JP2014045258A - Remote control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To operate multiple apparatuses on the basis of one recognized voice.SOLUTION: A remote control device includes voice recognition means and operation signal transmission means. The voice recognition means recognizes voice. The operation signal transmission means transmits operation signals respectively to multiple apparatuses on the basis of one voice recognized by the voice recognition means.

Description

  Embodiments described herein relate generally to a remote control device.

Conventionally, home appliances such as air conditioners are operated by communication with a remote control device. For example, turning on or off the air conditioner, changing the set temperature and the set air volume, and the like are input by a remote control device operated by the user. In recent years, in order to make the operation of the device by such a remote control device easier, for example, as disclosed in Patent Document 1, a remote control device using voice recognition has been proposed. A technique for operating a plurality of devices using such a voice recognition type remote control device has been considered.
However, the technique disclosed in Patent Document 1 is configured to store a remote control code for operating a device in advance and select the remote control code corresponding to the recognized voice to operate the device. That is, there is one remote control code selected corresponding to one recognized voice, and therefore only one device can be operated based on one voice.

JP-A-5-268676

  The present embodiment is to provide a remote control device capable of operating a plurality of devices based on one recognized voice.

  The remote operation device according to the present embodiment includes voice recognition means and operation signal transmission means. The voice recognition means recognizes voice. The operation signal transmission unit transmits an operation signal to each of the plurality of devices based on one voice recognized by the voice recognition unit.

Schematic diagram showing a remote control device according to an embodiment and a plurality of devices remotely controlled by the remote control device The schematic perspective view which shows the external appearance of the remote control apparatus by one Embodiment The block diagram which shows roughly the internal structure of the remote control apparatus by one Embodiment The figure which shows schematically an example of the operation command database by one Embodiment. Schematic showing the flow of processing of the remote control device according to one embodiment The figure which shows an example of operation | movement of each apparatus in the wake-up scene by one Embodiment roughly The figure which shows schematically an example of operation | movement of each apparatus in the sleeping scene by one Embodiment. The figure which shows schematically an example of operation | movement of each apparatus in the daytime at-home scene by one Embodiment.

  Hereinafter, a remote control device according to an embodiment will be described with reference to the drawings. As shown in FIG. 1, a remote controller 10 that is a remote control device is configured to be able to communicate with a plurality of appliances 11 such as various home appliances such as an air conditioner 111, a television 112, a lighting device 113, and an automatic cleaning robot 114. ing. The remote controller 10 transmits an operation signal to each of the plurality of devices 11. Each device 11 operates based on the received operation signal. The remote controller 10 is used in a state where it is placed on a table such as a table 12.

  As shown in FIG. 2, the casing 20 of the remote controller 10 is divided into an upper case 21, a side piece 22, and a lower case 23 having a battery lid (not shown) from above in the direction of gravity. The upper case 21, the side piece 22, and the lower case 23 constitute an integral casing 20 by being fitted to each other. Specifically, the upper case 21 is fitted so as to be integrated with the lower case 23 with the side piece 22 interposed therebetween. A battery lid (not shown) is fitted inside the lower case 23. In the case of this embodiment, the lower case 23 is fitted inside the lower surface of the side piece 22.

Next, the internal configuration of the remote controller 10 will be described with reference to FIG.
As shown in FIG. 3, the remote controller 10 includes a control unit 30, a microphone 31, a speaker 32, a mechanical switch 33, a transmission element 34, a reception element 35, a storage unit 36, and the like. The control unit 30 is constituted by a microcomputer having a CPU, a ROM, and a RAM (not shown), and controls the entire remote controller 10 based on a computer program stored in the ROM. Further, the control unit 30 constitutes a voice recognition unit 61, a life scene estimation processing unit 62, a device selection processing unit 63, and an operation signal transmission processing unit 64. The voice recognition unit 61, the life scene estimation processing unit 62, the device selection processing unit 63, and the operation signal transmission processing unit 64 may be realized in hardware as an integrated circuit integrated with the control unit 30, or in a ROM. You may implement | achieve by software by running the stored computer program.

Further, the remote controller 10 is electrically driven by power supplied from the battery 41 or a commercial power source. When driving the remote controller 10 with a commercial power source, the commercial power source is converted from alternating current to direct current with a predetermined voltage via the AC adapter 42 or the like, for example, and supplied to the remote controller 10. The remote controller 10 also has a power supply circuit unit 43. The electric power supplied from the battery 41 or the commercial power supply is supplied to the control unit 30 via the power supply circuit unit 43.
The microphone 31 acquires sound from outside the remote controller 10. The microphone 31 acquires sound through a microphone hole (not shown) provided in the casing 20. The speaker 32 emits sound based on the electrical signal input from the speech synthesizer 321. The voice synthesizer 321 synthesizes voice based on the voice data stored in the storage unit 36. The speaker 32 emits sound to the outside through a speaker hole (not shown) provided in the casing 20. The mechanical switch 33 receives a mechanical input from the user.

  The transmission element 34 and the reception element 35 constitute an integral transmission / reception unit 37. The transmission / reception unit 37 is composed of, for example, a transmission element 34 composed of an infrared LED that emits infrared light, and a reception element 35 composed of a photodiode that receives infrared light. The transmission element 34 constituting the transmission / reception unit 37 outputs an operation signal to each device 11 by irradiating infrared rays. Moreover, the receiving element 35 receives the signal output from each apparatus 11 by receiving infrared rays. As a result, the remote controller 10 and each device 11 communicate with each other wirelessly using infrared rays. FIG. 3 shows only one device 11 for convenience of explanation. Such infrared communication is an example, and wireless communication may be performed by other methods, such as a wireless LAN or Bluetooth (registered trademark), without being limited to infrared communication.

  The storage unit 36 includes a rewritable storage medium such as a flash memory, and stores various information and data. The storage unit 36 may be shared with ROM and RAM. For example, an operation command database DB shown in FIG. 4 is stored in the storage unit 36. In this operation command database DB, data indicating the life scene and data indicating the contents of the operation command output to each device 11 are stored in association with the recognized voice.

  In this case, for example, “wake up” is stored as a life scene in association with the voice “Good morning”, and “ON” is stored as an operation command to be output to the air conditioner 111, “ON” is output as an operation command to be output to the television 112, “ON” is stored as an operation command to be output to the lighting device 113. That is, in this case, among the plurality of devices 11, the air conditioner 111, the television 112, and the lighting device 113 are selected as the operation targets, and other devices such as the automatic cleaning robot 114 are not selected as the operation targets. Is not set. The operation content of each selected device 11 is “ON” and has the same content.

  Further, for example, “sleeping” is stored as a life scene in association with the voice “good night”, “off” as an operation command to be output to the air conditioner 111, “off” as an operation command to be output to the television 112, illumination “OFF” is stored as an operation command to be output to the device 113. In this case, the operation content of the air conditioner 111 can be set by selecting any one of “OFF”, “OFF timer ON”, and “ON timer ON”. The operation content of the lighting device 113 can be set by selecting any one of “off”, “dark illumination on”, and “nightlight on”. As described above, each device 11 can execute a specific operation, and therefore, an operation command for performing a different operation can be set for each device 11. It is also possible to set each individually.

  Further, for example, “going out” is stored as a life scene in association with the voice “I will go”, “off” as an operation command to be output to the air conditioner 111, and “off” as an operation command to be output to the television 112. In addition, “OFF” is stored as an operation command to be output to the lighting device 113, and “ON” is stored as an operation command to be output to the automatic cleaning robot 114. In this case, the operation content of the automatic cleaning robot 114 can be set by selecting any one of “ON” and “OFF”.

  Further, for example, “return home” is stored as a life scene in association with the voice “Ima”, and “ON” is output as an operation command output to the air conditioner 111, “ON” is output as an operation command output to the television 112, illumination “ON” is stored as an operation command to be output to the device 113. That is, in this case, among the plurality of devices 11, the air conditioner 111, the television 112, and the lighting device 113 are selected as the operation targets, and other devices such as the automatic cleaning robot 114 are not selected as the operation targets. Is not set.

  Further, for example, “at home during the day” is stored as a life scene in association with the voice “energy saving”, and “energy saving mode ON” is output as an operation command to be output to all devices 11 that can communicate with the remote controller 10. Stored. Note that the operation command to be output to not all devices 11 that can communicate with the remote controller 10 but some devices 11, for example, the air conditioner 111 that consumes a large amount of power, is set to “energy saving mode on” and output to other devices. It is also possible to set the command to “energy saving mode off”. Further, the voice indicating the energy saving operation is not limited to “energy saving”, but may be set by other voices such as “saving” and “eco”.

  The operation command database DB shown above is an example. Accordingly, in the operation command database DB, various life scenes can be arbitrarily set in association with various voices, and operations output to the respective devices 11 in association with various voices and life scenes. Commands can be set arbitrarily.

  The voice recognition unit 61 corresponds to voice recognition means, and recognizes the voice uttered by the user acquired by the microphone 31. The voice recognition unit 61 recognizes the voice by extracting voice data that matches the voice acquired by the microphone 31 from the voice recognition database stored in the storage unit 36. Note that the voice recognition unit 61 can recognize not only the voice of the user but also, for example, a clap sound.

  The life scene estimation processing unit 62 corresponds to a life scene estimation unit, and estimates the user's life scene by referring to the operation command database DB based on one voice recognized by the voice recognition unit 61. . In this case, for example, when one voice “Good morning” is recognized by the voice recognition unit 61, the life scene estimation processing unit 62 estimates that the user's life scene is “wake up” based on the one voice. To do.

  For example, when one voice “good night” is recognized by the voice recognition unit 61, the life scene estimation processing unit 62 estimates that the user's life scene is “sleeping” based on the one voice. . For example, when one voice “I will go” is recognized by the voice recognition unit 61, the life scene estimation processing unit 62 determines that the user's life scene is “going out” based on the one voice. presume.

  Further, for example, when one voice “immediately” is recognized by the voice recognition unit 61, the life scene estimation processing unit 62 estimates that the user's life scene is “home” based on the one voice. . For example, when one voice “energy saving” is recognized by the voice recognition unit 61, the life scene estimation processing unit 62 determines that the user's life scene is “at home during the day” based on the one voice. Estimated. The life scene shown here is an example, and various life scenes can be arbitrarily set in association with various sounds.

  The device selection processing unit 63 corresponds to a device selection unit, and selects a device according to the life scene estimated by the life scene estimation processing unit 62. In this case, for example, when the life scene estimated by the life scene estimation processing unit 62 is “getting up”, the device selection processing unit 63 uses the air conditioner 111, the television 112, and the lighting device 113 as devices corresponding to the “wake up” scene. Select. That is, the device selection processing unit 63 selects the device 11 in which the operation command is stored in association with the recognized voice “Good morning” and the life scene “Wake up” in the operation command database DB.

  For example, when the life scene estimated by the life scene estimation processing unit 62 is “sleeping”, the device selection processing unit 63 uses the air conditioner 111, the television 112, and the lighting device 113 as devices corresponding to the “sleeping” scene. select. That is, the device selection processing unit 63 selects the device 11 in which the operation command is stored in the operation command database DB in association with the recognized voice “good night” and the life scene “sleeping”. For example, when the life scene estimated by the life scene estimation processing unit 62 is “going out”, the device selection processing unit 63 includes, as devices corresponding to the “outing” scene, the air conditioner 111, the television 112, the lighting device 113, The automatic cleaning robot 114 is selected. That is, the device selection processing unit 63 selects the device 11 in which the operation command is stored in association with the recognition voice “I will go” and the life scene “going out” in the operation command database DB.

  For example, when the life scene estimated by the life scene estimation processing unit 62 is “return home”, the device selection processing unit 63 uses the air conditioner 111, the television 112, and the illumination device 113 as devices corresponding to the “return home” scene. select. That is, the device selection processing unit 63 selects the device 11 in which the motion command is stored in the motion command database DB in association with the recognition voice “Tadaima” and the life scene “return home”. For example, when the life scene estimated by the life scene estimation processing unit 62 is “at home during the day”, the device selection processing unit 63 communicates with the remote controller 10 as a device corresponding to the “at home during the day” scene. Select all possible devices 11. That is, the device selection processing unit 63 selects all the devices 11 whose operation commands are stored in the operation command database DB. The selection pattern of the device 11 described above is an example, and the selection pattern of the device 11 can be arbitrarily set in association with various life scenes. Further, the device selection processing unit 63 can select the device 11 based on the operation command database DB, or the device selection processing unit 63 can independently select the device 11 without using the operation command database DB. Is possible.

  The operation signal transmission processing unit 64 corresponds to an operation signal transmission unit, and the operation corresponding to the operation command database DB stored in the storage unit 36 based on one voice recognized by the voice recognition unit 61. The command is extracted and an operation signal including the operation command is generated. Then, the operation signal transmission processing unit 64 transmits the generated operation signal to each of the plurality of devices 11 via the transmission element 34 of the transmission / reception unit 37. In this case, the operation signal transmission processing unit 64 does not transmit the operation signal to all the devices 11 that can communicate with the remote controller 10, but operates the operation command corresponding to each device 11 selected by the device selection processing unit 63. The operation signal is generated by extracting from the command database DB, and the operation signal is set to be transmitted to each device 11 selected by the device selection processing unit 63.

  For example, when one voice recognized by the voice recognition unit 61 is “good morning”, the operation signal transmission processing unit 64 generates an operation signal including “ON” as an operation signal to be transmitted to the air conditioner 111. An operation signal including “ON” as an operation signal transmitted to the air conditioner 111 and transmitted to the television 112 is generated and transmitted to the TV 112, and an operation signal including “ON” as an operation signal transmitted to the lighting device 113 is generated. It is generated and transmitted to the lighting device 113.

  When one voice recognized by the voice recognition unit 61 is “good night”, the operation signal transmission processing unit 64 generates an operation signal including “OFF” as an operation signal to be transmitted to the air conditioner 111. An operation signal including “OFF” as an operation signal transmitted to the air conditioner 111 and transmitted to the television 112 is generated and transmitted to the television 112, and an operation signal including “OFF” is transmitted as an operation signal to the lighting device 113. It is generated and transmitted to the lighting device 113.

  When one voice recognized by the voice recognition unit 61 is “I will go”, the operation signal transmission processing unit 64 generates an operation signal including “OFF” as an operation signal to be transmitted to the air conditioner 111. Then, an operation signal including “OFF” is generated as an operation signal to be transmitted to the air conditioner 111 and transmitted to the television 112, transmitted to the television 112, and an operation signal including “OFF” is transmitted to the lighting device 113. A signal is generated and transmitted to the lighting device 113, and an operation signal including “ON” is generated as an operation signal to be transmitted to the automatic cleaning robot 114 and transmitted to the automatic cleaning robot 114.

  When one voice recognized by the voice recognition unit 61 is “just now”, the operation signal transmission processing unit 64 generates an operation signal including “ON” as an operation signal to be transmitted to the air conditioner 111. An operation signal including “ON” as an operation signal transmitted to the air conditioner 111 and transmitted to the television 112 is generated and transmitted to the TV 112, and an operation signal including “ON” as an operation signal transmitted to the lighting device 113 is generated. It is generated and transmitted to the lighting device 113.

When one voice recognized by the voice recognition unit 61 is “energy saving”, the operation signal transmission processing unit 64 uses “energy saving mode” as an operation signal to be transmitted to all devices 11 that can communicate with the remote controller 10. An operation signal including “ON” is generated and transmitted to each device 11.
The operation signal transmission processing unit 64 is set to transmit operation signals having different frequencies to each device 11. That is, the operation signal transmission processing unit 64 is set so that the transmission frequency of the operation signal transmitted to each device 11 is different from each other.

  Further, the operation signal transmission processing unit 64 is set to transmit the operation signal to all the devices 11 that can communicate with the remote controller 10 regardless of whether or not the device 11 is selected by the device selection processing unit 63. Is also possible. Further, the operation signal transmission processing unit 64 is set to transmit the operation signal newly generated by the operation signal transmission processing unit 64 to each device 11 instead of the operation signal including the operation command extracted from the operation command database DB. It is also possible to do. Further, the operation signal transmission processing unit 64 can be set to transmit the operation signal to devices 11 other than the device 11 selected by the device selection processing unit 63. Further, when there is a device 11 that can communicate with the remote controller 10 and an operation command corresponding to the device 11 is not stored in the operation command database DB, the device 11 corresponds to the device 11. It is also possible to set so that an operation signal is newly created and transmitted.

Next, the flow of processing by the remote controller 10 having the above configuration will be described.
That is, as shown in FIG. 5, when a voice is input by the user, the control unit 30 of the remote controller 10 recognizes the voice (S101). Then, the control unit 30 estimates the user's life scene based on the recognized one voice (S102). When the control unit 30 estimates the life scene, the control unit 30 selects the device 11 corresponding to the estimated life scene (S103). Then, the control unit 30 generates an operation signal corresponding to the selected device 11 (S104). When the control unit 30 generates an operation signal corresponding to each selected device 11, the control unit 30 transmits the generated operation signal to each device 11 (S105). And each apparatus 11 which received the operation signal from the remote control 10 operate | moves based on the received operation signal, respectively.

Next, an example of the operation of each device 11 by the remote controller 10 having the above configuration will be described.
As illustrated in FIG. 6, for example, when the user utters a voice “Good morning”, the remote controller 10 estimates “wake up” as a life scene, and an air conditioner 111 and a television 112 as the devices 11 corresponding to the “wake up” scene. The lighting device 113 is selected, and an operation signal is transmitted to each of the selected devices 11. And each apparatus 11 which received the operation signal operate | moves based on the received operation signal, respectively. In this case, the air conditioner 111, the television 112, and the lighting device 113 are all turned on.

  As shown in FIG. 7, when the user utters “good night”, the remote controller 10 estimates “sleeping” as the life scene, and the air conditioner 111 and the television 112 as the devices 11 corresponding to the “sleeping” scene. The lighting device 113 is selected, and an operation signal is transmitted to each of the selected devices 11. And each apparatus 11 which received the operation signal operate | moves based on the received operation signal, respectively. In this case, the air conditioner 111, the television 112, and the lighting device 113 are all turned off. For example, the air conditioner 111 can turn on the turn-off timer or turn on the on-timer by individually setting the operation contents in the operation command database DB in advance. The lighting device 113 can turn on dark lighting or turn on a nightlight.

  As shown in FIG. 8, when the user utters “energy saving”, the remote controller 10 estimates “home during the day” as the life scene, and the device 11 corresponding to the “home during the day” scene. All devices 11 that can communicate with the remote controller 10 are selected, and an operation signal is transmitted to each of these selected devices 11. And each apparatus 11 which received the operation signal operate | moves based on the received operation signal, respectively. In this case, all the devices 11 are driven in the energy saving mode.

The remote controller 10 may transmit a plurality of operation signals to be transmitted to each device 11 at the same time or at different timings. When transmitting a plurality of operation signals at different timings, the remote controller 10 may transmit the plurality of operation signals continuously or intermittently at predetermined intervals.
Further, the remote controller 10 is not a dedicated remote controller for the device 11 but may be a portable information terminal such as a mobile phone and a smartphone. In this case, for example, an application that allows a mobile phone and a smartphone to function as the remote controller 10 may be obtained from a network. The remote controller 10 may be shared with a multimedia remote controller such as a personal computer.

The remote operation device according to the present embodiment described above includes voice recognition means and operation signal transmission means. The voice recognition means recognizes voice. The operation signal transmission unit transmits an operation signal to each of the plurality of devices based on one voice recognized by the voice recognition unit. According to this configuration, a plurality of devices can be operated based on one recognized voice.
In addition, the remote operation device according to the present embodiment estimates a user's life scene based on one recognized voice, selects a device according to the estimated life scene, and sends an operation signal to each of the selected devices. Send. Thereby, the user can select and operate a plurality of devices according to the life scene with a simple operation of emitting one sound.
In addition, the remote control device according to the present embodiment transmits operation signals having different frequencies to each device. Thereby, even if an operation signal is transmitted to each of a plurality of devices, they do not interfere with each other, so that each device can be operated accurately.

In addition, the remote operation device according to the present embodiment can transmit an operation signal for performing different operations to each device. Thereby, operation of each apparatus according to each user's life style is attained.
Moreover, the remote operation apparatus which concerns on this embodiment transmits the operation signal for shifting to energy saving operation with respect to each apparatus, when the recognized one audio | voice is an audio | voice which shows energy saving driving | operation. Thereby, each apparatus can be collectively transferred to the energy saving mode, and the user can achieve energy saving by a simple operation of emitting one sound related to energy saving without operating each apparatus separately. it can.
This embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

In the drawings, 10 is a remote control (remote control device), 111 is an air conditioner (device), 112 is a television (device), 113 is a lighting device (device), 114 is an automatic cleaning robot (device), and 61 is a voice recognition unit (voice). (Recognition means), 62 is a life scene estimation processing section (life scene estimation means), 63 is a device selection processing section (device selection means), and 64 is an operation signal transmission processing section (operation signal transmission means).

Claims (5)

Speech recognition means for recognizing speech;
An operation signal transmitting means for transmitting an operation signal to each of a plurality of devices based on one voice recognized by the voice recognition means;
A remote control device comprising: A life scene estimation means for estimating a user's life scene based on one voice recognized by the voice recognition means;
Device selection means for selecting the device according to the life scene estimated by the life scene estimation means;
Further comprising
The remote operation device according to claim 1, wherein the operation signal transmission unit transmits an operation signal to each of the devices selected by the device selection unit.   The remote operation device according to claim 1, wherein the operation signal transmission unit transmits an operation signal having a different frequency to each device.   The remote operation device according to any one of claims 1 to 3, wherein the operation signal transmission unit transmits an operation signal for performing different operations to each device. The operation signal transmission unit transmits an operation signal for shifting to an energy saving operation to each device when one voice recognized by the voice recognition unit is a voice indicating an energy saving operation. The remote control device according to any one of 1 to 4.

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