CN107672547B - New energy automobile voice control method and device, mobile terminal and storage medium - Google Patents

Abstract

The invention provides a new energy automobile voice control method, a new energy automobile voice control device, a mobile terminal and a storage medium, wherein the new energy automobile voice control method comprises the steps of receiving a current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table or not; if not, acquiring at least one feature vocabulary in the current voice control instruction, and inquiring a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction; acquiring target equipment in the target control instruction, and acquiring current state information of the target equipment; judging whether the current state information is matched with the feature vocabulary; if so, executing the target control instruction, automatically controlling the switching of the working state of the corresponding equipment by acquiring the current voice control instruction, and executing the control intention of the current voice control instruction by matching and designing the characteristic vocabulary and the action association table.

Description

New energy automobile voice control method and device, mobile terminal and storage medium

Technical Field

The invention relates to the technical field of automobile control, in particular to a new energy automobile voice control method and device, a mobile terminal and a storage medium.

Background

Along with the rapid development of new energy automobile market and the continuous improvement of people's standard of living, more and more new energy automobile has got into ordinary family, be equipped with many equipment among the new energy automobile, the user is through the operating condition of controlling different equipment, in order to control new energy automobile's different functions, for example opening and closing of new energy automobile headlight, the opening and closing of door window, the opening and closing of engine etc. operation, therefore how convenient control the equipment in the new energy automobile, become a problem that awaits the solution urgently.

In the existing control method of the new energy automobile, a user manually controls the switch keys corresponding to each piece of equipment to control the working state of the equipment, for example, the user toggles a poking rod to control the turn-on or turn-off of a headlamp, and the user presses a physical key to control the lifting state of a corresponding window.

According to the existing new energy automobile control method, a user needs to control the working state of corresponding equipment through different keys or deflector rods, so that the operation of the user is complicated, and the user experience is reduced.

Disclosure of Invention

Based on this, the embodiments of the present invention provide a new energy vehicle voice control method, device, mobile terminal and storage medium for controlling a new energy vehicle device by receiving a voice command.

In a first aspect, the invention provides a new energy automobile voice control method, which includes:

receiving a current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table or not;

if not, acquiring at least one feature vocabulary in the current voice control instruction, and inquiring a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction, wherein the action association table comprises a corresponding relation between the feature vocabulary and the target control instruction;

acquiring target equipment in the target control instruction, and acquiring current state information of the target equipment;

judging whether the current state information is matched with the feature vocabulary;

and if so, executing the target control instruction.

According to the new energy automobile voice control method, whether the target control instruction needs to be inquired is judged by judging whether the current voice control instruction is matched with the control table or not, further, when the current voice control instruction is not matched with the control table due to incomplete information in the current voice control instruction, the control intention in the current voice control instruction is obtained and executed by inquiring the target control instruction, the target control instruction matched with the current voice control instruction in the action association table is inquired by obtaining the characteristic vocabulary, and whether the inquired target control instruction needs to be executed or not is judged by judging whether the current state information is matched with the characteristic vocabulary or not. According to the new energy automobile voice control method, the current voice control instruction is obtained to automatically control the switching of the working states of the corresponding equipment, so that manual equipment control by a user is not needed, the user experience is improved, and when the current voice control instruction is not matched with the control table, the corresponding target control instruction is obtained through the matching design of the characteristic vocabulary and the action association table, so that the control intention of the current voice control instruction is executed.

Further, before the executing the target control instruction, the method further comprises:

judging whether the target control instruction has instruction action aiming at the power supply;

if so, controlling the photovoltaic panel to directly execute the target control instruction;

judging whether the photovoltaic panel has control operation responding to the target control instruction;

if not, controlling the target equipment to execute the target control instruction.

Further, the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction includes:

when the number of the characteristic words is one and the characteristic words are characteristic equipment words, inquiring a plurality of current action words matched with the characteristic equipment words in the action association table;

matching the current action vocabularies with the current state information respectively to obtain matched action vocabularies;

and inquiring the control instruction corresponding to the characteristic equipment vocabulary and the matched action vocabulary in the action association table to obtain the target control instruction.

Further, the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further includes:

when the number of the characteristic words is one and the characteristic words are characteristic action words, inquiring a plurality of current equipment words matched with the characteristic action words in the action association table;

respectively obtaining the use states of the equipment corresponding to the current equipment vocabularies, and matching the use states with the characteristic action vocabularies to obtain matched equipment vocabularies;

and inquiring the control instruction corresponding to the characteristic action vocabulary and the matched equipment vocabulary in the action association table to obtain the target control instruction.

Further, the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further includes:

when the number of the characteristic words is two and the two characteristic words are respectively different types of words, respectively inquiring a plurality of control instructions corresponding to the two characteristic words in the action association table, wherein the types of the characteristic words comprise action types and equipment types;

judging whether a plurality of control instructions have repeated instructions or not;

if yes, the repeated control command is determined to be the target control command.

Further, the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further includes:

when the number of the characteristic words is not less than two, judging whether the characteristic words have words of the same type;

if yes, the current voice control instruction is judged to be an error instruction, and a voice prompt is sent.

Further, when the step of determining whether the current voice control instruction matches a locally stored control table is performed, the method further includes:

when the current voice control instruction is successfully matched with the control table, acquiring the state information of the whole vehicle and judging whether the feature vocabulary in the current voice control instruction is matched with the state information of the whole vehicle or not;

and if so, executing the current voice control instruction.

In a second aspect, the present invention provides a new energy vehicle voice control device, which is applied to a mobile terminal, wherein the mobile terminal is electrically connected to a new energy vehicle CAN bus, and the new energy vehicle voice control device includes:

the first judgment module is used for receiving a current voice control instruction and judging whether the current voice control instruction is matched with a locally stored control table or not;

the first query module is used for acquiring at least one feature vocabulary in the current voice control instruction when the judgment result of the first judgment module is negative, and querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction, wherein the action association table comprises the corresponding relation between the feature vocabulary and the target control instruction;

the first acquisition module is used for acquiring the target equipment in the target control instruction according to the query result of the first query module and acquiring the current state information of the target equipment;

and the second judgment module is used for judging whether the current state information is matched with the characteristic vocabulary or not according to the acquisition result of the first acquisition module, and if so, executing the target control instruction.

According to the new energy automobile voice control device, whether the target control instruction needs to be inquired is judged through the design of the first judgment module, and then when the information in the current voice control instruction is not completely matched with the control table, the control intention in the current voice control instruction is obtained and executed through the design of the first inquiry module, the target control instruction matched with the current voice control instruction in the action association table is inquired through the obtaining of the characteristic vocabulary, and whether the inquired target control instruction needs to be executed is judged through the design of the second judgment module. According to the new energy automobile voice control device, the current voice control instruction is obtained through the adoption, the corresponding equipment working state is automatically controlled to be switched, further, manual equipment control is not needed by a user, the user experience is improved, and when the current voice control instruction is not matched with the control table, the corresponding target control instruction is obtained through the characteristic vocabulary and the action association table matching design, so that the control intention of the current voice control instruction is executed.

Further, the first query module comprises:

the second query module is used for querying a plurality of current action vocabularies matched with the characteristic equipment vocabularies in the action association table when the number of the characteristic vocabularies is one and the characteristic vocabularies are the characteristic equipment vocabularies;

the first matching module is used for matching the current action vocabularies with the current state information respectively according to the query result of the second query module so as to obtain matched action vocabularies;

and the third query module is used for querying the control instruction corresponding to the characteristic equipment vocabulary and the matched action vocabulary in the action association table according to the matching result of the first matching module so as to obtain the target control instruction.

In a third aspect, the present invention provides a mobile terminal, including a memory and a processor, where the memory is used to store a computer program, and the processor runs the computer program to make the mobile terminal execute the above-mentioned new energy vehicle voice control method.

In a fourth aspect, the present invention provides a storage medium having stored thereon a computer program for use in the above-described mobile terminal.

Drawings

Fig. 1 is a flowchart of a new energy vehicle voice control method according to a first embodiment of the present invention;

fig. 2 is a flowchart of a new energy vehicle voice control method according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a new energy vehicle voice control device according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a new energy vehicle voice control device according to a fourth embodiment of the present invention;

description of the symbols of the main elements

Detailed Description

In order to facilitate a better understanding of the invention, the invention will be further explained below with reference to the accompanying drawings of embodiments. Embodiments of the present invention are shown in the drawings, but the present invention is not limited to the preferred embodiments described above. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1, a flowchart of a voice control method for a new energy vehicle according to a first embodiment of the present invention includes steps S10 to S40.

Step S10, receiving the current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table;

the control system comprises a control table, a voice receiver, a control device and a switching control instruction, wherein the voice receiver is arranged to receive the current voice control instruction, and the control table stores the equipment information of all control equipment on the whole vehicle, the working states corresponding to the control equipment and the switching control instructions corresponding to different working states.

When the step S10 judges that the current voice control instruction does not match the control table, a step S20 is performed.

When the current voice control instruction is judged not to be matched with the control table, the current voice control instruction information is judged to be incomplete, and a target control instruction needs to be acquired, so that the corresponding equipment is controlled according to the acquired target control instruction.

Step S20, acquiring at least one feature vocabulary in the current voice control instruction, and inquiring a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction;

the action association table includes a corresponding relationship between the feature vocabulary and the target control command, the number of the feature vocabulary in the current voice control command may be multiple, for example, the corresponding relationship stored in the action association table may be a corresponding relationship between "window" and "up-down," and a corresponding relationship between "engine" and "ignition" and "flameout," and the corresponding relationship in the action association table is not limited to the above-described exemplary one.

Step S30, acquiring the target device in the target control instruction, acquiring current state information of the target device, and determining whether the current state information matches the feature vocabulary.

And judging whether the current state information is matched with the characteristic words or not, so as to judge whether the target control instruction is consistent with the control intention of the current voice control instruction or not, for example, when the target control instruction is to turn on a headlamp, acquiring the working state of the headlamp and acquiring current environment information, so as to judge whether the working state of the headlamp, the current environment information and the control instruction of turning on the headlamp are matched or not.

When the step S30 determines that the current state information matches the feature vocabulary, a step S40 is performed.

Step S40, the target control instruction is executed.

In this embodiment, whether the current voice control instruction matches the control table is determined by determining whether the current voice control instruction is to be queried, and further, when the current voice control instruction does not completely contain information that results in a mismatch with the control table, the target control instruction is queried to obtain and execute the control intent in the current voice control instruction, the target control instruction matching the current voice control instruction in the action association table is queried by obtaining the feature vocabulary, and the target control instruction queried is determined by determining whether the current state information matches the feature vocabulary. According to the new energy automobile voice control method, the current voice control instruction is obtained to automatically control the switching of the working state of the corresponding equipment, and when the current voice control instruction is not matched with the control table, the corresponding target control instruction is obtained through the matching design of the feature vocabulary and the action association table, so that the control intention of the current voice control instruction is executed.

Referring to fig. 2, a flowchart of a voice control method for a new energy vehicle according to a second embodiment of the present invention is shown, where the method includes steps S11 to S121.

Step S11, receiving the current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table;

the control system comprises a control table, a voice receiver, a control device and a switching control instruction, wherein the voice receiver is arranged to receive the current voice control instruction, and the control table stores the equipment information of all control equipment on the whole vehicle, the working states corresponding to the control equipment and the switching control instructions corresponding to different working states.

When the step S11 judges that the current voice control instruction matches the control table, a step S21 is performed.

Step S21, acquiring the state information of the whole vehicle and judging whether the feature vocabulary in the current voice control instruction is matched with the state information of the whole vehicle;

and judging whether the current state of the whole vehicle can be normally controlled by the current voice control instruction or not through the matching judgment of the characteristic vocabulary and the whole vehicle state information, namely whether the current voice control instruction can be normally executed on the whole vehicle or not.

And when the step S21 determines that the feature vocabulary in the current voice control command matches the vehicle state information, executing step S31.

And judging that the whole vehicle can normally execute the current voice control instruction currently.

Step S31, executing the current voice control instruction;

the target equipment and the target action instruction in the current voice control instruction are obtained, so that the target action instruction is executed on the target equipment to complete control over the target equipment, the function of controlling the new energy automobile equipment through voice signals is achieved, operation of a user is simplified, and equipment states do not need to be switched in a manual control mode.

When the step S11 judges that the current voice control instruction does not match the control table, a step S41 is performed.

When the current voice control instruction is judged not to be matched with the control table, judging that the current voice control instruction information is incomplete and acquiring a target control instruction is needed, so as to control corresponding equipment according to the acquired target control instruction

Step S41, acquiring the number of the feature words in the current voice control instruction, and judging whether the number of the feature words is one;

when the step S41 determines that the number of feature words is one, step S51 is performed.

Step S51, inquiring a plurality of current vocabularies matched with the characteristic vocabularies in the action association table, and respectively matching the current vocabularies with the current state of the whole vehicle;

when the characteristic vocabulary is a characteristic equipment vocabulary, inquiring a plurality of current action vocabularies matched with the characteristic equipment vocabulary in the action association table;

matching the current action vocabularies with the current state information respectively to obtain matched action vocabularies;

when the characteristic words are characteristic action words, inquiring a plurality of current equipment words matched with the characteristic action words in the action association table;

and respectively acquiring the use states of the equipment corresponding to the current equipment vocabularies, and matching the use states with the characteristic action vocabularies to obtain matched equipment vocabularies.

Step S61, inquiring the control instruction corresponding to the feature vocabulary and the matching vocabulary in the action association table to obtain the target control instruction;

when the step S41 determines that the number of feature words is not one, step S71 is executed.

Step S71, judging whether the characteristic words have the same type;

when the step S71 judges that there is a word of the same type in the feature words, step S81 is performed.

For example, when the feature words are respectively a new energy automobile headlamp and a window, the feature words are judged to be words of the same type.

And step S81, judging the current voice control instruction as an error instruction and sending a voice prompt.

And the current voice control instruction is judged to be the wrong instruction and is not executed, and the voice prompt is sent out to remind a user to send the current voice control instruction again, so that the accuracy of the new energy automobile voice control method is improved.

When the step S71 judges that there is no word of the same type in the feature words, a step S91 is executed.

Step S91, respectively inquiring a plurality of control commands corresponding to the two feature words in the action association table, and judging whether a repeat command exists in the plurality of control commands;

the types of the feature words comprise action types and equipment types, and the target control instruction corresponding to the control intention in the current voice control instruction is obtained by judging whether the repeated instruction exists in the control instructions or not, so that the accuracy of the new energy automobile voice control method is improved.

When it is determined in step S91 that there is a repeat command in the plurality of control commands, step S101 is executed.

And step S101, judging the repeated control command as the target control command.

When the repeated instructions exist in the control instructions, the repeated instructions are subjected to target marking, so that the repeated instructions are marked as the target control instructions, and further the follow-up query and acquisition of the target control instructions are facilitated.

Step S111, acquiring the target equipment in the target control instruction, acquiring the current state information of the target equipment, and judging whether the current state information is matched with the feature vocabulary.

And judging whether the current state information is matched with the characteristic words or not, so as to judge whether the target control instruction is consistent with the control intention of the current voice control instruction or not, for example, when the target control instruction is to turn on a headlamp, acquiring the working state of the headlamp and acquiring current environment information, so as to judge whether the working state of the headlamp, the current environment information and the control instruction of turning on the headlamp are matched or not.

When the step S111 determines that the current state information matches the feature vocabulary, step S121 is executed.

And step S121, executing the target control instruction.

Preferably, before the target control instruction is executed, the method further includes:

judging whether the target control command has command action aiming at the power supply;

if so, controlling the photovoltaic panel to directly execute the target control instruction;

judging whether the photovoltaic panel has control operation responding to the target control instruction;

if not, controlling the target equipment to execute the target control instruction.

The embodiment is applied to a new energy automobile, the new energy automobile is provided with a photovoltaic panel, when the target control instruction is received, the photovoltaic panel is directly controlled to operate when the target control instruction is directed at a power supply in the new energy automobile, and when the photovoltaic panel does not perform any operation, the target equipment is continuously controlled to execute the target control instruction.

In this embodiment, whether the current voice control instruction matches the control table is determined by determining whether to perform the query of the target control instruction, and when the information in the current voice control instruction does not completely result in the mismatch with the control table, the control intention in the current voice control instruction is obtained and executed by the query of the target control instruction, the target control instruction matching the current voice control instruction in the action association table is queried by the obtaining of the feature vocabulary, and the target control instruction queried is determined by determining whether the current state information matches the feature vocabulary. According to the new energy automobile voice control method, the current voice control instruction is obtained to automatically control the switching of the working states of the corresponding equipment, so that manual equipment control by a user is not needed, the user experience is improved, and when the current voice control instruction is not matched with the control table, the corresponding target control instruction is obtained through the matching design of the characteristic vocabulary and the action association table, so that the control intention of the current voice control instruction is executed.

Referring to fig. 3, which is a schematic structural diagram of a new energy vehicle voice control apparatus 100 according to a third embodiment of the present invention, where the new energy vehicle voice control apparatus 100 is applied to a mobile terminal, and the mobile terminal is electrically connected to a new energy vehicle CAN bus, and the new energy vehicle voice control apparatus includes:

the first judging module 10 is configured to receive a current voice control instruction, judge whether the current voice control instruction matches a control table stored locally, and perform receiving operation of the current voice control instruction by setting a voice receiver, where the control table stores device information of all control devices on the entire vehicle, operating states corresponding to the control devices, and switching control instructions corresponding to different operating states.

A first query module 20, configured to, when the determination result of the first determination module 10 is negative, obtain at least one feature vocabulary in the current voice control instruction, query, according to the feature vocabulary and the current voice control instruction, a target control instruction that is matched with the current voice control instruction in a preset action association table, where the action association table includes a correspondence between the feature vocabulary and the target control instruction, and when it is determined that the current voice control instruction is not matched with the control table, determine that information of the current voice control instruction is incomplete, and need to obtain the target control instruction, so as to control a corresponding device according to the obtained target control instruction.

The photovoltaic control module 40 is configured to determine whether there is a command action for the power supply in the target control command, if so, control the photovoltaic panel to directly execute the target control command, and after controlling the photovoltaic panel to execute the target control command, determine whether there is a control operation on the photovoltaic panel in response to the target control command, and if not, control the target device to execute the target control command.

Specifically, since this embodiment is applied to the new energy automobile, all be equipped with the photovoltaic board in the new energy automobile, when receiving the target control instruction is to with the power in the new energy automobile, direct control the photovoltaic board operates, and when the photovoltaic board does not carry out any operation, just continue to control the target equipment carries out the execution of target control instruction.

A first obtaining module 30, configured to obtain, according to a query result of the first querying module 20, a target device in the target control instruction, and obtain current state information of the target device;

a second determining module 31, configured to determine whether the current state information is matched with the feature vocabulary according to the obtaining result of the first obtaining module 30, if so, execute the target control instruction, and determine whether the target control instruction is consistent with the control intention of the current voice control instruction by determining whether the current state information is matched with the feature vocabulary, for example, when the target control instruction is to turn on a headlamp, obtain a working state of the headlamp and obtain current environment information, so as to determine whether the working state of the headlamp, the current environment information, and the control instruction to turn on the headlamp are matched.

The first query module 20 comprises:

a second query module 21, configured to query, when the number of the feature vocabulary is one and the feature vocabulary is a feature device vocabulary, a plurality of current action vocabularies in the action association table that are matched with the feature device vocabulary;

the first matching module 22 is configured to match the plurality of current action vocabularies with the current state information respectively according to the query result of the second querying module 21, so as to obtain matched action vocabularies;

and a third query module 23, configured to query, according to the matching result of the first matching module 22, a control instruction corresponding to the feature device vocabulary and the matching action vocabulary in the action association table, so as to obtain the target control instruction.

The first query module 20 further comprises:

and a fourth query module 24, configured to query, when the number of the feature vocabulary is one and the feature vocabulary is a feature action vocabulary, a plurality of current device vocabularies in the action association table that are matched with the feature action vocabulary.

And the second matching module 25 is configured to obtain the use states of the devices corresponding to the multiple current device vocabularies according to the query result of the fourth query module 24, and match the use states with the feature action vocabularies to obtain matched device vocabularies.

A fifth query module 26, configured to query, according to the matching result of the second matching module 25, a control instruction corresponding to the feature action vocabulary and the matching device vocabulary in the action association table, so as to obtain the target control instruction.

A sixth query module 27, configured to, when the number of the feature vocabularies is two and the feature vocabularies are respectively different types of vocabularies, respectively query a plurality of control instructions corresponding to the two feature vocabularies in the action association table, where the types of the feature vocabularies include an action type and an equipment type.

A third determining module 28, configured to determine whether there is a repeated command in the multiple control commands according to the query result of the sixth querying module 27, and if yes, determine that the repeated control command is the target control command.

A fourth judging module 29, configured to, when the number of the feature vocabularies is not less than two, judge whether there are vocabularies of the same type in the feature vocabularies, if yes, judge that the current voice control instruction is an error instruction, and send a voice prompt.

In the embodiment, the first judging module 10 is designed to judge whether to query the target control instruction, and further when the information in the current voice control instruction does not completely cause a mismatch with the control table, the first querying module 20 is designed to obtain and execute the control intention in the current voice control instruction, the feature vocabulary is obtained to query the target control instruction matched with the current voice control instruction in the action association table, and the second judging module 31 is designed to judge whether to execute the queried target control instruction. According to the new energy automobile voice control device, the current voice control instruction is obtained through the adoption, the corresponding equipment working state is automatically controlled to be switched, further, manual equipment control is not needed by a user, the user experience is improved, and when the current voice control instruction is not matched with the control table, the corresponding target control instruction is obtained through the characteristic vocabulary and the action association table matching design, so that the control intention of the current voice control instruction is executed.

Referring to fig. 4, a schematic structural diagram of a new energy vehicle voice control apparatus 100a according to a fourth embodiment of the present invention is shown, the fourth embodiment is substantially the same as the third embodiment in structure, and the difference is that the new energy vehicle voice control apparatus 100a in this embodiment further includes:

a fifth judging module 33, configured to, when the current voice control instruction is successfully matched with the control table, obtain the state information of the entire vehicle and judge whether the feature vocabulary in the current voice control instruction is matched with the state information of the entire vehicle, and if so, execute the current voice control instruction.

This embodiment passes through the design of fifth judging module 33 to the messenger works as current speech control instruction with when the control table matches successfully, further judge in the current speech control instruction the characteristic vocabulary with whether whole car state information matches, only when judging the characteristic vocabulary with when whole car state information matches, just carry out current speech control instruction, and then prevented the error control to equipment on the new energy automobile, prevented the emergence of potential safety hazard, and improved new energy automobile speech control device 100 a's accuracy.

The embodiment also provides a mobile terminal, which comprises a memory and a processor, wherein the memory is used for storing a computer program, and the processor runs the computer program to enable the mobile terminal to execute the new energy automobile voice control method.

The present embodiment also provides a storage medium on which a computer program used in the above-mentioned mobile terminal is stored, which when executed, includes the steps of:

receiving a current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table or not;

if not, acquiring at least one feature vocabulary in the current voice control instruction, and inquiring a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction, wherein the action association table comprises a corresponding relation between the feature vocabulary and the target control instruction;

acquiring target equipment in the target control instruction, and acquiring current state information of the target equipment;

judging whether the current state information is matched with the feature vocabulary;

and if so, executing the target control instruction. The storage medium, such as: ROM/RAM, magnetic disk, optical disk, etc.

The above-described embodiments describe the technical principles of the present invention, and these descriptions are only for the purpose of explaining the principles of the present invention and are not to be construed as limiting the scope of the present invention in any way. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. A new energy automobile voice control method is characterized by comprising the following steps:

receiving a current voice control instruction, and judging whether the current voice control instruction is matched with a locally stored control table or not;

if not, acquiring at least one feature vocabulary in the current voice control instruction, and inquiring a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction, wherein the action association table comprises a corresponding relation between the feature vocabulary and the target control instruction;

acquiring target equipment in the target control instruction, and acquiring current state information of the target equipment;

judging whether the current state information is matched with the feature vocabulary;

if yes, executing the target control instruction;

the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction comprises the following steps:

when the number of the characteristic words is one and the characteristic words are characteristic equipment words, inquiring a plurality of current action words matched with the characteristic equipment words in the action association table;

matching the current action vocabularies with the current state information respectively to obtain matched action vocabularies;

and inquiring the control instruction corresponding to the characteristic equipment vocabulary and the matched action vocabulary in the action association table to obtain the target control instruction.

2. The new energy automobile voice control method according to claim 1, wherein before the target control instruction is executed, the method further comprises:

judging whether the target control command has command action aiming at the power supply;

if so, controlling the photovoltaic panel to directly execute the target control instruction;

judging whether the photovoltaic panel has control operation responding to the target control instruction;

if not, controlling the target equipment to execute the target control instruction.

3. The new energy automobile voice control method according to claim 1, wherein the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further comprises:

when the number of the characteristic words is one and the characteristic words are characteristic action words, inquiring a plurality of current equipment words matched with the characteristic action words in the action association table;

respectively obtaining the use states of the equipment corresponding to the current equipment vocabularies, and matching the use states with the characteristic action vocabularies to obtain matched equipment vocabularies;

and inquiring the control instruction corresponding to the characteristic action vocabulary and the matched equipment vocabulary in the action association table to obtain the target control instruction.

4. The new energy automobile voice control method according to claim 1, wherein the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further comprises:

when the number of the characteristic words is two and the two characteristic words are respectively different types of words, respectively inquiring a plurality of control instructions corresponding to the two characteristic words in the action association table, wherein the types of the characteristic words comprise action types and equipment types;

judging whether a plurality of control instructions have repeated instructions or not;

if yes, the repeated control command is determined to be the target control command.

5. The new energy automobile voice control method according to claim 4, wherein the step of querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction further comprises:

when the number of the characteristic words is not less than two, judging whether the characteristic words have words of the same type;

if yes, the current voice control instruction is judged to be an error instruction, and a voice prompt is sent.

6. The new energy vehicle voice control method according to claim 1, wherein when the step of determining whether the current voice control command matches a locally stored control table, the method further comprises:

when the current voice control instruction is successfully matched with the control table, acquiring the state information of the whole vehicle and judging whether the feature vocabulary in the current voice control instruction is matched with the state information of the whole vehicle or not;

and if so, executing the current voice control instruction.

7. The utility model provides a new energy automobile voice control device, is applied to mobile terminal, mobile terminal and new energy automobile CAN bus electric connection, its characterized in that includes:

the first judgment module is used for receiving a current voice control instruction and judging whether the current voice control instruction is matched with a locally stored control table or not;

the first query module is used for acquiring at least one feature vocabulary in the current voice control instruction when the judgment result of the first judgment module is negative, and querying a target control instruction matched with the current voice control instruction in a preset action association table according to the feature vocabulary and the current voice control instruction, wherein the action association table comprises the corresponding relation between the feature vocabulary and the target control instruction;

the first acquisition module is used for acquiring the target equipment in the target control instruction according to the query result of the first query module and acquiring the current state information of the target equipment;

the second judgment module is used for judging whether the current state information is matched with the characteristic vocabulary or not according to the acquisition result of the first acquisition module, and if so, executing the target control instruction;

the first query module is further to: when the number of the characteristic words is one and the characteristic words are characteristic equipment words, inquiring a plurality of current action words matched with the characteristic equipment words in the action association table;

matching the current action vocabularies with the current state information respectively to obtain matched action vocabularies;

and inquiring the control instruction corresponding to the characteristic equipment vocabulary and the matched action vocabulary in the action association table to obtain the target control instruction.

8. A mobile terminal, characterized by comprising a memory for storing a computer program and a processor for operating the computer program to make the mobile terminal execute the new energy automobile voice control method according to any one of claims 1 to 7.

9. A storage medium characterized in that it stores a computer program for use in a mobile terminal according to claim 8.

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