CN113763951B - Intelligent watch capable of controlling intelligent home through voice and infrared - Google Patents

Abstract

The invention provides an intelligent watch for controlling intelligent home by voice infrared, which comprises the following components: the voice command sending module is used for sending a voice command to the intelligent watch; the identification module is used for identifying the voice command based on the intelligent watch and retrieving a command code based on an identification result; the matching module is used for matching the corresponding infrared codes according to the instruction codes and sending the infrared codes to the corresponding intelligent home; and the execution module is used for receiving the infrared codes based on the intelligent home and executing corresponding operations. Through sending voice command to intelligent wrist-watch and through matching to corresponding infrared code control intelligent house and work to simplify the control process to intelligent house to a greater extent, made things convenient for the house life of human.

Description

Intelligent watch capable of controlling intelligent home through voice and infrared

Technical Field

The invention relates to the technical field of intelligent interaction, in particular to an intelligent watch capable of controlling intelligent home through voice infrared.

Background

At present, along with the continuous development of science and technology, the living standard of people is continuously improved, intelligent watches and intelligent households are penetrated into the fields of various household industries, and the control development of the intelligent households reflects the increasingly diversified demands of people;

However, the existing control of the intelligent home lacks scientific and technological elements, lacks living habits of a user group in a scientific and technological era, and cannot realize the control of the intelligent home through the intelligent watch.

Disclosure of Invention

The invention provides a voice infrared control intelligent watch for controlling intelligent home, which is used for controlling the intelligent home to work by sending a voice instruction to the intelligent watch and matching the voice instruction with a corresponding infrared code, so that the control process of the intelligent home is simplified and facilitated to a greater extent, and the living of human beings is facilitated.

A voice infrared controlled smart watch for smart home comprising:

the voice command sending module is used for sending a voice command to the intelligent watch;

the identification module is used for identifying the voice command based on the intelligent watch and retrieving a command code based on an identification result;

the matching module is used for matching the corresponding infrared codes according to the instruction codes and sending the infrared codes to the corresponding intelligent home;

And the execution module is used for receiving the infrared codes based on the intelligent home and executing corresponding operations.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, voice command send module still includes:

the keyword recognition unit is used for detecting whether a set keyword exists in the voice instruction;

the parameter extraction unit is used for extracting configuration parameters of the voice instruction when the set keywords exist in the voice instruction;

the matching unit is used for matching the configuration parameters with standard parameters;

and the awakening unit is used for awakening the intelligent watch after the configuration parameters are successfully matched with the standard parameters.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, recognition module still includes:

the voice segmentation unit is used for carrying out voice segmentation on the voice information in the voice command to obtain voice fragments;

the voice training unit is used for training the voice fragments in a pre-stored voice model and obtaining an output result;

the comparison unit is used for comparing the output result with the input voice in the intelligent watch;

the determining unit is used for identifying the voice command based on the intelligent watch when the output result is consistent with the input voice of the intelligent watch;

When the output result is inconsistent with the input voice of the intelligent watch, the intelligent watch is password unlocked, and the voice command is identified based on the intelligent watch after unlocking.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, match module still includes:

the intelligent home identification unit is used for identifying the intelligent home and acquiring the home type of the intelligent home based on an identification result;

the label generation unit is used for generating a home label corresponding to the intelligent home based on the home type of the intelligent home;

the tag identification unit is used for uploading the home tag to the intelligent watch for identification, and editing codes based on the identification result to generate target instruction codes;

wherein the target instruction codes are in one-to-one correspondence with the infrared codes.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, recognition module still includes:

the instruction processing unit is used for acquiring the instruction format of the voice instruction;

the judging unit is used for matching the instruction format of the voice instruction in a format library preset in the intelligent watch and judging the storage mode of the voice instruction;

The format library preset in the smart watch comprises the following steps: a first instruction format and a second instruction format;

the first storage mode generating unit is used for distributing a first storage mode to the voice instruction when the instruction format of the voice instruction accords with the first instruction format;

a second storage mode generating unit, configured to allocate a second storage mode to the voice instruction when the instruction format of the voice instruction conforms to the second instruction format;

the instruction storage unit is used for storing the voice instruction according to the first storage mode or the second storage mode.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, execution module still includes:

the code format judging unit is used for acquiring the code format of the infrared code, matching the code format with the code format set by the intelligent home, and judging whether the infrared code accords with a standard infrared code or not;

when the code format of the infrared code is matched with the code format set by the intelligent home, judging that the infrared code is a standard infrared code;

Otherwise, the infrared code is not the standard infrared code;

the correction unit is used for correcting the infrared codes which are not the standard infrared codes according to the code format set by the intelligent home to obtain the standard infrared codes;

the code reading unit is used for reading the standard infrared codes and determining execution logic of the standard infrared codes;

and the execution unit is used for executing corresponding operation on the intelligent home according to the execution logic of the standard infrared codes.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, recognition module still includes:

the instruction processing unit is used for acquiring a voice signal of the voice instruction, and performing time domain preprocessing on the voice signal to acquire a first voice signal;

the instruction processing unit is further used for determining the first voice signal frequency variation wave band, analyzing the first voice signal frequency variation wave band and determining a noise frequency band in the first voice signal frequency variation wave band;

the instruction processing unit is further used for filtering noise wave bands in the first voice signals and obtaining filtered second voice signals;

The detection unit is used for acquiring the signal intensity and the voice accuracy of the second voice signal, carrying out voice evaluation on the signal intensity and the voice accuracy of the second voice signal in a preset voice evaluation standard, and determining an evaluation value of the second voice signal;

the checking unit is further configured to compare the evaluation value of the second speech signal with a preset evaluation value, and determine whether the second speech signal is a standard speech signal;

when the evaluation value of the second voice signal is equal to or greater than the preset evaluation value, judging the second voice signal as a standard voice signal;

the optimizing unit is used for optimizing the voice signal model of the second voice signal through a preset optimizing model when the evaluation value of the second voice signal is smaller than the preset evaluation value, and outputting a standard signal;

the voice signal conversion unit is used for carrying out signal recognition on the standard voice signal to determine the information identification in the standard voice signal;

the text generation unit is used for sequentially inputting the information identifiers in the standard voice signals into the data text of the intelligent watch according to a preset time sequence to obtain a voice instruction text;

The text processing unit is used for acquiring a data space of the voice instruction text in the data text of the intelligent watch, determining a data head address of the voice instruction based on the data space, and determining the voice instruction text recognition sequence based on the data head address;

the text recognition unit is used for recognizing the voice command text according to the voice command text recognition sequence and determining command content of the voice command based on a recognition result;

the retrieval unit is used for acquiring the instruction features of the voice instruction, retrieving the instruction features of the voice instruction and the instruction content of the voice instruction in a preset instruction code library, and determining an instruction code corresponding to the voice instruction based on a retrieval result.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, match module still includes:

a protocol data confirmation unit, configured to determine protocol data of an infrared code value library based on a preset infrared code value library;

the protocol generation unit is used for determining a corresponding matching protocol according to the protocol data of the infrared code value library;

the protocol safety detection unit is used for carrying out safety detection on the matching protocol according to a preset rule, judging that the detection result is protocol safety when the matching protocol accords with the preset rule, and otherwise, judging that the detection result is protocol hidden danger;

The code matching establishing unit is used for determining the corresponding relation between the instruction codes and the infrared code value library according to the matching protocol with the protocol security as the detection result;

the code matching unit is further used for matching the instruction codes in the infrared code value library one by one based on the corresponding relation, recording the codes with the same matching, and generating the infrared codes according to the recording result;

an identification acquisition unit that acquires a first code identification of the instruction code and a second code identification of the infrared code;

the communication interaction establishing unit is used for establishing a communication interaction link according to the first code identifier and the second code identifier and determining a receiving port of the intelligent home according to the communication interaction link;

and the interaction unit is used for sending the infrared codes to the corresponding intelligent home according to the communication interaction link and the receiving port of the intelligent home so as to realize interaction between the intelligent watch and the intelligent home.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, interactive element still includes:

the analysis unit is used for analyzing the infrared codes based on the intelligent home to obtain analysis data;

The data reading unit is used for reading the analysis data and determining a first work execution flow of the intelligent home according to a reading result;

the verification unit is used for inputting the analysis data into a preset thinking library for verification and obtaining verification output;

the verification unit is further configured to determine that the first workflow of the smart home is executed reasonably when the verification output is 1, and determine that the first workflow of the smart home is not executed reasonably when the verification output is 0.

And the feedback unit is used for feeding the verification output back to the intelligent watch and completing monitoring of the rationality of the first work execution flow of the intelligent home based on the intelligent watch.

Preferably, a pronunciation infrared control intelligence wrist-watch of intelligent house, feedback unit still includes:

the result receiving unit is used for receiving the verification output based on the intelligent watch and uploading the output result to the control processing unit;

the control processing unit is used for sending a first infrared control signal to the intelligent home when the verification output is 0 and controlling the intelligent home to stop working according to the infrared control signal;

The control processing unit is also used for sending a second infrared control signal to the intelligent home when the verification output is 1, controlling the intelligent home to work based on the second infrared control signal, recording the work, and generating a record file based on a record result;

and the file storage unit is used for uploading the record file to the intelligent watch and storing the record file.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a system diagram of a smart watch for controlling smart home by voice infrared in an embodiment of the present invention;

Fig. 2 is a system diagram of a voice command sending module of a smart watch for controlling smart home by voice infrared according to an embodiment of the present invention;

FIG. 3 is a system diagram of an identification module of a smart watch with voice infrared control for smart home in an embodiment of the present invention;

fig. 4 is a diagram illustrating a structure of a smart watch for controlling smart home by voice and infrared in an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

the embodiment provides a voice infrared control smart watch of intelligent house, as shown in fig. 1, include:

the voice command sending module is used for sending a voice command to the intelligent watch;

the identification module is used for identifying the voice command based on the intelligent watch and retrieving a command code based on an identification result;

the matching module is used for matching the corresponding infrared codes according to the instruction codes and sending the infrared codes to the corresponding intelligent home;

and the execution module is used for receiving the infrared codes based on the intelligent home and executing corresponding operations.

In this embodiment, the voice command is sent to the smart watch by being mounted on the infrared A1 voice module on the smart watch.

In this embodiment, the infrared code is determined from a library of infrared code values for the household appliance.

In this embodiment, based on the voice command that sends, intelligent wrist-watch passes through bluetooth, wiFi, 4G etc. mode control intelligent household electrical appliances.

In this embodiment, as shown in fig. 4, the structure of the smart watch includes: watch side fig. 1, watch side fig. 2, watch side fig. 3, watch side fig. 4, watch top view 5, watch back fig. 6.

The beneficial effects of the technical scheme are as follows: through sending voice command to intelligent wrist-watch and through matching to corresponding infrared code control intelligent house and work to simplify the control process to intelligent house to a greater extent, made things convenient for the house life of human.

Example 2:

on the basis of embodiment 1, this embodiment provides a voice infrared control smart watch of smart home, as shown in fig. 2, the voice command sending module further includes:

the keyword recognition unit is used for detecting whether a set keyword exists in the voice instruction;

the parameter extraction unit is used for extracting configuration parameters of the voice instruction when the set keywords exist in the voice instruction;

The matching unit is used for matching the configuration parameters with standard parameters;

and the awakening unit is used for awakening the intelligent watch after the configuration parameters are successfully matched with the standard parameters.

In this embodiment, the setting keyword may be a specific name of the smart watch, for example, cindy, etc.

In this embodiment, the configuration parameter may be a parameter determined according to a setting keyword, for example, when the setting keyword is Cindy, the configuration parameter is 123.

In this embodiment, the standard parameter is set in advance by the system and is used to determine whether the smart watch can be awakened, for example, the standard parameter may be Cindy123.

The beneficial effects of the technical scheme are as follows: the precise awakening of the intelligent watch is realized by determining the set keywords and confirming the configuration parameters, so that the accuracy of awakening the intelligent watch is improved.

Example 3:

on the basis of embodiment 1, this embodiment provides a voice infrared control smart watch of smart home, as shown in fig. 3, the identification module further includes:

the voice segmentation unit is used for carrying out voice segmentation on the voice information in the voice command to obtain voice fragments;

the voice training unit is used for training the voice fragments in a pre-stored voice model and obtaining an output result;

The comparison unit is used for comparing the output result with the input voice in the intelligent watch;

the determining unit is used for identifying the voice command based on the intelligent watch when the output result is consistent with the input voice of the intelligent watch;

when the output result is inconsistent with the input voice of the intelligent watch, the intelligent watch is password unlocked, and the voice command is identified based on the intelligent watch after unlocking.

In this embodiment, the acoustic model may be pre-stored in a smart watch model library for determining the timbre of the speech segment.

In this embodiment, the input voice may be input by a user in advance, and be used as a reference for performing voice verification of the smart watch, where the tone color of voice input may be at most three, that is, at most three users may perform voice input.

The beneficial effects of the technical scheme are as follows: through discernment to the voice command, judge whether the voice command is the user to can improve the security that intelligent wrist-watch used, improve intelligent of intelligent wrist-watch.

Example 4:

on the basis of embodiment 1, this embodiment provides an intelligent wrist-watch of pronunciation infrared control intelligence house, match module still includes:

The intelligent home identification unit is used for identifying the intelligent home and acquiring the home type of the intelligent home based on an identification result;

the label generation unit is used for generating a home label corresponding to the intelligent home based on the home type of the intelligent home;

the tag identification unit is used for uploading the home tag to the intelligent watch for identification, and editing codes based on the identification result to generate target instruction codes;

wherein the target instruction codes are in one-to-one correspondence with the infrared codes.

In this embodiment, the home type may be a cleaning type, such as an intelligent sweeper, or an entertainment type, such as an intelligent television.

In this embodiment, the home label may be determined according to the home type, for example, if the home type is a cleaning type, the home label is clean, and so on.

The beneficial effects of the technical scheme are as follows: the household type of the intelligent household is determined, so that the household label is added to the disenergy household, the corresponding instruction codes of the intelligent household are generated, the intelligent household is in one-to-one correspondence with the infrared codes, and the convenience of the intelligent watch for controlling the intelligent household is improved.

Example 5:

On the basis of embodiment 1, this embodiment provides a pronunciation infrared control intelligence wrist-watch of intelligent house, recognition module still includes:

the instruction processing unit is used for acquiring the instruction format of the voice instruction;

the judging unit is used for matching the instruction format of the voice instruction in a format library preset in the intelligent watch and judging the storage mode of the voice instruction;

the format library preset in the smart watch comprises the following steps: a first instruction format and a second instruction format;

the first storage mode generating unit is used for distributing a first storage mode to the voice instruction when the instruction format of the voice instruction accords with the first instruction format;

a second storage mode generating unit, configured to allocate a second storage mode to the voice instruction when the instruction format of the voice instruction conforms to the second instruction format;

the instruction storage unit is used for storing the voice instruction according to the first storage mode or the second storage mode.

In this embodiment, the instruction format may be an opcode, address code, or the like.

In this embodiment, the first instruction format may be, for example, an operation code, that is, the corresponding storage mode is the first storage mode, and the second instruction format may be, for example, an address code, that is, the corresponding storage mode is the second storage mode.

The beneficial effects of the technical scheme are as follows: different storage modes are determined through different instruction formats, so that accurate storage of the instructions is realized, and accurate control of voice instructions is facilitated.

Example 6:

on the basis of embodiment 1, this embodiment provides a pronunciation infrared control intelligence wrist-watch of intelligent house, execution module still includes:

the code format judging unit is used for acquiring the code format of the infrared code, matching the code format with the code format set by the intelligent home, and judging whether the infrared code accords with a standard infrared code or not;

when the code format of the infrared code is matched with the code format set by the intelligent home, judging that the infrared code is a standard infrared code;

otherwise, the infrared code is not the standard infrared code;

the correction unit is used for correcting the infrared codes which are not the standard infrared codes according to the code format set by the intelligent home to obtain the standard infrared codes;

the code reading unit is used for reading the standard infrared codes and determining execution logic of the standard infrared codes;

And the execution unit is used for executing corresponding operation on the intelligent home according to the execution logic of the standard infrared codes.

In this embodiment, the code format may be an initial written format of the infrared code.

In this embodiment, the standard infrared code may be a code that is consistent with the code format set by the smart home.

In this embodiment, the execution logic may be a relationship between the smart home and executing the task, including or, and, not, or may be exclusive or, etc., for example, the execution relationship between the task 1 and the task 2 is executing the task 1, or executing the task 2.

The beneficial effects of the technical scheme are as follows: the execution logic of the infrared codes can be read better by determining the standard infrared codes, so that the execution accuracy of the intelligent home is improved.

Example 7:

on the basis of embodiment 1, this embodiment provides a pronunciation infrared control intelligence wrist-watch of intelligent house, recognition module still includes:

the instruction processing unit is used for acquiring a voice signal of the voice instruction, and performing time domain preprocessing on the voice signal to acquire a first voice signal;

the instruction processing unit is further used for determining the first voice signal frequency variation wave band, analyzing the first voice signal frequency variation wave band and determining a noise frequency band in the first voice signal frequency variation wave band;

The instruction processing unit is further used for filtering noise wave bands in the first voice signals and obtaining filtered second voice signals;

the detection unit is used for acquiring the signal intensity and the voice accuracy of the second voice signal, carrying out voice evaluation on the signal intensity and the voice accuracy of the second voice signal in a preset voice evaluation standard, and determining an evaluation value of the second voice signal;

the checking unit is further configured to compare the evaluation value of the second speech signal with a preset evaluation value, and determine whether the second speech signal is a standard speech signal;

when the evaluation value of the second voice signal is equal to or greater than the preset evaluation value, judging the second voice signal as a standard voice signal;

the optimizing unit is used for optimizing the voice signal model of the second voice signal through a preset optimizing model when the evaluation value of the second voice signal is smaller than the preset evaluation value, and outputting a standard signal;

the voice signal conversion unit is used for carrying out signal recognition on the standard voice signal to determine the information identification in the standard voice signal;

the text generation unit is used for sequentially inputting the information identifiers in the standard voice signals into the data text of the intelligent watch according to a preset time sequence to obtain a voice instruction text;

The text processing unit is used for acquiring a data space of the voice instruction text in the data text of the intelligent watch, determining a data head address of the voice instruction based on the data space, and determining the voice instruction text recognition sequence based on the data head address;

the text recognition unit is used for recognizing the voice command text according to the voice command text recognition sequence and determining command content of the voice command based on a recognition result;

the retrieval unit is used for acquiring the instruction features of the voice instruction, retrieving the instruction features of the voice instruction and the instruction content of the voice instruction in a preset instruction code library, and determining an instruction code corresponding to the voice instruction based on a retrieval result.

In this embodiment, the first voice signal may be a signal obtained by performing time domain preprocessing on a voice signal of a voice command.

In this embodiment, the first speech signal frequency variation band is analyzed to determine a noise frequency band in the first speech signal frequency variation band, for example, the obtained overall trend of the first speech signal frequency variation band may be, and when a frequency variation band inconsistent with the overall trend occurs in the first speech signal frequency band, the noise frequency band may be determined.

In this embodiment, the second speech signal may be a speech signal in which the noise band is filtered out of the first speech signal.

In this embodiment, the evaluation score may be a score determined by performing evaluation scoring between the signal strength and the degree of accuracy, and generally, the stronger the signal strength, the higher the degree of accuracy, the higher the evaluation score.

In this embodiment, the preset evaluation value may be set in advance by the system, so as to determine whether the second speech signal is a standard speech signal.

In this embodiment, the preset optimizing model may be configured to optimize the second speech signal through the preset optimizing model when the second speech signal is not the standard speech signal, so that the second speech signal becomes the standard speech signal.

In this embodiment, the information identifier may be an identifier of a representative content in a standard speech signal, for example, a speech such as "first", "second", or the like, which may be referred to as an information identifier.

In this embodiment, the preset time sequence may be, for example, recording an information identifier every second according to the time sequence, or recording an information identifier every 2 seconds, etc.

In this embodiment, the data head address of the voice command may be the beginning of the voice command, and is used to determine the recognition sequence of the voice command text.

In this embodiment, the instruction feature may be an identifier used to retrieve the instruction code library, from which the corresponding instruction code may be determined.

The beneficial effects of the technical scheme are as follows: the method has the advantages that the time domain preprocessing is carried out on the voice signals, noise wave bands are filtered, so that the obtained second voice signals are clearer, voice evaluation on the second voice signals is facilitated, whether the second voice signals are standard voice signals or not can be clearly judged by comparing the obtained evaluation scores with the preset evaluation scores, conversion of the second voice signals into the standard voice signals is facilitated, the instruction content of voice instructions can be accurately obtained, retrieval in a preset instruction code library is accurately completed, instruction codes are determined, the processing of the voice signals and the accuracy of determining the instruction codes are greatly improved, and convenience is brought to intelligent watch control intelligent households.

Example 8:

on the basis of embodiment 1, this embodiment provides an intelligent wrist-watch of pronunciation infrared control intelligence house, match module still includes:

a protocol data confirmation unit, configured to determine protocol data of an infrared code value library based on a preset infrared code value library;

The protocol generation unit is used for determining a corresponding matching protocol according to the protocol data of the infrared code value library;

the protocol safety detection unit is used for carrying out safety detection on the matching protocol according to a preset rule, judging that the detection result is protocol safety when the matching protocol accords with the preset rule, and otherwise, judging that the detection result is protocol hidden danger;

the code matching establishing unit is used for determining the corresponding relation between the instruction codes and the infrared code value library according to the matching protocol with the protocol security as the detection result;

the code matching unit is further used for matching the instruction codes in the infrared code value library one by one based on the corresponding relation, recording the codes with the same matching, and generating the infrared codes according to the recording result;

an identification acquisition unit that acquires a first code identification of the instruction code and a second code identification of the infrared code;

the communication interaction establishing unit is used for establishing a communication interaction link according to the first code identifier and the second code identifier and determining a receiving port of the intelligent home according to the communication interaction link;

and the interaction unit is used for sending the infrared codes to the corresponding intelligent home according to the communication interaction link and the receiving port of the intelligent home so as to realize interaction between the intelligent watch and the intelligent home.

In this embodiment, the protocol data of the ir code value library may be based on characteristics of the ir code value library, as well as protocol data determined for establishing a matching protocol.

In this embodiment, the preset rule is to perform security detection on the matching protocol, so as to improve security of the matching protocol, where the preset rule may be whether a sensitive parameter exists in the matching protocol, or not.

In this embodiment, the correspondence between the instruction code and the ir code value library may be, for example, a matching condition for matching the ir code value library with the instruction code is determined according to a matching protocol, and then the correspondence between the instruction code and the ir code value library is determined according to the feature of the instruction code and the matching condition.

In this embodiment, the first code identification is for instruction codes and the second code identification is for infrared codes.

The beneficial effects of the technical scheme are as follows: the matching protocol is determined, so that the relation between the instruction codes and the infrared code value library is more favorably determined, the infrared codes are more accurately acquired, the receiving port of the intelligent home is determined by establishing a communication traffic link, the infrared codes are accurately uploaded to the intelligent home, and the interaction efficiency is improved.

Example 9:

on the basis of embodiment 8, this embodiment provides a pronunciation infrared control intelligence wrist-watch of intelligent house, interaction element still includes:

the analysis unit is used for analyzing the infrared codes based on the intelligent home to obtain analysis data;

the data reading unit is used for reading the analysis data and determining a first work execution flow of the intelligent home according to a reading result;

the verification unit is used for inputting the analysis data into a preset thinking library for verification and obtaining verification output;

the verification unit is further configured to determine that the first workflow of the smart home is executed reasonably when the verification output is 1, and determine that the first workflow of the smart home is not executed reasonably when the verification output is 0.

And the feedback unit is used for feeding the verification output back to the intelligent watch and completing monitoring of the rationality of the first work execution flow of the intelligent home based on the intelligent watch.

In this embodiment, the first workflow may be an execution step of the smart home.

In this embodiment, the verification output may be output after the first workflow of the smart home is verified in the preset thought library, where the result of the verification output is divided into two types, 1 and 0.

In this embodiment, the preset mind library is used to measure whether the first workflow is reasonable.

The beneficial effects of the technical scheme are as follows: through confirming the verification output to judge whether first workflow is reasonable, improved the degree of accuracy of the intelligent wrist-watch to the monitoring of the first work execution flow rationality of intelligent house, thereby for the user through intelligent wrist-watch control intelligent house has provided convenience, has protected the security of intelligent house work.

Example 10:

on the basis of embodiment 9, this embodiment provides a voice infrared control smart watch of intelligent house, feedback unit still includes:

the result receiving unit is used for receiving the verification output based on the intelligent watch and uploading the output result to the control processing unit;

the control processing unit is used for sending a first infrared control signal to the intelligent home when the verification output is 0 and controlling the intelligent home to stop working according to the infrared control signal;

the control processing unit is also used for sending a second infrared control signal to the intelligent home when the verification output is 1, controlling the intelligent home to work based on the second infrared control signal, recording the work, and generating a record file based on a record result;

And the file storage unit is used for uploading the record file to the intelligent watch and storing the record file.

In this embodiment, the first infrared control signal may be used to control the smart home to stop working.

In this embodiment, the second infrared control signal may be used to control the smart home to start working.

The beneficial effects of the technical scheme are as follows: the intelligent household condition is fed back to the intelligent watch, and the intelligent watch is used for issuing a control instruction, so that intelligent interaction between the intelligent household and the intelligent watch is facilitated.

Example 11:

on the basis of embodiment 8, the interaction unit further includes:

the statistics unit is used for counting the total number of code bytes of the infrared codes;

the counting unit is also used for counting the code word number received by the intelligent home;

the first calculation unit is used for calculating the data transmission efficiency of uploading the infrared codes to the intelligent home according to the total number of the code bytes and the number of the code words received by the intelligent home;

wherein η represents uploading the infrared code to the intelligenceThe data transmission efficiency of the household can be improved; ζ represents an error coefficient; z represents the total number of code bytes of the infrared code; z represents the code word number received by the smart home; mu represents the distortion rate of the code word number received by the intelligent home; t represents the transmission time of uploading the infrared codes to the intelligent home; t is t ₀ Representing a time delay of the smart home to receive the infrared code;

the comparison unit is used for comparing the data transmission efficiency with the standard transmission efficiency and judging whether the data transmission performance of the intelligent watch terminal and the intelligent home terminal needs to be optimized or not;

when the data transmission efficiency is equal to or greater than the standard transmission efficiency, the data transmission performance of the intelligent watch terminal and the intelligent home terminal does not need to be optimized;

otherwise, optimization is needed;

the second calculation unit is used for calculating an optimization factor according to the following formula when the data transmission performance of the intelligent watch terminal and the intelligent home terminal needs to be optimized;

wherein δ represents the optimization factor; λ represents the sensitivity of the smart watch terminal to transmit an infrared code; lambda (lambda) ₀ Representing the sensitivity of the smart home to receive infrared codes; v represents a transmission rate when the infrared codes are transmitted to the intelligent home when the infrared codes are not optimized; m represents the code element rate when transmitting the infrared code; τ represents the signal-to-noise ratio when transmitting the infrared code; the eta marks the standard transmission efficiency;

and the optimizing unit is used for inputting the performance parameters of the intelligent watch and the intelligent home when the intelligent watch and the intelligent home are subjected to data transmission into a preset optimizing model for training based on the optimizing factors, and optimizing the data transmission performance of the intelligent watch terminal and the intelligent home terminal based on the training result.

In this embodiment, the performance parameter may be transmission efficiency during code transmission, transmission sensitivity of the smart watch, reception sensitivity of the smart home for receiving the infrared code, and the like.

In this embodiment, the standard transmission efficiency may be preset, and may be used as a measure of whether the data transmission performance of the smart watch terminal and the smart home terminal needs to be optimized.

In this embodiment, for the formulaIt can be seen that when the error coefficient ζ is 0.01; the total code byte number Z of the infrared code is 100 bits; the code word number z received by the smart home is 90 bits; the distortion rate mu of the code word number received by the smart home is 2%; the transmission time t for uploading the infrared codes to the intelligent home is 5ms; time delay t for receiving infrared codes by smart home ₀ 0.5ms; the data transmission efficiency eta of uploading the infrared codes to the intelligent home is 72.9%.

In this embodiment, for the formulaAs can be seen, the sensitivity λ of the smart watch terminal to transmit the infrared code is 1.48; sensitivity lambda when intelligent home receives infrared codes ₀ 1.5; when the infrared codes are not optimized, the transmission rate v of the infrared codes to the intelligent home is 10; the code element rate M when transmitting the infrared codes is 11; the signal to noise ratio tau when transmitting the infrared code is 0.8; standard transmission efficiency η is marked as 90%; the data transmission efficiency eta of uploading the infrared codes to the intelligent home is 72.9%; the value of the optimization factor delta is 0.24.

In this embodiment, m×ln (1.2+τ) represents the maximum data transmission efficiency according to the aromatic rule.

The beneficial effects of the technical scheme are as follows: the data transmission efficiency when the infrared codes are transmitted to the intelligent home is calculated accurately, and when the data transmission performance of the intelligent watch terminal and the intelligent home terminal needs to be optimized, the optimization factors are calculated, so that the performance parameters when the intelligent watch and the intelligent home are transmitted are input into the preset optimization model for training based on the optimization factors, the data transmission performance of the intelligent watch terminal and the intelligent home terminal is optimized, the code transmission efficiency is improved greatly, and a user controls the intelligent home through the intelligent watch more sensitively and conveniently.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. Intelligent wrist-watch of pronunciation infrared control intelligence house, its characterized in that includes:

The voice command sending module is used for sending a voice command to the intelligent watch;

the identification module is used for identifying the voice command based on the intelligent watch and retrieving a command code based on an identification result;

the matching module is used for matching the corresponding infrared codes according to the instruction codes and sending the infrared codes to the corresponding intelligent home;

the execution module is used for receiving the infrared codes based on the intelligent home and executing corresponding operations;

the identification module further comprises:

the instruction processing unit is used for acquiring a voice signal of the voice instruction, and performing time domain preprocessing on the voice signal to acquire a first voice signal;

the instruction processing unit is further used for determining the first voice signal frequency variation wave band, analyzing the first voice signal frequency variation wave band and determining a noise frequency band in the first voice signal frequency variation wave band;

the instruction processing unit is further used for filtering noise wave bands in the first voice signals and obtaining filtered second voice signals;

the detection unit is used for acquiring the signal intensity and the voice accuracy of the second voice signal, carrying out voice evaluation on the signal intensity and the voice accuracy of the second voice signal in a preset voice evaluation standard, and determining an evaluation value of the second voice signal;

The checking unit is further configured to compare the evaluation value of the second speech signal with a preset evaluation value, and determine whether the second speech signal is a standard speech signal;

when the evaluation value of the second voice signal is equal to or greater than the preset evaluation value, judging the second voice signal as a standard voice signal;

the optimizing unit is used for optimizing the voice signal model of the second voice signal through a preset optimizing model when the evaluation value of the second voice signal is smaller than the preset evaluation value, and outputting a standard signal;

the voice signal conversion unit is used for carrying out signal recognition on the standard voice signal to determine the information identification in the standard voice signal;

the text generation unit is used for sequentially inputting the information identifiers in the standard voice signals into the data text of the intelligent watch according to a preset time sequence to obtain a voice instruction text;

the text processing unit is used for acquiring a data space of the voice instruction text in the data text of the intelligent watch, determining a data head address of the voice instruction based on the data space, and determining the voice instruction text recognition sequence based on the data head address;

The text recognition unit is used for recognizing the voice command text according to the voice command text recognition sequence and determining command content of the voice command based on a recognition result;

the retrieval unit is used for acquiring the instruction features of the voice instruction, retrieving the instruction features of the voice instruction and the instruction content of the voice instruction in a preset instruction code library, and determining an instruction code corresponding to the voice instruction based on a retrieval result.

2. The smart watch of claim 1, wherein the voice command transmitting module further comprises:

the keyword recognition unit is used for detecting whether a set keyword exists in the voice instruction;

the parameter extraction unit is used for extracting configuration parameters of the voice instruction when the set keywords exist in the voice instruction;

the matching unit is used for matching the configuration parameters with standard parameters;

and the awakening unit is used for awakening the intelligent watch after the configuration parameters are successfully matched with the standard parameters.

3. The smart watch of claim 1, wherein the identification module further comprises:

The voice segmentation unit is used for carrying out voice segmentation on the voice information in the voice command to obtain voice fragments;

the voice training unit is used for training the voice fragments in a pre-stored voice model and obtaining an output result;

the comparison unit is used for comparing the output result with the input voice in the intelligent watch;

the determining unit is used for identifying the voice command based on the intelligent watch when the output result is consistent with the input voice of the intelligent watch;

when the output result is inconsistent with the input voice of the intelligent watch, the intelligent watch is password unlocked, and the voice command is identified based on the intelligent watch after unlocking.

4. The smart watch of a voice infrared controlled smart home of claim 1, wherein the matching module further comprises:

the intelligent home identification unit is used for identifying the intelligent home and acquiring the home type of the intelligent home based on an identification result;

the label generation unit is used for generating a home label corresponding to the intelligent home based on the home type of the intelligent home;

The tag identification unit is used for uploading the home tag to the intelligent watch for identification, and editing codes based on the identification result to generate target instruction codes;

wherein the target instruction codes are in one-to-one correspondence with the infrared codes.

5. The smart watch of claim 1, wherein the identification module further comprises:

the instruction processing unit is used for acquiring the instruction format of the voice instruction;

the judging unit is used for matching the instruction format of the voice instruction in a format library preset in the intelligent watch and judging the storage mode of the voice instruction;

the format library preset in the smart watch comprises the following steps: a first instruction format and a second instruction format;

the first storage mode generating unit is used for distributing a first storage mode to the voice instruction when the instruction format of the voice instruction accords with the first instruction format;

a second storage mode generating unit, configured to allocate a second storage mode to the voice instruction when the instruction format of the voice instruction conforms to the second instruction format;

The instruction storage unit is used for storing the voice instruction according to the first storage mode or the second storage mode.

6. The smart watch of claim 1, wherein the execution module further comprises:

the code format judging unit is used for acquiring the code format of the infrared code, matching the code format with the code format set by the intelligent home, and judging whether the infrared code accords with a standard infrared code or not;

when the code format of the infrared code is matched with the code format set by the intelligent home, judging that the infrared code is a standard infrared code;

otherwise, the infrared code is not the standard infrared code;

the correction unit is used for correcting the infrared codes which are not the standard infrared codes according to the code format set by the intelligent home to obtain the standard infrared codes;

the code reading unit is used for reading the standard infrared codes and determining execution logic of the standard infrared codes;

and the execution unit is used for executing corresponding operation on the intelligent home according to the execution logic of the standard infrared codes.

7. The smart watch of a voice infrared controlled smart home of claim 1, wherein the matching module further comprises:

a protocol data confirmation unit, configured to determine protocol data of an infrared code value library based on a preset infrared code value library;

the protocol generation unit is used for determining a corresponding matching protocol according to the protocol data of the infrared code value library;

the protocol safety detection unit is used for carrying out safety detection on the matching protocol according to a preset rule, judging that the detection result is protocol safety when the matching protocol accords with the preset rule, and otherwise, judging that the detection result is protocol hidden danger;

the code matching establishing unit is used for determining the corresponding relation between the instruction codes and the infrared code value library according to the matching protocol with the protocol security as the detection result;

the code matching unit is further used for matching the instruction codes in the infrared code value library one by one based on the corresponding relation, recording the codes with the same matching, and generating the infrared codes according to the recording result;

an identification acquisition unit that acquires a first code identification of the instruction code and a second code identification of the infrared code;

The communication interaction establishing unit is used for establishing a communication interaction link according to the first code identifier and the second code identifier and determining a receiving port of the intelligent home according to the communication interaction link;

and the interaction unit is used for sending the infrared codes to the corresponding intelligent home according to the communication interaction link and the receiving port of the intelligent home so as to realize interaction between the intelligent watch and the intelligent home.

8. The smart watch of claim 7, wherein the interaction unit further comprises:

the analysis unit is used for analyzing the infrared codes based on the intelligent home to obtain analysis data;

the data reading unit is used for reading the analysis data and determining a first work execution flow of the intelligent home according to a reading result;

the verification unit is used for inputting the analysis data into a preset thinking library for verification and obtaining verification output;

the verification unit is further configured to determine that the first workflow of the smart home is executed reasonably when the verification output is 1, and determine that the first workflow of the smart home is not executed reasonably when the verification output is 0;

And the feedback unit is used for feeding the verification output back to the intelligent watch and completing monitoring of the rationality of the first work execution flow of the intelligent home based on the intelligent watch.

9. The smart watch of claim 8, wherein the feedback unit further comprises:

the result receiving unit is used for receiving the verification output based on the intelligent watch and uploading the output result to the control processing unit;

the control processing unit is used for sending a first infrared control signal to the intelligent home when the verification output is 0 and controlling the intelligent home to stop working according to the infrared control signal;

the control processing unit is also used for sending a second infrared control signal to the intelligent home when the verification output is 1, controlling the intelligent home to work based on the second infrared control signal, recording the work, and generating a record file based on a record result;

and the file storage unit is used for uploading the record file to the intelligent watch and storing the record file.