KR20170007223A - Portable device and docking station providing extended voice recognition service - Google Patents

Abstract

Disclosed are a portable device and docking station for providing an extended voice recognition service. The portable device according to an embodiment of the present invention includes a voice input unit which receives voice data from a user, a connection unit which is connected with the docking system, and a control unit which senses the connection with the docking station and converts an operation mode from a handheld mode to a docking mode in response to the connection. The control unit generates a command corresponding to the voice data based on the operation mode and transmits the command to the docking station. Accordingly, the user can conveniently receive information by using the portable device supporting voice recognition and can transmit the command to other devices.

Description

TECHNICAL FIELD [0001] The present invention relates to a portable device and a docking station for providing extended voice recognition service,

The following embodiments relate to speech recognition technology, and more particularly to speech recognition technology that provides extended services through a docking station.

2. Description of the Related Art [0002] With the recent spread of various electronic devices, active research has been conducted on interface methods of these electronic devices. Speech recognition technology is attracting users because of its convenience. It is important to know how accurately the speech recognition technology can recognize the speech recognition and what services are to be provided through the recognized speech.

Open No. 10-2014-0071208 relating to voice recognition discloses a portable device and a method for providing a voice recognition service. The above-described patent discloses distinguishing between the active state and the inactive state of the speech recognition state, and provides a service on the basis thereof.

In order to further expand the speech recognition technology, a device supporting speech recognition should be portable. In addition, the device is required to have extensibility capable of supporting various functions. Therefore, it is necessary to introduce a speech recognition device that meets these requirements.

The embodiments described below are intended to provide a voice recognition device that is convenient and portable for users.

The portable device according to claim 1, further comprising: a voice input unit for receiving voice data from a user; A connection unit connected to the docking station; And a control unit for detecting a connection with the docking station and switching an operation mode from a handheld mode to a docking mode in response to the connection, And generates a command corresponding to the voice data.

Wherein the controller associates the voice data with the first instruction set when the operation mode is the handheld mode and transmits the voice data to the second instruction set when the operation mode is the docking mode .

The second instruction set may include a request for information on the environment around the docking station and a control command for controlling the docking station according to an analysis result of the voice data.

The control command may include an active control command for arbitrarily controlling the operation of the docking station and a manual control command for accepting or rejecting the proposed operation of the docking station.

The control unit may output a docking request message for requesting docking to the docking station when the information request or the control command is received in the handheld mode.

The portable device comprising: a voice processing unit for analyzing the voice data in the handheld mode; And a communication unit for transmitting the voice data to the voice processing server in the docking mode. The voice processing server can transmit the voice data interpretation result to the communication unit.

The connection may be in physical contact with the docking station.

A docking station according to one side for connecting to a portable device and receiving a command corresponding to user's voice data from the portable device through the connection; A sensing unit configured to generate first sensing data for a region to be controlled; A communication unit for receiving second sensing data for an outer area of the control subject area from a link service server; And a controller for performing an operation corresponding to the command based on at least one of the first sensing data and the second sensing data.

If the command is an information request, the controller generates environment information based on the information request based on at least one of the first sensing data and the second sensing data, and provides the environment information to the portable device have.

The environment information may include internal environment information based on the first sensing data and external environmental information based on the second sensing data.

When the command is an active control command for arbitrarily controlling the operation of the docking station, the controller may control the peripheral devices of the docking station according to the command.

The peripheral devices may include at least one of a temperature control device, an air purifying device, or a lighting device.

The control unit may generate the proposed operation information based on a comparison result of at least two of the first sensing data, the second sensing data, and the reference data.

The suggested operation information may include information regarding a temperature adjustment operation, an air purification operation, or an illumination adjustment operation.

The control unit may control the peripheral devices of the docking station according to the manual control command as the manual control command for accepting the proposed operation from the portable device is received within a predetermined time period.

A method of operating a portable device according to one side comprises: receiving voice data from a user; Switching an operation mode from a handheld mode to a docking mode in accordance with the connection with the docking station; And generating a command corresponding to the voice data based on the operation mode.

Wherein generating the instruction corresponding to the voice data based on the operation mode comprises: generating a command corresponding to the voice data in the first instruction set when the operation mode is the handheld mode; And generating a command corresponding to the voice data in a second instruction set when the operation mode is the docking mode.

A method of operating a docking station along one side comprising: connecting to a portable device; Receiving a command corresponding to user's voice data from the portable device through the connection; Receiving first sensing data for a region to be controlled and second sensing data for an outer region of the region to be controlled; And performing an operation corresponding to the command based on at least one of the first sensing data and the second sensing data.

According to the embodiments described below, users can conveniently receive information or transmit commands to other devices using a portable device supporting speech recognition.

1 is a view for explaining a speech recognition system according to an embodiment;
2 is a view for explaining a switching process of an operation mode according to an embodiment;
3 is a diagram illustrating a process of providing environmental information and transferring a control command according to an embodiment;
4 is a view for explaining a process of transmitting a control command according to another embodiment;
5 is a diagram for explaining a process of determining a proposed operation according to an embodiment;
6 illustrates a portable device according to one embodiment.
7 illustrates a docking station according to one embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements. The embodiments described below can be applied to a speech recognition interface. For example, it can be used to provide various information through voice recognition of a user or to control various devices through user's voice. According to embodiments described below, mobility and scalability of speech recognition devices can be provided.

1 is a view for explaining a speech recognition system according to an embodiment.

Referring to FIG. 1, a voice recognition system according to an embodiment includes a portable device 100, a voice processing server 300, a docking station 500, a connection service server 700, and a peripheral device 900. The speech recognition system interprets the user's voice data received by the portable device 100 to provide specific information to the user or control various devices such as the peripheral device 900. [

The portable device 100 includes a voice input unit 110, a voice processing unit 120, a communication unit 130, a control unit 140, and a connection unit 150. In addition, the portable device 100 may include other modules needed to perform the operations described below.

The voice input unit 110 receives voice data from a user. The voice input unit 110 may include at least one microphone for receiving voice data. At least one microphone may support multi-channel.

The voice processing unit 120 interprets the voice data. The voice processing unit 120 can perform Speech to Text (SST) processing and natural language processing on voice data and can perform semantic analysis.

According to one aspect, the voice processing unit 120 can transmit voice data to the voice processing server 300 through the communication unit 130 when the voice data can not be analyzed semantically. That is, since there is a limit to the types of audio data that can be processed by the audio processing unit 120 for portability of the portable device 100, in this case, the audio processing unit 120 may support the external audio processing server 300 The voice data can be interpreted.

According to another aspect, the voice processing unit 120 can determine the processing method of voice data according to the operation mode of the portable device 100. [ As will be described in detail below, the operation mode of the portable device 100 may include a handheld mode in which portability is guaranteed, and a docking mode in which the portable device 100 is connected to the docking station 500. The voice processing unit 120 can process voice data in a handheld mode and the voice processing server 300 can process voice data in a docking mode. That is, when the operation mode of the portable device 100 is the docking mode, the voice processing unit 120 can transmit the voice data to the voice processing server 300 through the communication unit 130. [ The communication unit 130 may form a communication connection with the voice processing server 300 and the connection service server 700 according to various communication standards. The voice processing server 300 may transmit the analysis result of the voice data to the voice processing unit 120 or the control unit 130. [

The control unit 140 may determine the overall operation of the portable device 100 or may control various modules included in the portable device 100. The control unit 140 detects the connection between the portable device 100 and the docking station 500 and transmits the operation mode of the portable device 100 from the handheld mode to the docking mode in response to the connection Switch. The connection may include a physical connection, a communication connection, and an electrical connection. The physical connection is described below as an example.

The control unit 140 generates a command corresponding to the voice data based on the operation mode of the portable device 100. [ For example, when an unsupported command is received in the handheld mode, the control unit 140 may output a docking request message to the user requesting docking to the docking station 500. The docking request message may be output through at least one of visual, auditory, or tactile feedback. For example, an information request related to the docking station 500 or a control command for the docking station 500 may be provided only in the docking mode. In this case, the control unit 140 may output a docking request message in response to the information request or the control command received in the handheld mode. The portable device 100 may include various types of output units for outputting a docking request message.

In addition, the control unit 140 can associate voice data of the user with different instruction sets according to the operation mode of the portable device 100. [ For example, when the operation mode of the portable device 100 is the handheld mode, the control unit 140 corresponds to the first instruction set, and when the operation mode of the portable device 100 is in the docking mode, , The voice data can be made to correspond to the second instruction set.

The first set of instructions may be related to functions provided on the portable device 100 itself or on the communication link between the portable device 100 and the associated service server 700. For example, the first instruction set may include instructions for retrieving, executing, and controlling multimedia content stored in the portable device 100. [ In addition, the first instruction set may include instructions for retrieving, executing, and controlling contents on the Internet, which may be provided through the communication unit 130 and the connection service server 700. [

The second instruction set may relate to a function provided through the connection of the portable device 100 and the docking station 500. For example, the second instruction set may include environmental information requests around the docking station 500 via the sensing unit 540 of the docking station 500, peripheral devices 900 connected to the docking station 500 or the docking station 500, Lt; RTI ID = 0.0 > a < / RTI > According to one aspect, the control command may include an active control command for arbitrarily controlling the operation of the docking station 500 and a manual control command for accepting or rejecting the proposed operation of the docking station 500. The proposal operation will be described in detail later with the control operation proposed by the docking station 500 by the predetermined judgment algorithm to the user.

The connection unit 150 connects with the docking station 500. Here, the connections may include physical connections, communication connections, and electrical connections. For example, the connection unit 150 may physically contact the docking station 500 and may communicate with the docking station 500 via a communication connection such as a USB (Universal Serial Bus) connection. 500. The portable device 100 may include an output unit for informing a user of the operation mode of the portable device 500. When the connection of the connection unit 150 is detected, The control unit 140 may switch the operation mode of the portable device 500 to the docking mode and inform the user that the operation mode of the portable device 500 is the docking mode through the output unit. May transmit commands to the docking station 500 according to the voice data through the connection unit 150. [

The docking station 500 includes a connection unit 510, a control unit 520, a communication unit 530, and a sensing unit 540. The docking station 500 may perform operations according to commands of the portable device 100 when the portable device 100 operates in a docking mode.

The connection unit 510 connects with the portable device 100. The connection unit 510 can be connected to the connection unit 150 of the portable device 100. As described above, a connection may include physical connections, communication connections, and electrical connections. The connection unit 510 receives a command corresponding to user's voice data from the portable device 100 through the connection.

The control unit 520 performs an operation corresponding to a command received through the connection unit 510. [ For example, the control unit 520 may transmit environment information to the portable device 100 according to a user's information request, or may control the docking station 500 or the peripheral device 900 according to a control command of the user, The information about the proposed operation can be transmitted to the portable device 100. [

The control unit 520 can perform an operation corresponding to a command received from the portable device 100 based on various sensing data. The sensing data may include first sensing data related to a control subject area and second sensing data with respect to an outer area of the control subject area. For example, when the docking station 500 is located at the user's home, the control subject area may mean an indoor area, and the outer area may mean an outdoor area. In addition, when the docking station 500 is located in the living room of the home, the controlled area may correspond to the living room, and the external area may refer to the remaining space excluding the living room in the home. As will be described in detail below, the first sensing data may be generated by the sensing unit 540, and the second sensing data may be generated by the linking service server 700.

The control unit 520 may perform an operation corresponding to a command based on at least one of the first sensing data and the second sensing data. For example, when the command is an information request, the controller 520 generates environment information according to the information request based on at least one of the first sensing data and the second sensing data, and transmits the environment information to the portable device 100. [ As shown in FIG. Here, the environmental information may include temperature, humidity, illuminance and air cleanliness. If the command is related to the indoor environment, the control unit 520 may provide the indoor environment information based on the first sensing data. If the command is related to the outdoor environment, the control unit 520 may provide the outdoor environment information based on the second sensing data.

In addition, when the command is an active control command for arbitrarily controlling the operation of the docking station 500, the controller 520 may control the peripheral device 900 of the docking station 500 according to the command. Here, the peripheral device 900 may include a temperature control device 910, an air cleaning device 920, and a lighting device 930. For example, when a user who has received the indoor environment information from the docking station 500 transmits a room temperature control command through the portable device 100, the docking station 500 controls the temperature controller 910 to adjust the room temperature Can be controlled.

According to one aspect, the control unit 520 can determine the suggestion operation based on the sensed data, and can provide the user with information about the suggestion operation. The user can determine whether to accept the proposed operation and send a response signal to the docking station 500. [ For example, the control unit 520 can transmit the information on the proposed operation to the portable device 100, and upon receiving the manual control command for accepting the proposed operation from the portable device 100 within the predetermined time period, 900) according to the manual control command. The process of determining the proposed operation will be described in detail later.

The communication unit 530 can communicate with the connection service server 700 and the peripheral device 900. The communication unit 530 may receive the second sensing data from the connection service server 700 and provide the second sensing data to the control unit 520. The communication unit 530 may receive information on the operation status of the peripheral device 900 from the peripheral device 900 or may transmit a control command of the control unit 520 to the peripheral device 900. [ The communication unit 530 may establish a communication connection with the connection service server 700 and the peripheral device 900 according to various communication standards.

The sensing unit 540 generates the first sensing data. The sensing unit 540 may include various sensor modules for generating the first sensing data. For example, the sensing unit 540 may include various sensors such as an optical sensor, a proximity sensor, an image sensor, an acceleration sensor, a GPS sensor, a magnetic sensor, a tilt sensor, an environmental sensor, and a weather sensor. The sensing unit 540 may provide the generated first sensing data to the controller 520. [

FIG. 2 is a diagram for explaining a process of switching an operation mode according to an embodiment.

Referring to FIG. 2, in step 1100, the portable device 100 determines whether the portable device 100 and the docking station 500 are docked. The docking status can be determined based on at least one of a physical connection, an electrical connection, and a communication connection. As described above, the portable device 100 can switch the operation mode of the portable device 100 depending on whether the portable device 100 is docked or not. In step 1300, the portable device 100 may determine the operation mode of the portable device 100 as a handheld mode in response to the docking status not being confirmed. In step 1500, the portable device 100 may determine the operation mode of the portable device 100 as a docking mode in accordance with the confirmed docking state. As described above, the portable device 100 can apply a different voice processing process according to the operation mode.

3 is a view for explaining a process of providing environment information and transmitting a control command according to an embodiment.

Referring to FIG. 3, in step 1501, the portable device 100 receives voice data from a user. In step 1502, the portable device 100 processes the voice data. As described above, the voice data can be processed by the voice processing server 300 according to the operation mode. In step 1503, the portable device 100 transmits an information request to the docking station 500 in accordance with the voice data.

In step 1504, the docking station 500 collects information including the first sensing data and the second sensing data. As described above, the first sensing data may be collected by the docking station 500, and the second sensing data may be collected by the linking service server 700. In step 1505, the docking station 500 transmits the generated environment information to the portable device 100 according to the collected information.

In step 1506, the portable device 100 receives voice data according to the environment information from the user. In step 1507, the portable device 100 processes the voice data. As described above, the voice data can be processed by the voice processing server 300 according to the operation mode. In step 1508, the portable device 100 transmits a control command to the docking station 500 in accordance with the voice data. Here, the control command may be the active control command described above.

In step 1509, the docking station 500 controls the docking station 500 or the peripheral device 900 in accordance with a control command.

4 is a diagram for explaining a process of transmitting a control command according to another embodiment.

Referring to FIG. 4, in step 1511, the docking station 500 collects information including first sensing data and second sensing data. At step 1512, the docking station 500 determines a suggested operation based on the information collection result. In step 1513, the docking station 500 transmits information about the proposed operation to the portable device 100. [

In step 1514, the portable device 100 receives voice data according to the suggested operation from the user. In step 1515, the portable device 100 processes the voice data. As described above, the voice data can be processed by the voice processing server 300 according to the operation mode. In step 1516, the portable device 100 transmits a control command to the docking station 500 in accordance with the voice data. Here, the control command may be the manual control command described above.

In step 1517, the docking station 500 controls the docking station 500 or the peripheral device 900 in accordance with a control command.

5 is a diagram for explaining a process of determining a proposed operation according to an embodiment.

Referring to FIG. 5, the control unit 520 determines a suggestion operation based on sensing data and reference data. The sensing data may include the first sensing data and the second sensing data described above.

The reference data may include data relating to the threshold. The threshold value may mean the allowable range of the first sensing data, the allowable range of the second sensing data, or the allowable range of the difference between the first sensing data and the second sensing data. The reference data may be provided by the association service server 700 or may be set separately by the user.

For example, the user can set the threshold value so that the indoor temperature becomes 20 degrees or less when the outdoor temperature is 25 degrees or higher. If the outdoor temperature is 28 degrees according to the second sensing data and the room temperature is 24 degrees according to the first sensing data, the controller 520 lowers the room temperature by 20 degrees through the temperature control unit 910 The proposed operation information can be generated. When a manual control command to be accepted from the user is received, the control unit 520 can control the temperature control device 910 through a temperature control command.

The control unit 520 can continuously determine the necessity of generation of the proposed operation by sensing the sensing data. Also, the control unit 520 can generate the proposed operation at a predetermined time. For example, when an environment information request for the indoor or outdoor environment is received from the user, the control unit 520 may determine whether generation of the proposed operation is necessary.

The docking station 520 may provide an artificial intelligence environment to the user through the suggestion operation.

6 is a diagram illustrating a portable device according to an embodiment.

6, a portable device 10 according to an embodiment includes a mode indicator 11, a voice input button 12, a speaker 13, a multi-channel microphone 14, a connection unit 15, (16). As shown in Fig. 6, a portable device can be implemented with a simple structure for speech recognition. For example, the portable device 10 may not include a separate screen such as a liquid crystal display (LCD) in order to reduce power consumption.

The mode indicator 11 can output a different visual effect depending on the operation mode of the portable device 10. [ For example, the mode indicator 11 may emit light of a different color depending on the operation mode.

The voice input button 12 may receive the user's pressure or touch input. The portable device 10 can receive voice data from the user when the user's pressure or touch input is sensed.

The portable device 10 may include other configurations for performing the operations described above. Since the above-described contents can be applied to the portable device 10 as it is, detailed description will be omitted.

7 illustrates a docking station according to one embodiment.

Referring to FIG. 7, the docking station 20 includes a fixed fastening portion 21 for fixing the portable device 10, a connection portion 22, and a speaker 23. The portable device 10 may be physically secured to the docking station 20 via the fastening portion 21 and may form electrical and communication connections through the connection 22. [

The docking station 20 may include other arrangements for performing the operations described above. The above-described contents can be applied to the docking station 20 as it is, so that a detailed description will be omitted.

The embodiments described above may be implemented in hardware components, software components, and / or a combination of hardware components and software components. For example, the devices, methods, and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, such as an array, a programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (1)

A voice input unit for receiving voice data from a user;
A connection unit connected to the docking station; And
A controller for sensing a connection with the docking station and switching an operational mode from a handheld mode to a docking mode in response to the connection;
Lt; / RTI >
Wherein the control unit generates a command corresponding to the voice data based on the operation mode,
.

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