JP2021145274A - Communication system and program - Google Patents

Abstract

To reduce power consumption of a communication system for transmitting data using a multi-hop system.SOLUTION: A communication system S comprises a plurality of communication terminals 1, each of which belongs to any of a plurality of layers. One or more of communication terminals 1 belonging to the same layer transmit transfer data simultaneously. Each of the plurality of communication terminals 1 includes: a storage unit 12 for storing an own terminal layer, a layer to which the communication terminal belongs; a data reception unit 131 for receiving transfer data transmitted by another communication terminal 1 of the plurality of communication terminals 1; a transmission destination layer identification unit 132 for identifying a transmission destination layer, a layer of a transmission destination shown by transmission destination information included in the transfer data received by the data reception unit 131; and a data transmission unit 133 for transmitting the transfer data received by the data reception unit 131 on condition that the transmission destination layer differs from the own terminal layer.SELECTED DRAWING: Figure 3

Description

The present invention relates to a communication system including a plurality of communication terminals and a program executed by the communication terminals.

Conventionally, a technique for transmitting data between a plurality of communication terminals using a multi-hop technique has been known. Patent Document 1 and Non-Patent Document 1 disclose a simultaneous transmission flooding technique in which a communication terminal that has received data broadcast from another communication terminal repeatedly broadcasts the received data.

Japanese Unexamined Patent Publication No. 2019-2964

Sonas, Inc., "What is simultaneous transmission flooding?", [Online], [Search on March 9, 2nd year of Reiwa], Internet <https://www.sonas.co.jp/technology/unisonet/mechanism>

In the conventional simultaneous transmission flooding technique, the communication terminal that has received the data broadcasts the received data regardless of the destination of the data. Therefore, although it is meaningless to broadcast the received data, the communication terminal may broadcast the received data. As a result, there is a problem that the power consumption of the entire communication system becomes larger than necessary.

Therefore, the present invention has been made in view of these points, and an object of the present invention is to reduce the power consumption of a communication system that transmits data by a multi-hop method.

The communication system of the first aspect of the present invention is a communication system including a plurality of communication terminals belonging to any one of a plurality of layers, and one or more communication terminals belonging to the same layer simultaneously transmit transmission data. Each of the plurality of communication terminals receives a storage unit that stores the own terminal hierarchy, which is the hierarchy to which the own terminal belongs, and data reception that receives transmission data transmitted by another communication terminal among the plurality of communication terminals. A destination layer specifying unit that specifies a destination layer that is a destination layer indicated by destination information included in the transmission data received by the data receiving unit, and a destination layer specifying unit that specifies the destination layer, and the destination layer is the own terminal. It has a data transmission unit that transmits the transmission data received by the data reception unit, provided that it is different from the hierarchy.

The data transmission unit is provided with the transmission data on the condition that the own terminal layer is closer to the transmission destination layer than the transmission source layer to which the other communication terminal that has transmitted the transmission data received by the data reception unit belongs. May be sent.

The destination information includes range information that specifies the range of some of the communication terminals to which the transmission data should be transmitted among the plurality of communication terminals included in the same layer, and the storage unit contains the range information. Information indicating the position of the own terminal is further stored, and the data transmission unit includes the position of the own terminal stored in the storage unit within a predetermined range from the range indicated by the range information. The transmission data may be transmitted on condition that the data is transmitted.

The destination information includes routing information indicating a route through which the transmission data is transmitted, the storage unit further stores information indicating the position of the own terminal, and the data transmission unit is The transmission data may be transmitted on condition that the position of the own terminal stored in the storage unit is included in the routing information.

The program of the second aspect of the present invention includes a plurality of communication terminals belonging to any one of the plurality of layers, and the communication included in the communication system in which the communication terminals belonging to the same layer simultaneously transmit transmission data. The processor of the terminal is a data receiving unit that receives transmission data transmitted by another communication terminal among the plurality of communication terminals, and a transmission indicated by destination information included in the transmission data received by the data receiving unit. The transmission data received by the data receiving unit is described as follows, provided that the destination layer specifying unit that specifies the destination layer that is the destination layer and the destination layer are different from the layer to which the communication terminal belongs. It functions as a data transmitter that transmits data to other communication terminals in the hierarchy.

According to the present invention, it is possible to reduce the power consumption of a communication system that transmits data in a multi-hop manner.

It is a figure for demonstrating the outline of a communication system. It is a figure which shows an example of the format of the transmission data transmitted in a communication system. It is a figure which shows the structure to the communication terminal. It is a figure which shows the other operation example of the communication system. It is a figure which shows the other operation example of the communication system. It is a figure which shows the other operation example of the communication system. It is a figure which shows the other operation example of the communication system. It is a figure which shows the other operation example of the communication system. It is a figure which shows the other operation example of the communication system.

[Outline of communication system S]
FIG. 1 is a diagram for explaining an outline of the communication system S. The communication system S includes a plurality of communication terminals 1 belonging to any one of the plurality of layers, and performs simultaneous transmission flooding type multi-hop transmission in which one or more communication terminals 1 belonging to the same layer simultaneously transmit transmission data. It is a system to do. Each of the plurality of communication terminals 1 broadcasts transmission data using, for example, a radio wave in the 920 MHz band.

Each of the plurality of rectangles in FIG. 1 indicates a communication terminal 1. The horizontal direction of FIG. 1 indicates a layer in which transmission data is transmitted in the communication system S. For example, the transmission data transmitted from the communication terminal 1-1G belonging to the first layer X1 is the first layer X1, the first layer. The second layer X2, the third layer X3, the fourth layer X4, the fifth layer X5, the sixth layer X6, and the seventh layer X7 are transmitted in this order. However, the direction in which the transmission data is transmitted is not limited to this direction. For example, the transmission data transmitted by the communication terminal 1 belonging to the fourth layer X4 is transmitted toward the fifth layer X5, the sixth layer X6, and the seventh layer X7, and is also transmitted to the third layer X3, the second layer X2, and the third layer X7. It is transmitted toward the first layer X1.

The vertical direction of FIG. 1 corresponds to the positions of a plurality of communication terminals 1 belonging to the same layer. In the present specification, the communication terminal 1 at the position P included in the nth layer is referred to as a communication terminal 1-nP (P is any of A to L).

In FIG. 1, when transmission data is transmitted from the communication terminal 1-1G shown by diagonal lines to the communication terminal 1-5E shown in black, the path through which the transmission data is transmitted is indicated by an arrow. However, in FIG. 1, in order to make it easier to grasp the flow of the transmission data, arrows are not attached to all the paths and all directions in which the transmission data is transmitted. This point is the same in other drawings showing the configuration of the communication system S.

The transmission data transmitted by the communication terminal 1-1G is received by the communication terminal 1-2H and the communication terminal 1-2F. The communication terminal 1-2H and the communication terminal 1-2F transmit the received transmission data to another communication terminal at the timing when a predetermined standby time (for example, a predetermined time of 10 ms or more and 100 ms or less) elapses after receiving the transmission data. The received transmission data is transmitted in order to transfer to 1.

FIG. 2 is a diagram showing an example of a format of transmission data transmitted in the communication system S. The transmission data transmitted by the communication terminal 1 in the communication system S includes a preamble (PR), synchronization data (SYN), data identification information (ID), destination information, and payload. The data identification information is a character string such as a number or an alphabet unique to the transmission data. The destination information is the address of the communication terminal 1 of the destination, and includes information indicating the hierarchy. In the example shown in FIG. 1, 1-5E is included in the destination information as the address of the communication terminal 1-5E.

The transmission data transmitted by the communication terminal 1-2H is received by the communication terminals 1-3I and the communication terminals 1-3G. The transmission data transmitted by the communication terminals 1-2F is received by the communication terminals 1-3G and the communication terminals 1-3E. The communication terminals 1-3G receive both the transmission data transmitted by the communication terminals 1-2H and the transmission data transmitted by the communication terminals 1-2F at almost the same time. Since the transmission data transmitted by the communication terminal 1-2F and the transmission data transmitted by the communication terminal 1-2H have the same contents, it is normal even if the communication terminals 1-3G receive these transmission data almost at the same time. Can receive transmission data.

In this way, the plurality of communication terminals 1 included in the second layer X2 to the fourth layer X4 sequentially transfer the received transmission data, so that the plurality of communication terminals 1 included in the fifth layer X5 transmit the transmission data. Receive. The plurality of communication terminals 1 included in the fifth layer X5 confirm that the destination information included in the transmission data indicates the communication terminals 1-5E belonging to the fifth layer X5. The plurality of communication terminals 1 included in the fifth layer X5 determine that the layer of the destination indicated by the destination information matches the layer to which they belong, and delete the received transmission data without transferring it.

By operating the communication terminal 1 in this way, in the communication system S, the communication terminal 1 belonging to the sixth layer and the seventh layer does not receive and transmit the transmission data. As a result, the communication system S can reduce the total power consumption of the plurality of communication terminals 1 included in the communication system S.
Hereinafter, the configuration and operation of the communication terminal 1 will be described in detail.

[Configuration of communication terminal 1]
FIG. 3 is a diagram showing a configuration of the communication terminal 1. The communication terminal 1 has a communication unit 11, a storage unit 12, and a control unit 13. The control unit 13 includes a data receiving unit 131, a transmission destination hierarchy specifying unit 132, a data transmitting unit 133, and a data processing unit 134.

The communication unit 11 has a wireless communication controller for transmitting and receiving transmission data. The communication unit 11 inputs the transmission data received from the other communication terminal 1 to the data reception unit 131. Further, the communication unit 11 transmits the transmission data input from the data transmission unit 133.

The storage unit 12 has a storage medium such as a ROM (Read Only Memory) and a RAM (Random Access Memory). The storage unit 12 stores the own terminal hierarchy, which is the hierarchy to which the own terminal belongs. The storage unit 12 stores, for example, an address including information indicating a hierarchy to which the communication terminal 1 belongs. The address may be information further indicating the position of the communication terminal 1. Further, the storage unit 12 stores a program executed by the control unit 13.

The control unit 13 is, for example, a CPU (Central Processing Unit). The control unit 13 functions as a data receiving unit 131, a transmission destination hierarchy specifying unit 132, a data transmitting unit 133, and a data processing unit 134 by executing the program stored in the storage unit 12.

The data receiving unit 131 receives the transmission data transmitted by the other communication terminal 1 among the plurality of communication terminals 1 included in the communication system S via the communication unit 11. The data receiving unit 131 inputs the received transmission data to the destination layer specifying unit 132.

The destination layer specifying unit 132 specifies the destination layer, which is the layer of the destination indicated by the destination information included in the transmission data received by the data receiving unit 131. In the case of the example shown in FIG. 1, since the destination information includes the number "5" indicating that the layer of the communication terminal 1-5E is the fifth layer X5, the destination layer specifying unit 132 , It is specified that the destination layer is the fifth layer X5.

The data transmission unit 133 transmits the transmission data received by the data reception unit 131, for example, on the condition that the transmission destination layer is different from the own terminal layer. Specifically, when the data transmission unit 133 receives the notification of the destination layer from the destination layer identification unit 132, the data transmission unit 133 reads out the own terminal layer stored in the storage unit 12. When the destination layer and the own terminal layer are equal, the data transmission unit 133 erases the transmission data without transmitting the transmission data, and when the destination layer and the own terminal layer are different, the data transmission unit 133 transmits the transmission data via the communication unit 11. Send data.

For example, when a communication terminal 1 (for example, a communication terminal 1-2H) that does not belong to the fifth layer X5 receives transmission data addressed to the communication terminal 1-5E, the data transmission unit 133 of the communication terminal 1 receives the transmission destination layer. It is determined that the terminal hierarchy is different from that of the own terminal, and the transmission data is transmitted after a predetermined waiting time has elapsed after the data receiving unit 131 receives the transmission data. On the other hand, the data transmission unit 133 of the communication terminal 1 (for example, communication terminal 1-5C, communication terminal 1-5E, communication terminal 1-5G, communication terminal 1-5I, communication terminal 1-5K) belonging to the fifth layer X5. Determines that the destination layer and the own terminal layer match, and does not transmit the transmission data.

Further, when the address indicated by the destination information and its own address match, the data transmission unit 133 inputs the transmission data to the data processing unit 134 without transmitting the transmission data via the communication unit 11. .. In the case of the example shown in FIG. 1, the data transmission unit 133 of the communication terminal 1-5E determines that the address indicated by the destination information matches its own address, and inputs the transmission data to the data processing unit 134. ..

The data processing unit 134 executes a predetermined process on the transmission data input from the data transmission unit 133. The predetermined process is, for example, a process of storing the data included in the payload in the transmission data in the storage unit 12 or transmitting the data included in the payload to a predetermined external device. As an example, when the communication system S is used for gas meter reading and the communication terminal 1 is provided in the gas meter reading meter of each household, the communication terminal 1 transmits data included in, for example, the payload to the communication unit 11. It sends to the server managed by the gas company via a communication interface (not shown) different from the above.

[Other operation examples of communication system S]
The method of transmitting data transmitted by the communication terminal 1 is not limited to the example shown in FIG. 1, and various variations are assumed. Hereinafter, other operation examples of the communication system S will be described.

FIG. 4 is a diagram showing another operation example of the communication system S. In FIG. 1, it was assumed that the transmission data transmitted by the communication terminal 1 reaches only the communication terminal 1 in the adjacent layer, but depending on the state of the wireless communication environment, the communication terminal in an unexpected layer. It is also conceivable that the transmission data reaches 1. In the example shown in FIG. 4, the transmission data transmitted by the communication terminals 1-4D has reached the communication terminals 1-6D.

In this way, the data transmission unit 133 is a case where the own terminal hierarchy does not match the transmission destination hierarchy so that the received transmission data is not transmitted when the communication terminal 1 receives the transmission data that is not expected. However, when the own terminal layer (for example, the sixth layer X6) is a layer that is expected to receive the transmission data transmitted by the communication terminal 1 belonging to the destination layer (for example, the fifth layer X5). The transmitted data may not be transmitted.

In the example shown in FIG. 4, the communication terminals 1-6D receive the transmission data from the communication terminals 1-4D, but the sixth layer X6 to which the communication terminals 1-6D belongs is the fifth layer which is the destination layer. Since the layer is supposed to receive the transmission data from the communication terminal 1 of the X5, the communication terminals 1-6D do not transmit the transmission data. By preventing the communication terminal 1 from transmitting transmission data when it belongs to a layer that is expected to receive transmission data from another communication terminal 1 that belongs to the destination layer in this way, the communication system S can be used. Power consumption can be further reduced.

The communication terminal 1 transmits transmission data when the own terminal hierarchy is different from the source hierarchy and the own terminal hierarchy is between the source hierarchy and the destination hierarchy, and the own terminal hierarchy is the source hierarchy. The transmission data may not be transmitted when it is not between the destination layer and the destination layer.

The transmission data has an area indicating the source layer so that the data transmission unit 133 can determine whether or not to transmit the transmission data based on the relationship between the source layer and the own terminal layer. The data transmission unit 133 of the communication terminal 1 of the transmission source may transmit transmission data in which the own terminal hierarchy is included in the area indicating the transmission source hierarchy. In the example shown in FIG. 4, the own terminal layer of the communication terminal 1-6D is not between the source layer to which the communication terminal 1-4D, which is the source terminal, belongs and the destination layer to which the communication terminal 1-5E belongs. , Communication terminal 1-6D does not transmit transmission data. The area indicating the source layer includes the layer to which the communication terminal 1 that first transmitted the transmission data belongs (the first layer X1 in the example shown in FIG. 4), and the data is the other communication terminal. 1 may not be updated.

FIG. 5 is a diagram showing another operation example of the communication system S. The data transmission unit 133 transmits transmission data on the condition that the own terminal hierarchy is closer to the transmission destination hierarchy than the transmission source hierarchy to which the other communication terminal 1 that has transmitted the transmission data received by the data reception unit 131 belongs. You may. In this case, the data transmission unit 133 may transmit transmission data even if the own terminal layer is the same as the transmission destination layer. In this case as well, the transmission data has an area indicating the source layer so that the data transmission unit 133 can determine whether or not to transmit the transmission data based on the source layer, and the transmission source The data transmission unit 133 of the communication terminal 1 may transmit transmission data in which the own terminal layer is included in the area indicating the source layer.

In the case of the example shown in FIG. 5, the communication terminals 1-4B and the communication terminals 1-5C receive the transmission data transmitted by the communication terminals 1-4D. The own terminal layer of the communication terminal 1-4B is the same as the source layer to which the communication terminal 1-4D that transmitted the transmission data belongs, and the distance from the communication terminal 1-5E, which is the destination terminal, is the source terminal. It is longer than the distance from a certain communication terminal 1-4D to the communication terminal 1-5E. In such a case, the communication terminals 1-4B do not transmit the transmission data even if the own terminal layer does not match the destination layer. By operating the communication terminals 1-4B in this way, the communication system S can further reduce the power consumption because the transmission data, which is less necessary, is not transmitted.

On the other hand, the own terminal layer of the communication terminal 1-5C is closer to the destination layer than the source layer to which the communication terminals 1-4D that transmitted the transmission data belong, and the distance from the communication terminal 1-5E which is the destination terminal. However, it is shorter than the distance from the communication terminal 1-4D, which is the source terminal, to the communication terminal 1-5E. In such a case, the communication terminal 1-5C transmits the transmission data even if the own terminal hierarchy matches the transmission destination hierarchy. By transmitting the transmission data by the communication terminal 1-5C, the communication terminal 1-5E can normally receive the transmission data from the communication terminals 1-4D and the communication terminals 1-4F, even if the communication terminal 1-5E cannot normally receive the transmission data. Transmission data can be received from 5C.

In the example shown in FIG. 5, in the communication terminal 1-5E, after the communication terminals 1-4D and the communication terminals 1-4F belonging to the fourth layer X4 transmit the transmission data, the communication terminals 1-5C and the communication terminal 1 The same transmission data will be received from -5G. In this way, when the data receiving unit 131 receives the same transmission data a plurality of times, the data receiving unit 131 may delete the data received from the second time onward without inputting the data to the destination layer specifying unit 132. good.

FIG. 6 is a diagram showing another operation example of the communication system S. In the example shown in FIG. 1, the communication terminal 1-1G, which is the source terminal, transmits the transmission data to the communication terminal 1-5E, which is one destination terminal, but the source terminal is sent to a plurality of transmission terminals. The transmission data may be transmitted to the user. In order for the communication system S to operate in this way, the destination information is a range that specifies a range of some communication terminals 1 to which transmission data should be transmitted among a plurality of communication terminals 1 included in the same layer. Contains information. The range information is, for example, text for specifying a range of positions in the same hierarchy. The destination information may include information indicating a plurality of layers as a target for transmitting transmission data.

In the example shown in FIG. 6, transmission data is transmitted to the communication terminal 1 belonging to the positions J, K, and L in each layer. The data transmission unit 133 transmits transmission data on condition that the position of the own terminal stored in the storage unit 12 is included in a predetermined range from the range indicated by the range information. In FIG. 6, the communication terminal 1 included in a predetermined range for transmitting transmission data, and the communication terminals 1 at positions H and I included in the range where radio waves reach the communication terminal 1 included in the predetermined range. The data transmission unit 133 transmits the transmission data received by the data reception unit 131, but the data transmission unit 133 at another position does not transmit the transmission data.

By operating the data transmission unit 133 in this way, the communication terminal 1 which may be able to transmit the transmission data to the range to which the transmission data is transmitted transmits the transmission data, and the other communication terminal 1 transmits the transmission data. Do not send. As a result, the communication system S can further reduce the power consumption.

FIG. 7 is a diagram showing another operation example of the communication system S. In the example shown in FIG. 7, in each layer, the transmission data is transmitted to the communication terminal 1 belonging to the positions G and H corresponding to the range for transmitting the transmission data (range R0 in FIG. 7). Then, data transmission of the communication terminal 1 included in the range corresponding to the positions E and F on both sides of the range (range R1 in FIG. 7) and the range corresponding to the positions I and J (range R2 in FIG. 7). The unit 133 transmits the transmission data received by the data reception unit 131, but the data transmission unit 133 at another position does not transmit the transmission data. In this way, by making the communication terminal 1 in the vicinity of the range to be transmitted the transmission data transmit the transmission data, the communication terminal 1 within the range to be transmitted the transmission data receives the transmission data. It is possible to increase the probability of being able to do so and reduce the power consumption in the communication system S.

FIG. 8 is a diagram showing another operation example of the communication system S. In the example shown in FIG. 8, the transmission data includes information indicating a route for transmitting the transmission data. Specifically, the destination information includes routing information indicating a route through which transmission data is transmitted. The routing information includes, for example, the addresses of a plurality of communication terminals 1 on the route on which the transmission data should be transmitted. In the example shown in FIG. 8, the routing information includes information such as communication terminal 1-2H, communication terminal 1-3I, communication terminal 1-4J, communication terminal 1-5I, communication terminal 1-6J, and communication terminal 1-7K. It has been.

In this case, the data transmission unit 133 transmits the transmission data on condition that the position of the own terminal stored in the storage unit 12 is included in the routing information. In the case of the example shown in FIG. 8, the data transmission unit 133 of the communication terminal 1-2H, the communication terminal 1-3I, the communication terminal 1-4J, the communication terminal 1-5I, the communication terminal 1-6J, and the communication terminal 1-7K is The data receiving unit 131 transmits the received transmission data, and the data transmitting unit 133 of the other communication terminal 1 does not transmit the transmission data. In this way, the data transmission unit 133 determines whether or not to transmit the transmission data received by the data reception unit 131 based on the routing information included in the transmission data, so that the communication defined in the routing information Since only the terminal 1 transmits the transmission data, the communication system S can further reduce the power consumption.

FIG. 9 is a diagram showing another operation example of the communication system S. In the example shown in FIG. 1, it was assumed that the transmission data was transmitted from the first layer X1 to the seventh layer X7. On the other hand, in the example shown in FIG. 9, the transmission data is not transmitted in one direction, and the transmission data is transmitted toward both layers with respect to the layer to which the transmission source communication terminal 1 belongs. It differs in that.

In the example shown in FIG. 9, the communication terminals 1-4F belonging to the fourth layer X4 are the source terminals, and the transmission data transmitted by the communication terminals 1-4F is the third layer X3, the fourth layer X4, and the fifth layer. It is assumed that the data is transmitted to the communication terminal 1 within the range of the layer X5. The data transmission unit 133 of the communication terminal 1 transmits the transmission data received by the data reception unit 131 when it is determined that the own terminal layer matches any of the third layer X3, the fourth layer X4, and the fifth layer X5. do.

On the other hand, when the data transmission unit 133 of the communication terminal 1 determines that the own terminal layer does not match any of the third layer X3, the fourth layer X4, and the fifth layer X5, the data reception unit 131 receives the data. Do not send transmission data. By operating the communication terminal 1 in this way, the communication system S can reduce the power consumption of the communication system S while transmitting the transmission data to the range in which the transmission data should be transmitted.

In FIG. 1, a case where the communication terminal 1 belonging to the destination layer (for example, the communication terminal 1 belonging to the fifth layer X5) does not transmit the received transmission data is illustrated. However, the communication terminal 1 belonging to the destination layer transmits the transmission data, and the communication terminal 1 receiving the transmission data from the communication terminal 1 belonging to the destination layer (for example, the communication terminal 1 belonging to the sixth layer X6) transmits the transmission data. You may not send it. That is, the data transmission unit 133 transmits the received transmission data when the own terminal layer is between the source layer and the destination layer, or when the own terminal layer is the same as the destination layer, and other than that. In the case of, the received transmission data is not transmitted.

In this case, the transmission data has an area indicating the source layer, and the data transmission unit 133 of the communication terminal 1 of the transmission source of the transmission data puts the transmission data in which the own terminal layer is inserted in the area indicating the source layer. You may send it. By operating the communication system S in this way, even if the destination terminal cannot receive transmission data from the communication terminal 1 of another layer (for example, the fourth layer X4), the same layer (for example, the fifth layer) is used. Since the transmission data can be received from the other communication terminal 1 belonging to X5), the probability that the destination terminal can receive the transmission data increases.

[Effect of communication system S]
As described above, each of the plurality of communication terminals 1 included in the communication system S has a destination layer which is a destination layer indicated by the destination information included in the transmission data received by the data receiving unit 131. It has a destination layer specifying unit 132 to be specified, and a data transmitting unit 133 that transmits the transmission data received by the data receiving unit 131, provided that the destination layer is different from the own terminal layer. In this way, the data transmission unit 133 transmits the transmission data on the condition that the destination layer is different from the own terminal layer, so that the transmission data is not transmitted when the communication terminal 1 does not need to transmit the transmission data. .. As a result, the number of communication terminals 1 that transmit transmission data is reduced, so that the communication system S can reduce the power consumption.

Although the present invention has been described above using the embodiments, the technical scope of the present invention is not limited to the scope described in the above embodiments, and various modifications and changes can be made within the scope of the gist thereof. be. For example, all or a part of the device can be functionally or physically distributed / integrated in any unit. Also included in the embodiments of the present invention are new embodiments resulting from any combination of the plurality of embodiments. The effect of the new embodiment produced by the combination also has the effect of the original embodiment.

1 Communication terminal 11 Communication unit 12 Storage unit 13 Control unit 131 Data reception unit 132 Destination hierarchy specification unit 133 Data transmission unit 134 Data processing unit

Claims (5)

A communication system including a plurality of communication terminals belonging to any one of a plurality of layers, and one or more communication terminals belonging to the same layer simultaneously transmitting transmission data.
Each of the plurality of communication terminals
A storage unit that stores the own terminal hierarchy, which is the hierarchy to which the own terminal belongs,
A data receiving unit that receives transmission data transmitted by another communication terminal among the plurality of communication terminals, and a data receiving unit.
A destination hierarchy specifying unit that specifies a destination hierarchy that is a destination hierarchy indicated by destination information included in the transmission data received by the data receiving unit, and a destination hierarchy specifying unit.
A data transmission unit that transmits the transmission data received by the data reception unit, provided that the destination layer is different from the own terminal layer.
Communication system with. The data transmission unit is provided with the transmission data on the condition that the own terminal layer is closer to the transmission destination layer than the transmission source layer to which the other communication terminal that has transmitted the transmission data received by the data reception unit belongs. To send,
The communication system according to claim 1. The destination information includes range information that specifies a range of some communication terminals to which the transmission data should be transmitted among the plurality of communication terminals included in the same layer.
The storage unit further stores information indicating the position of the own terminal.
The data transmission unit transmits the transmission data on condition that the position of the own terminal stored in the storage unit is included in a predetermined range from the range indicated by the range information.
The communication system according to claim 1 or 2. The destination information includes routing information indicating a route through which the transmission data is transmitted.
The storage unit further stores information indicating the position of the own terminal.
The data transmission unit transmits the transmission data on condition that the position of the own terminal stored in the storage unit is included in the routing information.
The communication system according to claim 1 or 2. A processor of the communication terminal included in a communication system having a plurality of communication terminals belonging to any one of the plurality of layers and the communication terminals belonging to the same layer simultaneously transmitting transmission data.
A data receiving unit that receives transmission data transmitted by another communication terminal among the plurality of communication terminals.
The communication terminal belongs to the destination layer specifying unit that specifies the destination layer that is the destination layer indicated by the destination information included in the transmission data received by the data receiving unit, and the destination layer. A data transmission unit that transmits the transmission data received by the data reception unit to another communication terminal in the next layer, provided that it is different from the layer.
A program to function as.

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