KR101953154B1 - AI speaker system for wireless communicating at high speed - Google Patents

Abstract

The present invention relates to an artificial intelligent (AI) speaker system for wireless communications at a high speed, which is capable of transmitting image information to be outputted in a process where a voice command is recognized through an AI engine of a mobile terminal and the recognized voice command is processed to a display device in high speed wireless communications. According to the present invention, the AI speaker system includes: a voice inputting part for inputting voice; a controller for producing voice information on the basis of the inputted voice, determining a voice command corresponding to the produced voice information, and processing the determined voice command; an image wireless transmitter for transmitting image information to be outputted in the process where the determined voice command is processed; and an image wireless receiver for receiving the image information from the image wireless transmitter. Even if the AI speaker system is not connected to a server in which an AI engine is provided, the voice command is recognized through the AI engine of a mobile terminal, so that the system can be normally operated, and the image information to be outputted in the process where the determined voice command is processed is transmitted to the display device in non-compression, zero-delay, and high speed wireless communication manners.

Description

[0001] The present invention relates to an AI speaker system for performing high-speed wireless communication,

The present invention relates to an artificial intelligent speaker system, and more particularly, to an artificial intelligent speaker system that performs high-speed wireless communication.

Artificial Intelligence (AI) Speakers is a voice-based platform user interface that acts as a mediator to help users easily communicate with machines by applying speech recognition technology to speakers used for conventional music listening or radio listening UI) device.

In recent years, global IT companies such as Amazon, Google, Apple, and SK Telecom, KT, Naver, and Samsung Electronics have actively engaged in technology development and product launches for AI speakers.

However, such an AI speaker must be connected to a server equipped with an AI engine for information processing for receiving the user's voice and interpreting voice commands corresponding to the received voice.

Therefore, there is a disadvantage that the artificial intelligent speaker fails to operate normally when the AI engine is not connected to the server.

Therefore, even if an artificial intelligent speaker can not connect to a server provided with an artificial intelligence (AI) engine, a search for a way to operate normally is required.

Korean Patent Laid-Open No. 10-2018-0116100 (entitled "Artificial Intelligent Speaker for Human Interface Processing Based on Dialogue Continuity Identification by Eye-Recognition) Korean Patent Laid-Open No. 10-2015-0047803 (entitled " Artificial Intelligent Audio Device &

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an artificial intelligent speaker system which recognizes a voice command using an artificial intelligence engine of a mobile terminal, And transmits the information to the display device through a high-speed wireless communication system.

In addition, another object of the present invention is to provide an artificial intelligent speaker system that transmits image information to be outputted in a process of processing a voice command to a display device in a non-compressed manner.

According to an aspect of the present invention, there is provided an artificial intelligent speaker system for performing high-speed wireless communication, comprising: a voice input unit for inputting voice; A controller for generating voice information based on the input voice, determining a voice command corresponding to the generated voice information, and processing the determined voice command; An image wireless transmission unit for causing the control unit to transmit image information to be output in processing the determined voice command; And a video wireless receiver for receiving the video information from the video wireless transmitter; .

The image wireless transmission unit may include a plurality of data transmission lanes, and the first high-speed RF unit may transmit the image information to the image wireless receiving unit using at least one data transmission lane among the plurality of data transmission lanes. ; A first low-speed RF unit having one communication terminal, the one communication terminal performing a bidirectional communication with the video wireless receiving unit by performing a transmission part or a receiving part in a crossing manner; And a first image radio control unit for determining a number of data transmission lanes to be used for transmitting the image information among a plurality of data transmission lanes provided in the first high speed RF unit, A second high speed RF unit including a reception lane for receiving the image information using at least one data reception lane among the plurality of data reception lanes; A second low-speed RF unit having one communication terminal, wherein the one communication terminal performs a function as a transmitting unit or a receiving unit to perform bidirectional communication with the first low-speed RF unit; And a second image wireless controller for determining a number of data receiving lanes to be used for transmitting the image information among the plurality of data receiving lanes provided in the second high speed RF unit.

The first video wireless control unit and the second video wireless control unit may control the number of data transmission lanes used for high-speed wireless communication of the video information according to the data size of the video information to be output in the process of processing the voice command, The number of data receiving lanes can be determined.

In addition, the first high-speed RF unit and the second high-speed RF unit may transmit the image information to be output in a process of processing the voice command in a non-compression manner through a millimeter wave (mmWave) frequency band.

Meanwhile, the artificial intelligent speaker system performing the high-speed wireless communication according to the present embodiment further includes a short range wireless communication unit for establishing wireless connection with the mobile terminal, wherein when the voice information is received from the voice input unit, The received voice information may be transmitted to the mobile terminal wirelessly connected through the short-range wireless communication, and the voice command corresponding to the voice information may be determined using the AI engine provided in the mobile terminal.

When the received voice information is transmitted to the wirelessly connected mobile terminal, the controller converts the received voice information into text information, receives the converted text information from the mobile terminal, And if the result of the determination of the voice command is determined to be a voice command that is not in the list of the previously stored voice command, the voice command is transmitted again to the wirelessly connected mobile terminal, It is possible to cause a voice command not in the list of voice commands to be processed.

The control unit may transmit a control signal corresponding to the IoT control command to the IoT appliances wirelessly connected through the short-range wireless communication if the determination result of the voice command is an IoT control command.

The video wireless receiving unit may be connected to a display device, which is separately provided, to output the received video information.

Accordingly, even when the artificial intelligent speaker can not connect to the server provided with the artificial intelligent engine, the artificial intelligent engine of the mobile terminal can recognize the voice command and operate normally, The image information can be transmitted to the display device in a non-compression, delay-free, high-speed wireless communication manner, thereby improving the user's convenience.

1 is a diagram illustrating a configuration of an artificial intelligent speaker system that performs high-speed wireless communication according to an embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating an image wireless transmission unit of an artificial intelligent speaker system that performs high-speed wireless communication according to an embodiment of the present invention.
3 is a schematic diagram illustrating an image wireless receiver of an artificial intelligent speaker system that performs high-speed wireless communication according to an exemplary embodiment of the present invention.
4 is a diagram illustrating a configuration of an image wireless transmitter and an image wireless receiver of an artificial intelligent speaker system that performs high-speed wireless communication according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a process in which an artificial intelligent speaker system performing high-speed wireless communication according to an embodiment of the present invention determines a voice command corresponding to voice information in cooperation with a mobile terminal.
6 is a diagram illustrating a process of transmitting image information to be output in the process of processing a voice command by the artificial intelligent speaker system performing high-speed wireless communication according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided as examples for allowing a person skilled in the art to sufficiently convey the ideas of the present invention. The present invention is not limited to the embodiments described below and may be embodied in other forms.

FIG. 1 is a view for explaining a configuration of an artificial intelligent speaker system (hereinafter referred to as 'artificial intelligent speaker system') performing high-speed wireless communication according to an embodiment of the present invention. FIG. 3 schematically illustrates an image wireless receiver 600 of an artificial intelligent speaker system according to an exemplary embodiment of the present invention. Referring to FIG. 3, Fig.

The artificial intelligent speaker system according to the present embodiment recognizes a voice command using the artificial intelligence engine 12 provided in the mobile terminal 10 so as to operate normally even when the artificial intelligent speaker system can not connect to the server provided with the artificial intelligent engine, And is provided for transmitting the image information to be output in the process of processing a voice command to the display device 20 in a non-compression, delay-free, high-speed wireless communication manner.

Specifically, the artificial intelligent speaker system is wirelessly connected to the mobile terminal 10, and when a voice is inputted from the user, the voice is generated by recording the input voice, and the voice communication is performed by the local communication module 11, the AI engine 12 ), The voice conversion module 13, and the wired communication interface 14 to determine a voice command corresponding to the voice information to process the voice command, and a process of processing the voice command The image information to be output at the display device 20 can be transmitted to the display device 20 and output.

The artificial intelligent speaker system includes an audio input unit 100, a controller 200, a short range wireless communication unit 300, a first wired communication interface unit 400, a video wireless transmission unit 500, a video wireless reception unit 600, A second wired communication interface unit 700, and an audio output unit (not shown).

The voice input unit 100 may be implemented by a device such as a microphone, so that a user's voice may be input.

When the user's voice is input through the voice input unit 100, the control unit 200 generates voice information by allowing the voice input to be recorded, determines a voice command corresponding to the generated voice information, Lt; / RTI >

Specifically, the control unit 200 can generate voice information and transmit the generated voice information to the mobile terminal 10 via the short-distance wireless communication unit 300 or the first wired communication interface unit 400. [

At this time, an application provided by the artificial intelligent speaker system is installed in the mobile terminal 10. When the voice information is received, the voice information received using the AI engine 12 and the voice conversion module 13 is converted into text information And transmit the converted signal to the control unit 200.

When the text information is received, the controller 200 compares the text information with a list of previously stored voice commands, and determines a corresponding voice command in the list of previously stored voice commands.

The short range wireless communication unit 300 may wirelessly connect with the short range communication module 11 in a Bluetooth or beacon manner to enable short range wireless communication between the artificial intelligent speaker system and the mobile terminal 10. [

The first wired communication interface unit 400 may be implemented as a USB standard connector or a USB type -C connector to enable wired communication between the artificial intelligent speaker system and the mobile terminal 10 through the wired communication interface 14 have.

The image wireless transmission unit 500 may wirelessly communicate with the image wireless transmission unit 600 and may transmit the image information to be output to the image wireless transmission unit 600 in the process of processing a voice command.

2, the image wireless transmission unit 500 is connected to the mobile terminal 10 wirelessly or wired, and transmits image information to be output in the course of processing the voice command to the controller 200. [ To the receiving unit (600).

The video wireless receiver 600 is wirelessly connected to the video wireless transmitter 500 and connected to the display device 20 as shown in FIG. 3 so that the received video information is output through the display device 20 .

The second wired communication interface unit 700 may be implemented as a USB type -C connector or a USB type-C based DP to HDMI converter so that the image wireless receiving unit 600 can be wired to the display device 20, The voice output unit may be implemented by a device such as a speaker to output voice information.

FIG. 4 is a diagram illustrating a configuration of an image wireless transmission unit 500 and an image wireless reception unit 600 of an artificial intelligent speaker system according to an embodiment of the present invention.

4, the image wireless transmission unit 500 includes a first high-speed RF unit 510, a first low-speed RF unit 510, a second low-speed RF unit 510, And a first image wireless controller 530. The image wireless receiver 600 may be wirelessly connected to the image wireless transmitter 500 and may be wired to the display device 20, A second low speed RF unit 620 and a second video wireless control unit 630 to enable information to be output through the display device 20. [

The first high speed RF unit 510 may include a plurality of data transmission lanes and may transmit image information to the image wireless receiver 600 using at least one data transmission lane among the plurality of data transmission lanes.

Specifically, for example, the first high-speed RF unit 510 may be implemented with a 60 GHz RF transmission terminal, and four data transmission lanes may be provided from the first data transmission lane to the fourth data transmission lane.

Although the data transmission lane and the data reception lane are shown as DP lanes in FIG. 4, the data transmission lane and the data reception lane can also be applied as the HDMI lane. In order to receive the image data, The data transmission lane is implemented as a DP lane, and the data reception lane can also be implemented as an HDMI lane. However, a lane implemented as an HDMI lane among a data transmission lane and a data reception lane can not control the number of data transmission lanes or data reception lanes used when data is transmitted or received, and data transmission or reception Can be performed.

The first low-speed RF unit 520 is provided with one communication terminal, and one communication terminal can perform the bidirectional communication with the image wireless receiver 600 by performing the role of the transmitter or receiver in a cross-over manner.

The first image wireless controller 530 can determine the number of data transmission lanes used for transmitting image information among the plurality of data transmission lanes provided in the first high speed RF unit 510. [

When the video wireless transmission unit 500 is connected to the mobile terminal 10 in a wired manner, the first video wireless control unit 530 determines the number of data transmission lanes through the first wired communication interface unit 400, When the video information is received from the terminal 10, the received video information may be transmitted to at least one data transmission lane determined to be used for transmitting the video information.

The second high-speed RF unit 610 may include a plurality of data receiving lanes, and may receive image information using at least one data receiving lane among the plurality of data receiving lanes.

Specifically, for example, the second high-speed RF unit 610 is implemented with a 60 GHz RF receiving terminal, and four data receiving lanes may be provided from the first data receiving lane to the fourth data receiving lane.

In this case, the first high-speed RF unit 510 and the second high-speed RF unit 610 may transmit the image information to be output in a process of processing a voice command through a millimeter wave (mmWave) can do.

The second low-speed RF unit 620 is provided with one communication terminal, and one communication terminal can perform a bidirectional communication with the first low-speed RF unit 520 by performing a transmission or reception function in a cross- .

That is, the first low-speed RF unit 520 and the second low-speed RF unit 620 are implemented in a 1-Wire communication structure that performs transmission or reception alternately with one signal line, When the first low-speed RF unit 520 transmits, the second low-speed RF unit 620 receives, and when the second low-speed RF unit 620 transmits, the first low- The mobile station 520 can receive data.

The second image radio control unit 630 can determine the number of data receiving lanes used for transmitting the image information among the plurality of data receiving lanes provided in the second high speed RF unit 610.

Specifically, the first video radio control unit 530 and the second video radio control unit 630 determine that the number of data transmission lanes and the number of data reception lanes used for high-speed wireless communication of video information are the same, The number of data transmission lanes and the number of data reception lanes used for high-speed wireless communication of image information are determined according to the data size of image information to be output, the number of currently available data transmission lanes, and the number of data reception lanes .

When the image wireless receiving unit 600 is connected to the display device 20 in a wired manner, the second image wireless control unit 630 determines the number of data receiving lanes based on at least one data It is possible to receive the image information through the reception lane and transmit the received image information to the display device 20 via the second wired communication interface unit 700. [

FIG. 5 is a diagram for explaining a process in which an artificial intelligent speaker system according to an embodiment of the present invention determines a voice command corresponding to voice information in cooperation with a mobile terminal 10. FIG.

5, when the user's voice is inputted through the voice input unit 100 in order to determine a voice command corresponding to the voice information in cooperation with the mobile terminal 10, the present artificial intelligent speaker system includes a controller 200 (S510), and transmits the generated voice information to the mobile terminal 10 through the short-distance wireless communication unit 300 or the first wired communication interface unit 400 (S520).

When the voice information is received, the mobile terminal 10 converts the received voice information into text information using the AI engine 12 and the voice conversion module 13 (S530) and transmits the converted voice information to the control unit 200 (S540).

If the text information is received, the control unit 200 compares the text information with a list of previously stored voice commands to determine a corresponding voice command in the list of previously stored voice commands (S550).

At this time, the list of pre-stored voice commands includes a command for activating the standby state of the voice command and an IoT control command for controlling the IoT appliances including the wirelessly-connected display device 20.

That is, the control unit 200 determines whether the voice command is a command for activating a standby state for transmitting a specific voice command, an IoT control for controlling the IoT appliances including the wirelessly connected display apparatus 20, The voice command is transmitted to the mobile terminal 10 again and the voice command is transmitted to the mobile terminal 10 using the AI engine 12 provided in the mobile terminal 10. [ Can be processed.

If the determination result of the voice command is a command for activating a standby state such as 'OK GOOGLE' or 'HIGH BIG RATE', the control unit 200 maintains the standby state, and responds to the voice information input after the standby state And if the result of the voice command determination is an IoT control command such as 'TV ON / OFF', 'Channel UP / DOWN', or 'Volume UP / DOWN' It is possible to transmit a control signal corresponding to the IoT control command to the IoT appliances including the connected display device 20.

6 is a diagram illustrating a process of transmitting image information to be output in the process of processing a voice command by the artificial intelligent speaker system according to an embodiment of the present invention.

6, when the user's voice is input through the audio input unit 100, the control unit 200 controls the input unit 200 to transmit image information to be output in the process of processing a voice command, The generated voice information can be transmitted to the mobile terminal 10 via the short-range wireless communication unit 300 or the first wired communication interface unit 400 (S615) ).

If the text information is received (S620), the control unit 200 compares the text information with a list of previously stored voice commands to determine a corresponding voice command in the list of previously stored voice commands (S625).

In step S630, the control unit 200 determines whether it is necessary to output the video information in the process of processing the voice command according to the result of the voice command. If it is determined that the video information should be output (Yes in step S630) The image information to be output through the wireless communication unit 300 or the first wired communication interface unit 400 may be received from the mobile terminal 10 at step S635.

When the image information is received, the image wireless transmission unit 500 and the image wireless reception unit 600 calculate the number of data transmission lanes used for high-speed wireless communication of image information and the number of data reception lanes (S640). At this time, it is preferable that the number of data transmission lanes and the number of data reception lanes are determined to be the same.

Specifically, when the number of data transmission lanes and the number of data reception lanes are determined, the video wireless transmission unit 500 and the video wireless reception unit 600 compare the number of each determined lane with the number of currently available lanes (S645). If the number of currently available lanes is greater than or equal to the determined number of lanes (S650-No), high-speed wireless communication of video information is performed using the determined number of data transmission lanes and data reception lanes (S655).

If the number of currently available lanes is smaller than the number of determined lanes (S650-Yes), the image wireless transmission unit 500 and the image wireless reception unit 600 are set to the number of currently available lanes (S660), the number of each lane that is continuously available is determined (S665), and the number of each available lane is changed (S670-Yes), the number of determined lanes and the number of available available lanes are compared again, and the data transmission lanes and the data reception lanes corresponding to the determined number of the respective lanes can be used , So that the data transmission efficiency of the high-speed wireless communication can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: mobile terminal 11: local communication module
12: Artificial Intelligence Engine 13: Voice Transformation Module
14: Interface for wired communication
20: display device 100: voice input unit
200: control unit 300: short-
400: first wired communication interface unit 500: video wireless transmission unit
510: first high speed RF unit 520: first low speed RF unit
530: first image wireless controller 600: image wireless receiver
610: second high speed RF unit 620: second low speed RF unit
630: second image wireless control unit 700: second wired communication interface unit

Claims (8)

A voice input unit for inputting voice;
A controller for generating voice information based on the input voice, determining a voice command corresponding to the generated voice information, and processing the determined voice command;
An image wireless transmission unit for causing the control unit to transmit image information to be output in processing the determined voice command;
A video wireless receiver for receiving the video information from the video wireless transmitter; And
And a short range wireless communication unit for establishing wireless connection with the mobile terminal,
Wherein the image wireless transmission unit comprises:
A first high speed RF unit having a plurality of data transmission lanes and transmitting the video information to the video wireless receiver using at least one data transmission lane among the plurality of data transmission lanes;
A first low-speed RF unit having one communication terminal, the one communication terminal performing a bidirectional communication with the video wireless receiving unit by performing a transmission part or a receiving part in a crossing manner; And
And a first image wireless controller for determining the number of data transmission lanes used for transmitting the image information among the plurality of data transmission lanes provided in the first high speed RF unit,
Wherein the video wireless receiver comprises:
A second high-speed RF unit having a plurality of data receiving lanes for receiving the image information using at least one data receiving lane among the plurality of data receiving lanes;
A second low-speed RF unit having one communication terminal, wherein the one communication terminal performs a function as a transmitting unit or a receiving unit to perform bidirectional communication with the first low-speed RF unit; And
And a second image wireless controller for determining the number of data receiving lanes used to transmit the image information among the plurality of data receiving lanes provided in the second high speed RF unit,
Wherein the first video wireless control unit and the second video wireless control unit comprise:
Wherein the number of data transmission lanes and the number of data reception lanes used for high-speed wireless communication of the image information are determined according to a data size of image information to be output in processing the voice command,
Wherein the first video wireless control unit and the second video wireless control unit comprise:
If the number of currently available data transmission lanes and the number of data reception lanes are less than the determined number of data transmission lanes and the number of data reception lanes so that the data transmission efficiency of high speed wireless communication is improved, Speed wireless communication of video information using data transmission lanes and data reception lanes for the number of data reception lanes,
When the number of available data transmission lanes and the number of data reception lanes are changed by determining the number of continuously available data transmission lanes and the number of data reception lanes, the number of determined data transmission lanes and the number of data reception lanes, The number of possible data transmission lanes and the number of data reception lanes are compared again so that the data transmission lanes and the data reception lanes corresponding to the determined number of data transmission lanes and the number of data reception lanes are used,
Wherein,
And transmitting the voice information to the mobile terminal wirelessly connected through the short-range wireless communication when the voice information is received from the voice input unit, and using the artificial intelligence engine provided in the mobile terminal, , ≪ / RTI >
And converting the received voice information to text information when the voice information is transmitted to the wirelessly connected mobile terminal, receiving the converted text information from the mobile terminal to determine a corresponding voice command in the list of previously stored voice commands ,
Determining whether it is necessary to output the image information in the process of processing the voice command according to the determination result of the voice command,
If the result of the determination of the voice command is determined to be a voice command that is not included in the list of the previously stored voice command, the mobile terminal transmits the voice command to the wirelessly connected mobile terminal by using the AI engine, So that the voice command is processed. delete delete The method according to claim 1,
The first high speed RF unit and the second high speed RF unit,
Wherein the image information to be output in the course of processing the voice command is transmitted through the millimeter wave frequency band in a non-compressed manner. delete delete The method according to claim 1,
Wherein,
Wherein the controller transmits a control signal corresponding to the IoT control command to the IoT appliances wirelessly connected through the short-range wireless communication if the determination result of the voice command is an IoT control command. system. The method according to claim 1,
Wherein the video wireless receiver comprises:
Wherein the controller is connected to a separate display device so as to output the received image information.

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