JP2021010120A - Communication terminal, communication system, communication method, program - Google Patents

Abstract

To prevent an occurrence of failure on a communication system.SOLUTION: A communication terminal 2 includes a first communication unit 21, a second communication unit 22, and a changeover unit 23. The first communication unit 21 is connected to a power line 91 to perform a power-line carrier communication. The second communication unit 22 performs radio communication using radio signals. The changeover unit 23 changes over between the valid and invalid of the second communication unit 22 according to the changeover signal received by the first communication unit 21 via the power-line carrier communication.SELECTED DRAWING: Figure 2

Description

The present disclosure generally relates to a communication terminal, a communication system, a communication method, and a program, and more particularly, to a communication terminal for communicating using a wireless signal, a communication system including a communication terminal, a communication method, and a program.

Patent Document 1 discloses a communication system having a plurality of power line communication devices. The plurality of power line communication devices are connected to a plurality of outlets arranged on the same lamp line.

The power line communication device includes an antenna, a wireless communication unit, a first signal conversion unit, a power line communication unit, and a second signal conversion unit. The antenna sends and receives wireless signals to and from the wireless communication device. The wireless communication unit amplifies the wireless signal from the antenna. The first signal conversion unit converts a radio signal into a power line communication signal used in power line communication. The power line communication unit transmits and receives a power line communication signal to and from the other party's power line communication device via the power line. The second signal conversion unit converts the power line communication signal into a wireless signal.

JP-A-2002-374189

In the communication system of Patent Document 1, the total power consumption may increase due to the constant operation of a plurality of power line communication devices (plurality of communication terminals).

The present disclosure has been made in view of the above reasons, and an object of the present disclosure is to provide a communication terminal capable of measuring a reduction in total power consumption in a communication system.

The communication terminal according to one aspect of the present disclosure includes a first communication unit, a second communication unit, and a switching unit. The first communication unit is connected to a power line to perform power line carrier communication. The second communication unit performs wireless communication using a wireless signal. The switching unit switches between valid and invalid of the second communication unit according to the switching signal received by the first communication unit in the power line carrier communication.

The communication system according to one aspect of the present disclosure includes a plurality of the communication terminals. The second communication unit of at least one of the plurality of communication terminals is invalidated by the switching signal transmitted based on the determination information. The determination information includes information on the degree of overlap between the communicable areas where the second communication unit of the plurality of communication terminals can wirelessly communicate.

The communication method according to one aspect of the present disclosure is executed by a communication terminal including a first communication unit connected to a power line and performing power line carrier communication, and a second communication unit that performs wireless communication using a wireless signal. .. The communication method includes a switching process for switching between valid and invalid of the second communication unit according to a switching signal received by the first communication unit in the power line carrier communication.

The program according to one aspect of the present disclosure is a program for causing one or more processors including the first communication unit and the second communication unit to execute the communication method.

According to the present disclosure, there is an advantage that it is possible to provide a communication terminal capable of measuring a reduction in total power consumption in a communication system.

FIG. 1 is an explanatory diagram showing an example in which the communication system of one embodiment is applied to a building. FIG. 2 is a block diagram of the same communication system. FIG. 3 is a block diagram of a master unit module used in the same communication system. FIG. 4 is a block diagram of a communication terminal used in the communication system of the second modification.

(1) Overview As shown in FIGS. 1 and 2, the communication system 10 according to the present embodiment includes a plurality of communication terminals 201 to 206 (six in the example of FIG. 1). Further, the communication system 10 of the present embodiment further includes one master unit module 1.

The master module 1 is connected to each of a plurality of communication terminals 201 to 206 via a power line 91. The master module 1 is configured to be capable of bidirectional power line communication (PLC) with each of the plurality of communication terminals 201 to 206 via the power line 91. Further, the master module 1 is connected to an external connection device 3 different from the plurality of communication terminals 201 to 206 via a communication line 92. The master module 1 is configured to enable bidirectional wired communication with the external connection device 3 via the communication line 92. The external connection device 3 is a so-called router, and is connected to a network 5 such as the Internet. Therefore, each of the plurality of communication terminals 201 to 206 is connected to the network 5 via the master unit module 1 and the external connection device 3. In the present embodiment, the external connection device 3 is not included in the components of the communication system 10, but the external connection device 3 may be included in the components of the communication system 10.

The master module 1 and the plurality of communication terminals 201 to 206 constituting the communication system 10 are arranged in the building 4. In the following description, as an example, as shown in FIG. 1, a detached house is illustrated as a building 4 in which the communication system 10 is introduced. However, the building 4 into which the communication system 10 is introduced is not limited to a detached house, for example, a house other than a detached house such as each dwelling unit of an apartment house, or a non-house such as an office, a store, or a nursing facility. You may. Further, in the following, unless the plurality of communication terminals 201 to 206 are particularly distinguished, each of the plurality of communication terminals 201 to 206 is referred to as "communication terminal 2".

The communication terminal 2 is configured to be capable of wireless communication with the information terminal 6. The information terminal 6 is, for example, a smartphone, a tablet terminal, a personal computer, a wearable terminal, or the like. The communication terminal 2 functions as a wireless LAN (Local Area Network) access point here. Therefore, the information terminal 6 is connected to the network 5 via the communication terminal 2, the master module 1, and the external connection device 3. The information terminal 6 can transmit data in both directions to and from a device connected to the network 5.

As shown in FIG. 2, each communication terminal 2 includes a first communication unit 21, a second communication unit 22, and a switching unit 23.

The first communication unit 21 is connected to the power line 91. The first communication unit 21 performs power line carrier communication with at least the master module 1 via the power line 91. The first communication unit 21 of each communication terminal 2 may be capable of power line carrier communication with the first communication unit 21 of another communication terminal 2.

The second communication unit 22 performs wireless communication using a wireless signal using radio waves as a medium. The second communication unit 22 performs wireless communication with at least the information terminal 6 by using a wireless signal. The second communication unit 22 of each communication terminal 2 may be capable of wireless communication with the second communication unit 22 of another communication terminal 2.

The switching unit 23 switches between valid and invalid of the second communication unit 22 according to the switching signal received by the first communication unit 21 in the power line carrier communication. The switching signal is generated by the control module included in the communication system 10 based on the determination information, and is transmitted from the control module via the power line 91. In the present embodiment, the master module 1 functions as a control module. As an example, when the second communication unit 22 is effective, it means that the second communication unit 22 can transmit and receive a radio signal. As an example, when the second communication unit 22 is invalid, it means that the power consumption of the second communication unit 22 is smaller than that when the second communication unit 22 is valid. The invalidity of the second communication unit 22 may mean, for example, a state in which the supply of operating power to the second communication unit 22 is stopped and the operation of the second communication unit 22 is stopped.

As described above, the communication terminal 2 of the present embodiment includes a switching unit 23 that switches between valid and invalid of the second communication unit 22 according to the switching signal. Therefore, in the communication system 10 provided with the communication terminal 2, it is possible to invalidate the second communication unit 22 of the communication terminal 2 by transmitting a switching signal to an arbitrary communication terminal 2. Therefore, the second communication unit 22 of at least one communication terminal 2 among the plurality of communication terminals 2 included in the communication system 10 is invalidated according to the switching signal, so that the total power consumption of the communication system 10 is reduced. It is possible to reduce it. Further, in the communication system 10, by stopping the operation of the second communication unit 22 of any communication terminal 2, the possibility that a failure occurs in the second communication unit 22 is reduced. Therefore, in the communication system 10 of the present embodiment, it is possible to suppress the occurrence of defects. Further, since the switching signal is transmitted by power line carrier communication, for example, even if the communication terminal 2 is installed in a place that is difficult for humans to reach, it is possible to reliably switch between valid and invalid of the second communication unit 22. Can be done.

(2) Details The communication system 10 according to the present embodiment will be described in more detail with reference to FIGS. 1 to 3.

As described above, the communication system 10 includes a master module 1 and a plurality of communication terminals 201 to 206.

As shown in FIGS. 1 and 2, the master module 1 is connected to the external connection device 3 via the communication line 92. Further, the master unit module 1 is connected to each of the plurality of communication terminals 201, 201, ... Via the power line 91. More specifically, each of the master unit module 1 and the plurality of communication terminals 201 to 206 is connected to the branch breaker of the distribution board 40 via the power line 91, and the master unit module 1 and the plurality of communication terminals 201, Each of 201, ... Is connected via a distribution board 40. In the present embodiment, the distribution board 40 is not included in the components of the communication system 10, but the distribution board 40 may be included in the components of the communication system 10.

As shown in FIG. 2, the communication terminal 2 includes a conversion unit 24 and a connection unit 25 in addition to the first communication unit 21, the second communication unit 22, and the switching unit 23. The communication terminal 2 may include, for example, a computer system including one or more processors (for example, a microprocessor) and one or more memories. By executing one or more programs stored in one or more memories by one or more processors, the functions of at least the switching unit 23 and the conversion unit 24 of the communication terminal 2 can be realized. The one or more programs may be recorded in advance in a memory, may be recorded through a telecommunication line such as the Internet, or may be recorded and provided on a non-temporary recording medium such as a memory card.

The connection portion 25 includes a pair of terminals for wiring equipment. The pair of terminals are directly or indirectly connected to the pair of feeders of the power line 91, respectively.

As shown in FIG. 1, each of the communication terminals 201 to 205 is a so-called outlet here. In each of the communication terminals 201 to 205, each of the pair of terminals is composed of, for example, a quick connection terminal, and is connected to each of the pair of feeder lines of the power line 91. As a result, power for operation is supplied from the power line 91 to the communication terminals 201 to 205.

Further, in each of the communication terminals 201 to 205, the connecting portion 25 includes a pair of connecting members connected to the pair of terminals in addition to the pair of terminals. The connecting member is, for example, a pin receiver (blade receiver). In each of the communication terminals 201 to 205, for example, when a pair of pins (plug blades) of a power plug are connected to a pair of connecting members, the communication terminals 201 to 205 and the communication terminals 201 to 205 and the electric load to which the power plug is connected are subjected to. Power is supplied via the power line 91.

As shown in FIG. 1, the communication terminals 201 to 203 of the communication terminals 201 to 205 as outlets are so-called wall outlets. Further, the communication terminals 204 and 205 of the communication terminals 201 to 205 as outlets are so-called ceiling rosettes for attaching lighting equipment.

In the communication terminal 206, the pair of terminals includes a pair of pins (plug blades). The pair of pins is provided in the housing of the communication terminal 206. The communication terminal 206 is connected to the power line 91 via the outlet by inserting a pair of pins into the outlet of the outlet and connecting to the pin receiver (blade receiver) of the outlet. As a result, power for operation is supplied from the power line 91 to the communication terminal 206.

The first communication unit 21 is connected to a pair of terminals of the connection unit 25. The first communication unit 21 is connected to the power line 91 via the connection unit 25. The first communication unit 21 performs power line carrier communication that transmits a signal to the power line 91 and receives a signal from the power line 91 via the connection unit 25.

The second communication unit 22 includes an antenna. The second communication unit 22 performs wireless communication by transmitting and receiving wireless signals via the antenna. In addition, the second communication unit 22 has a function of amplifying, filtering, and the like of signals transmitted and received by wireless communication.

The conversion unit 24 converts between a signal transmitted / received by the first communication unit 21 in the power line carrier communication and a signal transmitted / received by the second communication unit 22 in the wireless communication. Specifically, the conversion unit 24 converts the signal received by the power carrier communication into a signal that can be transmitted by wireless communication. Further, the conversion unit 24 converts the signal received by the wireless communication into a signal that can be transmitted by the power carrier communication. The conversion between the power line carrier communication signal and the wireless communication signal includes, for example, signal modulation / demodulation / frequency conversion. Since a well-known technique is used for the conversion between the power line carrier communication signal and the wireless communication signal, detailed description thereof will be omitted.

The switching unit 23 switches between valid and invalid of the second communication unit 22. The switching unit 23 switches between valid and invalid of the second communication unit 22 according to the switching signal received by the first communication unit 21 in the power line carrier communication. When the command content of the switching signal includes a command for switching the second communication unit 22 from valid to invalid (invalidation command), the switching unit 23 switches the second communication unit 22 from valid to invalid. When the command content of the switching signal includes a command for switching the second communication unit 22 from invalid to valid (validation command), the switching unit 23 switches the second communication unit 22 from invalid to valid.

The term "effective" means that the second communication unit 22 is capable of transmitting and receiving radio signals via the antenna. When the second communication unit 22 is invalid, it means that the power consumption is smaller than when the second communication unit 22 is valid. The invalidity of the second communication unit 22 means, in particular, a state in which the second communication unit 22 cannot transmit and receive a radio signal via the antenna. The switching unit 23 switches between valid and invalid of the second communication unit 22, for example, by switching between supply and non-supply of power to the second communication unit 22.

As shown in FIG. 3, the master unit module 1 includes a determination unit 11, a transmission unit 12, a wired communication unit 13, a power line carrier communication unit (hereinafter, also referred to as “PLC communication unit”) 14, and a conversion unit 15. And have.

The master module 1 may include, for example, a computer system including one or more processors (eg, a microprocessor) and one or more memories. By executing one or more programs stored in one or more memories by one or more processors, the functions of the determination unit 11, the transmission unit 12, and the conversion unit 15 of the master module 1 can be realized. The one or more programs may be recorded in advance in a memory, may be recorded through a telecommunication line such as the Internet, or may be recorded and provided on a non-temporary recording medium such as a memory card.

The wired communication unit 13 is connected to the communication line 92 to perform wired communication. The wired communication unit 13 transmits a signal to the communication line 92 and receives the signal from the communication line 92.

The PLC communication unit 14 is connected to the power line 91 and performs power line carrier communication. The PLC communication unit 14 transmits a signal to the power line 91 and receives the signal from the power line 91.

The conversion unit 15 converts a signal transmitted / received by the wired communication unit 13 by the wired communication and a signal transmitted / received by the PLC communication unit 14 by the power line carrier communication. Specifically, the conversion unit 15 converts the signal received by the wired communication into a signal that can be transmitted by the power line carrier communication. Further, the conversion unit 15 converts the signal received by the power line carrier communication into a signal that can be transmitted by the wired communication. Since a well-known technique is used for the conversion between the power line carrier communication signal and the wired communication signal, detailed description thereof will be omitted.

The determination unit 11 performs a determination process. The determination process is a process of determining an arbitrary communication terminal 2 among a plurality of communication terminals 201 to 206 as a specific communication terminal based on the determination information. The specific communication terminal means a communication terminal 2 in which the determination unit 11 determines that the second communication unit 22 should be invalidated among the plurality of communication terminals 2.

The determination information referred to by the determination unit 11 for determining the specific communication terminal includes information on the degree of overlap between the communicable areas of the second communication unit 22 of the plurality of communication terminals 2. The degree of overlap between the communicable areas of the second communication unit 22 of a plurality of communication terminals 2 means that the communicable area of the second communication unit 22 of a certain communication terminal 2 is another communication among the plurality of communication terminals 2. The degree of overlap with the communicable area of the second communication unit 22 of the terminal 2 is shown.

In the present embodiment, the communicable area of the second communication unit 22 means a range in which the intensity of the radio wave transmitted from the second communication unit 22 is equal to or higher than a predetermined threshold value. The intensity of the radio wave transmitted from the second communication unit 22 of a certain communication terminal 2 is, for example, the intensity of the radio wave transmitted from the second communication unit 22 of the communication terminal 2 and received by the second communication unit 22 of the other communication terminal 2. The received signal strength of the radio signal. In FIG. 1, the communicable areas A1 to A6 of each of the plurality of communication terminals 201 to 206 are shown by alternate long and short dash lines.

In the present embodiment, the degree of overlap of the communicable area is determined based on the received signal strength of the radio signal transmitted and received by the second communication unit 22 of the two communication terminals 2. For example, when the received signal strength of the radio signal transmitted from the second communication unit 22 of one communication terminal 2 and received by the second communication unit 22 of another communication terminal 2 is equal to or higher than a predetermined strength threshold value, these two units It can be determined that the communicable areas of the communication terminals 2 overlap.

Each communication terminal 2 periodically and / or receives information on the received signal strength between the plurality of communication terminals 2 and other communication terminals 2 in response to a request from the master module 1. Send to 1. That is, the judgment information can be updated regularly or irregularly.

The determination unit 11 of the master unit module 1 acquires information on the received signal strength from each communication terminal 2 via the PLC communication unit 14. The determination unit 11 determines the degree of overlap of the communicable areas of the plurality of communication terminals 2 based on the information of the received signal strength received from each communication terminal 2. In short, the determination information referred to by the determination unit 11 for determining the specific communication terminal includes information on the reception signal strength of the radio signal transmitted and received between the second communication units 22 of the plurality of communication terminals 2.

For example, when the received signal strength of the radio signal transmitted from one communication terminal 2 and received by another communication terminal 2 is equal to or higher than the strength threshold value, the determination unit 11 overlaps the communicable areas of the two communication terminals 2. If so, one of the two communication terminals 2 is determined to be the specific communication terminal.

For example, in the example of FIG. 1, the communication terminal 202 is located in the communicable area A4 of the communication terminal 204, and the strength of the radio signal received from the communication terminal 204 is equal to or higher than the strength threshold value. Therefore, the determination unit 11 determines one of the communication terminal 202 and the communication terminal 204 as the specific communication terminal.

Further, here, the determination unit 11 further refers to the number information when determining the specific communication terminal. The number information is information indicating the number of other communication terminals 2 among the plurality of communication terminals 2 capable of wirelessly communicating with the communication terminals 2 for each of the plurality of communication terminals 2. Here, "wireless communication is possible" means that the received signal strength of the radio signal transmitted from one communication terminal 2 and received by another communication terminal 2 is equal to or higher than the strength threshold value. For example, when the second communication unit 22 of a certain communication terminal 2 receives a radio signal from the second communication unit 22 of the two communication terminals 2, and the received signal strength is equal to or higher than the strength threshold, the determination unit 11 may perform the determination unit 11. , It is determined that this communication terminal 2 can wirelessly communicate with two communication terminals 2. In short, the determination information referred to by the determination unit 11 for determining the specific communication terminal includes the number information.

For example, in the example of FIG. 1, the communication terminal 202 is located in the communicable area A3 of the communication terminal 203, and is located in the communicable area A4 of the communication terminal 204. Further, the communication terminal 202 is located outside the communicable areas A1, A5, A6 of the communication terminals 201, 205, 206. Therefore, the number of other communication terminals 2 that the communication terminal 202 can receive the wireless signal is two. On the other hand, the communication terminal 204 is located in the communicable area A2 of the communication terminal 202, and is located outside the communicable areas A1, A3, A5, A6 of the communication terminals 201, 203, 205, 206. Therefore, the number of other communication terminals 2 that the communication terminal 204 can receive the wireless signal is one.

When the determination unit 11 determines that one of the two or more communication terminals 2 is a specific communication terminal (a communication terminal 2 for which the second communication unit 22 should be invalidated), the determination unit 11 of the communication terminal 2 capable of receiving a wireless signal. The communication terminal 2 having a large number of units may be determined as a specific communication terminal. In short, if the communication terminal 2 has a large number of communication terminals 2 capable of receiving wireless signals, the determination unit 11 can substitute the communication area of the communication terminal 2 with the communication area of another communication terminal 2. Judging, the communication terminal 2 is determined to be a specific communication terminal.

Alternatively, when the determination unit 11 determines that one of the two or more communication terminals 2 is a specific communication terminal, the communication terminal 2 having a small number of communication terminals 2 capable of receiving the wireless signal is referred to as the specific communication terminal. You may judge. In short, if the communication terminal 2 has a large number of communication terminals 2 capable of receiving wireless signals, the determination unit 11 may be a communication terminal 2 of another communication terminal 2 having a communicable area that overlaps only in the communicable area of the communication terminal 2. It may be determined that the communicable area can be substituted. Then, the communication terminal 2 whose communicable area overlaps with that of the communication terminal 2 may be determined as a specific communication terminal. In this case, the total power consumption of the communication system 10 can be further reduced.

It is preferable that the determination information further includes information on the arrangement locations of the plurality of communication terminals 2. The information on the arrangement location includes, for example, information on the room in which each communication terminal 2 is arranged in the building 4. The determination unit 11 determines, for example, that any one of the two communication terminals 2 of the first communication terminal and the second communication terminal is a specific communication terminal, and the determination unit 11 is a room in which the first communication terminal is arranged. If a third communication terminal, which is another communication terminal 2, is arranged in the same room as the above, the first communication terminal may be determined as the specific communication terminal.

For example, in the example of FIG. 1, in the room where the communication terminal 202 is arranged, the communication terminal 204 is arranged in addition to the communication terminal 202. On the other hand, no other communication terminal 2 is arranged in the room where the communication terminal 201 is arranged. Therefore, when the determination unit 11 determines that either the communication terminal 201 or the communication terminal 201 is a specific communication terminal, the determination unit 11 may determine the communication terminal 202 as the specific communication terminal.

The determination unit 11 may determine the specific communication terminal by referring to information other than the number information and the arrangement location information. For example, the determination unit 11 determines one of the communication terminal 202 and the communication terminal 204 (for example, the identification number as the identification information is small) based on the identification information of the communication terminal 202 and the identification information of the communication terminal 204. One) may be determined as a specific communication terminal. For example, when the determination unit 11 cannot determine the specific communication terminal by referring to the number information and the information of the arrangement location, the determination unit 11 sets the communication terminal 202 and the communication terminal 204 based on a predetermined standard such as identification information. One of them may be determined as a specific communication terminal.

The determination unit 11 stores the determination result of the specific communication terminal in, for example, a built-in memory.

Based on the determination result of the determination unit 11, the transmission unit 12 causes at least a specific communication terminal to transmit a switching signal from the PLC communication unit 14 by power line carrier communication. The switching signal includes, for example, identification information of the transmission destination of the signal. The switching signal transmitted to the specific communication terminal includes an invalidation command. Further, the transmission unit 12 may transmit a switching signal including an activation command to a communication terminal 2 other than the specific communication terminal.

If the second communication unit 22 is valid, the communication terminal 2 that has received the switching signal including the invalidation command invalidates the second communication unit 22. It is preferable that the specific communication terminal keeps the first communication unit 21 valid even if the second communication unit 22 is disabled. On the other hand, the communication terminal 2 that has received the switching signal including the activation command activates the second communication unit 22 if the second communication unit 22 is invalid.

As described above, in the communication system 10 of the present embodiment, the second communication unit 22 of at least one communication terminal 2 among the plurality of communication terminals 2 is invalidated by the switching signal transmitted based on the determination information. To. The determination information includes information on the degree of overlap between the communicable areas where the second communication unit 22 of the plurality of communication terminals 2 can wirelessly communicate. Since the communication system 10 of the present embodiment is configured in this way, the second communication unit 22 of any communication terminal 2 among the plurality of communication terminals 2 can be invalidated. Therefore, the total power consumption of the communication system 10 can be reduced, and the possibility of failure in the second communication unit 22 is reduced.

Further, the communication terminal 2 to which the second communication unit 22 is invalidated is determined based on the determination information. That is, in the communication terminal 2 in which the second communication unit 22 is invalidated, the communication available area of the second communication unit 22 overlaps with the communication available area of the second communication unit 22 of the other communication terminal 2. It is terminal 2. Therefore, even if the second communication unit 22 of the communication terminal 2 is invalidated, the communicable area can be substituted by the communicable area of the second communication unit 22 of the other communication terminal 2. Therefore, the influence on the communicable area of wireless communication covered by the entire communication system 10 can be reduced as compared with the case where the communication terminal 2 for disabling the second communication unit 22 is randomly selected, for example.

Of course, when the communicable areas of the second communication units 22 of the plurality of communication terminals 2 do not overlap each other, the determination unit 11 may determine that the second communication units 22 of all the communication terminals 2 are valid. ..

(3) Modified Example The embodiment of the present disclosure is not limited to the above embodiment. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved. Further, the same function as the communication terminal 2 according to the above embodiment may be embodied by a communication method, a computer program, a non-temporary recording medium or the like on which the computer program is recorded.

The communication method according to one aspect is executed by a communication terminal 2 including a first communication unit 21 connected to a power line 91 and performing power line carrier communication, and a second communication unit 22 that performs wireless communication using a wireless signal. Communication method. This communication method includes a switching process of switching between valid and invalid of the second communication unit 22 according to the switching signal received by the first communication unit 21 in the power line carrier communication.

The (computer) program according to one aspect is a program for causing one or more processors including the first communication unit 21 and the second communication unit 22 to execute the above communication method.

Hereinafter, modifications of the embodiment are listed. The modifications described below can be applied in combination as appropriate. Further, in the following, the above-described embodiment may be referred to as a "basic example".

The communication system 10 in the present disclosure includes a computer system in, for example, a master module 1 and a communication terminal 2. The main configuration of a computer system is a processor and memory as hardware. When the processor executes the program recorded in the memory of the computer system, the function as the communication system 10 in the present disclosure is realized. The program may be pre-recorded in the memory of the computer system, may be provided through a telecommunications line, and may be recorded on a non-temporary recording medium such as a memory card, optical disk, hard disk drive, etc. readable by the computer system. May be provided. A processor in a computer system is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). The integrated circuit such as IC or LSI referred to here has a different name depending on the degree of integration, and includes an integrated circuit called a system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration). Further, an FPGA (Field-Programmable Gate Array) programmed after the LSI is manufactured, or a logical device capable of reconfiguring the junction relationship inside the LSI or reconfiguring the circuit partition inside the LSI should also be adopted as a processor. Can be done. A plurality of electronic circuits may be integrated on one chip, or may be distributed on a plurality of chips. The plurality of chips may be integrated in one device, or may be distributed in a plurality of devices.

Further, it is not an essential configuration for the communication system 10 that a plurality of functions of the master unit module 1 and the communication terminal 2 are integrated in one housing, but each component of the master unit module 1 and the communication terminal 2 is not essential. May be distributed in a plurality of housings. Further, at least a part of the functions of the communication system 10, for example, a part of the functions of the master module 1 or the communication terminal 2 may be realized by a cloud (cloud computing) or the like.

On the contrary, in the embodiment, at least a part of the functions of the communication system 10 distributed in a plurality of devices may be integrated in one housing. For example, some functions of the communication system 10 distributed in the master unit module 1 and the communication terminal 2 may be integrated in one housing.

(3.1) Modification 1
The determination unit 11 may determine at least two communication terminals 2 among the plurality of communication terminals 2 as a group, and at least one communication terminal included in the group as a specific communication terminal. Then, the determination unit 11 may change the communication terminal 2 as the specific communication terminal in the group periodically or irregularly.

Hereinafter, the communication system 10 of this modification will be described.

The determination unit 11 of this modification performs grouping of the communication terminals 2. The determination unit 11 divides, for example, a plurality of communication terminals 2 into one or more groups. Each group includes one or more communication terminals 2.

The determination unit 11 groups the communication terminals 2 based on the degree of overlap of the communicable areas of the plurality of communication terminals 2. Here, the determination unit 11 determines the degree of overlap of the communicable areas of the plurality of communication terminals 2 based on the information of the received signal strength acquired from each communication terminal 2. That is, the determination unit 11 determines the communication terminals 2 in the same group based on the determination information. The determination information referred to when the determination unit 11 performs grouping may include the above-mentioned number information, installation location information, and the like.

For example, when the communicable areas of the two communication terminals 2 overlap, the determination unit 11 may consider that the two communication terminals 2 belong to the same group. When the communicable areas of the three or more communication terminals 2 overlap, the determination unit 11 may consider that the three or more communication terminals 2 belong to the same group. However, it is preferable that the number of communication terminals 2 included in each group is the same (or close to) each other as much as possible.

For example, in the example of FIG. 1, the communication terminal 202 is located in the communicable area A4 of the communication terminal 204. Therefore, the determination unit 11 determines that the communication terminal 202 and the communication terminal 204 belong to the same group (for convenience, referred to as "group 1"). Further, the communication terminal 203 is located in the communicable area A5 of the communication terminal 205. Therefore, the determination unit 11 determines that the communication terminal 203 and the communication terminal 205 belong to the same group (for convenience, referred to as "group 2"). On the other hand, in the communication terminal 201 and the communication terminal 206, no other communication terminal 2 exists in the communicable areas A1 and A6. Therefore, the determination unit 11 constitutes one group only by the communication terminal 201, and constitutes one group only by the communication terminal 206.

In the determination unit 11, the communicable area of the second communication unit 22 of one of the plurality of communication terminals 2 belonging to a certain group is the second communication unit 22 of the other communication terminal 2 belonging to this group. Judge that a communicable area can be used as a substitute. Then, the determination unit 11 transmits a switching signal including an invalidation command to the one communication terminal 2, and transmits a switching signal including an activation command to the other communication terminal 2. The determination unit 11 further changes (rotates) the communication terminal 2 that invalidates the second communication unit 22 within the group at a predetermined timing, for example, every few months.

As described above, according to the communication system 10 of the present modification, the communication terminal 2 in which the second communication unit 22 is invalidated is changed at a predetermined timing in the group. Therefore, the operating time during which the second communication unit 22 is operating is averaged among the communication terminals 2 belonging to the group. Therefore, it is possible to extend the life of the communication system 10.

The determination unit 11 may change (rotate) the communication terminal 2 that invalidates the second communication unit 22 by grouping all of the plurality of communication terminals 2 included in the communication system 10 into one group. Further, the determination unit 11 may perform grouping of the communication terminals 2 regularly or irregularly.

(3.2) Modification 2
As shown in FIG. 4, the communication terminal 2 may include a failure detection unit 26. Hereinafter, the communication system 10 of this modification will be described.

The failure detection unit 26 is configured to detect the occurrence of a failure in the second communication unit 22. When the failure detection unit 26 detects the occurrence of a failure in the second communication unit 22, the failure detection unit 26 causes the first communication unit 21 to transmit the failure occurrence information indicating the occurrence of the failure to the master unit module 1. The timing at which the failure detection unit 26 transmits the failure occurrence information is not particularly limited. For example, the failure detection unit 26 may transmit failure occurrence information immediately after detecting the occurrence of a failure. Alternatively, for example, when the master unit module 1 periodically transmits a survival confirmation signal and each communication terminal 2 returns the survival information, the communication terminal 2 may transmit the failure occurrence information together with the survival information.

When the determination unit 11 of the master module 1 receives the failure occurrence information from any of the communication terminals 2, the determination unit 11 includes the failure occurrence information in the determination information and determines the specific communication terminal. For example, as described in the first modification, when two or more communication terminals 2 belong to the same group and the failure occurrence information is received from one of the communication terminals 2, the determination unit 11 determines. The communication terminal 2 that has transmitted the failure occurrence information is determined as the specific communication terminal. Further, the determination unit 11 transmits a switching signal including an activation command to the second communication unit 22 of at least one other communication terminal 2 belonging to this group to enable the second communication unit 22 of the communication terminal 2. To make it.

Further, when a failure occurs in any of the communication terminals 2, the communication system 10 (for example, the master module 1) is a user by an appropriate means such as light (including an image), sound (including voice), and smell. It may be provided with a failure notification unit that notifies the user. However, the failure notification unit does not necessarily have to give notification even when a failure occurs. For example, the failure notification unit may not give notification if the communicable area of the second communication unit 22 of the communication terminal 2 in which the failure has occurred can be substituted by another communication terminal 2. The failure notification unit determines whether or not to notify, for example, in consideration of the number of communication terminals 2 in which the failure has occurred, the communicable area of the second communication unit 22 of the communication terminal 2 in which the failure has occurred, and the like. May be good.

Further, the failure detection unit 26 may be configured to detect the occurrence of a failure in the first communication unit 21. In this case, when the failure detection unit 26 detects the occurrence of a failure in the first communication unit 21, the second communication unit 22 may transmit the failure occurrence information indicating the occurrence of the failure to the master unit module 1.

(3.3) Other Modifications In one modification, the determination unit 11 may be provided in a device other than the master module 1. For example, the determination unit 11 may be provided in one of the plurality of communication terminals 201 to 206. That is, the control module including the determination unit 11 may be at least one communication terminal 2 among the plurality of communication terminals 201 to 206. Alternatively, the control module including the determination unit 11 may be an external device such as a server, which is connected to the master module 1 via the external connection device 3 and the network 5.

In one modification, the communication system 10 does not have to include the master module 1. In this case, each of the plurality of communication terminals 201 to 206 may include a determination unit 11. For example, when the second communication unit 22 of the two communication terminals 2 of the plurality of communication terminals 2 can wirelessly communicate with each other, the determination unit 11 of the two communication terminals 2 determines a predetermined reference ( For example, either second communication unit 22 may be invalidated according to the identification information).

In one modification, the communication terminal 2 may further include other function units that realize other functions in addition to the first communication unit 21 and the second communication unit 22. Functions realized by other function units include, for example, a human detection function using a motion sensor, an imaging function using a camera, and a temperature measurement (humidity measurement) function using a temperature (humidity) sensor. It is preferable that the communication terminal 2 keeps the multifunctional unit effective even when the second communication unit 22 is disabled.

In one modification, when the second communication unit 22 is invalidated, the communication terminal 2 may also invalidate the first communication unit 21. In this case, the communication terminal 2 may periodically activate at least one of the first communication unit 21 and the second communication unit 22, for example.

(4) Summary As described above, the communication terminal (2) of the first aspect includes a first communication unit (21), a second communication unit (22), and a switching unit (23). The first communication unit (21) is connected to the power line (91) and performs power line carrier communication. The second communication unit (22) performs wireless communication using a wireless signal. The switching unit (23) switches between valid and invalid of the second communication unit (22) according to the switching signal received by the first communication unit (21) in the power line carrier communication.

According to this aspect, in the communication system (10) including the communication terminal (2), by transmitting a switching signal to an arbitrary communication terminal (2), the second communication unit (22) of the communication terminal (2) Can be disabled. Therefore, it is possible to reduce the total power consumption in the communication system (10).

The communication system (10) of the second aspect includes a plurality of communication terminals (201 to 206) of the first aspect. The second communication unit (22) of at least one communication terminal (2) among the plurality of communication terminals (201 to 206) is invalidated by the switching signal transmitted based on the determination information. The determination information includes information on the degree of overlap between the communicable areas (A1 to A6) where the second communication unit (22) of the plurality of communication terminals (201 to 206) can wirelessly communicate.

According to this aspect, it is possible to reduce the total power consumption in the communication system (10).

The communication system (10) of the third aspect includes a control module in the second aspect. The control module includes a determination unit (11) and a transmission unit (12). Based on the determination information, the determination unit (11) determines that any communication terminal (2) among the plurality of communication terminals (201 to 206) is a specific communication terminal that invalidates the second communication unit (22). To do. The transmission unit (12) transmits a switching signal to at least a specific communication terminal by power line carrier communication based on the determination result of the determination unit (11).

According to this aspect, it is possible to reduce the total power consumption in the communication system (10).

In the communication system (10) of the fourth aspect, in the third aspect, the determination information is a reception signal of a radio signal transmitted and received between the second communication units (22) of the plurality of communication terminals (201 to 206). Contains strength information.

According to this aspect, the degree of overlap between the communicable areas (A1 to A6) of the second communication unit (22) of the plurality of communication terminals (201 to 206) can be determined based on the received signal strength.

In the communication system (10) of the fifth aspect, in the third or fourth aspect, the determination information includes the number information. The number information is provided for each of the plurality of communication terminals (201 to 206) of the other communication terminal (2) among the plurality of communication terminals (201 to 206) capable of wirelessly communicating with the communication terminal (2). Show the number.

According to this aspect, the degree of overlap between the communicable areas (A1 to A6) of the second communication unit (22) of the plurality of communication terminals (201 to 206) can be determined based on the number information.

In the communication system (10) of the sixth aspect, in any one of the third to fifth aspects, the determination information includes information on the arrangement location of the plurality of communication terminals (201 to 206).

According to this aspect, the communicable area (A1 to A6) of the second communication unit (22) of the plurality of communication terminals (201 to 206) is based on the information of the arrangement location of the plurality of communication terminals (201 to 206). The degree of overlap between can be determined.

In the communication system (10) of the seventh aspect, in any one of the third to sixth aspects, the determination unit (11) uses at least two communication terminals among the plurality of communication terminals (201 to 206). As a group, at least one communication terminal included in the group is determined to be a specific communication terminal. The determination unit (11) changes the communication terminal to be a specific communication terminal in the group periodically or irregularly.

According to this aspect, it is possible to extend the life of the communication system (10).

In the communication system (10) of the eighth aspect, in the seventh aspect, the determination unit (11) determines at least two communication terminals to be grouped based on the determination information.

According to this aspect, it is possible to extend the life of the communication system (10).

In the communication system (10) of the ninth aspect, in any one of the third to eighth aspects, each of the plurality of communication terminals (201 to 206) has a first communication unit (21) and a second communication unit. When one of (22) fails, the other of the first communication unit (21) and the second communication unit (22) is used to transmit failure occurrence information indicating the occurrence of the failure to the control module. .. The judgment information includes failure occurrence information.

According to this aspect, the determination unit (11) determines the specific communication terminal based on the information about the communication terminal (2) in which either the first communication unit (21) or the second communication unit (22) has failed. It becomes possible to do.

In the communication system (10) of the tenth aspect, the determination information is updated periodically or irregularly in any one of the third to ninth aspects.

According to this aspect, even if there is a change in the communication environment in the communication system (10), it is possible to determine the specific communication terminal according to the change.

In the communication system (10) of the eleventh aspect, in any one of the third to tenth aspects, even if the specific communication terminal disables the second communication unit (22), the first communication unit (21) Keep effective.

According to this aspect, the function of the first communication unit (21) of the specific communication terminal can be effectively used.

In the communication system (10) of the twelfth aspect, in any one of the third to eleventh aspects, the control module is a communication terminal (2) of at least one of a plurality of communication terminals (201 to 206). is there.

According to this aspect, it is possible to reduce the total power consumption in the communication system (10).

In any one of the third to eleventh aspects, the communication system (10) of the thirteenth aspect is capable of power line carrier communication with each first communication unit (21) of the plurality of communication terminals (201 to 206). Further equipped with a master unit module (1). The control module is the master module (1).

According to this aspect, it is possible to reduce the total power consumption in the communication system (10).

In the communication method of the fourteenth aspect, a first communication unit (21) connected to the power line (91) and performing power line carrier communication and a second communication unit (22) that performs wireless communication using a wireless signal are used. It is executed by the communication terminal (2) provided. The communication method includes a switching process of switching between valid and invalid of the second communication unit (22) according to the switching signal received by the first communication unit (21) in the power line carrier communication.

According to this aspect, in the communication system (10) including the communication terminal (2), by transmitting a switching signal to an arbitrary communication terminal (2), the second communication unit (22) of the communication terminal (2) Can be disabled. Therefore, it is possible to reduce the total power consumption in the communication system (10).

The program of the fifteenth aspect is a program for causing one or more processors including the first communication unit (21) and the second communication unit (22) to execute the communication method of the fourteenth aspect.

According to this aspect, it is possible to reduce the total power consumption in the communication system (10).

1 Master module 11 Judgment unit 12 Transmission unit 2,201-206 Communication terminal 21 1st communication unit 22 2nd communication unit 23 Switching unit 10 Communication system 91 Power line A1 to A6 Communicable area

Claims (15)

The first communication unit, which is connected to the power line and performs power line carrier communication,
The second communication unit that performs wireless communication using wireless signals,
A switching unit that switches between valid and invalid of the second communication unit according to a switching signal received by the first communication unit in the power line carrier communication.
To prepare
Communication terminal. The communication terminal according to claim 1 is provided.
The second communication unit of at least one of the plurality of communication terminals is invalidated by the switching signal transmitted based on the determination information.
The determination information includes information on the degree of overlap between the communicable areas where the second communication unit of the plurality of communication terminals can wirelessly communicate.
Communications system. The communication system includes a control module.
The control module
Based on the determination information, a determination unit that determines any communication terminal among the plurality of communication terminals as a specific communication terminal that invalidates the second communication unit, and
Based on the determination result of the determination unit, the transmission unit that transmits the switching signal to at least the specific communication terminal by the power line carrier communication, and
To prepare
The communication system according to claim 2. The determination information includes information on the received signal strength of the radio signal transmitted and received between the second communication units of the plurality of communication terminals.
The communication system according to claim 3. The judgment information includes the number information.
The number information indicates, for each of the plurality of communication terminals, the number of other communication terminals among the plurality of communication terminals capable of wirelessly communicating with the communication terminal.
The communication system according to claim 3 or 4. The determination information includes information on the arrangement location of the plurality of communication terminals.
The communication system according to any one of claims 3 to 5. The judgment unit
At least two communication terminals among the plurality of communication terminals are grouped, and at least one communication terminal included in the group is determined to be the specific communication terminal.
The communication terminal to be the specific communication terminal in the group is changed regularly or irregularly.
The communication system according to any one of claims 3 to 6. The determination unit determines at least two communication terminals to be grouped based on the determination information.
The communication system according to claim 7. Each of the plurality of communication terminals uses the other of the first communication unit and the second communication unit when one of the first communication unit and the second communication unit fails. Sends failure occurrence information indicating the occurrence of failure to the control module,
The determination information includes the failure occurrence information.
The communication system according to any one of claims 3 to 8. Update the judgment information regularly or irregularly,
The communication system according to any one of claims 3 to 9. The specific communication terminal keeps the first communication unit valid even if the second communication unit is invalidated.
The communication system according to any one of claims 3 to 10. The control module is at least one communication terminal among the plurality of communication terminals.
The communication system according to any one of claims 3 to 11. A master module capable of performing the power line carrier communication with the first communication unit of each of the plurality of communication terminals is further provided.
The control module is the master module.
The communication system according to any one of claims 3 to 11. A communication method executed by a communication terminal including a first communication unit connected to a power line to perform power line carrier communication and a second communication unit to perform wireless communication using a wireless signal.
The first communication unit includes a switching process for switching between valid and invalid of the second communication unit according to a switching signal received in the power line carrier communication.
Communication method. A program for causing one or more processors including the first communication unit and the second communication unit to execute the communication method according to claim 14.

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