JP2019180066A - Display system, display method - Google Patents

Abstract

To provide a display system capable of easily comprehending the communication status of a communication terminal.SOLUTION: A display system 1 includes an acquisition unit (communication part) 11, and a processing part 12. The acquisition unit 11 is configured to acquire a piece of status information representing the communication status of a stationary communication terminal 2 by communicating with the communication terminal 2. The processing part 12 causes a display unit 41 to display a piece of location information representing the position of the communication terminal 2 and the status information acquired by the acquisition unit 11 while associating with a piece of map information including an area where the communication terminal 2 is installed.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates generally to a display system and a display method, and more particularly to a display system and a display method for communicating with a stationary communication terminal.

  Patent Document 1 discloses a remote meter reading system in which a plurality of power measuring devices are arranged in one building such as an apartment house. The power measuring device is installed in a dwelling unit and measures the amount of power consumed in the dwelling unit. This system includes a terminal station that acquires measurement data from the power measurement device, and a master station that collects the measurement data obtained at the terminal station by power line carrier communication. The master station communicates with a server managed by the power company through a network such as the Internet. Thereby, the server has acquired the electric power consumption in each dwelling unit individually.

JP 2010-157983 A

  In the system described in Patent Document 1, a network is constructed by a terminal station that is a communication terminal and a master station that is a communication terminal. However, it is difficult for the administrator of this system to grasp the communication status of this network, that is, the communication status of the communication terminal, and as a result, it is difficult to identify the cause when the communication status deteriorates or to perform maintenance work such as repair support. There was a problem that it could not be done efficiently.

  The present disclosure has been made in view of the above points, and an object thereof is to provide a display system and a display method that make it easy to grasp the communication state of a communication terminal.

  A display system according to an aspect of the present disclosure includes an acquisition unit and a processing unit. The acquisition unit acquires state information indicating a communication state of the communication terminal by communicating with a stationary communication terminal. The processing unit causes the display unit to display the map information including the area where the communication terminal is installed in association with the position information indicating the position of the communication terminal and the state information acquired by the acquisition unit.

  A display method according to an aspect of the present disclosure includes a first step and a second step. The first step is a step of acquiring state information representing a communication state of the communication terminal by communicating with a stationary communication terminal. In the second step, the map information including the area where the communication terminal is installed is associated with the position information indicating the position of the communication terminal and the state information acquired in the first step and displayed on the display unit. It is a step to make.

  The present disclosure has an advantage that it is easy to grasp the communication state of the communication terminal.

FIG. 1 is a block diagram illustrating a display system according to an embodiment of the present disclosure. FIG. 2 is a flowchart showing an example of the operation of the above display system. FIG. 3 is a schematic diagram illustrating a first display example of an image displayed on the display unit in the above-described display system. 4A and 4B are schematic diagrams showing a second display example of an image displayed on the display unit in the above-described display system. FIG. 5 is a schematic diagram illustrating a third display example of an image displayed on the display unit in the above-described display system. FIG. 6A is a block diagram illustrating a display system according to a first modified example of an embodiment of the present disclosure. FIG. 6B is a block diagram illustrating a display system according to a second modification of an embodiment of the present disclosure. FIG. 7 is a block diagram illustrating a configuration when a communication terminal that communicates with a display system according to an embodiment of the present disclosure includes a positioning unit.

(1) Outline As shown in FIG. 1, the display system 1 according to the present embodiment communicates with one or more communication terminals 2 (here, the repeater 20) among a plurality of communication terminals 2 via a network 51. It is configured to be possible. The plurality of communication terminals 2 are configured to be communicable with other communication terminals 2, respectively, and a network 52 different from the network 51 is constructed. There are one or more networks 52 (here, a plurality). That is, the display system 1 is configured to be able to communicate with the communication terminals 2 belonging to each of the one or more networks 52.

  Hereinafter, the description will focus on the relationship between the display system 1 and the communication terminal 2 belonging to one network 52 among the one or more networks 52. Since the relationship between the communication terminal 2 and the display system 1 belonging to the remaining network 52 is the same as the above relationship, the description thereof is omitted.

  The display system 1 includes a communication unit (acquisition unit) 11 and a processing unit 12.

  The communication unit 11 acquires state information indicating a communication state of the communication terminal 2 by communicating with the stationary communication terminal 2. The “communication state” in the present disclosure is a state when the communication terminal 2 is communicating with another communication terminal 2.

  The processing unit 12 causes the display unit 41 to display the map information including the area where the communication terminal 2 is installed in association with the position information indicating the position of the communication terminal 2 and the state information acquired by the acquisition unit 11. “Map information” as used in the present disclosure is, for example, a model of a predetermined facility, for example, in addition to a map obtained by reducing or deforming a predetermined area and using symbols / characters, that is, a map expressing a real space in a plane. Including maps that are expressed in plane. Therefore, the map information includes an electrical system diagram that schematically represents the electrical connection relationship between a predetermined facility and a plurality of facilities installed in the facility on a plane. In addition, the “location information” in the present disclosure includes, for example, information indicating the position of the communication terminal 2 represented by coordinates in real space such as latitude, longitude, and altitude. It includes information indicating the position of the communication terminal 2 that can be grasped by the user who has seen the map information, such as being on the floor.

  As described above, in the present embodiment, the map information in which the position of the communication terminal 2 is associated with the communication state of the communication terminal 2 is displayed on the display unit 41. For this reason, in this embodiment, there exists an advantage that it is easy to grasp | ascertain the communication state of the communication terminal 2. FIG. For example, when there is a communication terminal 2 in which the communication state is abnormal (in other words, a communication failure has occurred), the user can grasp the position of the communication terminal 2 by looking at the display unit 41. Is possible.

(2) Configuration Hereinafter, the configuration of the display system 1 of the present embodiment and the communication terminal 2 that communicates with the display system 1 will be described. Here, in the present embodiment, the display system 1 is configured to be able to communicate with the display device 4 including the display unit 41. The display unit 41 is a thin display device such as a liquid crystal display or an organic EL (Electro Luminescence) display. In the present embodiment, the display device 4 is a personal computer (desktop type or laptop type). The display device 4 is not limited to a personal computer, and may be a mobile information terminal such as a smartphone or a tablet terminal, or a device such as a smart TV.

(2.1) Display System First, the display system 1 will be described. In the present embodiment, the display system 1 is a server, and is a facility that is located away from the building where the communication terminal 2 is installed, for example, the provider of the communication terminal 2 or the provider of the service using the communication terminal 2 Is provided. The display system 1 further includes a storage unit 13 in addition to the communication unit (acquisition unit) 11 and the processing unit 12 described above.

  The communication unit 11 is a communication interface for communicating with the communication terminal 2. The communication unit 11 is configured to be able to communicate with a first communication unit 21 (described later) of the communication terminal 2 via a network 51 such as a WAN (Wide Area Network) or a LAN (Local Area Network). The network 51 may be a wired communication network or a wireless communication network. Furthermore, the network 51 may be a network that combines a wired communication system network and a wireless communication system network. The communication unit 11 acquires state information stored in the communication terminal 2 by communicating with the first communication unit 21 of the communication terminal 2 (here, the repeater 20) via the network 51. The acquired state information is stored in the storage unit 13 in association with the identifier of the communication terminal 2 that is the state information transmission source.

  The processing unit 12 is configured by a computer system having a processor and a memory, for example. The computer system functions as the processing unit 12 by the processor executing the program stored in the memory. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be provided by being recorded on a non-temporary recording medium such as a memory card or provided through an electric communication line such as the Internet. May be.

  The processing unit 12 associates the position information of the communication terminal 2 with the state information of the communication terminal acquired by the communication unit 11 and causes the storage unit 13 to store the information. That is, the processing unit 12 stores the location information of the communication terminal 2 and the state information of the communication terminal 2 in the storage unit 13 in association with the identifier of the communication terminal 2. In the present embodiment, the position information of the communication terminal 2 is stored in advance in the storage unit 13 by the operator of the display system 1 inputting it.

  In the present embodiment, the position information includes coordinate information (latitude, longitude, and altitude) that represents the position of the communication terminal 2. That is, in the present embodiment, the position information includes information indicating the height at which the communication terminal 2 is located with respect to the reference position (hereinafter also referred to as “height information”). The “reference position” in the present disclosure may be a position that serves as a reference for the height at which the communication terminal 2 is located, and may be, for example, the sea surface, or the installation surface of the building where the communication terminal 2 is installed. There may be.

  Further, the processing unit 12 reads the position information of the communication terminal 2 and the state information corresponding to the position information from the storage unit 13 in response to the trigger, and reflects the read information and the read information on the map information. A command to be instructed is output to the display device 4, for example. The trigger is a command transmitted from the display device 4 to the display system 1 when the user operates the display device 4, for example. In response to the command received from the processing unit 12, the display device 4 reflects the position information and state information of the communication terminal 2 received from the processing unit 12 on the map information, and displays the reflected map information on the display unit 41. . In other words, the processing unit 12 outputs the position information and the state information of the communication terminal 2 to the display device 4, whereby the position information indicating the position of the communication terminal 2 and the state information acquired by the acquisition unit 11 are included in the map information. Can be said to be displayed on the display unit 41 in association with each other. The map information includes the area where the communication terminal 2 is installed.

  In the present embodiment, the map information may be an electronic map created by, for example, a geographic information system (GIS), and may be used for a fee or free of charge provided via a network such as the Internet. Possible electronic maps may be used. In the former case, it is preferable that the display device 4 stores the map information in advance. In the latter case, it is preferable that the display device 4 appropriately obtains the map information via a network such as the Internet, for example, according to a user operation.

  The storage unit 13 includes a rewritable nonvolatile memory such as an EEPROM (Electrically Erasable Programmable Read-Only Memory). The storage unit 13 stores the position information of the communication terminal 2 and the state information of the communication terminal 2 in a form associated with the identifier of the communication terminal 2. The state information includes, for example, the communication of the communication terminal 2 such as an identifier of another adjacent communication terminal 2, a communication speed between the adjacent other communication terminals 2, and the number of hops (which may be single-hop or multi-hop). It contains one or more parameters representing the state. In the present embodiment, the position information includes a distance between two communication terminals 2 adjacent to each other (that is, a communication distance). For example, the processing unit 12 calculates the communication distance based on the position information of the communication terminal 2. The storage unit 13 may be a built-in memory of the processing unit 12.

(2.2) Communication Terminal Next, the communication terminal 2 will be described. In the present embodiment, the communication terminal 2 is a stationary communication terminal. That is, the communication terminal 2 does not move from the installation location unless there is a situation such as changing the installation location, unlike a portable communication terminal owned by a user such as a smartphone. In the present embodiment, a plurality of communication terminals 2 are electrically connected to one power line 3. Here, if the power distribution method is a single-phase three-wire system, a set of power lines composed of three lines (three electric wires) of L1, L2, and N is defined as one power line 3. Similarly, if the power distribution method is a single-phase two-wire system, a set of power lines composed of two wires (two electric wires) is one power line 3, and if the power distribution method is a three-phase four-wire system, One set of power lines composed of four lines (four electric wires) is defined as one power line 3. The plurality of communication terminals 2 perform power line communication (PLC) with each other using the power line 3 as a communication signal transmission path. That is, in this embodiment, the communication terminal 2 has a function of communicating with other communication terminals 2 by power line carrier communication.

  Here, as an example, the communication terminal 2 employs high-definition power line communication (HD-PLC) as a method of power line carrier communication. However, the method of power line carrier communication of the communication terminal 2 is not limited to high-speed power line communication, and may be, for example, G3-PLC (see International Telecommunication Union Telecommunication Standardization Sector (ITU-T) G. 9903).

  Each of the plurality of communication terminals 2 includes a second communication unit 22, a control unit 23, and a storage unit 24. In addition, one communication terminal 2 of the plurality of communication terminals 2 functions as a repeater 20 that relays between the other communication terminals 2 and the display system 1. The communication terminal 2 that is the repeater 20 further includes a first communication unit 21.

  The first communication unit 21 is a communication interface for communicating with the display system 1. The first communication unit 21 is configured to be able to communicate with the communication unit 11 of the display system 1 via the network 51. The first communication unit 21 transmits state information of each of the plurality of communication terminals 2 (including the repeater 20) belonging to the same network 52 to the display system 1. In the present embodiment, the first communication unit 21 periodically transmits status information of each of the plurality of communication terminals 2 to the display system 1. That is, the repeater 20 periodically acquires its own state information and the state information of the other communication terminals 2, and transmits the acquired state information of each of the plurality of communication terminals 2 to the display system 1. Further, the first communication unit 21 may transmit the updated state information of the communication terminal 2 to the display system 1 when the state information of any one of the communication terminals 2 is updated. In this case, the repeater 20 acquires the state information from the communication terminal 2 in which the state information is updated, and transmits the acquired state information to the display system 1.

  The second communication unit 22 is a communication interface for communicating with other communication terminals 2 belonging to the same network 52. The 2nd communication part 22 is comprised so that communication with the 2nd communication part 22 of the other communication terminal 2 is possible by the power line carrier communication system. In this embodiment, the 2nd communication part 22 is comprised so that communication with the 2nd communication part 22 of the other communication terminal 2 is possible by the single hop system or the multihop system. The second communication unit 22 may be configured to be communicable with the second communication unit 22 of another communication terminal 2 by a wired communication method other than the power line carrier communication method or a wireless communication method.

  The control unit 23 is configured by a computer system having a processor and a memory, for example. And a computer system functions as the control part 23, when a processor runs the program stored in memory. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be provided by being recorded on a non-temporary recording medium such as a memory card or provided through an electric communication line such as the Internet. May be.

  The control unit 23 has a function of transmitting / receiving data to / from another communication terminal 2 belonging to the same network 52 via the second communication unit 22. In addition, the control unit 23 determines whether another adjacent communication terminal 2 (in this case, other communication of the data transmission source) based on the size of the data acquired by the second communication unit 22 and the time required to acquire the data. The communication speed with the terminal 2) is calculated. The control unit 23 stores the calculated communication speed in the storage unit 24 as state information.

  The storage unit 24 includes a rewritable nonvolatile memory such as an EEPROM, for example. The storage unit 24 stores state information of the communication terminal 2. The state information includes one or more parameters representing the communication state of the communication terminal 2, such as an identifier of the other adjacent communication terminal 2, a communication speed with the other adjacent communication terminal 2, and the number of hops. . The storage unit 24 may be a built-in memory of the control unit 23.

(3) Operation Hereinafter, an example of the operation of the display system 1 of the present embodiment will be described with reference to FIG. Hereinafter, a description will be given focusing on one communication terminal 2 among a plurality of communication terminals 2 belonging to the same network 52. First, when the processing unit 12 of the display system 1 acquires the position information of the communication terminal 2 by the communication unit 11, the acquired position information is stored in the storage unit 13 in association with the identifier of the communication terminal 2 (S1). In the present embodiment, as already described, the position information of the communication terminal 2 is stored in advance in the storage unit 13 by the operator of the display system 1 inputting it. For example, when the location information of the communication terminal 2 is updated by changing the installation location of the communication terminal 2 (S2: No), the processing unit 12 acquires the updated location information of the communication terminal 2. Thus, the position information of the communication terminal 2 stored in the storage unit 13 is updated.

  Next, the processing unit 12 acquires the state information of the communication terminal 2, and stores the acquired state information in the storage unit 13 in association with the identifier of the communication terminal 2 (S2: Yes and S3). In the present embodiment, as already described, the relay device 20 periodically transmits the status information of each of the plurality of communication terminals 2 (including the relay device 20) to the display system 1. Therefore, in this embodiment, the processing unit 12 periodically updates the state information of the communication terminal 2 stored in the storage unit 13. The order of steps S1 and S2 and step S3 described above may be reversed.

  Next, when a trigger (in this case, a command from the display device 4 by a user operation) is generated (S4: Yes), the processing unit 12 reads position information and state information of the communication terminal 2 from the storage unit 13. The order of steps S1 to S3 described above and step S4 may be reversed. And the process part 12 outputs the read information and the instruction | indication which instruct | indicates to reflect the read information on map information to the display apparatus 4 (S5). The display device 4 that has received the information and command from the display system 1 reflects the position information and state information of the communication terminal 2 on the map information, and displays the reflected map information on the display unit 41 (S6).

  Specifically, the display device 4 displays an icon representing the communication terminal 2 on the map displayed on the display unit 41 among the map information based on the position information of the communication terminal 2. The display device 4 displays a line connecting the communication terminal 2 and another communication terminal 2 adjacent to the communication terminal 2 based on the state information of the communication terminal 2. Furthermore, the display device 4 is a character that represents the communication state (for example, communication speed) of the communication terminal 2 based on the state information of the communication terminal 2 next to the icon representing the communication terminal 2 or overlapping the icon. Display columns (or pictograms). At this time, the character string is displayed at a position where it is easy to grasp that the character string is associated with the icon. For example, when a character string is displayed at a position away from the icon, it is difficult for the user to grasp that the icon and the character string are associated with each other. On the other hand, when a character string is displayed next to or overlapping an icon, the user can easily grasp that the icon and the character string are associated with each other. Thus, the map information reflecting the position information of the communication terminal 2 and the state information associated with the position information is displayed on the display unit 41 as an image.

  The images displayed on the display unit 41 include, for example, a first display example, a second display example, and a third display example shown in FIGS. Of course, the images displayed on the display unit 41 are not limited to the images shown in these display examples. 3 to 5 may be a part or all of the image displayed on the entire display unit 41.

  In the first display example, as shown in FIG. 3, the display unit 41 displays a map M1 in which buildings, roads, and the like are represented in a three-dimensional manner on a plane. That is, in the first display example, the map information is a map M1 expressed in a three-dimensional coordinate system. In the first display example, two square icons A1 and A2 representing the repeater 20 and ten circular icons B1 to B10 representing the communication terminal 2 are displayed on the map M1.

  In the building on the left side of the map M1, one repeater 20 represented by an icon A1 and four communication terminals 2 represented by icons B1 to B4 are installed. The icon A1 and the icons B1 to B4 are connected by lines, and these communication terminals 2 constitute one network 52. Next to a line connecting adjacent icons, a character string indicating a communication speed between two adjacent communication terminals 2 (for example, “100 Mbps”) and a character string indicating a distance between these communication terminals 2 (For example, “10 m”) is displayed. Therefore, for example, by looking at the character string next to the line connecting the icons B3 and B4, the user can detect the positions of the two communication terminals 2 represented by the icons B3 and B4 and the communication between these communication terminals 2. The speed and the distance between these communication terminals 2 can be grasped.

  Further, in the building on the right side of the map M1, one repeater 20 represented by an icon A2 and six communication terminals 2 represented by icons B5 to B10 are installed. The icon A1 and the icons B5 to B10 are connected by lines, and these communication terminals 2 constitute one network 52. Next to a line connecting adjacent icons, a character string representing a communication speed between two adjacent communication terminals 2 and a character string representing a distance between these communication terminals 2 are displayed. .

  Here, in the first display example, the two communication terminals 2 represented by the icons B7 and B9 are connected not by a solid line but by a broken line. The broken line indicates that the communication speed between two adjacent communication terminals 2 (here, “20 Mbps”) is different from the communication speed between two other adjacent communication terminals 2 (here, “100 Mbps” or “ 120 Mbps "). Thus, in the present embodiment, the processing unit 12 changes the display mode on the display unit 41 according to the state information (here, the communication speed between two adjacent communication terminals 2).

  Therefore, the user can suspect that some abnormality has occurred in one of the two communication terminals 2 represented by the icons B7 and B9 by looking at the broken line. Here, the user sees the character string representing the distance, so that the distance between the two communication terminals 2 represented by the icons B7 and B9 (here, “50 m”) is the other two adjacent to each other. It can be understood that the distance is longer than the distance between the communication terminals 2 (here, “10 m”). Therefore, the user can determine that the communication speed is reduced due to the distance between the two communication terminals 2 represented by the icons B7 and B9.

  In the second display example, as shown in FIG. 4A, the display unit 41 displays a map representing buildings, roads, and the like in a plane. That is, in the second display example, the map information is a map represented by a two-dimensional coordinate system. In the second display example, three rectangular icons C1 to C3 representing that the communication terminal 2 is installed are displayed on the map M2. A number representing the number of installed communication terminals 2 is displayed on each of icons C1 to C3. For example, the icon C1 indicates that 100 communication terminals 2 are installed in the building where the icon C1 is displayed.

  When the user selects any of the icons C1 to C3 on the map M2 illustrated in FIG. 4A, the display unit 41 changes the display mode as illustrated in FIG. 4B. For example, using an input device such as a mouse or when the display unit 41 is a touch panel display, the user can select the icons C1 to C3 by touching the icons C1 to C3. is there. For example, when the icon C1 is selected, a window W1 is displayed next to the icon C1, as shown in FIG. 4B. Inside the window W1, position information and status information of one or more communication terminals 2 installed in the building where the icon C1 is displayed are displayed. Here, the height information (“Height”) of the communication terminal 2 and the communication speed (“Speed”) between the communication terminal 2 and the other communication terminal 2 are displayed in the window W1. ("Device ID") Therefore, the user can grasp the position and communication speed of one or more communication terminals 2 installed in the building where the icon C1 is displayed by looking at the window W1.

  In the first display example (or the second display example), when the area displayed on the display unit 41 is changed by a user operation, the position information and state information of one or more communication terminals 2 in the changed area are displayed. Are displayed on the map M1 (or the map M2). Here, “changing the area” includes not only changing the area displayed on the display unit 41 without changing the scale but also changing the area displayed on the display unit 41 by changing the scale.

  In the third display example, as shown in FIG. 5, the display unit 41 displays an electrical system diagram M <b> 3 representing the connection status of one or more communication terminals 2 in the building F <b> 1. That is, in the third display example, the map information is an electrical system diagram M3 representing the connection status of the communication terminal 2. The electrical system diagram M3 may be a diagram representing indoors or a diagram representing outdoors. That is, the electrical system diagram M3 may represent the connection status of the communication terminals 2 distributed in a predetermined area, for example.

  In the third display example, a building F1 that has four floors and a basement, a repeater 20 that is represented by an icon D1, and four communication terminals 2 that are represented by icons E1 to E4 are electrical system diagrams. M3 is displayed. The icon D1 is displayed overlapping the icon G1 representing the distribution board on the basement. The icons E1 to E4 are displayed so as to overlap the icons H1 to H4 representing the electric facilities on each floor. The icon D1 and the icons E1 to E4 are connected by a line, and these communication terminals 2 constitute one network 52. A character string representing a communication speed between two adjacent communication terminals 2 is displayed next to a line connecting adjacent icons. Therefore, for example, by looking at the character string next to the line connecting the icons E2 and E3, the user can determine the positions of the two communication terminals 2 represented by the icons E2 and E3 and the communication between these communication terminals 2. You can grasp the speed.

  Here, in the third display example, the two communication terminals 2 represented by the icons E3 and E4 are connected not by a solid line but by a broken line. Therefore, the user can suspect that some abnormality has occurred in one of the two communication terminals 2 represented by the icons E3 and E4 by looking at the broken line.

  As described above, in the present embodiment, the map information in which the position of the communication terminal 2 is associated with the communication state of the communication terminal 2 is displayed on the display unit 41. For this reason, in this embodiment, there exists an advantage that it is easy to grasp | ascertain the communication state of the communication terminal 2. FIG. For example, when there is a communication terminal 2 in which the communication state is abnormal (in other words, a communication failure has occurred), the user can grasp the position of the communication terminal 2 by looking at the display unit 41. Is possible. Further, the user grasps whether the cause of the communication failure is caused by the abnormality of the communication terminal 2, the state of the installation location of the communication terminal 2, or other causes by looking at the display unit 41. It is possible. As described above, in the present embodiment, by visualizing the position and communication state of the communication terminal 2, it is easy to identify the cause of the communication failure, and it is easy to determine whether or not the restoration work on site is necessary. There is. Therefore, in this embodiment, there is an advantage that an administrator (user) of the networks 51 and 52 can easily perform maintenance work such as isolation of the cause when the communication state deteriorates or repair support. This embodiment is particularly effective because the positions and communication states of the communication terminals 2 can be visualized when there are many tens of thousands or hundreds of thousands of communication terminals 2 to be monitored.

  By the way, in this embodiment, height information is included in the position information of the communication terminal 2. Here, when the height information is not included in the position information of the communication terminal 2, the following problem may occur. That is, when communication is performed between a plurality of communication terminals 2 by power line carrier communication, it is assumed that the plurality of communication terminals 2 are installed in a high-rise building or a building having a basement floor. In such a case, when the positions of the plurality of communication terminals 2 are displayed on the display unit 41 without considering the height information of the communication terminals 2, the plurality of communication terminals 2 existing in the same building are almost at one point on the map. It will be displayed in a concentrated manner. Therefore, in this case, even if a communication failure has occurred in any of the plurality of communication terminals 2, it is difficult to identify which communication terminal 2 has caused the communication failure. In addition, since noise generated in the communication path also affects the communication state of the communication terminal 2, if a plurality of communication terminals 2 are displayed in a concentrated manner, it is difficult to visualize the communication path. It is difficult to determine whether noise is occurring.

  On the other hand, in this embodiment, the height information is included in the position information of the communication terminal 2. For this reason, in this embodiment, even if the some communication terminal 2 is installed in one building, the some communication terminal 2 is displayed on the display part 41 in the form which can distinguish each. Therefore, in this embodiment, even if a communication failure occurs in any of the plurality of communication terminals 2 or noise occurs in the communication path, which communication terminal 2 causes the communication failure. There is an advantage that it is easy to specify which communication path is causing noise.

  Further, in the present embodiment, since the height information is included in the position information of the communication terminal 2, for example, there is an advantage that it is easy to calculate the distance between the plurality of communication terminals 2 existing in the same building. That is, when the position information of the communication terminal 2 does not include the height information, the plurality of communication terminals 2 existing in the same building are located at the same or substantially the same coordinates (latitude, longitude). It is difficult to calculate the distance between the terminals 2. On the other hand, in the present embodiment, since the plurality of communication terminals 2 are located at mutually different coordinates (latitude, longitude, altitude), the distance between the plurality of communication terminals 2 can be calculated based on these coordinates. It is.

(4) Modifications Hereinafter, modifications of the above-described embodiment will be listed. The modifications described below can be applied in appropriate combinations.

(4.1) First Modification The display system 1 of the first modification is different from the display system 1 of the above-described embodiment in that it further includes a determination unit 14 as shown in FIG. 6A. In this modification, the determination unit 14 is realized as one function of the processing unit 12.

  The determination unit 14 determines the communication state of the communication terminal 2 based on the correlation between the position information and the state information. For example, the determination unit 14 causes a communication failure due to one of these communication terminals 2 based on the distance between the two adjacent communication terminals 2 and the communication speed between these communication terminals 2. It is determined whether or not. Specifically, even though the distance between two adjacent communication terminals 2 is equal to or shorter than the distance between the other two adjacent communication terminals 2, the distance between the two communication terminals 2 May be slower than the communication speed between the other two communication terminals 2. In such a case, the determination unit 14 can determine that a communication failure has occurred due to at least one of the two communication terminals 2.

  The determination result of the determination unit 14 may be displayed on the display unit 41 in some display form, for example, or may be transmitted to a mobile terminal possessed by the user by wireless communication. In any case, the user confirms the determination result of the determination unit 14 and dispatches a worker to the installation location of the communication terminal 2 where it is determined that a communication failure has occurred. Recovery work can be performed.

(4.2) Second Modification In the first modification, for example, an operator visits the site and inserts a repeater (Repeater) in the communication path, or adjusts the parameters of the communication terminal 2. By doing so, it is possible to recover from a communication failure. Here, the adjustment of the parameters of the communication terminal 2 can be automatically performed by the worker without visiting the site. As shown in FIG. 6B, the display system 1 of the second modification is different from the display system 1 of the first modification in that it further includes an adjustment unit 15 in addition to the determination unit 14. In this modification, the adjustment unit 15 is realized as one function of the processing unit 12.

  The adjustment unit 15 adjusts the parameter of the communication terminal 2 to be determined by the determination unit 14 according to the determination result by the determination unit 14. Here, the adjustment unit 15 adjusts the parameter of the communication terminal 2 that is determined by the determination unit 14 that a communication failure has occurred. For example, the adjustment unit 15 adjusts the signal transmission intensity, the signal transmission cycle, the antenna reception sensitivity, or the like of the communication terminal 2 in which the communication failure has occurred. The adjustment unit 15 adjusts the parameters of the communication terminal 2 in which the communication failure has occurred until the determination result in the determination unit 14 becomes normal, for example, within a parameter adjustable range.

  In the present modification, the adjustment unit 15 automatically adjusts the parameters of the communication terminal 2 to be determined by the determination unit 14. For this reason, in this modified example, there is a high possibility that the user does not have to perform recovery work from the communication failure, such as dispatching a worker to the installation location of the communication terminal 2 determined that the communication failure has occurred. can do.

(4.3) Other Modifications In the above-described embodiment, the position information of the communication terminal 2 is stored in advance in the storage unit 13 of the display system 1 by being input by the operator of the display system 1. It is not intended to be limited to. For example, when the communication terminal 2 further includes the positioning unit 25 as illustrated in FIG. 7, the positioning result of the positioning unit 25 may be stored in the storage unit 13 of the display system 1 as the position information of the communication terminal 2. The positioning unit 25 is configured to measure the position (latitude, longitude, altitude) of the communication terminal 2 using a satellite positioning system such as GPS (Global Positioning System). The positioning result of the positioning unit 25 is transmitted from the first communication unit 21 to the communication unit 11 of the display system 1 via the network 51, for example. Then, the processing unit 12 of the display system 1 stores the received positioning result of the positioning unit 25 in the storage unit 13 as position information of the communication terminal 2.

  Here, when the communication terminal 2 has the positioning unit 25, the communication terminal 2 may measure its own position regularly or irregularly. In this case, for example, even if the position of the communication terminal 2 is changed for some reason, the position information of the communication terminal 2 is automatically obtained by the display system 1 by transmitting the changed positioning result of the communication terminal 2 to the display system 1. Can be updated automatically.

  In addition, when the worker who installs the communication terminal 2 has a portable terminal having a positioning unit equivalent to the positioning unit 25, the positioning result of the positioning unit is displayed as the position information of the communication terminal 2. You may memorize | store in the memory | storage part 13 of the system 1. FIG. For example, after the installation work of the communication terminal 2, the worker operates the portable terminal to cause the positioning unit to measure the position of the installed communication terminal 2. Thereafter, when the worker operates the portable terminal, the positioning result of the positioning unit is transmitted from the portable terminal to the communication unit 11 of the display system 1 via the network 51. Then, the processing unit 12 of the display system 1 stores the received positioning result of the positioning unit in the storage unit 13 as the position information of the communication terminal 2.

  In the above-described embodiment, the processing unit 12 changes the type of line (solid line or broken line) connecting the icons representing these communication terminals 2 according to the communication speed between the two adjacent communication terminals 2. However, this is not meant to be limiting. For example, the processing unit 12 communicates in another display mode such as changing the color of a line connecting icons representing these communication terminals 2 according to the communication speed between the two adjacent communication terminals 2. May be expressed. In the above-described embodiment, it is not essential that the processing unit 12 has a function of changing the display mode according to the state information. That is, the processing unit 12 may cause the display unit 41 to display the state information in one display mode regardless of the state information.

  In the above-described embodiment, the position information of the communication terminal 2 includes the height information, but the height information may not be included. For example, when displaying the positions of a plurality of communication terminals 2 on a map, the height information is not required if the positions of the plurality of communication terminals 2 can be distinguished only by the latitude and longitude of the plurality of communication terminals 2.

  In the above-described embodiment, the display system 1 outputs the position information and the state information, and information including a command for reflecting these pieces of information to the map information, to the display device 4, but the present invention is not limited to this. . For example, the display system 1 may store map information in the storage unit 13 and output map information reflecting position information and state information to the display device 4. In this case, the display device 4 may display the map information received from the display system 1 on the display unit 41. That is, the display system 1 may have map information, or may use map information that the display device 4 has.

  In the above-described embodiment, one communication terminal 2 (relay device 20) of the plurality of communication terminals 2 includes the first communication unit 21, but the present invention is not limited to this. For example, the plurality of communication terminals 2 may all include the first communication unit 21. In this case, each of the plurality of communication terminals 2 may transmit state information to the display system 1 by communicating with the communication unit 11 of the display system 1 via the network 51.

  In the above-described embodiment, the processing unit 12 outputs the position information and the state information of the communication terminal 2 to the display device 4 using a command from the display device 4 operated by the user as a trigger. However, the present invention is limited to this. is not. For example, the trigger may be generated periodically by the display system 1. That is, the processing unit 12 may periodically output the position information and status information of the communication terminal 2 to the display device 4. Further, the processing unit 12 may output the position information and the state information of the communication terminal 2 to the display device 4 by using at least one of the position information and the state information as a trigger.

  In the above-described embodiment, the communication terminal 2 has a function of transmitting the state information to the display system 1, but may have another function. For example, the communication terminal 2 may have a function of cooperating with a measuring device that measures the amount of power used in a customer's facility. In this case, the communication terminal 2 is installed in the vicinity of the measurement device, receives data on the amount of power measured by the measurement device, and displays the display system 1 or a system different from the display system 1 (for example, a data collection system). You may have the function to transmit. Further, for example, the communication terminal 2 may have a function of cooperating with a sensor. In this case, the communication terminal 2 may be installed in the vicinity of the sensor, and may have a function of receiving a detection result detected by the sensor and transmitting it to the display system 1 or a system different from the display system 1. That is, the communication terminal 2 may have a function of cooperating with other devices.

  As described above, when the communication terminal 2 is linked with another device, the position information where the other device is installed may be used as the position information of the communication terminal 2. This is because the communication terminal 2 is basically installed in the vicinity of a place where another device is installed.

  In the above-described embodiment, the display unit 41 includes the display device 4 that is different from the display system 1. That is, the display unit 41 is not a constituent requirement of the display system 1, but is not limited to this. For example, the display unit 41 may be an external display included in the display system 1. That is, the display system 1 may further include a display unit 41 that displays map information.

  In the above-described embodiment, the display system 1 is used for grasping the communication state of the communication terminal 2 during operation of the existing communication terminal 2, but the present invention is not limited to this. For example, the display system 1 may be used when a plurality of communication terminals 2 are installed and the network 52 is constructed. In this case, the installation work of the communication terminal 2 by the worker and the work of confirming the communication state of the installed communication terminal 2 on the display system 1 can be performed in parallel, so that the communication status of the network 52 can be optimized. There is an advantage that it is easy to plan.

  The above-described embodiment is only one of various embodiments of the present disclosure. The above-described embodiment can be variously changed according to the design or the like as long as the object of the present disclosure can be achieved. Moreover, the function similar to the display system 1 may be embodied by a control method, a computer program, or a non-transitory recording medium recording the computer program.

  The display method according to one aspect includes a first step and a second step. The first step is a step of acquiring state information indicating a communication state of the communication terminal 2 by communicating with the stationary communication terminal 2. In the second step, the map information including the area where the communication terminal 2 is installed is associated with the position information indicating the position of the communication terminal 2 and the state information acquired in the first step and displayed on the display unit 41. It is.

  The program which concerns on 1 aspect is a program for making a computer system perform the above-mentioned 1st step and 2nd step.

  The display system 1 in the present disclosure includes a computer system in the processing unit 12 or the like, for example. The computer system mainly includes a processor and a memory as hardware. Functions of the processing unit 12 and the like in the present disclosure are realized by the processor executing the program recorded in the memory of the computer system. The program may be recorded in advance in a memory of a computer system, may be provided through a telecommunication line, or recorded in a non-transitory recording medium such as a memory card, an optical disk, or a hard disk drive that can be read by the computer system. May be provided. A processor of a computer system includes one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). The plurality of electronic circuits may be integrated on one chip, or may be distributed on the plurality of chips. The plurality of chips may be integrated into one device, or may be distributed and provided in a plurality of devices.

(Summary)
As described above, the display system (1) according to the first aspect includes the acquisition unit (communication unit) (11) and the processing unit (12). The acquisition unit (11) acquires state information representing the communication state of the communication terminal (2) by communicating with the stationary communication terminal (2). The processing unit (12) associates the position information indicating the position of the communication terminal (2) and the state information acquired by the acquisition unit (11) with the map information including the area where the communication terminal (2) is installed. Display on the display unit (41).

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  In the display system (1) according to the second aspect, in the first aspect, the communication terminal (2) has a function of communicating with another communication terminal (2) by power line carrier communication.

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  In the display system (1) according to the third aspect, in the first or second aspect, the position information includes information indicating the height at which the communication terminal (2) is located with respect to the reference position.

  According to this aspect, even when there are a plurality of communication terminals (2) in the same building, there is an advantage that the respective positions of the plurality of communication terminals (2) are easily distinguished and displayed on the display unit (41). is there.

  In the display system (1) according to the fourth aspect, in any one of the first to third aspects, the map information is a map (M2) represented by a two-dimensional coordinate system.

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  In the display system (1) according to the fifth aspect, in any one of the first to third aspects, the map information is a map (M1) represented by a three-dimensional coordinate system.

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  In the display system (1) according to the sixth aspect, in any one of the first to third aspects, the communication terminal (2) has a function of communicating with another communication terminal (2) by power line carrier communication. ing. The map information is an electrical system diagram (M3) representing the connection status of the communication terminal (2).

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  In the display system (1) according to the seventh aspect, in any one of the first to sixth aspects, the processing unit (12) changes the display mode on the display unit (41) according to the state information.

  According to this aspect, there is an advantage that the user can easily grasp the type of communication state of the communication terminal (2) only by looking at the display unit (41).

  The display system (1) according to the eighth aspect further includes a determination unit (14) in any one of the first to seventh aspects. The determination unit (14) determines the communication state of the communication terminal (2) based on the correlation between the position information and the state information.

  According to this aspect, there is an advantage that the user does not have to determine the communication state of the communication terminal (2), such as whether a communication failure has occurred.

  The display system (1) according to the ninth aspect further includes an adjustment unit (15) in the eighth aspect. The adjustment unit (15) adjusts the parameter of the communication terminal (2) to be determined by the determination unit (14) according to the determination result by the determination unit (14).

  According to this aspect, there is an advantage that it is possible to increase the possibility that the user does not have to perform recovery work from a communication failure.

  The display system (1) according to the tenth aspect further includes a display unit (41) for displaying map information in any of the first to ninth aspects.

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  The display method according to the eleventh aspect includes a first step and a second step. The first step is a step of acquiring state information representing the communication state of the communication terminal (2) by communicating with the stationary communication terminal (2). In the second step, the map information including the area where the communication terminal (2) is installed is associated with the position information indicating the position of the communication terminal (2) and the state information acquired in the first step, and the display unit ( 41) is a step of displaying.

  According to this aspect, there is an advantage that it is easy to grasp the communication state of the communication terminal (2).

  The configurations according to the second to tenth aspects are not essential to the display system (1) and can be omitted as appropriate.

1 Display system 11 Communication unit (acquisition unit)
12 processing unit 14 determination unit 15 adjustment unit 2 communication terminal 41 display unit M1, M2 map M3 electrical system diagram

Claims (11)

An acquisition unit that acquires state information indicating a communication state of the communication terminal by communicating with a stationary communication terminal;
A map unit including an area where the communication terminal is installed, and a processing unit that associates position information indicating the position of the communication terminal with the state information acquired by the acquisition unit and displays the information on the display unit. ,
Display system. The communication terminal has a function of communicating with other communication terminals by power line carrier communication.
The display system according to claim 1. The position information includes information indicating a height at which the communication terminal is positioned with respect to a reference position.
The display system according to claim 1 or 2. The map information is a map expressed in a two-dimensional coordinate system.
The display system of any one of Claims 1-3. The map information is a map represented in a three-dimensional coordinate system.
The display system of any one of Claims 1-3. The communication terminal has a function of communicating with other communication terminals by power line carrier communication,
The map information is an electrical system diagram showing a connection status of the communication terminal,
The display system of any one of Claims 1-3. The processing unit changes a display mode on the display unit according to the state information.
The display system of any one of Claims 1-6. A determination unit for determining a communication state of the communication terminal based on a correlation between the position information and the state information;
The display system of any one of Claims 1-7. An adjustment unit that adjusts parameters of a communication terminal to be determined by the determination unit according to a determination result in the determination unit;
The display system according to claim 8. A display unit for displaying the map information;
The display system of any one of Claims 1-9. A first step of acquiring state information representing a communication state of the communication terminal by communicating with a stationary communication terminal;
A second step of displaying on the display unit the map information including the area where the communication terminal is installed, the position information indicating the position of the communication terminal and the state information acquired in the first step in association with each other; Having
Display method.

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