CN113628619A - Intelligent helmet voice interaction system - Google Patents

Abstract

The embodiment of the invention discloses an intelligent helmet voice interaction system, which comprises: the helmet comprises a helmet body, a mobile terminal and an instrument body, wherein wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body and between the helmet body and the instrument body; the helmet body comprises a voice acquisition module, a voice recognition module, a voice processing module and a first voice sending module, wherein the voice acquisition module is used for acquiring a voice instruction output by a user; the mobile terminal comprises a first voice receiving module; the mobile terminal is used for executing the action corresponding to the voice command and sending the display content corresponding to the voice command to the instrument body, and the instrument body displays the display content. According to the intelligent helmet voice interaction system provided by the embodiment of the invention, the helmet body, the mobile terminal and the instrument body are wirelessly communicated, so that the helmet body can control the mobile terminal and the instrument body.

Description

Intelligent helmet voice interaction system

Technical Field

The embodiment of the invention relates to the field of intelligent equipment, in particular to an intelligent helmet voice interaction system.

Background

With the coming of a law, a user must wear the helmet when riding the electric bicycle, so that the user cannot make a call during riding, and if the user wants to make a call, the user needs to stop the electric bicycle and take off the helmet to perform the operation of making a call. However, for the take-out personnel and the express delivery personnel who often catch time, the time is wasted, and troubles are caused to the take-out personnel and the express delivery personnel.

In the existing stage, helmets, whether half helmets or full helmets, are simple helmets or partial intelligent helmets, and the functions of controlling the setting of a vehicle instrument and hanging and dialing a telephone by taking off the hands cannot be realized in the riding process of a user.

Disclosure of Invention

The invention provides an intelligent helmet voice interaction system, which can realize the functions of controlling an instrument of a vehicle by taking off hands, using a telephone by taking off hands and the like in the normal riding process of a user.

In order to achieve the above object, the present invention provides an intelligent helmet voice interaction system, comprising: the helmet comprises a helmet body, a mobile terminal and an instrument body, wherein wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body and between the helmet body and the instrument body;

the helmet comprises a helmet body, a voice acquisition module, a voice recognition module, a voice processing module and a first voice sending module, wherein the voice acquisition module is used for acquiring a voice instruction output by a user, the voice recognition module is used for recognizing the voice instruction, the voice processing module is used for processing the voice instruction, and the first voice sending module is used for sending the voice instruction;

the mobile terminal comprises a first voice receiving module and a second voice receiving module, wherein the first voice receiving module is used for receiving the voice instruction; the mobile terminal is used for executing the action corresponding to the voice command and sending the display content corresponding to the voice command to the instrument body, and the instrument body displays the display content.

Optionally, the voice command output by the user includes one of a call-making voice command, a call-hanging voice command, and a call-answering voice command.

Optionally, the mobile terminal further includes a second voice sending module, configured to send incoming call voice;

the helmet body further comprises a second voice receiving module and a playing module, the second voice receiving module is used for receiving the incoming call telephone voice, the playing module is used for playing the incoming call telephone voice, and the voice collecting module is used for collecting the answering voice instruction or the hanging-up voice instruction output by the user according to the incoming call telephone voice.

Optionally, the second voice sending module is further configured to send outgoing call voice, the second voice receiving module is configured to receive the outgoing call voice, and the playing module plays the outgoing call voice.

Optionally, the meter body includes a first communication module and a display module, the mobile terminal includes a second communication module, the first communication module is configured to establish communication with the second communication module, the mobile terminal is further configured to send one of a call display content, an outgoing call display content, and a phone book to the meter body, and the display module is configured to display one of the call display content, the outgoing call display content, and the phone book.

Optionally, the voice instruction output by the user further includes an instrument function voice instruction, the instrument body further includes a third voice receiving module, the third voice receiving module is used for receiving the instrument function voice instruction sent by the first voice sending module, and the instrument body is used for executing an action corresponding to the instrument function voice instruction.

Optionally, the meter function voice instruction includes one of a music voice playing instruction, a music voice playing stopping instruction, a navigation voice starting instruction, and a navigation voice stopping instruction.

Optionally, the instrument body further includes a third voice sending module, the third voice sending module is configured to send a function voice corresponding to the instrument function voice instruction, the second voice receiving module in the helmet body is configured to receive the function voice, and the playing module in the helmet body is configured to play the function voice.

Optionally, the helmet body further includes a voice awakening module, the voice instruction output by the user further includes a voice awakening instruction, and the voice awakening module is configured to perform voice awakening on the helmet body according to the voice awakening instruction.

Optionally, the mode of performing wireless communication between the helmet body and the mobile terminal, between the mobile terminal and the instrument body, and between the helmet body and the instrument body is one of a bluetooth wireless communication mode, a radio frequency wireless communication mode, and a WIFI wireless communication mode.

The embodiment of the invention provides an intelligent helmet voice interaction system, which comprises: the helmet comprises a helmet body, a mobile terminal and an instrument body, wherein wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body and between the helmet body and the instrument body; the helmet comprises a helmet body, wherein the helmet body comprises a voice acquisition module, a voice recognition module, a voice processing module and a first voice sending module, the voice acquisition module is used for acquiring a voice instruction output by a user, the voice recognition module is used for recognizing the voice instruction, the voice processing module is used for processing the voice instruction, and the first voice sending module is used for sending the voice instruction; the mobile terminal comprises a first voice receiving module used for receiving a voice instruction; the mobile terminal is used for executing the action that the voice command corresponds to the demonstration content that the voice command corresponds is sent to the instrument body, and the instrument body shows demonstration content, solves the helmet of present stage, and at the user in-process of riding, the problem that the instrument setting of the control vehicle of taking off the hand and articulate and dial the phone function all can't be realized, through helmet voice interaction system, promotes the user and experiences in the convenient of the in-process of riding.

Drawings

Fig. 1 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention;

fig. 2 is a block diagram of a helmet body according to an embodiment of the present invention;

fig. 3 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention;

fig. 4 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention, which is applicable to an application scenario in which a function of an intelligent device can be implemented without manual operation. As shown in fig. 1, an intelligent helmet voice interaction system 100 includes: the helmet comprises a helmet body 110, a mobile terminal 120 and a meter body 130, wherein wireless communication is carried out between the helmet body 110 and the mobile terminal 120, between the mobile terminal 120 and the meter body 130, and between the helmet body 110 and the meter body 130;

the helmet body 110 comprises a voice acquisition module 111, a voice recognition module 112, a voice processing module 113 and a first voice sending module 114, wherein the voice acquisition module 111 is used for acquiring a voice instruction A output by a user, the voice recognition module 112 is used for recognizing the voice instruction A, the voice processing module 113 is used for processing the voice instruction A, and the first voice sending module 114 is used for sending the voice instruction A;

the mobile terminal 120 includes a first voice receiving module 121 for receiving a voice instruction a; the mobile terminal 120 is configured to execute an action corresponding to the voice instruction a, send display content corresponding to the voice instruction a to the meter body 130, and display the display content on the meter body 130.

Wherein, an intelligent helmet voice interaction system 100 includes: the helmet body 110, the mobile terminal 120 and the meter body 130. Wireless communication is carried out between the helmet body 110 and the mobile terminal 120, between the mobile terminal 120 and the meter body 130, and between the helmet body 110 and the meter body 130, so that information interaction is realized. Helmet body 110 is the outfit that has the protective capacities to the head, and the user all need wear the helmet at the electric motor car of riding now. The mobile terminal 120 may be a mobile phone, a smart watch, or other terminals having a communication transmission function. The meter body 130 is used to display various information such as electric vehicles and terminals, and transmits the information to users in a visual manner.

Specifically, the helmet body 110 includes a voice collecting module 111, a voice recognition module 112, a voice processing module 113, and a first voice sending module 114. When the user wears the helmet body 110, the voice command a is output. The voice command a output by the user may be a keyword or a sentence, and the embodiment of the present invention is not limited in specific form. The voice acquisition module 111 is used for acquiring a voice instruction a output by a user, so as to realize acquisition of the voice instruction a by the helmet body 110 and realize information interaction between the user and the helmet body 110. The voice recognition module 112 is used for recognizing the voice command a and recognizing the key information in the voice command a output by the user, so as to accurately and clearly meet the requirements of the user. The voice processing module 113 is configured to process the voice command a, and facilitate subsequent generation of a command with corresponding functionality by processing and analyzing the voice command a. The first voice sending module 114 is configured to send a voice command a, and transmit the recognized and processed voice command a. The information interaction between the user and the helmet body 110 is realized.

Specifically, the mobile terminal 120 includes a first voice receiving module 121, configured to receive the voice command a. The first voice receiving module 121 wirelessly communicates with the first voice sending module 114, so that the voice instruction a is transmitted from the first voice sending module 114 to the first voice receiving module 121, and information interaction between the helmet body 110 and the mobile terminal 120 is realized. After receiving the voice command a, the mobile terminal 120 executes the action corresponding to the voice command a, thereby implementing the control of the user on the mobile terminal 120. The mobile terminal 120 sends display content corresponding to the voice instruction a to the meter body 130, the meter body 130 displays the display content, and the meter body 130 visually prompts the user to execute the voice instruction a by the intelligent helmet voice interaction system 100. The interaction of the mobile terminal 120 with the meter body 130 is realized.

According to the intelligent helmet interaction system provided by the embodiment of the invention, wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body, and between the helmet body and the instrument body; and gather the voice command of user's output through pronunciation collection module, voice recognition module discerns voice command, voice processing module handles voice command, and first voice sending module sends voice command to mobile terminal, mobile terminal's first voice receiving module receives voice command, and carry out the action that voice command corresponds, and simultaneously, send the display content that voice command corresponds to the instrument body, the instrument body shows display content, it can only carry out safety protection to solve the helmet of present stage, the user's defect in riding that can not be better makes things convenient for, through helmet voice interaction system, realize the user in the in-process of riding, to the intelligent control of mobile terminal and panel board, promote the experience of user's convenience.

Optionally, the mode of performing wireless communication between the helmet body 110 and the mobile terminal 120, between the mobile terminal 120 and the meter body 130, and between the helmet body 110 and the meter body 130 is one of a bluetooth wireless communication mode, a radio frequency wireless communication mode, and a WIFI wireless communication mode.

The information interaction between the helmet body 110 and the mobile terminal 120 and between the meter body 130 is realized through the connection of wireless communication, which is convenient for users to use.

Optionally, the voice command a output by the user includes one of a call-making voice command a1, a call-hanging voice command a2, and a call-receiving voice command A3.

Specifically, when the voice command a output by the user is a call-making voice command a1 (for example, a call is made to a certain person, or a call is made, the telephone number is), the voice acquisition module 111 of the helmet body 110 acquires the call-making voice command a1, the voice recognition module 112 recognizes the call-making voice command a1, the voice processing module 113 processes the call-making voice command a1, and finally the call-making voice command a1 is sent through the first voice sending module 114. The first voice receiving module 121 of the mobile terminal 120 receives the call-placing voice command a1 and performs an action of placing a call (call to a certain person). And sends the display content (the dialed phone number, the name, the avatar, and the like) corresponding to the dialing voice command a1 to the meter body 130, and the meter body 130 displays the display content (the dialed phone number, the name, the avatar, and the like).

When the voice command a output by the user is a hang-up phone voice command a2 (for example, hang-up phone), the voice collecting module 111 of the helmet body 110 collects the hang-up phone voice command a2, the voice recognition module 112 recognizes the hang-up phone voice command a2, the voice processing module 113 processes the hang-up phone voice command a2, and finally the hang-up phone voice command a2 is sent through the first voice sending module 114. The first voice receiving module 121 of the mobile terminal 120 receives the hang-up call voice command a2 and performs an action of hanging up the call. And sends the display contents (hang-up, hang-up success, call end, etc.) corresponding to the hang-up call voice command a2 to the meter body 130, and the meter body 130 displays the display contents (hang-up, hang-up success, call end, etc.).

When the voice command a output by the user is a phone answering voice command A3 (for example, a voice word such as connection or answering), the voice collecting module 111 of the helmet body 110 collects the phone answering voice command A3, the voice recognizing module 112 recognizes the phone answering voice command A3, the voice processing module 113 processes the phone answering voice command A3, and finally the first voice sending module 114 sends the phone answering voice command A3. The first voice receiving module 121 of the mobile terminal 120 receives the call answering voice command a3 and performs an action of making a call. And sends the display content (answer, connect and call) corresponding to the answer phone voice command a3 to the meter body 130, and the meter body 130 displays the display content (answer, connect and call).

Fig. 2 is a block diagram of a helmet body according to an embodiment of the present invention, and as shown in fig. 2, the helmet body 110 further includes a voice wake-up module 115, the voice command a output by the user further includes a voice wake-up command a4, and the voice wake-up module 115 is configured to perform voice wake-up on the helmet body 110 according to the voice wake-up command a 4.

The helmet body 110 further includes a voice wake-up module 115, the voice instruction a output by the user further includes a voice wake-up instruction a4 (for example, a nickname, hello, xx helmet, or a wake-up word such as hello, xx, etc. can be played in advance on the helmet), and the voice wake-up module 115 is configured to perform voice wake-up on the helmet body 110 according to the voice wake-up instruction a 4. The helmet body 110 can collect and recognize the voice command a output by the user after being awakened functionally. The helmet body 110 can collect, recognize and process a phone dialing voice command a1, a phone hanging-up voice command a2 and a phone answering voice command A3, so that information interaction between the helmet body 110 and the mobile terminal 120 and the meter body 130 can be performed.

Fig. 3 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention, as shown in fig. 3, the mobile terminal 120 further includes a second voice sending module 122, configured to send an incoming call voice B1;

the helmet body 110 further includes a second voice receiving module 116 and a playing module 117, the second voice receiving module 116 is configured to receive an incoming call voice B1, the playing module 117 is configured to play an incoming call voice B1, and the voice collecting module 117 is configured to collect an answering voice command A3 or a hang-up voice command a2 output by the user according to the incoming call voice B1.

The mobile terminal 120 further includes a second voice sending module 122, configured to send an incoming call voice B1. The second voice sending module 122 sends the incoming call voice B1 to the second voice receiving module 116, so as to implement wireless communication between the mobile terminal 120 and the helmet body 110, and implement information interaction. The playing module 117 is configured to play the incoming phone speech B1, where the incoming phone speech B1 may be a phone number, a name, or a phone number plus a name of an incoming phone call, and deliver the incoming phone speech B1 to the user. The user outputs an answer voice command A3 or a hang-up voice command a2 based on the information delivered by the incoming call phone voice B1. For example, when the mobile terminal 120 receives the phone number 1, the second voice sending module 122 sends the incoming phone voice B1 to the second voice receiving module 116, and the playing module 117 plays the incoming phone voice B1, i.e. the phone number and name of the number 1. The user can selectively connect or disconnect based on his own situation, and when the user selects to answer number 1, he sends an answer voice command a3 to the voice collecting module 117. When the phone selected to hang up number 1 sends a hang up voice command a2 to the voice capture module 117. The user can conveniently connect and disconnect the phone in the riding process.

With continued reference to fig. 3, the second voice sending module 122 is further configured to send an outgoing telephone voice B2, the second voice receiving module 116 is configured to receive an outgoing telephone voice B2, and the playing module 117 plays the outgoing telephone voice B2.

The second voice sending module 122 is further configured to send an outgoing telephone voice B2. The second voice transmission module 112 transmits the outgoing phone voice B2 to the second voice reception module 116. The play module 117 plays the outgoing telephone voice B2, passing the outgoing telephone voice B2 to the user. The outgoing call voice B2 may be a ring tone of the other party or a prompt tone during the outgoing call, so that the user can know the outgoing call progress of the mobile terminal 120.

With continued reference to fig. 3, the meter body 130 includes a first communication module 131 and a display module 132, the mobile terminal 120 includes a second communication module 123, the first communication module 131 is configured to establish communication with the second communication module 123, the mobile terminal 120 is further configured to transmit one of the incoming call display content C1, the outgoing call display content C2, and the phone book C3 to the meter body 130, and the display module 132 is configured to display one of the incoming call display content C1, the outgoing call display content C2, and the phone book C3.

The meter body 130 includes a first communication module 131, and the mobile terminal 120 includes a second communication module 123. The first communication module 131 is configured to establish communication with the second communication module 123, implement communication connection, and perform information interaction. The mobile terminal 120 is further configured to transmit one of the caller identification content C1, the caller identification content C2, and the phone book C3 to the meter body 130, and the meter body 130 further includes a display module 132 configured to display the caller identification content C1, the caller identification content C2, and the phone book C3.

Illustratively, when the mobile terminal 120 receives an incoming call, the second voice sending module 122 sends an incoming call voice B1 to the second voice receiving module 116, and when the playing module 117 is used to play the incoming call voice B1, the user audibly obtains the information about the incoming call. Meanwhile, the mobile terminal 120 sends the caller identification content C1 to the meter body 130, the display module 132 displays the caller identification content C1, and the user visually obtains information related to the incoming call.

When the user wants to make a call through the mobile terminal 120, the second voice transmitting module 122 transmits the outgoing phone voice B2 to the second voice receiving module 116, and when the playing module 117 is used to play the outgoing phone voice B2, the user audibly obtains the information about the outgoing phone call. Meanwhile, the mobile terminal 120 sends the outgoing call display content C2 to the meter body 130, the display module 132 displays the outgoing call display content C2, and the user visually obtains information related to the incoming call. When a user needs to dial a phone and forgets a name or a phone number, a voice instruction of a phone book may be sent to the helmet body 110, and after finding the phone book by the mobile terminal 120, the phone book may be sent to the display module 132 of the meter body 130 for display, so that for the user, the display module 132 may display the phone book C3 for the user to select a dialing target. The user can obtain and transmit the message in many aspects of vision and hearing in the riding process, and the user can make a call without stopping the bicycle.

Fig. 4 is a block diagram of an intelligent helmet voice interaction system according to an embodiment of the present invention, as shown in fig. 4, a voice command a output by a user further includes a meter function voice command a5, a meter body 130 further includes a third voice receiving module 133, the third voice receiving module 133 is configured to receive a meter function voice command a5 sent by the first voice sending module 114, and the meter body 130 is configured to execute an action corresponding to the meter function voice command a 5.

Wherein the voice command A output by the user further comprises a meter function voice command A5. The first voice sending module 114 in the helmet body 110 sends the meter function voice command a5 to the meter body 130. The third voice receiving module 133 in the meter body 130 receives the meter function voice command a5, and the meter body 130 is configured to execute an action corresponding to the meter function voice command a 5. The user can control the instrument body 130 according to the instrument function voice command A5 input to the helmet body 110, and the user does not need to park the manual operation instrument body 130 in the riding process, and the operation of the user is facilitated by controlling the instrument body 130 through the voice command A.

With continued reference to FIG. 4, the meter function voice commands A5 include one of a play music voice command A51, a stop playing music voice command A52, a start navigation voice command A53, and a stop navigation voice command A54.

The meter function voice command A5 output by the user comprises a music voice command A51, a music voice command A52 of stopping playing, a navigation voice command A53 of starting navigation and a navigation voice command A54 of stopping navigation.

For example, when the user inputs a music-playing voice command a51 to the voice capturing module 111 of the helmet body 110, the first voice sending module 114 sends a music-playing voice command a51 to the third voice receiving module 133. The meter body 130 executes the action corresponding to the music playing voice command a51, and the display module 132 can display the song information such as the song list and lyrics of the music playing and the playing status.

When the user inputs a stop playing music voice command a52 to the voice capturing module 111 of the helmet body 110, the first voice sending module 114 sends the stop playing music voice command a52 to the third voice receiving module 133. The meter body 130 executes an action corresponding to the music voice command a52 to stop playing, and the display module 132 may display an interface for pausing or exiting music playing.

When the user inputs the navigation-on voice command a53 to the voice capturing module 111 of the helmet body 110, the first voice sending module 114 sends the navigation-on voice command a53 to the third voice receiving module 133. The meter body 130 executes an action corresponding to the navigation voice command a53, and the display module 132 can display a map, waypoint information, safety prompt information, and the like required for navigation.

When the user inputs the navigation stopping voice command a54 to the voice collecting module 111 of the helmet body 110, the first voice transmitting module 114 transmits the navigation stopping voice command a54 to the third voice receiving module 133. The meter body 130 executes the action corresponding to the stop navigation voice command a54, and the display module 132 can display the prompt of exiting navigation, stopping navigation, exiting navigation interface, and the like. The control requirements of the user on music and navigation in the riding process are met visually.

Continuing to refer to fig. 4, the meter body 130 further includes a third voice sending module 134, the third voice sending module 134 is configured to send a functional voice D corresponding to the meter functional voice instruction a5, the second voice receiving module 116 in the helmet body 110 is configured to receive the functional voice D, and the playing module 117 in the helmet body 110 is configured to play the functional voice D.

The meter body 130 further includes a third voice sending module 134. The third voice receiving module 133 is configured to receive the meter function voice finger a5 sent by the first voice sending module 114. The second voice receiving module 116 in the helmet body 110 is configured to receive the functional voice D, and the playing module 117 plays the functional voice D, so as to satisfy the control of the user on the meter body 130 during riding in hearing.

For example, the meter function voice command a5 may be a play music voice command a51, and the corresponding function voice D may be a play music voice D1. The second voice receiving module 116 in the helmet body 110 receives the played music voice D1, and the playing module 117 plays the played music voice D1, so as to realize the acquisition of music by the user.

The meter function voice command a5 may be a stop playing music voice command a52 and the corresponding function voice D may be a stop playing music voice D2. The second voice receiving module 116 in the helmet body 110 receives the music voice D2 stopping playing, and the playing module 117 plays the music voice D2 stopping playing, so as to realize the control of the user on music stop playing.

The meter function voice command a5 may be an open navigation voice command a53, and the corresponding function voice D may be an open navigation voice D3. The second voice receiving module 116 in the helmet body 110 receives the navigation starting voice D3, and the playing module 117 plays the navigation starting voice D3, so as to prompt the user with navigation information and meet the navigation requirement of the user.

The meter function voice command a5 may be a stop navigation voice command a54, and the corresponding function voice D may be a stop navigation voice D4. The second voice receiving module 116 in the helmet body 110 receives the navigation stopping voice D4, and the playing module 117 plays the navigation stopping voice D4, so that when the user does not need to continue navigation, the user can control the navigation function.

Further, the display module 132 of the meter body 130 visually provides information required by the user, including control of the electric vehicle and corresponding functionality, such as navigation and music, required through the meter body 130. The playing module 117 of the helmet body 110 provides information required by the user in an audible manner. The requirements of the user on the functionality in the riding process are better met by combining the auditory aspect and the visual aspect.

To sum up, the intelligent helmet voice interaction system provided by the embodiment of the invention comprises: the helmet comprises a helmet body, a mobile terminal and an instrument body, wherein wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body and between the helmet body and the instrument body; the helmet comprises a helmet body, wherein the helmet body comprises a voice acquisition module, a voice recognition module, a voice processing module and a first voice sending module, the voice acquisition module is used for acquiring a voice instruction output by a user, the voice recognition module is used for recognizing the voice instruction, the voice processing module is used for processing the voice instruction, and the first voice sending module is used for sending the voice instruction; the mobile terminal comprises a first voice receiving module used for receiving a voice instruction; the mobile terminal is used for executing the action that the voice command corresponds to the demonstration content that the voice command corresponds is sent to the instrument body, and the instrument body shows demonstration content, and the helmet of solving the present stage can only carry out safety protection, user's defect in can not better conveniently riding realizes that the user is in the in-process of riding through helmet voice interaction system, to the intelligent control of mobile terminal and panel board, promotes the experience of user's convenience.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An intelligent helmet voice interaction system, comprising: the helmet comprises a helmet body, a mobile terminal and an instrument body, wherein wireless communication is carried out between the helmet body and the mobile terminal, between the mobile terminal and the instrument body and between the helmet body and the instrument body;

the helmet comprises a helmet body, a voice acquisition module, a voice recognition module, a voice processing module and a first voice sending module, wherein the voice acquisition module is used for acquiring a voice instruction output by a user, the voice recognition module is used for recognizing the voice instruction, the voice processing module is used for processing the voice instruction, and the first voice sending module is used for sending the voice instruction;

the mobile terminal comprises a first voice receiving module and a second voice receiving module, wherein the first voice receiving module is used for receiving the voice instruction; the mobile terminal is used for executing the action corresponding to the voice command and sending the display content corresponding to the voice command to the instrument body, and the instrument body displays the display content.

2. The intelligent helmet voice interaction system of claim 1,

the voice command output by the user comprises one of a call-making voice command, a call-hanging voice command and a call-answering voice command.

3. The intelligent helmet voice interaction system of claim 2, wherein the mobile terminal further comprises a second voice sending module for sending an incoming call voice;

the helmet body further comprises a second voice receiving module and a playing module, the second voice receiving module is used for receiving the incoming call telephone voice, the playing module is used for playing the incoming call telephone voice, and the voice collecting module is used for collecting the answering voice instruction or the hanging-up voice instruction output by the user according to the incoming call telephone voice.

4. The intelligent helmet voice interaction system of claim 3, wherein the second voice sending module is further configured to send an outgoing call voice, the second voice receiving module is configured to receive the outgoing call voice, and the playing module plays the outgoing call voice.

5. The intelligent helmet voice interaction system of claim 4, wherein the meter body comprises a first communication module and a display module, the mobile terminal comprises a second communication module, the first communication module is used for establishing communication with the second communication module, the mobile terminal is further used for sending one of caller identification content, caller identification content and a phone book to the meter body, and the display module is used for displaying one of the caller identification content, the caller identification content and the phone book.

6. The intelligent helmet voice interaction system of claim 1, wherein the voice command output by the user further includes a meter function voice command, the meter body further includes a third voice receiving module, the third voice receiving module is configured to receive the meter function voice command sent by the first voice sending module, and the meter body is configured to execute an action corresponding to the meter function voice command.

7. The intelligent helmet voice interaction system of claim 6, wherein the meter function voice command comprises one of a play music voice command, a stop music voice command, a start navigation voice command, and a stop navigation voice command.

8. The intelligent helmet voice interaction system according to claim 6, wherein the meter body further includes a third voice sending module, the third voice sending module is configured to send a function voice corresponding to the meter function voice instruction, the second voice receiving module in the helmet body is configured to receive the function voice, and the playing module in the helmet body is configured to play the function voice.

9. The intelligent helmet voice interaction system of claim 1, wherein the helmet body further comprises a voice wake-up module, the voice command output by the user further comprises a voice wake-up command, and the voice wake-up module is configured to perform voice wake-up on the helmet body according to the voice wake-up command.

10. The intelligent helmet voice interaction system of claim 1, wherein the helmet body and the mobile terminal, the mobile terminal and the meter body, and the helmet body and the meter body are in wireless communication, each of which is one of a bluetooth wireless communication mode, a radio frequency wireless communication mode, and a WIFI wireless communication mode.

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