CN111405538B - Intelligent helmet and control method thereof - Google Patents

Abstract

The invention relates to an intelligent helmet and a control method thereof. The intelligent helmet comprises a helmet body and an intelligent end, and the control method comprises the following steps: the intelligent terminal sends a pairing signal to the helmet body; the helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, Bluetooth connection between the helmet body and the intelligent terminal is established; the intelligent terminal sends instruction data to the helmet body; the helmet body receives and executes the instruction data. The intelligent helmet in this scheme includes helmet body and intelligent end, helmet body and intelligent end establish the bluetooth through mating signal and connect the back, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed, thereby solved the intelligent helmet and carried out the loaded down with trivial details, not simple and convenient problem of step of control work through USB mouse connection, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed in this scheme, and convenient operation, it is simple, and practical.

Description

Intelligent helmet and control method thereof

Technical Field

The invention relates to an intelligent helmet, in particular to an intelligent helmet and a control method thereof.

Background

The typical intelligent helmet realizes manual control over the intelligent helmet through mouse connection of a Universal Serial Bus (USB), realizes account login and password input of the intelligent helmet end through mouse click, realizes functional operations of the intelligent helmet through voice instructions, such as opening live broadcast, closing live broadcast, face recognition, automatic face recognition, license plate recognition, identity card recognition and the like, and realizes translation interaction functions of the intelligent helmet end through the voice instructions. However, the steps of controlling the intelligent helmet through the universal serial bus mouse connection are complicated and inconvenient, and the screen angle of the intelligent helmet is adjusted to adapt to the camera, so that the mouse operation is more difficult.

Disclosure of Invention

In view of the above, it is necessary to provide a new control method for an intelligent helmet.

A control method of an intelligent helmet, wherein the intelligent helmet comprises a helmet body and an intelligent end, and the control method comprises the following steps:

the intelligent end sends a pairing signal to the helmet body;

the helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, connection between the helmet body and the intelligent end is established;

the intelligent end sends instruction data to the helmet body;

the helmet body receives and executes the instruction data.

In one embodiment, the step of sending the pairing signal to the helmet body by the smart terminal includes:

the helmet body enters an open state when acquiring an open signal;

the intelligent terminal sends a pairing signal to the helmet body through the serial number and the physical address of the helmet body.

In one embodiment, the step of establishing the connection between the helmet body and the smart terminal includes:

checking between the helmet body and the intelligent end;

after the verification is successful, the Bluetooth connection between the helmet body and the intelligent end is established.

In one embodiment, before the intelligent terminal sends the instruction data to the helmet body, the method includes:

the intelligent terminal acquires an account and a password and sends login data comprising the account and the password;

and when receiving a login confirmation instruction returned by the server according to the login data, the helmet body establishes data transmission between the helmet body and the intelligent terminal.

In one embodiment, the step of sending the instruction data to the helmet body by the intelligent terminal comprises at least one of the following steps:

the intelligent terminal sends instruction data containing a calling number to the helmet body;

the intelligent terminal sends command data for connecting a call to the helmet body;

the intelligent terminal sends the command data of hanging up the telephone to the helmet body;

the step of the helmet body receiving and executing the instruction data respectively comprises at least one of the following steps:

after the helmet body receives instruction data containing a calling number, the other party is called through the calling number;

after the helmet body receives the instruction data for connecting the telephone, the telephone is connected;

and after the helmet body receives the instruction data of the telephone hanging up, hanging up the telephone.

In one embodiment, the method further comprises:

the intelligent end collects external sound and converts the external sound into external audio data, and then sends the external audio data to the helmet body for playing;

after the helmet body collects user voice and converts the user voice into user audio data, the user audio data are sent to the intelligent end to be played.

In one embodiment, the step of sending the external audio data to the helmet body for playing includes:

the helmet body translates the external audio data into corresponding user language audio data;

the helmet body plays the user language audio data;

the step of sending the user audio data to the intelligent terminal for playing comprises:

the helmet body translates the user audio data into corresponding external language audio data;

the helmet body sends the external language audio data to the intelligent terminal for playing;

the user language audio data and the user audio data are audio data formed by the same language, and the external language audio data and the external audio data are audio data formed by the same language.

In one embodiment, the data sent between the intelligent terminal and the helmet body is encrypted data, and the instruction data includes text data and voice data.

In one embodiment, the encrypted data is data obtained by RSA encryption.

The intelligent helmet comprises a helmet body and an intelligent end, and the control method of the intelligent helmet comprises the following steps: the intelligent end sends a pairing signal to the helmet body; the helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, Bluetooth connection between the helmet body and the intelligent terminal is established; the intelligent end sends instruction data to the helmet body; the helmet body receives and executes the instruction data. The intelligent helmet in this scheme includes helmet body and intelligent end, helmet body and intelligent end establish the bluetooth through mating signal and connect the back, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed, thereby solved the intelligent helmet and carried out the loaded down with trivial details, not simple and convenient problem of step of control work through USB mouse connection, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed in this scheme, and convenient operation, it is simple, and practical.

An intelligent helmet comprises a helmet body and an intelligent end; the intelligent end is used for sending a pairing signal to the helmet body;

the intelligent end is also used for sending instruction data to the helmet body after the Bluetooth connection between the helmet body and the intelligent end is established;

the helmet body is used for receiving and confirming the pairing signal, establishing Bluetooth connection between the helmet body and the intelligent terminal after the pairing signal is confirmed to be correct, and receiving and executing the instruction data.

In one embodiment, the intelligent terminal is further configured to send a pairing signal to the helmet body through the number and the physical address of the helmet body.

In one embodiment, the intelligent terminal is further configured to encrypt the instruction data and send the encrypted instruction data to the helmet body, and the helmet body is further configured to decrypt the received encrypted instruction data.

The intelligent helmet comprises a helmet body and an intelligent end, wherein the intelligent end is used for sending a pairing signal to the helmet body; the intelligent end is also used for sending instruction data to the helmet body after the Bluetooth connection between the helmet body and the intelligent end is established; the helmet body is used for receiving and confirming the pairing signal, establishing Bluetooth connection between the helmet body and the intelligent terminal after the pairing signal is confirmed to be correct, and receiving and executing the instruction data. The intelligent helmet in this scheme includes helmet body and intelligent end, helmet body and intelligent end establish the bluetooth through mating signal and connect the back, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed, thereby solved the intelligent helmet and carried out the loaded down with trivial details, not simple and convenient problem of step of control work through USB mouse connection, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed in this scheme, and convenient operation, it is simple, and practical.

Drawings

Fig. 1 is a flow chart of a control method of an intelligent helmet in one embodiment;

FIG. 2 is a flow diagram illustrating the smart peer sending pairing signals to the helmet body in one embodiment;

fig. 3 is a flowchart of establishing a bluetooth connection between the helmet body and the smart terminal according to an embodiment;

fig. 4 is a flowchart of a control method of the intelligent helmet in another embodiment;

fig. 5 is a flowchart of a control method of the intelligent helmet in still another embodiment;

fig. 6 is a flowchart of a control method of the intelligent helmet in yet another embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, in one embodiment, there is provided a control method of an intelligent helmet, the intelligent helmet comprising a helmet body and an intelligent terminal, the control method comprising:

s102, the intelligent end sends a pairing signal to the helmet body.

And S104, establishing Bluetooth connection between the helmet body and the intelligent end.

The helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, Bluetooth connection between the helmet body and the intelligent end is established. If the pairing signal is confirmed to be wrong, the process returns to step S102.

And S106, the intelligent terminal sends instruction data to the helmet body.

The intelligent terminal sends instruction data to the helmet body according to needs, for example, the instruction data comprises live broadcast opening/closing instruction data, face recognition/automatic face recognition instruction data, identification card/driving license/license plate recognition instruction data, positioning/navigation opening instruction data, photographing/video recording instruction data and the like.

And S108, the helmet body receives and executes the instruction data.

In one embodiment, the intelligent terminal sends the command data of the encrypted ciphertext to the helmet body through the Bluetooth, and the helmet body executes the corresponding command after decrypting the received command data according to the key.

In one embodiment, the intelligent terminal sends the instruction data of the RSA encryption ciphertext to the helmet body through the Bluetooth, and the helmet body executes corresponding instructions after decrypting the received instruction data of the RSA encryption ciphertext according to the key.

As shown in fig. 2, in one embodiment, step S102 includes:

s202, the helmet body enters an opening state when acquiring an opening signal.

In one embodiment, the helmet body acquires the opening signal by pressing a physical switch button on the helmet body, and then enters an opening state.

In one embodiment, after the helmet body is in the open state for a period of time, the helmet body is automatically hidden to be in the invisible state, that is, the helmet body is in the non-open state, and at this time, the intelligent terminal cannot send the pairing signal to the helmet body until the helmet body obtains the open signal and enters the open state. In one embodiment, the helmet body automatically enters the non-opening state 120 seconds after being in the opening state. Improve the bluetooth security, make its individual soldier except that the pronunciation can carry out noiseless instruction control work, realize the bluetooth control system that individual soldier used under noisy environment or need not the noiseless operational environment.

S204, the intelligent end sends a pairing signal to the helmet body through the serial number and the physical address of the helmet body.

The intelligent terminal filters the helmet body in the opening state through the serial number and the physical address of the helmet body, so that the pairing signal is sent to the fixed helmet body, the Bluetooth connection between the intelligent terminal and the helmet body is more stable, and one-to-one pairing between the intelligent terminal and the helmet body is realized.

As shown in fig. 3, in one embodiment, step S104 includes:

s302, checking between the helmet body and the intelligent end.

The helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, verification between the helmet body and the intelligent end is conducted. In one embodiment, the helmet body and the intelligent terminal are verified through UUID.

And S304, after the verification is successful, establishing Bluetooth connection between the helmet body and the intelligent terminal.

When the helmet body and the intelligent terminal are verified, if the verification is successful, the Bluetooth connection between the helmet body and the intelligent terminal is established; if the verification is unsuccessful, the procedure returns to step S102.

As shown in fig. 4, in an embodiment, step S106 further includes, before:

s402, the intelligent terminal acquires an account and a password and sends login data comprising the account and the password.

In one embodiment, after the intelligent terminal obtains an account and a password, login data including the account and the password are sent to the helmet body, the helmet body forwards the received login data to the server, the server compares the received login data with setting data stored in the server, if the setting data include the account and the password in the login data, the server returns a login confirmation instruction to the helmet body, otherwise, a login failure confirmation instruction is returned to the helmet body, wherein the setting data include the set account and the corresponding setting password, and the account and the password are in one-to-one correspondence.

In one embodiment, after the intelligent terminal obtains the account and the password, login data including the account and the password are directly sent to the server, the server compares the received login data with setting data stored in the server, if the setting data include the account and the password in the login data, the server returns a login confirmation instruction to the helmet body, otherwise, a login failure confirmation instruction is returned to the helmet body, wherein the setting data include the set account and the corresponding setting password, and the account and the password are in one-to-one correspondence.

The helmet body and the server are connected, when the helmet body executes partial functions, data are required to be transmitted to the server for processing, then confirmation data are returned to the helmet body, and after the helmet body receives the confirmation data, instructions required to be executed are continuously executed according to the confirmation data. For example, when the helmet body executes face recognition/license plate recognition/identity card recognition, the acquired face data/license plate data/identity card data needs to be sent to the background server, the face data/license plate data/identity card data received by the background server is compared with the data stored in the server, then confirmation data including the comparison result is returned to the helmet body, and after the helmet body receives the confirmation data, the face recognition/license plate recognition/identity card recognition result is obtained according to the confirmation data.

In one embodiment, the transmission of the login data, including the account number and password, is an RSA encrypted ciphertext transmission.

After the intelligent terminal acquires the account and the password, login data including the account and the password are sent, and therefore touch-free screen login is achieved by a USB mouse.

S404, establishing data transmission between the helmet body and the intelligent terminal.

When the helmet body receives a login confirmation instruction returned by the server according to the login data, data transmission between the helmet body and the intelligent terminal is established; and if the helmet body does not receive the login confirmation instruction returned by the server according to the login data, namely the login failure confirmation instruction is received, returning to the step S402.

In one embodiment, step S106 includes at least one of the following steps:

the intelligent terminal sends instruction data containing a calling number to the helmet body;

the intelligent terminal sends command data for connecting a call to the helmet body;

the intelligent terminal sends the command data of hanging up the telephone to the helmet body;

step S108 comprises at least one of the following steps:

after the helmet body receives instruction data containing a calling number, the other party is called through the calling number;

after the helmet body receives the instruction data for connecting the telephone, the telephone is connected;

and after the helmet body receives the instruction data of the telephone hanging up, hanging up the telephone.

After the intelligent terminal sends instruction data containing a calling number to the helmet body, the helmet body calls a bottom layer calling function according to the received instruction data containing the calling number to realize a calling function. After the intelligent terminal sends the command data of the on/off call to the helmet body, the helmet body calls a system bottom layer such as an android bottom layer call function according to the received command data of the on/off call, and therefore the function of the on/off call is achieved.

As shown in fig. 5, in one embodiment, the method further comprises:

s502, after the intelligent end collects external sound and converts the external sound into external audio data, the external audio data are sent to the helmet body to be played.

S504, after the helmet body collects user voice and converts the user voice into user audio data, the user audio data are sent to the intelligent terminal to be played.

As shown in fig. 6, in an embodiment, the step of sending the external audio data to the helmet body for playing includes:

s602, the helmet body translates the external audio data into corresponding user language audio data.

After receiving the external audio data, the helmet body translates the received external audio data into corresponding user audio data, wherein the user language audio data and the user audio data are audio data formed by the same language.

In one embodiment, it is possible to set which language the user language audio data is composed of.

In one embodiment, the translation of the external audio data into corresponding user audio data is achieved by a translation function.

In one embodiment, translation between languages such as Chinese, English, Uygur, etc. can be achieved through the translation function.

S604, the helmet body plays the user language audio data.

The helmet body translates the received external audio data into corresponding user audio data, and then the user language audio data is played.

In one embodiment, the helmet body translates external audio data through the server.

In one embodiment, the helmet body performs translation of external audio data.

The step of sending the user audio data to the intelligent terminal for playing comprises:

s606, the helmet body translates the user audio data into corresponding external language audio data.

The helmet body collects user voice and converts the user voice into user audio data, and then the user audio data are translated into corresponding external language audio data, wherein the external language audio data and the external audio data are audio data formed by the same language.

In one embodiment, it is possible to set which language the external language audio data is composed of.

In one embodiment, the translation of the user audio data into corresponding external language audio data is accomplished by a translation function.

S608, the helmet body sends the external language audio data to the intelligent end to be played.

The helmet body translates user audio data converted by collected user sound into corresponding external language audio data, and then sends the external language audio data to the intelligent terminal for playing.

In one embodiment, the helmet body translates the user audio data through the server.

In one embodiment, the helmet body performs translation of the user's audio data.

By translating the external audio data and the corresponding user audio data and translating the user audio data and the corresponding external language audio data, the intelligent helmet and the external translation communication are realized, the interaction of a conversation mode is better realized, the recognition efficiency is improved, and the translation interaction function is realized more simply, conveniently, effectively and friendly.

In one embodiment, after the intelligent helmet receives the instruction data, the intelligent helmet logs out and disconnects the Bluetooth connection between the helmet body and the intelligent terminal.

In one embodiment, the smart peer is a smart watch.

In one embodiment, the smart terminal is a smart phone.

In one embodiment, the data sent between the intelligent terminal and the helmet body is encrypted data, and the instruction data includes text data and voice data. The safety of the data sent between the intelligent terminal and the helmet body is improved.

Satisfy noisy environment and acquire the demand that needs normal use intelligent helmet under the noiseless operational environment, remove loaded down with trivial details and inflexible USB mouse and click the operation mode for intelligence helmet function is simple and convenient more in the operation, and is more practical.

In one embodiment, the encrypted data is data obtained by RSA encryption.

The intelligent helmet comprises a helmet body and an intelligent end, and the control method of the intelligent helmet comprises the following steps: the intelligent end sends a pairing signal to the helmet body; the helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, Bluetooth connection between the helmet body and the intelligent terminal is established; the intelligent end sends instruction data to the helmet body; the helmet body receives and executes the instruction data. The intelligent helmet in this scheme includes helmet body and intelligent end, helmet body and intelligent end establish the bluetooth through mating signal and connect the back, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed, thereby solved the intelligent helmet and carried out the loaded down with trivial details, not simple and convenient problem of step of control work through USB mouse connection, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed in this scheme, and convenient operation, it is simple, and practical.

In one embodiment, an intelligent helmet is provided, comprising a helmet body and an intelligent end; the intelligent end is used for sending a pairing signal to the helmet body; the intelligent end is also used for sending instruction data to the helmet body after the Bluetooth connection between the helmet body and the intelligent end is established; the helmet body is used for receiving and confirming the pairing signal, establishing Bluetooth connection between the helmet body and the intelligent terminal after the pairing signal is confirmed to be correct, and receiving and executing the instruction data.

In one embodiment, the intelligent terminal is configured to send instruction data to the helmet body as needed, for example, instruction data including live broadcast turning on/off, instruction data including face recognition/automatic face recognition, instruction data including identification card/driver's license plate recognition, instruction data including positioning/navigation turning on, instruction data including photographing/video recording, and the like.

In one embodiment, the intelligent terminal is further configured to send a pairing signal to the helmet body through the number and the physical address of the helmet body.

In one embodiment, the helmet body obtains the opening signal through a physical switch button on the helmet body, and then enters the opening state.

In one embodiment, after the helmet body is in the open state for a period of time, the helmet body is automatically hidden to be in the invisible state, that is, the helmet body is in the non-open state, and at this time, the intelligent terminal cannot send the pairing signal to the helmet body until the helmet body obtains the open signal and enters the open state. In one embodiment, the helmet body automatically enters the non-opening state 120 seconds after being in the opening state. Improve the bluetooth security, make its individual soldier except that the pronunciation can carry out noiseless instruction control work, realize the bluetooth control system that individual soldier used under noisy environment or need not the noiseless operational environment.

In one embodiment, the intelligent terminal is used for acquiring an account and a password and sending login data comprising the account and the password to the helmet, the helmet body is used for receiving the login data comprising the account and the password and forwarding the received login data to the server, and the helmet body is further used for establishing data transmission between the helmet body and the intelligent terminal when a login confirmation instruction returned by the server according to the login data is received.

In one embodiment, the intelligent terminal is used for acquiring an account number and a password and sending login data including the account number and the password to the server, and the helmet body is further used for establishing data transmission between the helmet body and the intelligent terminal when a login confirmation instruction returned by the server according to the login data is received.

In one embodiment, the transmission of the login data, including the account number and password, is an RSA encrypted ciphertext transmission.

In one embodiment, the intelligent terminal is used for sending the command data of the encrypted ciphertext to the helmet body through the Bluetooth, and the helmet body is used for executing a corresponding command after decrypting the received command data according to the key.

In one embodiment, the intelligent terminal is used for sending the instruction data of the RSA encryption ciphertext to the helmet body through the Bluetooth, and the helmet body is used for executing corresponding instructions after decrypting the received instruction data of the RSA encryption ciphertext according to the key.

In one embodiment, the intelligent terminal is used for sending instruction data containing a calling number to the helmet body; the helmet body is used for receiving instruction data containing a calling number and calling the other party through the calling number.

In one embodiment, the intelligent terminal is used for sending command data for connecting a call to the helmet body; the helmet body is used for receiving the instruction data of the call connection and connecting the call.

In one embodiment, the intelligent terminal is used for sending the instruction data of hanging up the telephone to the helmet body; the helmet body is used for receiving the instruction data of hanging up the telephone and hanging up the telephone.

In one embodiment, the intelligent terminal is further configured to encrypt the instruction data and send the encrypted instruction data to the helmet body, and the helmet body is further configured to decrypt the received encrypted instruction data.

In one embodiment, the intelligent terminal is further configured to collect external sounds, convert the collected external sounds into external audio data, and send the external audio data to the helmet body; the helmet body is further used for collecting user voice, converting the collected user voice into user audio data and sending the user audio data to the intelligent end, the helmet body is further used for playing received external audio data, and the intelligent end is further used for playing the received user audio data.

In one embodiment, the helmet body is further used for translating the user audio data into corresponding external language audio data and sending the external language audio data to the intelligent terminal; the helmet body is further used for translating the external audio data into corresponding user language audio data and playing the translated user language audio data, and the intelligent end is further used for playing the received external language audio data; the external language audio data and the external audio data are audio data formed by the same language, and the external language audio data and the external audio data are audio data formed by the same language.

By translating the external audio data and the corresponding user audio data and translating the user audio data and the corresponding external language audio data, the intelligent helmet and the external translation communication are realized, the interaction of a conversation mode is better realized, the recognition efficiency is improved, and the translation interaction function is realized more simply, conveniently, effectively and friendly.

In one embodiment, the helmet body is used for translating the user audio data or/and the external audio data through the server.

In one embodiment, the helmet body is used for translation of user audio data or/and external audio data.

The intelligent helmet comprises a helmet body and an intelligent end, wherein the intelligent end is used for sending a pairing signal to the helmet body; the intelligent end is also used for sending instruction data to the helmet body after the Bluetooth connection between the helmet body and the intelligent end is established; the helmet body is used for receiving and confirming the pairing signal, establishing Bluetooth connection between the helmet body and the intelligent terminal after the pairing signal is confirmed to be correct, and receiving and executing the instruction data. The intelligent helmet in this scheme includes helmet body and intelligent end, helmet body and intelligent end establish the bluetooth through mating signal and connect the back, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed, thereby solved the intelligent helmet and carried out the loaded down with trivial details, not simple and convenient problem of step of control work through USB mouse connection, the intelligent end is direct to the helmet body of being connected rather than the bluetooth send the instruction data that need be executed in this scheme, and convenient operation, it is simple, and practical.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (13)

1. A control method of an intelligent helmet is characterized in that the intelligent helmet comprises a helmet body and an intelligent end, and the method comprises the following steps:

the intelligent end sends a pairing signal to the helmet body;

the helmet body receives the pairing signal and confirms the pairing signal, and after the pairing signal is confirmed to be correct, connection between the helmet body and the intelligent end is established;

the intelligent end sends instruction data to the helmet body;

the helmet body receives and executes the instruction data; wherein, the intelligence end includes before sending instruction data to the helmet body:

the intelligent terminal acquires an account and a password and sends login data comprising the account and the password to the helmet body, and the helmet body forwards the received login data to the server;

when receiving a login confirmation instruction returned by the server according to the login data, the helmet body establishes data transmission between the helmet body and the intelligent terminal, the helmet body and the server have a connection relation, when executing partial functions, the helmet body needs to transmit data to the server for processing and then returns the confirmation data to the helmet body, and after receiving the confirmation data, the helmet body continues to execute the instruction to be executed according to the confirmation data.

2. The control method according to claim 1, wherein the step of the smart terminal sending the pairing signal to the helmet body comprises:

the helmet body enters an open state when acquiring an open signal;

the intelligent terminal sends a pairing signal to the helmet body through the serial number and the physical address of the helmet body.

3. The control method according to claim 1, wherein the step of establishing the connection between the helmet body and the smart terminal comprises:

checking between the helmet body and the intelligent end;

after the verification is successful, the Bluetooth connection between the helmet body and the intelligent end is established.

4. The control method according to claim 1, wherein the step of the smart terminal sending command data to the helmet body comprises at least one of the following steps:

the intelligent terminal sends instruction data containing a calling number to the helmet body;

the intelligent terminal sends command data for connecting a call to the helmet body;

the intelligent terminal sends the command data of hanging up the telephone to the helmet body;

the step of the helmet body receiving and executing the instruction data respectively comprises at least one of the following steps:

after the helmet body receives instruction data containing a calling number, the other party is called through the calling number;

after the helmet body receives the instruction data for connecting the telephone, the telephone is connected;

and after the helmet body receives the instruction data of the telephone hanging up, hanging up the telephone.

5. The control method according to claim 1, characterized in that the method further comprises:

the intelligent end collects external sound and converts the external sound into external audio data, and then sends the external audio data to the helmet body for playing;

after the helmet body collects user voice and converts the user voice into user audio data, the user audio data are sent to the intelligent end to be played.

6. The control method according to claim 5, wherein the step of sending the external audio data to the helmet body for playing comprises:

the helmet body translates the external audio data into corresponding user language audio data;

the helmet body plays the user language audio data;

the step of sending the user audio data to the intelligent terminal for playing comprises:

the helmet body translates the user audio data into corresponding external language audio data;

the helmet body sends the external language audio data to the intelligent terminal for playing;

the user language audio data and the user audio data are audio data formed by the same language, and the external language audio data and the external audio data are audio data formed by the same language.

7. The control method according to any one of claims 1 to 6, wherein the data sent between the intelligent terminal and the helmet body is encrypted data, and the instruction data includes text data and voice data.

8. The control method according to claim 7, wherein the encrypted data is data obtained by RSA encryption.

9. An intelligent helmet is characterized by comprising a helmet body and an intelligent end;

the intelligent end is used for sending a pairing signal to the helmet body; the intelligent end is also used for sending instruction data to the helmet body after the Bluetooth connection between the helmet body and the intelligent end is established;

the helmet body is used for receiving and confirming the pairing signal, establishing connection between the helmet body and the intelligent terminal after the pairing signal is confirmed to be correct, and receiving and executing the instruction data;

the intelligent terminal is used for acquiring an account and a password and sending login data comprising the account and the password to the helmet body, and the helmet body forwards the received login data to the server;

the helmet body is further used for establishing data transmission between the helmet body and the intelligent terminal when receiving a login confirmation instruction returned by the server according to the login data, a connection relation is formed between the helmet body and the server, when the helmet body executes a part of functions, the helmet body needs to transmit data to the server for processing and then returns the confirmation data to the helmet body, and after receiving the confirmation data, the helmet body continues to execute the instruction to be executed according to the confirmation data.

10. The intelligent helmet according to claim 9, wherein the intelligent terminal is further configured to send a pairing signal to the helmet body through a number and a physical address of the helmet body.

11. The intelligent helmet according to claim 9, wherein the intelligent terminal is further configured to collect external sounds, convert the collected external sounds into external audio data, and send the external audio data to the helmet body; the helmet body is further used for collecting user voice, converting the collected user voice into user audio data and sending the user audio data to the intelligent end, the helmet body is further used for playing received external audio data, and the intelligent end is further used for playing the received user audio data.

12. The intelligent helmet according to claim 11, wherein the helmet body is further configured to translate the user audio data into corresponding external language audio data, and send the external language audio data to the intelligent terminal, the helmet body is further configured to translate the external audio data into corresponding user language audio data, and play the translated user language audio data, and the intelligent terminal is further configured to play the received external language audio data;

the user language audio data and the user audio data are audio data formed by the same language, and the external language audio data and the external audio data are audio data formed by the same language.

13. The intelligent helmet according to claim 9, wherein the intelligent terminal is further configured to encrypt the command data and send the encrypted command data to the helmet body, and the helmet body is further configured to decrypt the received encrypted command data.

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