JP2017204733A - Information notification device, notification control device, information transmission device, information notification system, notification control system, information notification method, notification control method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information notification device capable of notifying a user of state changes of other devices even when the user does not carry a portable terminal.SOLUTION: An information notification device 200 comprises a state notification information receiving unit 41, an output unit 62, an output unit control table storing unit 51, and an output unit control information generating unit 43. The state notification information receiving unit 41 receives state notification information for notifying a user of the states of other devices transmitted from the other devices. The output unit 62 outputs a state notification signal for notifying the user of the states of the other devices on the basis of the state notification information. The output unit control table storing unit 51 stores the output unit control table for associating the state notification information with control contents of the output unit for outputting the state notification signal. The output unit control information generating unit 43 generates output unit control information for controlling the output unit 62 by acquiring the control contents of the output unit 62 corresponding to the state notification information received by the state notification information receiving unit 41 by referencing the output control table.SELECTED DRAWING: Figure 6

Description

  The present invention relates to an information notification device, a notification control device, an information transmission device, an information notification system, a notification control system, an information notification method, a notification control method, and a program.

  In recent years, interest in the energy problem has been increasing worldwide, and EMS (Energy Management System) has been proposed as one of solutions to the energy problem. EMS is a system for managing and effectively using energy by visualizing power consumption, controlling equipment for power saving, and controlling renewable energy such as solar power generation. EMS in the home is called HEMS (Home Energy Management System), and performs information management and visualization through information communication with home appliances such as air conditioners and refrigerators. And about this visualization, the system which notifies the state change information of various apparatuses in a house to the user's portable information terminal which needs the information like the apparatus information notification system of patent document 1 is proposed. .

JP 2002-186065 A

  The system described in Patent Literature 1 notifies a user's mobile terminal of information on state changes of various devices. Accordingly, the user must always wear the portable terminal in order to receive notification of a change in the state of the device. However, it cannot be worn when the mobile terminal is charged, for example, and at this time, the user cannot receive notification of a change in the state of the device.

  The present invention has been made in view of the circumstances as described above, and an object thereof is to notify a user of a change in the state of an apparatus even when the user does not carry a mobile terminal.

  In order to achieve the above object, an information notification apparatus according to the present invention includes a state notification information receiving unit, an output unit, an output unit control table storage unit, and an output unit control information generation unit. The state notification information receiving unit receives state notification information for notifying the state of another device transmitted from another device. The output unit outputs a state notification signal that notifies the user of the state of another device based on the state notification information. The output unit control table storage unit stores an output unit control table in which state notification information is associated with control contents of the output unit for outputting a state notification signal. The output unit control information generation unit controls the output unit by acquiring the control content of the output unit corresponding to the status notification information received by the status notification information receiving unit with reference to the output unit control table. Generate information. The output unit outputs a state notification signal according to the output unit control information generated by the output unit control information generation unit.

  According to the present invention, when the status notification information is transmitted from another device, the information notification device outputs according to the control content of the output unit set in the output unit control table, so that the user carries the mobile terminal. Even if not, it is possible to notify the user of the state change of the other device.

It is a figure which shows the system configuration example of the information notification system which concerns on Embodiment 1 of this invention. 3 is a functional block diagram of the information transmission apparatus according to Embodiment 1. FIG. (A) It is a figure which shows the example of data memorize | stored in the state memory | storage part of the air conditioner which is the information transmitter which concerns on Embodiment 1. FIG. (B) It is a figure which shows the example of data memorize | stored in the state memory | storage part of the washing machine which is the information transmitter which concerns on Embodiment 1. FIG. (C) It is a figure which shows the example of data memorize | stored in the state memory | storage part of the refrigerator which is the information transmitter which concerns on Embodiment 1. FIG. (D) It is a figure which shows the example of data memorize | stored in the state memory | storage part of the microwave oven which is the information transmitter which concerns on Embodiment 1. FIG. (A) It is a figure which shows the example of data memorize | stored in the operation content memory | storage part of the air conditioner which is the information transmitter which concerns on Embodiment 1. FIG. (B) It is a figure which shows the example of data memorize | stored in the operation content memory | storage part of the washing machine which is the information transmitter which concerns on Embodiment 1. FIG. (C) It is a figure which shows the example of data memorize | stored in the operation content memory | storage part of the refrigerator which is the information transmitter which concerns on Embodiment 1. FIG. (D) It is a figure which shows the example of data memorize | stored in the operation content memory | storage part of the microwave oven which is the information transmitter which concerns on Embodiment 1. FIG. (A) It is a figure which shows an example of the status notification information of the air conditioner which is the information transmitter which concerns on Embodiment 1. FIG. (B) It is a figure which shows another example of the status notification information of the air conditioner which is the information transmitter which concerns on Embodiment 1. FIG. (C) It is a figure which shows an example of the state notification information of the washing machine which is the information transmitter which concerns on Embodiment 1. FIG. (D) It is a figure which shows another example of the state notification information of the washing machine which is the information transmitter which concerns on Embodiment 1. FIG. (E) It is a figure which shows an example of the status notification information at the time of the error generation of the air conditioner which is the information transmitter which concerns on Embodiment 1. FIG. 3 is a functional block diagram of the information notification apparatus according to Embodiment 1. FIG. It is a figure which shows an example of the output part control table of the refrigerator which is the information notification apparatus which concerns on Embodiment 1. FIG. (A) It is a figure which shows an example of the output part control information of the refrigerator which is the information notification apparatus which concerns on Embodiment 1. FIG. (B) It is a figure which shows another example of the output part control information of the refrigerator which is the information notification apparatus which concerns on Embodiment 1. FIG. 6 is a flowchart of status notification information transmission processing of the information transmission apparatus according to the first embodiment. 5 is a flowchart of status notification information reception processing of the information notification device according to the first embodiment. (A) In the information notification system which concerns on Embodiment 1, it is a figure which shows the system configuration example in case there exist multiple information notification apparatuses. (B) In the information notification system concerning Embodiment 1, it is a figure which shows the system configuration example in case there exist multiple information transmission apparatuses and information notification apparatuses. It is a figure which shows the system configuration example of an information notification system in case an information transmission / notification apparatus functions as a repeater. It is a figure which shows the system configuration example of the information notification system which concerns on the modification of Embodiment 1 of this invention. 6 is a functional block diagram of an information transmitting apparatus according to a modification of the first embodiment. FIG. 6 is a diagram illustrating an example of state notification information according to a modification of the first embodiment. FIG. 10 is a flowchart of status notification information reception processing of the information notification device according to the modification of the first embodiment. It is a figure which shows the system configuration example of the information notification system which concerns on the 2nd modification of Embodiment 1 of this invention. 6 is a functional block diagram of an information transmitting apparatus according to a second modification of the first embodiment. FIG. FIG. 11 is a diagram illustrating an example of data stored in a detection device information storage unit of an information transmission device according to a second modification of the first embodiment. It is a figure which shows the system configuration example of the information notification system which concerns on Embodiment 2 of this invention. 6 is a functional block diagram of an information notification device according to Embodiment 2. FIG. It is a figure which shows an example of the output part control table of the refrigerator which is the information notification apparatus which concerns on Embodiment 2. FIG. 10 is a flowchart of status notification information reception processing of the information notification device according to the second embodiment. It is a figure which shows the system configuration example of the information notification system which concerns on the 2nd modification of Embodiment 2 of this invention. FIG. 10 is a functional block diagram of an information notification device according to a second modification of the second embodiment. It is a figure which shows the system configuration example of the information notification system which concerns on Embodiment 3 of this invention. 10 is a functional block diagram of an information notification apparatus according to Embodiment 3. FIG. 10 is a functional block diagram of a notification control apparatus according to Embodiment 3. FIG. (A) It is a figure which shows an example of the output part control table in case the information notification apparatus which the notification control apparatus which concerns on Embodiment 3 memorize | stores is an air conditioner. (B) It is a figure which shows an example of the output part control table in case the information notification apparatus which the notification control apparatus which concerns on Embodiment 3 memorize | stores is a washing machine. (C) It is a figure which shows an example of the output part control table in case the information notification apparatus which the notification control apparatus which concerns on Embodiment 3 memorize | stores is a mobile telephone. It is a figure which shows an example of the data memorize | stored in the information notification apparatus information storage part of the notification control apparatus which concerns on Embodiment 3. FIG. 14 is a flowchart of status notification information reception processing of the notification control apparatus according to the third embodiment. (A) It is a figure which shows an example of the output part control information which the notification control apparatus which concerns on Embodiment 3 transmits to an air conditioner. (B) It is a figure which shows an example of the output part control information which the notification control apparatus which concerns on Embodiment 3 transmits to a refrigerator. (C) It is a figure which shows an example of the output part control information which the notification control apparatus which concerns on Embodiment 3 transmits to a washing machine. (D) It is a figure which shows an example of the output part control information which the notification control apparatus which concerns on Embodiment 3 transmits to a mobile telephone. 10 is a flowchart of output unit control information reception processing of the information notification device according to the third embodiment. It is a figure which shows the system configuration example of the notification control system which concerns on the modification of Embodiment 3 of this invention. FIG. 10 is a functional block diagram of an information notification device according to a modification of the third embodiment. FIG. 10 is a functional block diagram of a notification control apparatus according to a modification of the third embodiment. (A) It is a figure which shows an example of the control content table in case the information notification apparatus which the notification control apparatus which concerns on the modification of Embodiment 3 memorize | stores is an air conditioner. (B) It is a figure which shows an example of the control content table in case the information notification apparatus which the notification control apparatus which concerns on the modification of Embodiment 3 memorize | stores is an illuminating device. (C) It is a figure which shows an example of the control content table in case the information notification apparatus which the notification control apparatus which concerns on the modification of Embodiment 3 memorize | stores is a television. 12 is a flowchart of control information transmission processing of a notification control apparatus according to a modification of the third embodiment. 10 is a flowchart of control information reception processing of an information notification device according to a modification of the third embodiment. It is a figure which shows the hardware structural examples, such as the information notification apparatus which concerns on this invention.

  Hereinafter, an information transmission device, an information notification device, a notification control device, an information notification system, a notification control system, an information notification method, a notification control method, and a program according to embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol is attached | subjected to the part which is the same or it corresponds in a figure.

(Embodiment 1)
The information notification system 1000 according to Embodiment 1 of the present invention includes an information transmission device 100 and an information notification device 200 as shown in FIG. The information transmission device 100 and the information notification device 200 are connected via the network 9.

  The information transmission device 100 is a device that is a notification source that transmits the status of the device. Various home appliances such as an air conditioner and a washing machine can be the information transmitting apparatus 100. The information notification device 200 is a device that is a notification destination that notifies the user of the state of the information transmission device 100. Various home appliances can also be the information notification device 200 here. The network 9 uses a wireless network such as Wi-Fi (registered trademark), Bluetooth (registered trademark), or ZigBee (registered trademark) even if a wired network using Ethernet (registered trademark) or EIA-485 is used. Any network can be used.

  As illustrated in FIG. 2, the information transmission device 100 includes a control unit 10, a storage unit 20, an input unit 31, and a communication unit 32 as functional configurations.

  The control unit 10 includes a CPU (Central Processing Unit), and by executing a program stored in the storage unit 20, each unit (the operation content acquisition unit 11, the state change detection unit 12, the operation state determination) of the information transmission device 100 is executed. The functions of the unit 13, the status notification information generation unit 14, the status notification information transmission unit 15, and the main function control unit 16) are realized. Further, the control unit 10 has a multi-thread function, and can execute a plurality of processing flows in parallel.

  The operation content acquisition unit 11 acquires the operation content input by the user to the information transmission apparatus 100 via the input unit 31 described later.

  The state change detection unit 12 acquires the state of the information transmission device 100 and detects a state change. Here, the state includes an operation state, an internal state, and an external state. The operation state is, for example, operation ON / OFF of the apparatus. The internal state is, for example, an operation mode or a set temperature. The external state is, for example, temperature or humidity.

  The operation state determination unit 13 determines whether there is a contradiction between the operation content acquired by the operation content acquisition unit 11 and the state change detected by the state change detection unit 12. That is, it is determined whether the state of the information transmission device 100 has changed according to the operation content input by the user to the information transmission device 100.

  The state notification information generation unit 14 generates state notification information for notifying the state of the information transmission device 100 from the operation content acquired by the operation content acquisition unit 11 and the state change detected by the state change detection unit 12.

  The status notification information transmission unit 15 transmits the status notification information generated by the status notification information generation unit 14 to the information notification device 200 via the communication unit 32 described later. When transmitting to the information notification apparatus 200, it may be broadcast without specifying a destination. Further, the information notification apparatus 200 may be a system that periodically broadcasts its own address. In this case, the information transmission apparatus 100 receives the address of the information notification apparatus 200 that is broadcast regularly, and the information transmission apparatus 100 transmits the state notification information to the received address of the information notification apparatus 200. .

  The main function control unit 16 operates the main function of the information transmission apparatus 100. Since the information transmitting apparatus 100 is usually various home appliances such as an air conditioner and a washing machine, the information transmitting apparatus 100 has main functions of an air conditioner for an air conditioner and a washing function for a washing machine. The main function control unit 16 operates this main function.

  The storage unit 20 includes a ROM (Read Only Memory), a RAM (Random Access Memory), and the like as hardware. The ROM stores programs executed by the CPU of the control unit 10 and data necessary for executing the programs in advance. The RAM stores data that is created or changed during program execution. Functionally, the storage unit 20 includes a state storage unit 21, an operation content storage unit 22, and a state notification information storage unit 23.

  The state storage unit 21 stores the state of the information transmission apparatus 100 as shown in FIG. The state to be stored varies depending on the main function of the information transmitting apparatus 100. For example, when the information transmitting apparatus 100 is an air conditioner, as shown in FIG. 3A, ON / OFF of operation, operation mode, set temperature, temperature, and humidity are stored in the state storage unit 21. In FIG. 3, “Setting” is “1”, indicating that the “status” is settable by the user. The “setting” is “0” in a “state” that cannot be set by the user. FIG. 3A shows that the operation of the air conditioner that is the information transmitting apparatus 100 is “ON”, the operation mode is “heating”, the set temperature is “20 ° C.”, the current temperature is “16 ° C.”, and the humidity is “50%”. ".

  FIG. 3B shows the storage contents of the state storage unit 21 when the information transmission device 100 is a washing machine. FIG. 3B shows that the operation mode is “washing”, the washing machine operation is “ON”, and the “remaining time” is “50 minutes”, that is, the laundry is scheduled to end in 50 minutes. Yes.

  FIG.3 (c) is the memory content of the state memory | storage part 21 in case the information transmitter 100 is a refrigerator. FIG. 3C shows that the operation mode of the refrigerator is set to “medium”, the refrigerator internal temperature is “3 ° C.”, and the freezer internal temperature is “−18 ° C.”. .

  FIG. 3D shows the stored contents of the state storage unit 21 when the information transmitting apparatus 100 is a microwave oven. FIG. 3D shows that the operation mode is “warming”, the operation of the microwave oven is “ON”, and the “remaining time” is “30 seconds”, that is, the heating is scheduled to end in 30 seconds. It shows that there is.

  As a special state not shown in FIG. 3, the state storage unit 21 also stores an “error state”. The “error state” has no value in a normal state where no error has occurred, but when an error occurs, it becomes a value indicating the error that has occurred. For example, when it is detected that the air conditioner is not operating as set by the user, the “error state” in the state storage unit 21 of the air conditioner becomes a value indicating that, for example, “does not operate as input”. When the refrigerator door is left open, the “error state” in the refrigerator state storage unit 21 is a value indicating that the door is open, for example, “the door is open”.

  The operation content storage unit 22 stores the operation content input by the user as shown in FIG. The operation content for setting the “status” that can be set by the user whose “setting” is “1” in the status storage unit 21 shown in FIG. 3 is stored in the operation content storage unit 22. For example, when the information transmitting apparatus 100 is an air conditioner, as shown in FIG. 4A, the operation ON / OFF, the operation mode, and the set temperature are stored in the operation content storage unit 22. FIG. 4A shows that the user has performed an operation of turning on the air conditioner that is the information transmitting apparatus 100, setting the operation mode to “heating”, and setting the set temperature to “20 ° C.”. Yes.

  FIG. 4B shows the storage content of the operation content storage unit 22 when the information transmission device 100 is a washing machine. FIG. 4B shows that the user has made an operation of setting the operation mode to “washing” and turning the operation of the washing machine to “ON”. Moreover, FIG.4 (c) is the memory content of the operation content memory | storage part 22 in case the information transmitter 100 is a refrigerator. FIG. 4C shows that the user has performed an operation of setting the operation mode of the refrigerator to “medium”. FIG. 4D shows the storage content of the operation content storage unit 22 when the information transmitting apparatus 100 is a microwave oven. FIG. 4D shows that the user has performed an operation of setting the operation mode to “warming” and setting the operation of the microwave oven to “ON”.

  As shown in FIG. 5, the state notification information storage unit 23 stores the state notification information generated by the state notification information generation unit 14. For example, when an operation is performed on the air conditioner that is the information transmission apparatus 100 to set the operation to “ON”, the operation mode to “heating”, and the set temperature to “20 ° C.”, the temperature at that time is 16 If the temperature is 50 ° C. and the humidity is 50%, the status notification information shown in FIG. 5A is generated and stored in the status notification information storage unit 23. Thereafter, when the temperature changes to 17 ° C. and the humidity changes to 45%, the state notification information shown in FIG. 5B is generated and stored in the state notification information storage unit 23.

  In addition, when an operation for setting the operation mode to “washing” and setting the operation of the washing machine to “ON” is performed on the washing machine which is the information transmission apparatus 100, the washing machine still has the remaining time at that time. If it cannot be calculated, the status notification information shown in FIG. 5C is generated and stored in the status notification information storage unit 23. Thereafter, when the washing is finished and the driving is automatically turned off, the state notification information shown in FIG. 5D is generated and stored in the state notification information storage unit 23.

  An example of status notification information when an error has occurred is shown in FIG. For example, if the user performs an operation to turn on the air conditioner that is the information transmitting apparatus 100 but the state change detection unit 12 detects that the operation remains off, the state storage unit 21 of the air conditioner As the “error state”, the value “does not operate as input” is stored. Then, the state notification information illustrated in FIG. 5E is generated and stored in the state notification information storage unit 23.

  The input unit 31 is an input device for the information transmitting apparatus 100 to accept an operation input from a user. For example, a push button switch, a slide switch, a touch panel, a remote controller, and the like. When the user inputs an operation to the information transmitting apparatus 100 via the input unit 31, the main function control unit 16 operates the main function of the information transmitting apparatus 100.

  The communication unit 32 is a communication device for transmitting the state notification information generated by the state notification information generation unit 14 to the information notification device 200. Any communication device can be used as long as the destination information notification device 200 can receive the state notification information. The communication interface is not limited, and a wired communication interface such as Ethernet (registered trademark) may be used, or wireless such as Wi-Fi (registered trademark), Bluetooth (registered trademark), or ZigBee (registered trademark). An interface may be used.

  Next, the information notification apparatus 200 will be described. As illustrated in FIG. 6, the information notification device 200 includes a control unit 40, a storage unit 50, a communication unit 61, an output unit 62, and an input unit 63 as functional configurations.

  The control unit 40 includes a CPU (Central Processing Unit) and executes a program stored in the storage unit 50, thereby controlling each unit (state notification information receiving unit 41, device determination unit 42, output unit control) of the information notification device 200. The functions of the information generator 43 and the main function controller 44) are realized.

  The status notification information receiving unit 41 receives status notification information transmitted from the information transmitting apparatus 100 via the communication unit 61 described later. The transmission of the status notification information from the information transmission device 100 may be transmitted by broadcast, or may be transmitted to the address of the information notification device 200. Regardless of which is transmitted, the status notification information receiving unit 41 can receive the information.

  It is also possible to limit the information transmission apparatuses 100 that are the reception targets of the state notification information without receiving the state notification information from all the information transmission apparatuses 100. For this purpose, the storage unit 50 described later includes a reception information transmission device storage unit (not shown), and stores the information transmission device 100 that is the reception target of the state notification information. Then, the status notification information receiving unit 41 receives only the status notification information from the information transmitting device 100 stored in the received information transmitting device storage unit, and from the information transmitting device 100 not stored in the received information transmitting device storage unit. The state notification information may be ignored. The information transmission device 100 to be stored in the reception information transmission device storage unit may be set by an input unit 63 described later.

  The device determination unit 42 determines the type of device of the information transmission device 100 that has transmitted the state notification information received by the state notification information reception unit 41. As shown in FIG. 5, the status notification information includes device name information, so that the type of device can be determined based on this information.

  The output unit control information generation unit 43 refers to an output unit control table stored in the output unit control table storage unit 51 described later, and outputs output described later based on the state notification information received by the state notification information reception unit 41. Output unit control information for controlling the unit 62 is generated.

  The main function control unit 44 operates the main function of the information notification device 200. The information notification device 200 is usually a variety of home appliances such as an air conditioner and a washing machine, like the information transmission device 100, and thus has the main functions of an air conditioner function for an air conditioner and a washing function for a washing machine. The main function control unit 44 operates this main function.

  The storage unit 50 includes a ROM (Read Only Memory), a RAM (Random Access Memory), and the like as hardware, similar to the storage unit 20 described above. The storage unit 50 functionally includes an output unit control table storage unit 51 and an output unit control information storage unit 52.

  As illustrated in FIG. 7, the output unit control table storage unit 51 includes an output unit control table in which state notification information transmitted from the information transmission device 100 and control contents of the output unit 62 included in the information notification device 200 are associated with each other. Remember. The output unit control table is a table in which the control content of the output unit 62 is set for each status notification information, which device of the output unit 62 is used to notify the user of the status. FIG. 7 is an example of an output unit control table when the information notification device 200 is a refrigerator including a speaker, LED (Light Emitting Diode) 1, LED 2, and a segment display as the output unit 62. In this example, when the information transmission device 100 is an air conditioner, when the state notification information “not operating as input” is received as “error information”, “the air conditioner may be broken” is heard in the voice of the refrigerator speaker. When the status notification information “ON / OFF” of the operation is received, ON / OFF of the operation is notified by turning on / off the light of the LED 1 of the refrigerator, and when the status notification information of the “operation mode” is received, the LED 2 of the refrigerator Notify the operation mode with the color of light, display the set temperature on the segment display of the refrigerator when you receive the status notification information of `` set temperature '', about the status notification information of `` air temperature '' and `` humidity '' Indicates that nothing is notified.

  In the example of the output unit control table shown in FIG. 7, when the information transmitting apparatus 100 is a washing machine, when the state notification information “driving ON / OFF = OFF” is received, “washing is finished” is displayed on the speaker. This indicates that no notification is made even if other status notification information is received. This is because when the washing is finished, the driving is automatically stopped, and the state notification information “driving ON / OFF = OFF” is transmitted. In addition, when the information transmitting apparatus 100 is a microwave oven, when the state notification information “Operation ON / OFF = OFF” is received, the speaker notifies that “cooking of the microwave oven has been completed” and other state notification information. It indicates that nothing is notified even if received. This is because when the cooking in the microwave oven such as “warming” or “thawing” is completed, the operation is automatically stopped and the state notification information “operation ON / OFF = OFF” is transmitted.

  Referring to the leftmost item “information transmitting device” in FIG. 7, the information transmitting device 100 that is the reception target of the information notifying device 200 storing the output unit control table shown in FIG. And a microwave oven is included. As described above, the information notification device 200 stores the control contents of the output unit 62 corresponding to the various state notification information of the information transmission device 100 to be received as the output unit control table in the output unit control table storage unit 51 in advance. doing. However, since the user may want to change the control contents of the output unit 62 according to his / her preference, the user may be able to change the output unit control table. The contents of the output unit control table may be changed by the user via the communication unit 61 or the input unit 63 described later.

  When the devices provided in the output unit 62 are limited, the same device must be assigned to different status notification information. When such contention of the control content of the output unit 62 occurs, “sequential output”, “repetitive output in order by time division” or “priority order” is set according to the control content, and a high priority state "Output notification information". For example, when all competing control contents are “output audio data from the speaker of the output unit 62”, a plurality of audio data may be output sequentially. When all of the competing control contents are “light emission designating the LED color”, the LED color may be changed in order in a time-sharing manner. Also, “priority order” information may also be set in the output unit control table, and if the contents of control conflict, only the status notification information with a higher priority may be notified.

  As illustrated in FIG. 8, the output unit control information storage unit 52 stores the output unit control information generated by the output unit control information generation unit 43. In the example shown in FIG. 8A, the information notification device 200 is a refrigerator, and the output control information includes “lighting LED 1 of the refrigerator” “lighting LED 2 of the refrigerator in orange” “20” on the segment display of the refrigerator. This is an example in the case of including three control contents of “display”. In the example shown in FIG. 8B, the information notification device 200 is a refrigerator, and the output unit control information is notified by a speaker that “LED 1 of the refrigerator is turned off” “There is a possibility that the air conditioner is broken”. This is an example in the case of including two control contents.

  The communication unit 61 is a communication device for receiving state notification information transmitted from the communication unit 32 of the information transmission apparatus 100. Any communication device can be used as long as it can receive the state notification information transmitted by the information transmission apparatus 100 of the transmission source. The communication interface is not limited, and a wired communication interface such as Ethernet (registered trademark) may be used, or wireless such as Wi-Fi (registered trademark), Bluetooth (registered trademark), or ZigBee (registered trademark). An interface may be used.

  The output unit 62 is an output device that outputs a state notification signal for notifying the user of the state of the information transmission apparatus 100. As the status notification signal, any signal output from the device provided in the output unit 62, such as light, sound, voice, vibration, text, and video, can be used. LED for notification by light, speaker for notification by sound or voice, vibrator for notification by vibration, segment display for notification by character, liquid crystal display for notification by character or video, or organic EL (Electro -Luminescence) A display or the like is provided. The output unit 62 may include only some or all of these devices.

  The input unit 63 is an input device for the information notification apparatus 200 to accept an operation input from a user. For example, a push button switch, a slide switch, a touch panel, a remote controller, and the like. When the user inputs an operation to the information notification device 200 via the input unit 63, the main function control unit 44 operates the main function of the information notification device 200.

  This is the end of the description of the functional configuration. Next, each process of the information transmitting apparatus 100 and the information notifying apparatus 200 for notifying the user of the information on the state change of the information transmitting apparatus 100 will be described. First, a state notification information transmission process in which the information transmission apparatus 100 according to Embodiment 1 transmits state change information to the information notification apparatus 200 will be described with reference to FIG. The status notification information transmission process is started when the information transmission apparatus 100 is turned on, and is executed in parallel with a thread separate from the main function process of the information transmission apparatus 100.

  First, the operation content acquisition unit 11 determines whether there is an operation input from the user via the input unit 31 (step S101). If there is an operation input (step S101; Yes), the operation content acquisition unit 11 acquires the content of the operation input and stores it in the operation content storage unit 22 (step S102). Then, the main function control unit 16 starts executing the main function process (step S103). The main function process is executed in parallel with the state notification information transmission process by the multi-thread function of the control unit 10. And the state change detection part 12 acquires the state of the information transmitter 100, and memorize | stores it in the state memory | storage part 21 (step S104).

  Next, the operation state determination unit 13 determines whether there is a contradiction between the operation content acquired by the operation content acquisition unit 11 and the state change detected by the state change detection unit 12. That is, it is determined whether the “state” changed by the user's operation among the “states” stored in the state storage unit 21 matches the “operation contents” stored in the operation content storage unit 22. (Step S105). If they match (step S105; Yes), the process proceeds to step S107. The determination by the operation state determination unit 13 in step S105 is, for example, each “state” in which “setting” is “1” in the state storage unit 21 illustrated in FIG. 3A and the operation content illustrated in FIG. It is determined whether the “operation contents” in the storage unit 22 match. In this example, since the “status” in FIG. 3A matches the “operation content” in FIG. 4A, the process proceeds to step S107.

  Of the “states” stored in the state storage unit 21, the “states” that are changed by the user's operation do not match the “operation contents” stored in the operation content storage unit 22 (step S 105; No) Since the operation is not performed according to the user's operation content, the control unit 10 stores “not operating as input” as the “error state” in the state storage unit 21 (step S106).

  Next, the state notification information generation unit 14 generates state notification information based on the “state” stored in the state storage unit 21, and stores the state notification information in the state notification information storage unit 23 (step S107). For example, as shown in FIG. 5A, the state notification information generated here includes all the “states” including the error state stored in the state storage unit 21 at that time, regardless of whether there is a state change. Information.

  Next, the status notification information transmission unit 15 transmits the status notification information stored in the status notification information storage unit 23 to the information notification device 200 via the communication unit 32 (step S108). And the control part 10 determines whether the power OFF of the information transmitter 100 was instruct | indicated (step S109). If power-off is instructed (step S109; Yes), the process ends. If power-off is not instructed (step S109; No), the process returns to step S101.

  If it is determined in step S101 that there is no operation input (step S101; No), the state change detection unit 12 acquires the state of the information transmitting apparatus 100 (step S110). Then, the state change detection unit 12 compares the acquired “state” with the “state” stored in the state storage unit 21, and determines whether there is a state change (step S111). If there is no state change (step S111; No), the process returns to step S101.

  If there is a state change (step S111; Yes), the state change detection unit 12 stores the changed “state” in the state storage unit 21, and the state notification information generation unit 14 generates state notification information to notify the state. It memorize | stores in the information storage part 23 (step S112). The state notification information generated here includes only the “state” in which the state has changed, as shown in FIG. 5B, for example. Then, the process proceeds to step S108.

  The state notification information is transmitted to the information notification device 200 when the state of the information transmission device 100 is changed by the above processing or when an operation input is performed by the user. And if not operating according to the user's operation, status notification information including error information indicating that is transmitted to the information notification device 200.

  Next, FIG. 10 illustrates a state notification information reception process in which the information notification apparatus 200 that is the transmission destination of the state notification information receives the state notification information and notifies the user of a state change of the information transmission apparatus 100. The description will be given with reference. The status notification information reception process is started when the information notification device 200 receives the status notification information, and is executed in parallel with a thread different from the main function processing of the information notification device 200.

  First, the status notification information receiving unit 41 receives status notification information via the communication unit 61 (step S201). Next, the device determination unit 42 determines the type of the device that has transmitted the state notification information based on the device name information included in the state notification information (step S202). For example, when the status notification information shown in FIG. 5A is received, the type of the device is determined as “air conditioner”. Next, the output unit control information generation unit 43 generates output unit control information from the state notification information and the output unit control table stored in the output unit control table storage unit 51, and stores the output unit control information in the output unit control information storage unit 52. Store (step S203).

  Next, the control unit 40 determines whether or not the output unit control information generated in step S203 exists in the output unit control information storage unit 52 (step S204). If the output unit control information exists in the output unit control information storage unit 52 (step S204; Yes), the control unit 40 controls the output unit 62 based on the output unit control information (step S205), and ends. If there is no output unit control information (step S204; No), the process ends without outputting anything.

  Through the above processing, the information notification device 200 can issue a notification to the user based on the content of the state notification information transmitted from the information transmission device 100. Therefore, even when the user is not near the information transmission apparatus 100 that the user has operated, a notification about the state of the information transmission apparatus 100 can be received from the information notification apparatus 200.

  Here, a supplementary explanation will be given of generation of output unit control information in step S203. For example, it is assumed that the output unit control table stored in the output unit control table storage unit 51 has the contents shown in FIG. In this case, when the state notification information shown in FIG. 5A is received, the information transmission apparatus 100 is “air conditioner”, “operation ON / OFF” is “ON”, “operation mode” is “heating”, “set temperature” “Is 20 ° C.”, “temperature” is “16 ° C.”, and “humidity” is “50%”. Then, the output unit control information shown in FIG. 8A is generated from the state notification information shown in FIG. 5A and the output unit control table shown in FIG. 7, and stored in the output unit control information storage unit 52. The Then, the control unit 40 controls the output unit 62 based on the output unit control information, so that the user can be notified.

  In addition, when the temperature changes during the operation of the air conditioner, for example, the status notification information illustrated in FIG. 5B is transmitted, but in FIG. 7, “not notify” is given to the temperature notification and humidity status notification information of the air conditioner. It has become. Therefore, in this case, output unit control information is not generated, and nothing is stored in the output unit control information storage unit 52. If it does so, determination of step S204 of FIG. 10 will be No, and nothing will be notified to a user. This is because it is troublesome to receive a notification only when the temperature changes. For example, if the change in temperature is to be notified by displaying it on the liquid crystal display of the refrigerator, the “control content” of “air conditioner” and “temperature” in the output unit control table shown in FIG. Change to “display temperature on LCD”.

  Further, as an example where an error occurs, for example, a case will be described in which the air conditioner is not turned ON but is kept OFF even though the air conditioner is set to ON. In this case, the status notification information shown in FIG. 5E is transmitted from the air conditioner. When the information notification device 200 receives the state notification information, output unit control information shown in FIG. 8B is generated and stored in the output unit control information storage unit 52. Then, the control unit 40 controls the output unit 62 based on the output unit control information, so that the user can be notified that an error has occurred.

  Note that the information notification system 1000 described above has been described in the case of one information transmission apparatus 100 and one information notification apparatus 200. However, from the example shown in FIG. 7, as can be seen from the fact that the information transmission apparatus 100 is an air conditioner, the washing machine, and the control contents in the case of a microwave oven, the information notification apparatus 200 is It is also possible to cope with a case where there are a plurality of information transmitting apparatuses 100.

  However, in the example shown in FIG. 7, since the control content is set for each type of device of the information transmitting apparatus, for example, when there are a plurality of air conditioners, it is not possible to distinguish which air conditioner is notified. Therefore, for a user having a plurality of air conditioners, only the type of device is used as the “device name” in the status notification information shown in FIG. 5 or the “information transmitting device” information in the output unit control table shown in FIG. Alternatively, the device ID may be settable. And, for example, when the “air conditioner 1” is “running ON”, the output unit control table is different from “LED1 is turned on”, and when the “air conditioner 2” is “running ON”, “LED3 is turned on”. If it is set to, it is possible to determine whether the air conditioner that is ON is the air conditioner 1 or the air conditioner 2.

  Further, as shown in FIG. 11A, a plurality of information notification devices 200 can exist. In this case, the information transmission apparatus 100 normally transmits to all the information notification apparatuses 200A, 200B, and 200C by broadcast. Further, when the addresses of the information notification devices 200A, 200B, and 200C are transmitted from each of the information notification devices 200A, 200B, and 200C by broadcast, the information transmission device 100 transmits the information notification devices 200A, 200B, and 200C. May be received, and status notification information may be transmitted to each address. By transmitting the information transmitting apparatus 100 to the plurality of information notification apparatuses 200A, 200B, and 200C, the user can receive notifications from the plurality of information notification apparatuses 200A, 200B, and 200C, and the user has an increased chance of receiving notifications. To do. FIG. 11A shows an example in which there are three information notification devices 200, but the number of information notification devices 200 is arbitrary.

  FIG. 11B shows an example in which a plurality of information transmission apparatuses 100 and information notification apparatuses 200 exist. Also in this case, each information transmission device 100A, 100B, 100C broadcasts its own status notification information, so that each information notification device 200A, 200B, 200C can notify the user of the status.

  In the example shown in FIGS. 11A and 11B, different control contents can be set in the output unit control table stored in the output unit control table storage unit 51 of each information notification device 200. . For example, the information notification apparatus 200 including the output unit control table illustrated in FIG. 7 is a refrigerator including a speaker, LED1, LED2, and a segment display as the output unit 62, but instead of not including a speaker. A refrigerator equipped with an LED or a liquid crystal display may be the information notification device 200. In this case, in the output unit control table shown in FIG. 7, the content notified by the speaker may be set to be notified using the LED or liquid crystal display provided in the refrigerator as the output unit 62.

  For example, in FIG. 11A, it is assumed that the information notification device 200A is a television with a speaker, the information notification device 200B is an air conditioner with an LED, and the information notification device 200C is a mobile phone with a liquid crystal display and a vibrator. The information transmitting apparatus 100 is a refrigerator, and it is assumed that an “error state” “door is open” is transmitted from the refrigerator. Then, depending on the setting of the output unit control table, for example, the TV of the information notification device 200A notifies the speaker that “the refrigerator door is open” by voice, and the air conditioner of the information notification device 200B notifies by flashing the LED. In addition, the mobile phone of the information notification device 200C vibrates the vibrator and can be notified by displaying “the refrigerator door is open” on the liquid crystal display.

  Therefore, as the number of information notification devices 200 increases, the variation of the output unit 62 increases, and the information that can be notified to the user also increases. Then, by setting the content of the output unit control table with the content that makes use of the characteristics of the output unit 62 included in each information notification device 200, each information notification device 200 notifies the user with the optimal control content of the output unit 62. can do.

  Further, the information transmission device 100 and the information notification device 200 may be included in the same device. For example, when the air conditioner and the refrigerator have both functions of the information transmission device 100 and the information notification device 200, respectively, the state of the air conditioner as the information transmission device 100 can be notified by the refrigerator as the information notification device 200. On the contrary, the state of the refrigerator as the information transmission device 100 can be notified by the air conditioner as the information notification device 200.

  As shown in FIG. 12, the information transmission / notification device 150 having both the information transmission device 100 and the information notification device 200 functions as a repeater in an environment where two or more information notification systems 1000 exist. be able to. When the information transmission / notification device 150 functions as a repeater, the state notification information transmitting unit 15 transmits the state notification information received by the state notification information receiving unit 41, thereby relaying the state notification information. When the distance between the two or more information notification systems 1000 is long and communication is not possible, the information transmission / notification device 150 functions as a bridge, and the range in which the user can obtain the device status can be widened. Even when the communication method (for example, frequency or communication protocol) is different between two or more information notification systems 1000, the information transmission / notification device 150 includes the communication unit 32 and the communication unit 61 corresponding to each communication method. By providing, the status notification information can be relayed between the information notification systems 1000 having different communication methods. Also in this case, the information transmission / notification device 150 functions as a bridge, and the range in which the user can obtain the state of the device can be widened.

  For example, in FIG. 12, the information transmission device 100A and the information notification device 200A included in the information notification system 1000A are on the first floor, and the information transmission device 100B and the information notification device 200B included in the information notification system 1000B are on the second floor. Is present. The information transmission / notification device 150 is assumed to be lighting existing on the staircase connecting the first floor and the second floor. In this case, since the information transmission / notification device 150 can perform communication between the information notification system on the first floor and the information notification system on the second floor, the first floor and the second floor are handled as one information notification system. be able to.

  In addition, the information transmission device 100 may be a device in a place where it is difficult to see, such as a ventilation fan or an outdoor lamp. The information notification apparatus 200 may be an AV device such as a television or audio. With such a combination, it is possible to notify the user of the state of the information transmission device 100 in a place that is difficult to see with the information notification device 200 that is frequently seen.

(Modification of Embodiment 1)
In the first embodiment described above, the information notification device 200 that has received the state notification information from the information transmission device 100 notifies the state regardless of the presence or absence of the user. However, for example, when the user is in the vicinity of the information transmission apparatus 100, the information transmission apparatus 100 itself can receive a state notification, so the information notification apparatus 200 does not need to notify the state. A modification of the first embodiment that can cope with such a case will be described.

  The configuration of the information notification system 1001 according to the modification of the first embodiment is the same as that of the first embodiment as shown in FIG. As illustrated in FIG. 14, the information transmission apparatus 101 according to the modification of the first embodiment has a configuration in which a detection unit 33 is added to the information transmission apparatus 100 according to the first embodiment. In the functional configuration of the information notification device 201 according to the modification of the first embodiment, the other device detection information determination unit (not shown) is added to the control unit 40 of the information notification device 200 according to the first embodiment shown in FIG. It has been added.

  The detection unit 33 of the information transmission apparatus 101 according to the modification of the first embodiment includes a human sensor that detects the presence or absence of a person. The human sensor is arbitrary as long as it is a device that can detect the presence or absence of a person, for example, an infrared sensor. As this human sensor, a sensor provided for operating the main function of the information transmitting apparatus 101 may be used. For example, you may use the infrared sensor provided in the air conditioner in order to control a wind direction and an air volume automatically, and the infrared sensor provided in the illuminating device in order to make illumination light when a user approaches. In this case, it is not necessary to mount a new part for adding the detection unit 33.

  The other device detection information determination unit of the information notification device 201 according to the modification of the first embodiment determines whether or not the detection information detected by the detection unit 33 of the information transmission device 101 indicates the absence of a person. That is, the presence / absence of a person near the information transmitting apparatus 101 is determined.

  The state notification information transmission process in which the information transmission apparatus 101 according to the modification of the first embodiment transmits state change information to the information notification apparatus 201 is the state notification information transmission of the information transmission apparatus 100 illustrated in FIG. The process is the same except that the process of generating state notification information in step S107 and step S112 is different.

  In step S107 and step S112, in addition to the processing described with reference to FIG. 9, as shown in FIG. 15, state notification information to which detection information that is a detection result in the detection unit 33 is added is generated. In FIG. 15, “detection information” is “1”, indicating that the detection unit 33 has detected a person when generating the state notification information in step S107 or step S112. If the detection unit 33 does not detect a person, the “detection information” is “0”.

  The status notification information reception process of the information notification apparatus 201 is a process in which detection information determination (step S303) is added to the status notification information reception process of the information notification apparatus 200, as shown in FIG. Processing other than step S303 is the same as the status notification information reception processing of the information notification device 200 shown in FIG.

  In step S303, the other device detection information determination unit determines whether or not “detection information” included in the state notification information is zero. If “detection information” is 0 (step S303; Yes), there is no user in the vicinity of the information transmission apparatus 101. Therefore, in order to notify the user of the state of the information transmission apparatus 101 by the information notification apparatus 201, the processes in and after step S304 are performed. Execute. If “detection information” is 1 (step S303; No), the process ends without doing anything. If the “detection information” is 1, the user is in the vicinity of the information transmission apparatus 101, so that the user can know the state of the information transmission apparatus 101 from the information transmission apparatus 101 itself. Therefore, it is not necessary for the information notification device 201 to notify the user of the state of the information transmission device 101.

  As described above, in the modification of the first embodiment, by detecting the user in the information transmission apparatus 101, the information notification apparatus 201 can notify only when necessary for the user.

  Further, as yet another example of the state notification information transmission process of the information transmission apparatus 101 described above, step S100 is added immediately before step S101 in which the control unit 10 determines the detection result of the presence of a person by the detection unit 33. Also good. In step S100, the process of step S100 is repeated while the detection unit 33 detects the presence of a person. If the detection unit 33 does not detect the presence of a person, the process proceeds to step S101. By performing such processing, it is possible to reduce the amount of processing for generating state notification information in the information transmitting apparatus 101, and it is also possible to reduce the amount of transmission data from the information transmitting apparatus 101 to the information notifying apparatus 201.

  In addition, if the detection part 33 with which the information transmission apparatus 101 is provided makes it possible to detect a moving object other than a person, and the detection result in the detection part 33 is also a notification target in the state notification information, other applications are possible. For example, if the information transmission device 101 is provided in a mailbox, the information notification device 201 can notify that a delivery has arrived at the mailbox. In addition, when the information transmission device 101 is provided in the pet shed, the information notification device 201 can notify that the pet has entered the shed. If the information transmission device 101 is provided in the garden, the information notification device 201 can notify that the drone has entered the garden. When used in such an application, the information transmission apparatus 101 may be an apparatus whose detection function by the detection unit 33 is a main function. In this case, the main function control unit 16 may be omitted.

(Second Modification of Embodiment 1)
The information transmission device 101 according to the modification of the first embodiment described above includes the detection unit 33. However, the detection unit 33 is not included in the information transmission device and is installed in the vicinity of the information transmission device as an independent device. You may comprise so that the presence or absence of the person of the vicinity of an information transmitter may be detected. The configuration of the information notification system 1002 according to the second modification of the first embodiment is as shown in FIG.
The information transmission apparatus 102, the information notification apparatus 202, and the detection apparatus 300 are provided. The information transmission device 102, the information notification device 202, and the detection device 300 are connected via the network 9.

  As shown in FIG. 18, the information transmitting apparatus 102 according to the second modification of the first embodiment has a detection apparatus information storage unit 24 added to the storage unit 20 of the information transmitting apparatus 100 according to the first embodiment. It is configured. Since the functional configuration of the information notification apparatus 202 according to the second modification of the first embodiment is the same as that of the information notification apparatus 201 according to the modification of the first embodiment, the diagram is omitted. Detection device 300 according to the second modification of the first embodiment includes at least a detection unit (not shown) and a communication unit (not shown). The detection unit and the communication unit related to the detection device 300 have the same functions as the detection unit 33 and the communication unit 32 included in the information transmission device 101, respectively. The detection device 300 has the presence of a person detected by the detection unit (not shown). The failure detection information is transmitted to the information transmitting apparatus 102 via a communication unit (not shown).

  The communication unit 32 of the information transmitting apparatus 102 according to the second modification of the first embodiment not only transmits the state notification information, but also receives the presence / absence detection information detected by the detection apparatus 300. That is, the detection apparatus 300 functions as the detection unit 33 of the information transmission apparatus 101 according to the modification of the first embodiment.

  The detection device 300 is installed in the vicinity of the information transmission device 102. However, when there are a plurality of information transmission apparatuses 102, a plurality of detection apparatuses 300 corresponding to the information transmission apparatuses 102 also exist. Therefore, each information transmission apparatus 102 is installed in the vicinity of the information transmission apparatus 102 so as not to confuse and receive detection information from another detection apparatus 300 installed in a place away from the own apparatus. 300 addresses are stored in the detection device information storage unit 24. Then, the information transmission device 102 receives detection information from the detection device 300 at the address stored in the detection device information storage unit 24.

  For example, as illustrated in FIG. 19, the detection device information storage unit 24 includes an address of the detection device 300 installed in the vicinity of the information transmission device 102 among the detection devices 300 connected via the network 9, and the detection. The detection information transmitted from the device 300 is stored. FIG. 19 shows an example in which an IP address used in IP (Internet Protocol) is stored as an address. In addition to the IP address, a MAC (Media Access Control) address assigned uniquely to the device may be used. FIG. 19 shows an example in which only one detection device 300 set in the vicinity of the information transmission device 102 is registered, but a plurality of detection devices 300 installed in the vicinity of the information transmission device 102 are registered. Also good. By using detection information from a plurality of detection devices 300 in the vicinity of the information transmission device 102, it is possible to improve the detection accuracy of the presence or absence of a person.

  Note that the detection device 300 installed in the vicinity of the information transmission device 102 refers to, for example, the detection device 300 installed in the same section as the room in which the information transmission device 102 is installed. The detection device 300 may be a device having a detection function as a main function, or may be a home appliance provided with a sensor for operating the main function. Therefore, the information transmission apparatus 101 installed in the vicinity of the information transmission apparatus 102 and the information notification apparatus 220 described later can be the detection apparatus 300.

  As described above, in the information notification system 1002 according to the second modification of the first embodiment, the information transmission apparatus 102 does not include the detection unit 33, but the detection apparatus 300 installed in the vicinity. By acquiring the detection information from the information notification device 202, the information notification device 202 can notify the user only when necessary.

(Embodiment 2)
In the first embodiment described above, notification is performed without detecting whether there is a user near the information notification apparatus 200. Therefore, the same notification is performed regardless of the presence or absence of the user. However, there may be cases where it is better to change the notification content between when the user exists and when the user is absent. A second embodiment capable of handling such a case will be described.

  The configuration of the information notification system 2000 according to Embodiment 2 is the same as that of Embodiment 1 as shown in FIG. The functional configuration of information transmitting apparatus 120 according to Embodiment 2 is the same as that of information transmitting apparatus 100 according to Embodiment 1 shown in FIG. As illustrated in FIG. 21, the information notification device 220 according to the second embodiment has a configuration in which a detection unit 64 is added to the information notification device 200 according to the first embodiment. Further, as shown in FIG. 22, the output unit control table stored in the output unit control table storage unit 51 is added to the output unit control table of the information notification apparatus 200 according to the first embodiment, as described later. "And" absence count "information is added.

  The detection unit 64 is the same as the detection unit 33 included in the information transmission apparatus 101 according to the modification of the first embodiment, and includes a human sensor that detects the presence or absence of a person. The human sensor is arbitrary as long as it is a device that can detect the presence or absence of a person, for example, an infrared sensor. As this human sensor, a sensor provided for operating the main function of the information notification device 220 may be used. For example, you may use the infrared sensor provided in the air conditioner in order to control a wind direction and an air volume automatically, and the infrared sensor provided in the illuminating device in order to make illumination light when a user approaches. In this case, it is not necessary to mount a new part for adding the detection unit 64.

  The state notification information transmission process, which is a process in which the information transmission apparatus 120 according to the second embodiment transmits state change information to the information notification apparatus 220, is the state of the information transmission apparatus 100 according to the first embodiment illustrated in FIG. Since it is the same as the notification information transmission process, the description is omitted.

  A state notification information reception process in which the information notification apparatus 220 according to Embodiment 2 receives the state notification information and notifies the user of a state change of the information transmission apparatus 120 will be described with reference to FIG. . The status notification information reception process is started when the information notification device 220 receives the status notification information, and is executed in parallel with a thread different from the main function processing of the information notification device 220.

  First, the control unit 40 initially sets the absence count indicating how many times the notification is repeated when the user is absent (step S401). The next steps S402 to S403 are the same processes as steps S201 to S202 described with reference to FIG.

  Next, the control unit 40 uses the detection unit 64 to detect whether or not there is a person near the information notification device 220 (step S404). Then, the output unit control information generating unit 43 generates output unit control information from the state notification information, the presence / absence of a person, the value of the absence count, and the output unit control table stored in the output unit control table storage unit 51. And stored in the output unit control information storage unit 52 (step S405).

  The next steps S406 to S407 are the same processes as steps S204 to S205 described with reference to FIG. Thereafter, the control unit 40 determines whether or not a person has existed with respect to the presence or absence of the person detected in step S404 (step S408). If there is a person (step S408; Yes), the process ends. This is because the content output from the output unit 62 in step S407 is considered to have been notified to the user.

  If there is no person (step S408; No), the control unit 40 adds 1 to the absence count (step S409), and determines whether the value of the absence count is equal to or less than the upper limit number (step S410). This upper limit count is the upper limit count at which the information notification device 220 retries notification. For example, when the upper limit is set to 5 times, the notification is repeated 5 times even when the user is absent.

  If the absence count is less than or equal to the upper limit number (step S410; Yes), the process returns to step S404 and the notification process is repeated. If the absent count value exceeds the upper limit number (step S410; No), the notification processing is not performed again, and the process ends.

  Of the above processing, the generation of output unit control information in step S405 will be supplementarily described. For example, FIG. 22 is an example of an output unit control table in a case where the information notification device 220 is a refrigerator including a speaker, LED1, LED2, and a segment display as the output unit 62. When the information notification device 220 receives “error information” “not operating as input” as the state notification information, if a person is detected in step S404, “person presence / absence” is “1” in step S405. The control content of the line is selected, and the speaker notifies that “the air conditioner may be broken”. However, if no person is detected in step S404, the control content in the row where “person presence / absence” is “0” is selected in step S405, and the LED 1 blinks to notify.

  Note that “−” in the output unit control table shown in FIG. 22 indicates that the value is arbitrary. For example, in the example illustrated in FIG. 22, when the operation mode is cooling, the LED 2 is lit in blue and notified regardless of the “person presence / absence” value. If the information transmission device 120 is a washing machine and detects a person, the speaker notifies the user that “washing has been completed” regardless of the absence count value. If no person is detected, if the absence count is other than 3, the LED 3 blinks, and if the absence count is 3, the loudspeaker notifies that “laundry is complete”. It is set.

  In the example described above, the absence time is determined based on the absence count value, but the absence time may be counted by a timer (not shown) included in the control unit 40. In this case, in the output unit control table shown in FIG. 22, in addition to the absence count or in addition to the absence count, by setting the value of the absence timer that is a value obtained by measuring the time when the person was absent by the timer, The control content can be selected according to the value of the absence timer.

  Immediately after leaving home for a long time, the absence counter returns to 0 from a large value (for example, the upper limit number of times) and “person presence / absence” changes from 0 to 1. This change may be detected, and information not notified in the absence, for example, an end notification from the washing machine (for example, a driving OFF notification or a drying completion notification) may be notified.

  As described above, in the information notification system 2000 according to the second embodiment, the presence or absence of a person can be detected by the detection unit 64, so that it can be set not to perform unnecessary notification while there is no person. Moreover, since the control content can be selected according to the number of times and the time when the detection unit 64 cannot detect a person, various types of situations can be notified in accordance with each situation.

(Modification of Embodiment 2)
The information notification device 220 according to the second embodiment needs to include the detection unit 64. However, it can be estimated that the user is present in the vicinity of the information notification device 220 while the operation input is performed from the input unit 63. Therefore, it can be estimated that there is a person when the input unit 63 receives an input and within the existence estimation possible time of about 10 seconds from the time when the input is received. Here, “when the input unit 63 receives an input” refers to, for example, when a push button is pressed, when a slide switch is slid, when a touch panel is touched, or when a remote control signal is transmitted from the remote control. . If the information notification device 220 can detect the insertion / removal of the outlet, it can be included in “when the input unit 63 receives an input” even when the outlet is inserted / removed.

  In the information notification device according to the modification of the second embodiment, the detection unit 64 is deleted from the functional configuration of the information notification device 220 shown in FIG. 21, and a presence / absence estimation unit (not shown) is provided in the control unit 40. It will be prepared. The presence / absence estimation unit estimates that there is a person when the input unit 63 receives an input and within an existence estimation possible time of about 10 seconds after the input is received. In the information notification device 220, the presence / absence estimation unit estimates the presence / absence of the person detected by the detection unit 64 in the information notification device according to the modification of the second embodiment.

  Since the information notification apparatus according to the modification of the second embodiment estimates the presence / absence of a person using the input unit 63 and the presence / absence estimation unit, it is not necessary to add the detection unit 64, so the system cost Can be reduced.

(Second Modification of Embodiment 2)
The information notification device 220 according to the second embodiment described above includes the detection unit 64. However, the detection unit 64 is not included in the information notification device, and is installed in the vicinity of the information notification device as an independent device. It may be configured to detect the presence or absence of a person in the vicinity of. The configuration of the information notification system 2002 according to the second modification of the second embodiment includes an information transmission device 122, an information notification device 222, and a detection device 300 as shown in FIG. The information transmission device 122, the information notification device 222, and the detection device 300 are connected via the network 9.

  Since the functional configuration of the information transmission apparatus 122 according to the second modification of the second embodiment is the same as that of the information transmission apparatus 120 according to the second embodiment, the illustration is omitted. As shown in FIG. 25, in the information notification device 222 according to the second modification of the second embodiment, the detection device information storage unit 53 is added to the storage unit 50 of the information notification device 200 according to the first embodiment. It is configured. Detection device 300 according to the second modification of the second embodiment is at least a detection unit (not shown) and a communication unit (not shown), similarly to detection device 300 according to the second modification of the first embodiment. ), And information on the presence / absence of the person detected by the detection unit is transmitted to the information notification device 222 via the communication unit.

  The communication unit 61 of the information notification device 222 according to the second modification of the second embodiment not only receives the state notification information, but also receives the presence / absence detection information detected by the detection device 300. That is, the detection device 300 functions as the detection unit 64 of the information notification device 220 according to the second embodiment.

  The detection device 300 is installed in the vicinity of the information notification device 222. However, when there are a plurality of information notification devices 222, a plurality of detection devices 300 corresponding to each information notification device 222 also exist. Therefore, each of the information notification devices 222 is installed in the vicinity of the information notification device 222 so that the detection information from other detection devices 300 installed in a place away from the own device is not confused and received. 300 addresses are stored in the detection device information storage unit 53. The information notification device 222 receives the detection information from the detection device 300 at the address stored in the detection device information storage unit 53.

  The detection device information storage unit 53 is the same as the detection device information storage unit 24 of the information transmission device 102 according to the second modification of the first embodiment. For example, as shown in FIG. Among the detection devices 300 that are in operation, the address of the detection device 300 installed in the vicinity of the information notification device 222 and the detection information transmitted from the detection device 300 are stored. FIG. 19 is an example in which only one detection device 300 set in the vicinity of the information notification device 222 is registered, but a plurality of detection devices 300 installed in the vicinity of the information notification device 222 may be registered. . By using detection information from a plurality of detection devices 300 in the vicinity of the information notification device 222, it is possible to improve the detection accuracy of the presence or absence of a person.

  Note that the detection device 300 installed in the vicinity of the information notification device 222 refers to, for example, the detection device 300 installed in the same section as the room where the information notification device 222 is installed. The detection device 300 may be a device having a detection function as a main function, or may be a home appliance provided with a sensor for operating the main function. Therefore, the information transmission device 101 and the information notification device 220 installed in the vicinity of the information notification device 222 can be the detection device 300.

  As described above, in the information notification system 2002 according to the second modification of the second embodiment, the detection device 300 installed in the vicinity although the information notification device 222 does not include the detection unit 64. By acquiring the detection information from, it is possible to set so that unnecessary notification is not performed while no one is present. Moreover, since the control content can be selected according to the number of times and time when the detection device 300 cannot detect a person, notifications suitable for each situation can be made for various situations.

(Embodiment 3)
In the above-described embodiment, when there are a plurality of information notification devices 200, each of the plurality of information notification devices 200 has to include the output unit control table storage unit 51. The contents of the output unit control table may be desired to be modified according to various home appliances owned by the user. In that case, it is very complicated to separately correct the contents of the output unit control table of each of the plurality of information notification devices 200. Therefore, a third embodiment in which the output unit control table is integrated into one device will be described.

  As shown in FIG. 26, an information notification system 3000 according to Embodiment 3 of the present invention includes an information transmission device 140, an information notification device 240, and a notification control device 400. The information transmission device 140, the information notification device 240, and the notification control device 400 are connected via the network 9.

  The information transmission apparatus 140 has the same functional configuration as the information transmission apparatus 100 according to Embodiment 1 shown in FIG. 2 except that the transmission destination of the state notification information is not the information notification apparatus 200 but the notification control apparatus 400.

  The information notification device 240 does not receive the status notification information transmitted from the information transmission device 140, but receives the output unit control information transmitted from the notification control device 400. As shown in FIG. 27, the functional configuration of the information notification device 240 is different from that of the information notification device 200 according to the first embodiment and the information notification device 220 according to the second embodiment. An information notification device information transmission unit 46 is added. Further, the status notification information receiving unit 41, the device determining unit 42, the output unit control information generating unit 43, and the output unit control table storage unit 51 are deleted.

  The output unit control information receiving unit 45 receives the output unit control information transmitted by the notification control device 400. The information notification device information transmission unit 46 transmits information notification device information such as the address of the information notification device 240, the device type, and the detection result of the detection unit 64 to the notification control device 400. Since this information notification device information also serves as a keep alive packet for notifying the notification control device 400 that the own device is alive, the information notification device information transmission unit 46 periodically transmits the information notification device information. Send.

  As shown in FIG. 28, the functional configuration of the notification control device 400 includes a control unit 70, a storage unit 80, a communication unit 91, and an input unit 92 as functional configurations.

  The control unit 70 includes a CPU (Central Processing Unit), and by executing a program stored in the storage unit 80, each unit of the notification control device 400 (state notification information reception unit 71, device determination unit 72, other device output) The functions of the unit control information generation unit 73 and the other device output unit control information transmission unit 74) are realized.

  The status notification information reception unit 71, the device determination unit 72, and the other device output unit control information generation unit 73 are a status notification information reception unit 41, a device determination unit 42, and an output provided as the functional configuration of the information notification device 200 of the first embodiment. This is the same function as the unit control information generation unit 43. The other device output unit control information transmission unit 74 transmits the output unit control information generated by the other device output unit control information generation unit 73 to the information notification device 240 via the communication unit 91 described later.

  The storage unit 80 includes ROM (Read Only Memory), RAM (Random Access Memory), and the like as hardware. Functionally, the storage unit 80 includes another device output unit control table storage unit 81, an output unit control information storage unit 82, and an information notification device information storage unit 83.

  The other device output unit control table storage unit 81 is the same as the output unit control table storage unit 51 included in the information notification device 200 of the first embodiment. However, the output unit control table storage unit 51 stores only the output unit control table dedicated to the information notification device 200 that stores the output unit control table storage unit 51, whereas the other device output unit control table storage unit 81 passes through the network 9. The output unit control table corresponding to the various information notification devices 240 connected to each other is stored. For example, “Output unit control table when information notification device 240 is an air conditioner” shown in FIG. 29A, “Output unit control table when information notification device 240 is a washing machine” shown in FIG. 29B, FIG. All the “output unit control table when the information notification device 240 is a mobile phone” shown in FIG. 29C is stored in the other device output unit control table storage unit 81.

  The output unit control information storage unit 82 is the same as the output unit control information storage unit 52 included in the information notification device 200 of Embodiment 1, and stores output unit control information as shown in FIG. However, the output unit control information storage unit 52 included in the information notification device 200 stores only output unit control information dedicated to the information notification device 200 that stores the output unit control information, whereas the output unit control included in the notification control device 400 The information storage unit 82 stores output unit control information corresponding to various information notification devices 240 connected via the network 9.

  As shown in FIG. 30, the information notification device information storage unit 83 stores information notification device information such as the address of each information notification device 240 connected via the network 9, the device type, and the value of the detection unit 64. . FIG. 30 shows an example in which an IP address used for IP is stored as an address. Each information notification device 240 periodically broadcasts a keep-alive packet to indicate that its own device is alive, and the keep-alive packet includes an address, a device type, and a detection unit of the information notification device 240. Information notification device information such as a value of 64 is included.

  When the notification control apparatus 400 is powered on, a keep-alive packet receiving thread that continuously processes reception of the keep-alive packet in the background is activated. This thread receives the keep alive packet, and stores the information notification device information included in the keep alive packet in the information notification device information storage unit 83. In addition, the information reception device information storage unit 83 also stores the last reception time that is the time when the keep-alive packet was last received. Since the keep alive packet includes the value of the detection unit 64 of the information notification device 240, the control unit 70 in the keep alive packet reception thread receives information on the presence / absence of a person in the vicinity of the information notification device 240. A function of a device presence / absence information receiving unit (not shown) is provided.

  Assuming that the transmission cycle of the keep-alive packet is AL minutes, if this final reception time is within AL × 3 minutes, for example, from the current time, it can be determined that the information notification device 240 that transmitted the keep-alive packet is alive. In the above description, it has been described that the keep-alive packet is broadcasted. However, by notifying each information notification device 240 of the address of the notification control device 400 in advance, the keep-alive packet is broadcast from each information notification device 240. Instead, it may be transmitted to the notification control apparatus 400 by unicast.

  The notification control device 400 can acquire information of the information notification device 240 that transmits the output unit control information by referring to the information notification device information storage unit 83. Note that by using the information notification device information storage unit 83, it is also possible to limit the information notification device 240 that is the transmission target of the output unit control information. For example, by storing only the information notification device 240 that is the transmission target of the output unit control information in the information notification device information storage unit 83, the information notification device 240 that is not stored in the information notification device information storage unit 83 Output unit control information is not transmitted.

  Also, an information transmitting device information notifying device correspondence information storage unit (not shown) that stores correspondence information as to which information notifying device 240 notifies the state change of each information transmitting device 140 as information transmitting device information notifying device correspondence information. May be provided in the storage unit 80. As a result, the notification control apparatus 400 can transmit the output unit control information to the information notification apparatus 240 corresponding to the information transmission apparatus 140 that has transmitted the received state notification information with reference to the information transmission apparatus information notification apparatus correspondence information. Become.

  The communication unit 91 receives status notification information transmitted from the information transmission device 140 and information notification device information transmitted from the information notification device 240 via the network 9, and outputs output unit control information to the information notification device 240. It is a communication device for transmitting. Any communication device can be used as long as these pieces of information can be transmitted and received. The communication interface is not limited, and a wired communication interface such as Ethernet (registered trademark) may be used, or wireless such as Wi-Fi (registered trademark), Bluetooth (registered trademark), or ZigBee (registered trademark). An interface may be used.

  The input unit 92 is an input device for the notification control apparatus 400 to accept an operation input from a user. For example, a push button switch, a slide switch, a touch panel, a remote controller, and the like. When the user wants to correct the content of the output unit control table stored in the other device output unit control table storage unit 81, the user inputs the correction content from the input unit 92 and corrects the content of the output unit control table. Can do.

  Next, notification for information on the state change of the information transmission device 140 according to Embodiment 3 is sent to the information notification device 240 via the notification control device 400 and notified to the user by the information notification device 240 Each process of the control apparatus 400 and the information notification apparatus 240 is demonstrated. Note that in the state notification information transmission process in which the information transmission apparatus 140 according to Embodiment 3 transmits the state notification change information to the notification control apparatus 400, the transmission destination of the state notification information is not the information notification apparatus 240. Since it is the same as the state notification information transmission process of the information transmission apparatus 100 according to Embodiment 1 shown in FIG. 9 except that it is the notification control apparatus 400, the description thereof is omitted.

  A state notification information reception process, which is a process in which the notification control apparatus 400 according to the third embodiment receives state notification information and transmits it to the information notification apparatus 240, will be described with reference to FIG. The status notification information reception process is started when the notification control device 400 receives the status notification information, and is executed in parallel in a thread different from the keep-alive packet reception thread described above.

  Steps S501 to S504 are the same processes as steps S201 to S204 described with reference to FIG. In step S505, the other device output unit control information transmitting unit 74 generates the output unit control information generated by the other device output unit control information generating unit 73 and stored in the output unit control information storage unit 82 in step S503. The information is transmitted to each information notification device 240 that is the destination of the control information (step S505), and the process ends.

  Here, a supplementary description will be given of the processing in step S503 and step S505. The output unit control information generated in step S203 described with reference to FIG. 10 is output unit control information dedicated to the information notification device 200 that is executing the state notification information reception process. On the other hand, in step S503, output unit control information for all the information notification devices 240 connected via the network 9 is generated. The addresses of all the information notification devices 240 and whether or not the information notification devices 240 are alive can be acquired by referring to the information notification device information storage unit 83. Therefore, the notification control device 400 can generate output control information for the living information notification device 240 by referring to the information notification device information storage unit 83.

  For example, it is assumed that four types of information notification devices 240 such as an air conditioner, a refrigerator, a washing machine, and a mobile phone are connected to the notification control device 400 via the network 9. The other device output unit control table storage unit 81 of the notification control device 400 stores the output unit control tables shown in FIGS. 7, 29 (a), 29 (b), and 29 (c). And In this situation, it is assumed that the notification control device 400 has received the state notification information indicating the state change from the microwave serving as the information transmission device 140 to the operation OFF.

  In this case, in step S503, the other device output unit control information generation unit 73 sequentially looks at the information stored in the information notification device information storage unit 83 shown in FIG. 30, and first outputs it as output unit control information for the air conditioner. The output unit control information shown in FIG. 32 (a) is generated. Next, the output part control information for refrigerators shown in FIG.32 (b) is produced | generated. Next, output unit control information for the washing machine shown in FIG. 32C is generated. And the output part control information for mobile phones shown in FIG.32 (d) is produced | generated. As described above, all of the four output unit control information are stored in the output unit control information storage unit 82.

  In step S <b> 505, the other device output unit control information transmission unit 74 sequentially transmits the output unit control information stored in the output unit control information storage unit 82. In this example, the output unit control information for the air conditioner shown in FIG. 32 (a) is transmitted to the air conditioner that is the information notification device 240, and the output unit control information for the refrigerator shown in FIG. 32 is transmitted to a certain refrigerator, the output unit control information for the washing machine shown in FIG. 32C is transmitted to the washing machine which is the information notification device 240, and the output unit control information for the mobile phone shown in FIG. Information is transmitted to the mobile phone that is the information notification device 240.

  Next, referring to FIG. 33, the information notification apparatus 240 according to Embodiment 3 receives the state notification information and notifies the user of the state change of the information transmission apparatus 140 for the output unit control information reception process. To explain. This output unit control information reception process is started when the information notification device 240 receives the output unit control information, and is executed in parallel with a thread different from the main function processing of the information notification device 240.

  First, the output unit control information receiving unit 45 receives the output unit control information and stores it in the output unit control information storage unit 52 (step S601). Next, the control unit 40 controls the output unit 62 in accordance with the output unit control information stored in the output unit control information storage unit 52 (step S602), and the process ends.

  Through the above processing, the notification control device 400 generates output unit control information based on the content of the state notification information transmitted from the information transmission device 140 and transmits it to the information notification device 240. Therefore, the information notification device 240 that has received the output unit control information can notify the user. And the other apparatus output part control table memory | storage part 81 can manage each information notification apparatus 240 by a simple structure because the notification control apparatus 400 manages collectively, and can reduce the cost of the whole system. Even when the setting of the output unit control table is changed, the information notification device 240 does not need to be changed, and only the output unit control table stored in the notification control device 400 needs to be changed.

  Note that the notification control apparatus 400 may be provided with an output unit so that the notification control apparatus 400 can also notify the state change of the information transmission apparatus 140. If it does in this way, the notification opportunity to a user can be increased and the notification to a user can be performed more reliably.

Here, for the sake of simplicity, the “detection information” shown in FIG.
However, since the information notification device whose “detection information” is 0 indicates that there is no person nearby, the information notification device 240 whose “detection information” is 1 in step S503 in FIG. The output unit control information may be generated only for the target. Then, in the example shown in FIG. 30, the “detection information” is 1 only for the air conditioner and the mobile phone. Therefore, the output control information of the air conditioner shown in FIG. 32A and the mobile phone shown in FIG. Only the output unit control information is generated.

  Similarly to the second embodiment, the output unit control table including the “person presence / absence” information as shown in FIG. 22 is stored in the other device output unit control table storage unit 81, and the processing flow of FIG. The output unit control information may be changed depending on the value of the detection information by performing the process of changing “control output unit” to “transmit output unit control information” in step S407.

  In addition, as illustrated in FIG. 27, the information notification device 240 including the detection unit 64 has been described, but the information notification device 240 includes the detection unit 64 as described in the modification of the second embodiment. Alternatively, a presence / absence estimation unit (not shown) may be provided in the control unit 40. The presence / absence estimation unit estimates the presence / absence of a person by estimating that the person is present when the input unit 63 accepts the input and within an estimated time period of about 10 seconds from when the input is accepted. can do. Then, the information notification device information transmission unit 46 may transmit the notification result to the notification control device 400 by including the estimation result of the presence / absence of the person in the information notification device information as “detection information” indicating the presence / absence information of the person. It becomes possible.

(Modification of Embodiment 3)
In the third embodiment, information from all the information transmission devices 140 is collected in the notification control device 400, and the notification control device 400 can transmit the output unit control information to any information notification device 240. In reality, only information was notified to the user. However, if the notification control device 400 transmits control information that can be controlled not only by the output unit 62 of the information notification device 240 but also by the main function control unit 44 instead of the output unit control information, the control of the device is performed. You can also do it. A modification of the third embodiment that enables control of the device will be described.

  The system configuration of the notification control system 3001 according to the modification of the third embodiment is the same as the system configuration of the information notification system 3000 according to the third embodiment, as shown in FIG. The information transmission apparatus 140 according to the modification of the third embodiment is the same as the information transmission apparatus 140 according to the third embodiment.

  As shown in FIG. 35, the information notification device 241 according to the modification of the third embodiment replaces the output control information receiving unit 45 of the information notification device 240 according to the third embodiment with a control information receiving unit 47, and performs output control. The information storage unit 52 is replaced with a control information storage unit 54. As shown in FIG. 36, the notification control apparatus 401 according to the modification of the third embodiment replaces the other apparatus output unit control information generation unit 73 of the notification control apparatus 400 according to the third embodiment with a control information generation unit 75. The other device output unit control information transmission unit 74 is replaced with a control information transmission unit 76, the other device output unit control table storage unit 81 is replaced with a control content table storage unit 84, and the output unit control information storage unit 82 is replaced with a control information storage unit. The configuration is replaced with 85.

  The control information reception unit 47 of the information notification device 241 receives the control information transmitted by the control information transmission unit 76 of the notification control device 401. The control information storage unit 54 stores the control information received by the control information receiving unit 47. The control information is information that can be controlled not only by the output unit 62 but also by the main function control unit 44. Therefore, the information notification device 241 is also a controlled device controlled by the control information.

  The control information generation unit 75 of the notification control device 401 generates control information for controlling the information notification device 241. The control information transmission unit 76 transmits the control information generated by the control information generation unit 75 to the information notification device 241. As shown in FIG. 37, the control content table storage unit 84 stores the control conditions and the control content to be transmitted when the control conditions are satisfied. The control information generation unit 75 determines whether the status notification information transmitted from the information transmission device 140 and the information notification device information transmitted from the information notification device 241 satisfy the control condition of the control content table, and satisfies the control condition Control information including the control content corresponding to is generated. Since the output target may be the output unit 62, the same as the output unit control table set in the other device output unit control table storage unit 81 of the third embodiment, as the last three in the table of FIG. It is also possible to set control conditions and control contents for notifying the user of information.

  The first row of FIG. 37A is an example in which the cooling operation intensity is set to “strong” when a person is detected when the air conditioner that is the information notification device 241 is performing the cooling operation. When there is a person, the room temperature is hardly lowered by the body temperature of the person, but by increasing the operation strength of the air conditioner, there is an effect of easily lowering the room temperature. The second line is an example in which the driving strength is set to “weak” when a person is not detected when the air conditioner that is the information notification device 241 is driving. It is thought that there is no need to rapidly cool or heat while there are no people, so there is an effect of saving power by reducing the driving strength. In the third line, when the state notification information including the error information “The breaker is about to fall” is transmitted from the breaker which is the information transmission device 140, if there is no person near the air conditioner, the operation of the air conditioner is performed. Is an example of setting to prevent the breaker from falling.

  The first line in FIG. 37B is an example of a setting for saving power by turning off the lighting if no person is detected when the lighting device as the information notification device 241 is turned on. The second line of FIG. 37 (b) is an example of a setting for automatically turning on the illumination when a person is detected when the illumination device as the information notification device 241 is off. By making such a setting, there is an effect that a power saving effect can be obtained when there is no person and convenience is obtained because lighting is automatically turned on when a person enters.

  FIG. 37 (c) is similar to the example in the third row of FIG. 37 (a), when the state notification information including error information “breaker is about to fall” is transmitted from the breaker that is the information transmission device 140. This is an example of setting that prevents the breaker from falling by turning off the power of the television if there is no person near the television that is the information notification device 241.

  The control information storage unit 85 stores the control information generated by the control information generation unit 75. The control information transmission unit 76 transmits the control information stored in the control information storage unit 85 to the information notification device 241.

  Next, the notification control apparatus 401 according to the modification of the third embodiment receives the state notification information from the information transmission apparatus 140 and the information notification apparatus information from the information notification apparatus 241 and controls the information notification apparatus 241. Therefore, the processes of the notification control device 401 and the information notification device 241 will be described in order. The state notification information transmission process, which is a process in which the information transmission apparatus 140 according to the modification of the third embodiment transmits the state notification information to the notification control apparatus 401, is not the destination of the state notification information. Since it is the same as the state notification information transmission process of the information transmission apparatus 100 according to Embodiment 1 shown in FIG. 9 except that it is the notification control apparatus 401, the description thereof is omitted.

  The notification control apparatus 401 according to the modification of the third embodiment receives the state notification information from the information transmission apparatus 140 and the information notification apparatus information from the information notification apparatus 241 and receives control information for controlling the information notification apparatus 241. A control information transmission process which is a transmission process will be described with reference to FIG. This process is started when the notification control apparatus 401 is turned on, and is executed in parallel with a thread different from the keep-alive packet receiving thread described above.

  First, the state notification information receiving unit 71 determines whether or not the state notification information can be received via the communication unit 91 (step S701). If reception is possible (step S701; Yes), the state notification information reception unit 71 receives the state notification information via the communication unit 91 (step S702). Then, the device determination unit 72 determines the type of the device that transmitted the state notification information based on the device name information included in the state notification information (step S703), and proceeds to step S705.

  On the other hand, if the status notification information cannot be received in step S701 (step S701; No), the control unit 70 determines whether or not the “detection information” in the information notification device information storage unit 83 has changed (step S704). . If the “detection information” has not changed (step S704; No), the process proceeds to step S708. If the “detection information” has changed (step S704; Yes), the process proceeds to step S705.

  In step S705, the control information generation unit 75 refers to the control content table stored in the control content table storage unit 84, and compares the status notification information and the detection information with each of the control conditions. Then, control information is generated based on the control content corresponding to the matching control condition, and stored in the control information storage unit 85 (step S705).

  Next, the control unit 70 determines whether or not the control information generated in step S705 exists in the control information storage unit 85 (step S706). If the control information exists in the control information storage unit 85 (step S706; Yes), the control information transmission unit 76 transmits the information to each information notification device 241 that is the destination of the control information (step S707), and proceeds to step S708. If the control information does not exist in the control information storage unit 85 (step S706; No), the process proceeds to step S708 without transmitting anything.

  In step S708, the control unit 70 determines whether the notification control apparatus 401 has been instructed to turn off the power (step S708). If power-off is instructed (step S708; Yes), the process ends. If power-off is not instructed (step S708; No), the process returns to step S701.

  Here, the generation of the control information in step S705 is the same processing as the generation of the output unit control information in step S503 described with reference to FIG. 31, but the table to be referenced is not the output unit control table. It is a control content table. Therefore, the degree of freedom of the control conditions and the control contents is high, and not only the state is notified to the user, but also the main function of the information notification device 241 can be controlled. In addition, the control condition is not limited to the condition based on the status notification information from one information transmission device 140 but also the status notification information from all the information transmission devices 140 and the information notification device information from all the information notification devices 241. Arbitrary conditions can be set.

  Next, the information notification device 241 according to the modification of the third embodiment receives the control information, controls the information notification device 241, and notifies the user of the state change of the information transmission device 140. A certain control information reception process will be described with reference to FIG. This control information reception process is started when the information notification device 241 receives control information, and is executed in parallel with a thread different from the main function processing of the information notification device 241.

  First, the control information receiving unit 47 receives control information and stores it in the control information storage unit 54 (step S801). Next, the control unit 40 controls the main function control unit 44 or the output unit 62 according to the control information stored in the control information storage unit 54 (step S802), and the process ends.

  Through the above processing, the notification control device 401 generates control information based on the status notification information transmitted from the information transmission device 140 and the content of the information notification device information transmitted from the information notification device 241, and the information notification device To 241. Therefore, the information notification device 241 that has received the control information can control the main function and can notify the user. And the control content table memory | storage part 84 can set the arbitrary setting conditions based on the information from all the information transmission apparatuses 140 and all the information notification apparatuses 241 by the notification control apparatus 401 managing collectively. . Moreover, the notification control device 401 can control any information notification device 241. Furthermore, each information notification device 241 can be configured simply, and the cost of the entire system can be reduced. Even when the setting of the control content table is changed, it is not necessary to change the information notification device 241, and it is only necessary to change the control content table stored in the notification control device 401.

  The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention. For example, also in the second and subsequent embodiments, the information transmitting apparatus 101 according to the modification of the first embodiment can be combined.

  Information transmitting apparatus 100, 101, 102, 120, 122, 140, information transmitting / notifying apparatus 150, information notifying apparatus 200, 201, 202, 220, 222, 240, 241 and detecting apparatus 300 according to an embodiment of the present invention. The hardware of the notification control devices 400 and 401 includes a processor 10001, a memory 10002, and an interface 10003 as shown in FIG. Information transmission devices 100, 101, 102, 120, 122, 140, information transmission / notification device 150, information notification devices 200, 201, 202, 220, 222, 240, 241, detection device 300, notification control devices 400, 401 Each function is realized by the processor 10001 executing a program stored in the memory 10002. The interface 10003 includes the information transmission devices 100, 101, 102, 120, 122, 140, the information transmission / notification device 150, the information notification devices 200, 201, 202, 220, 222, 240, 241, the detection device 300, and the notification control device 400. , 401 and the like are connected to establish communication, and may be configured from a plurality of types of interfaces as necessary. FIG. 40 shows an example in which each of the processor 10001 and the memory 10002 is configured as one, but a plurality of processors and a plurality of memories may execute the above functions in cooperation.

  In any of the above-described embodiments, each function can be performed by a normal computer. Specifically, in the above-described embodiment, the program executed by the control units 10, 40, and 70 has been described as being stored in advance in the ROM of the storage units 20, 50, and 80. However, the program is stored and distributed on a computer-readable recording medium such as a flexible disk, CD-ROM (Compact Disc Read Only Memory), DVD (Digital Versatile Disc), and MO (Magneto-Optical Disc). A computer capable of realizing each of the functions described above may be configured by reading and installing the program on a computer. When each function is realized by sharing between an OS (Operating System) and an application, or by cooperation between the OS and the application, only a part other than the OS may be stored in the recording medium.

  Furthermore, each program can be superimposed on a carrier wave and distributed via a communication network. For example, the program may be posted on a bulletin board (BBS, Bulletin Board System) on a communication network, and the program may be distributed via the network. Then, the above-described processing may be executed by starting these programs and executing them in the same manner as other application programs under the control of the OS.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to the specific embodiment which concerns, This invention includes the invention described in the claim, and its equivalent range It is.

1000, 1000A, 1000B, 1001, 1002, 2000, 2002, 3000 Information notification system, 3001 Notification control system, 100, 100A, 100B, 100C, 101, 102, 120, 122, 140 Information transmission device, 150 Information transmission / notification Device, 200, 200A, 200B, 200C, 201, 202, 220, 222, 240, 241 information notification device, 300 detection device, 400, 401 notification control device, 9, 9A, 9B network, 10, 40, 70 control unit , 11 Operation content acquisition unit, 12 State change detection unit, 13 Operation state determination unit, 14 State notification information generation unit, 15 State notification information transmission unit, 16 Main function control unit, 20, 50, 80 Storage unit, 21 State storage Section, 22 operation content storage section, 23 status notification information storage Unit, 24, 53 detection device information storage unit, 31, 63, 92 input unit, 32, 61, 91 communication unit, 33, 64 detection unit, 41, 71 status notification information reception unit, 42, 72 device discrimination unit, 43 Output unit control information generation unit, 44 Main function control unit, 45 Output unit control information reception unit, 46 Information notification device information transmission unit, 47 Control information reception unit, 51 Output unit control table storage unit, 52, 82 Output unit control information Storage unit 54, 85 Control information storage unit 62 Output unit 73 Other device output unit control information generation unit 74 Other device output unit control information transmission unit 75 Control information generation unit 76 Control information transmission unit 81 Other device Output unit control table storage unit, 83 information notification device information storage unit, 84 control content table storage unit, 10001 processor, 10002 memory, 10003 interface.

Claims (15)

A status notification information receiving unit for receiving status notification information for notifying the status of the other device transmitted from another device;
An output unit that outputs a status notification signal that notifies the user of the status of the other device based on the status notification information;
An output unit control table storage unit that stores an output unit control table that associates the state notification information with the control content of the output unit for outputting the state notification signal;
By generating the control content of the output unit corresponding to the status notification information received by the status notification information receiving unit with reference to the output unit control table, output unit control information for controlling the output unit is generated. An output unit control information generating unit that
The output unit outputs the state notification signal according to the output unit control information generated by the output unit control information generation unit.
Information notification device. The output unit outputs the state notification signal by light, sound, vibration, text, or video information.
The information notification apparatus according to claim 1. It further includes a detection unit that detects the presence or absence of a person,
The output unit control table associates the presence / absence of the person and the state notification information with the control content of the output unit,
The output unit control information generation unit is configured to output the control content of the output unit corresponding to the presence / absence of the person detected by the detection unit and the status notification information received by the status notification information reception unit to the output unit control. The output unit control information for controlling the output unit is generated by obtaining with reference to a table,
The information notification apparatus according to claim 1 or 2. The status notification information includes detection information in which the other device detects the presence or absence of a person,
A further device detection information determination unit for determining whether or not the detection information included in the status notification information indicates the absence of the person;
The output unit control information generation unit generates the output unit control information for controlling the output unit when the other device detection information determination unit determines that the detection information indicates the absence of the person.
The information notification apparatus according to any one of claims 1 to 3. An input unit for receiving an operation input from a user;
A presence / absence estimation unit that estimates the presence / absence of a person by estimating that the person is present within the time that can be estimated from the time when the input unit receives the input and the time when the input is received, and
The output unit control table associates the presence / absence of the person and the state notification information with the control content of the output unit,
The output unit control information generation unit outputs the control content of the output unit corresponding to the presence / absence of the person estimated by the presence / absence estimation unit and the state notification information received by the state notification information reception unit, as the output Generating the output unit control information for controlling the output unit by obtaining with reference to a unit control table;
The information notification apparatus according to any one of claims 1 to 4. A state notification information receiving unit for receiving state notification information for notifying the state of the first other device transmitted from the first other device;
Regarding the control contents of the output unit of the second other device used when notifying the user of the state of the first other device based on the state notification information, the state notification information and the second other device. The other device output unit control table storage unit for storing the other device output unit control table associated with the control content of the output unit,
By acquiring the control content of the output unit of the second other device corresponding to the status notification information received by the status notification information receiving unit with reference to the other device output unit control table, the second Another device output unit control information generating unit for generating output unit control information for controlling the output unit of another device;
Another device output unit control information transmitting unit for transmitting the output unit control information generated by the other device output unit control information generating unit to the second other device;
A notification control device comprising: The second other device further includes another device presence / absence information receiving unit that receives presence / absence information obtained by detecting or estimating the presence / absence of a person,
The other device output unit control table associates the presence / absence information and the state notification information with the control content of the output unit of the second other device,
The other device output unit control information generating unit corresponds to the second other information corresponding to the presence / absence information received by the other device presence / absence information receiving unit and the state notification information received by the state notification information receiving unit. By generating the control content of the output unit of the device with reference to the other device output unit control table, the output unit control information for controlling the output unit of the second other device is generated.
The notification control apparatus according to claim 6. An operation content acquisition unit for acquiring the operation content input by the user;
A state change detection unit that detects a change in the state of the aircraft;
An operation state determination unit that determines whether the operation content acquired by the operation content acquisition unit is consistent with the state change detected by the state change detection unit;
Based on the state change detected by the state change detection unit and the determination result by the operation state determination unit, a state notification information generation unit that generates state notification information to notify the state of the own device;
A status notification information transmission unit that transmits the status notification information generated by the status notification information generation unit to another device;
An information transmission device comprising: An information notification system including an information transmission device that transmits state notification information that notifies a state of the device itself and an information notification device that outputs a state notification signal by output unit control information generated from the state notification information,
The information transmitting device includes:
A state change detection unit that detects a change in the state of the aircraft;
Based on the state change detected by the state change detection unit, a state notification information generation unit for generating state notification information for notifying the state of the own device;
A status notification information transmission unit that transmits the status notification information generated by the status notification information generation unit to the information notification device;
With
The information notification device includes:
A status notification information receiving unit for receiving the status notification information transmitted from the information transmitting device;
An output unit for outputting a state notification signal for notifying a user of the state of the information transmission device based on the state notification information;
An output unit control table storage unit that stores an output unit control table that associates the state notification information with the control content of the output unit for outputting the state notification signal;
By generating the control content of the output unit corresponding to the status notification information received by the status notification information receiving unit with reference to the output unit control table, output unit control information for controlling the output unit is generated. Output unit control information generating unit,
Comprising
Information notification system. An information transmitting device that transmits status notification information that notifies the status of the device itself, a notification control device that receives the status notification information and transmits control information generated from the status notification information, and a target controlled by the control information A notification control system including a control device,
The information transmitting device includes:
A state change detection unit that detects a change in the state of the aircraft;
Based on the state change detected by the state change detection unit, a state notification information generation unit for generating state notification information for notifying the state of the own device;
A status notification information transmission unit that transmits the status notification information generated by the status notification information generation unit to the notification control device;
With
The notification control device includes:
A status notification information receiving unit for receiving the status notification information transmitted from the information transmitting device;
A control content table storage unit that stores a control content table in which the state notification information and the control content are associated with each other for the control content for controlling the controlled device.
A control information generating unit that generates control information for controlling the controlled device by acquiring the control content corresponding to the state notification information received by the state notification information receiving unit with reference to the control content table When,
A control information transmission unit that transmits the control information generated by the control information generation unit to the controlled device;
With
The controlled device is:
A control information receiving unit for receiving the control information transmitted from the notification control device;
A control unit that controls itself according to the control information received by the control information receiving unit;
Comprising
Notification control system. A status notification information receiving step for receiving status notification information for notifying the status of the other device transmitted from another device;
The control content of the output unit corresponding to the status notification information received in the status notification information receiving step is acquired with reference to the output unit control table in which the status notification information and the control content of the output unit are associated with each other. An output step of outputting a status notification signal for notifying the user of the status of the other device by controlling the output unit;
Information notification method including A status notification information receiving step for receiving status notification information for notifying the status of the first other device transmitted from the first other device;
A control information generating step for generating control information for controlling the second other device from the status notification information received in the status notification information receiving step;
A control information transmission step of transmitting the control information generated in the control information generation step to the second other device;
Notification control method including: On the computer,
A status notification information receiving step for receiving status notification information for notifying the status of the other device transmitted from another device;
Obtaining the control content of the output unit corresponding to the status notification information received in the status notification information receiving step with reference to the output unit control table in which the status notification information and the control content of the output unit are associated with each other An output step of generating output unit control information for controlling the output unit and outputting a state notification signal for notifying a user of the state of the other device;
A program for running On the computer,
A status notification information receiving step for receiving status notification information for notifying the status of the first other device transmitted from the first other device;
A control content table in which the control content of the second other device corresponding to the status notification information received in the status notification information receiving step is associated with the control content of the status notification information and the second other device. A control information generating step for generating control information for controlling the second other device by referring to and acquiring the control information;
A control information transmitting step for transmitting the control information generated in the control information generating step to the second other device;
A program for running On the computer,
An operation content acquisition step for acquiring the operation content input by the user;
State change detection step for detecting the state change of the own machine,
An operation state determination step for determining whether there is a contradiction between the operation content acquired in the operation content acquisition step and the state change detected in the state change detection step;
In the operation state determination step, when it is determined that there is a contradiction between the operation content and the state change, a state notification information transmission step for transmitting state notification information indicating that there is a contradiction to another device,
A program for running

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