable delay time.

As described above, the relay device according to the embodiment of the present invention can appropriately aggregate the data accumulated in the relay data of the relay device.

(First modification)
In the embodiment of the present invention, the case where the set aggregate number calculation unit 23 increases or decreases the fixed value with respect to the previous set aggregate number has been described. A case will be described where the value to be incremented or decremented is changed according to the magnitude of the subtracted value.

In the first modification, the increase/decrease from the previous set number of aggregates is determined by a function that defines the relationship between the value obtained by subtracting the delay time from the allowable delay time and the increase/decrease. The function is, for example, a cubic function shown in FIG. 9, which indicates that the number of increases and decreases increases as Xt deviates from a predetermined range. The cubic function shown in FIG. 9 is that used in TCP CUBIC. The cubic function shown in FIG. 9 is the number of increases and decreases when Xt is outside the predetermined range (on the side in the left-right direction) than when Xt is within the predetermined range (middle in the left-right direction). indicates that is larger.

In the first modification, the larger the value of the previous set aggregate number is increased or decreased as Xt deviates from the predetermined range, the current set aggregate number is calculated. As a result, even if a sudden change occurs in the communication system 5, such as when the communication system 5 is suddenly congested or when the congestion is suddenly resolved, it is easy to respond immediately by greatly changing the number of aggregates. Become.

(Second modification)
In the embodiment of the present invention, a case has been described where the delay time is set by the communication device 1 that is the transmission source of the target data, but the present invention is not limited to this. The delay time may be an index of congestion in the communication system, and is, for example, the time from when the relay device 1 overhears the target data to when it receives an acknowledgment (Ack) in response to the proxy communication completion notification. It can be. In the example shown in FIG. 3, the time from overhearing the target data to receiving the reception notification for the proxy communication completion notification is determined by relaying the reception notification for the proxy communication completion communication transmitted in step S13 from step S3. It is the time until the device 1 receives it.

If the delay time is the time from when the relay device 1 overhears the target data to when it receives the AcK in response to the proxy communication completion notification, the relay device 1 itself can measure the delay time. Therefore, since it is sufficient to change the processing of the relay device 1 without modifying the entire communication system 5, there is an effect that it is easy to modify the system.

As described above, the delay time may be an index of the congestion state in the communication system 5, and any specific time measurement method may be used.

(Other embodiments)
While the invention has been described above in terms of embodiments, the discussion and drawings forming part of this disclosure should not be construed as limiting the invention. Various alternative embodiments, examples and operational techniques will become apparent to those skilled in the art from this disclosure.

For example, the flow of processing shown in a sequence diagram or flowchart is an example, and processing may be performed in a different order.

The present invention naturally includes various embodiments and the like that are not described here. Therefore, the technical scope of the present invention is defined only by the matters specifying the invention according to the scope of claims that are valid from the above description.

1 communication device (relay device)
5 communication system 10 storage device 11 relay data 12 set aggregate number data 20 processing device 21 overhear processing section 22 relay section 23 set aggregate number calculation section 30 communication control device

Claims (6)

a plurality of receiving devices to which target data is to be sent;
a plurality of transmission devices that transmit the target data;
A communication system comprising a relay device capable of communicating with each of the plurality of receiving devices and the plurality of transmitting devices,
The relay device
When one transmitting device among the plurality of transmitting devices transmits target data to one receiving device among the plurality of receiving devices, the receiving device receives the target data. an overhear processing unit that stores the target data in relay data when detecting that the reception notification indicating the above is not transmitted;
The set aggregate number of target data aggregated to a predetermined receiving device last time is increased or decreased based on the delay time that is an index of the congestion state in the communication system and the allowable delay time that is the allowable value for the delay time. , a set aggregate number calculation unit that calculates the number of set aggregates this time;
When the number of each target data destined for a predetermined receiving device reaches the set aggregate number of this time, the data obtained by aggregating each target data destined for the predetermined receiving device is sent to the predetermined receiving device A communication system comprising: a relay section for transmission. The set aggregate number calculation unit
If the value obtained by subtracting the delay time from the allowable delay time is within a predetermined range, the number of aggregates set last time is calculated as the number of aggregates set this time,
If the value obtained by subtracting the delay time from the allowable delay time is greater than the specified range, increase the number of previously set aggregates and calculate the current set number of aggregates,
2. The communication according to claim 1, wherein when a value obtained by subtracting the delay time from the allowable delay time is smaller than a predetermined range, the number of aggregates set this time is calculated by reducing the number of previously set aggregates. system. 3. The communication system according to claim 2, wherein the increase/decrease number from the previous set aggregate number is a fixed value. 3. The communication system according to claim 2, wherein the increase/decrease number from the previously set aggregate number is determined by a function that determines the relationship between a value obtained by subtracting the delay time from the allowable delay time and the increase/decrease number. Used in a communication system comprising: a plurality of receiving devices as destinations of target data; a plurality of transmitting devices for transmitting the target data; and a relay device capable of communicating with each of the plurality of receiving devices and the plurality of transmitting devices A relay device that
When one transmitting device among the plurality of transmitting devices transmits target data to one receiving device among the plurality of receiving devices, the receiving device receives the target data. an overhear processing unit that stores the target data in relay data when detecting that the reception notification indicating the above is not transmitted;
The set aggregate number of target data aggregated to a predetermined receiving device last time is increased or decreased based on the delay time that is an index of the congestion state in the communication system and the allowable delay time that is the allowable value for the delay time. , a set aggregate number calculation unit that calculates the number of set aggregates this time;
When the number of each target data destined for a predetermined receiving device reaches the set aggregate number of this time, the data obtained by aggregating each target data destined for the predetermined receiving device is sent to the predetermined receiving device A relay device, comprising: a relay unit for transmission. Used in a communication system comprising: a plurality of receiving devices as destinations of target data; a plurality of transmitting devices for transmitting the target data; and a relay device capable of communicating with each of the plurality of receiving devices and the plurality of transmitting devices A relay method for
When the relay device transmits target data to one receiving device of the plurality of receiving devices from one transmitting device of the plurality of transmitting devices, the receiving device transmits the target data. storing the target data in the relay data when it is detected that the reception notification indicating the reception is not transmitted;
The relay device sets the number of set aggregates of target data aggregated to a predetermined receiving device last time as a delay time that is an index of congestion status in the communication system and an allowable delay time that is an allowable value for the delay time. a step of calculating the number of aggregates set this time by increasing or decreasing based on
When the number of target data destined for a predetermined receiving device reaches the currently set aggregate number, the relay device aggregates the target data destined for the predetermined receiving device and aggregates the target data to the predetermined receiving device. A relay method, comprising the step of transmitting to a receiving device.

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