CN116489569B - Intelligent sound equipment based on APP terminal control of artificial intelligence and implementation method thereof - Google Patents

Abstract

The invention discloses an intelligent sound box based on APP terminal control of artificial intelligence and an implementation method thereof, and belongs to the technical field of sound boxes. The intelligent sound equipment based on the APP terminal control of the artificial intelligence comprises the intelligent sound equipment, wherein a data transmission interface, a switch key, a reset key, a TF card slot and an optical fiber interface are arranged on the side end face of the intelligent sound equipment, a display screen and a sound outlet are arranged on the front end face of the intelligent sound equipment, and the sound outlet is shielded by a dustproof covering mechanism. The intelligent sound box based on the APP terminal control of the artificial intelligence and the implementation method thereof solve the problems of short service life and poor use effect of the existing intelligent sound box, and when the intelligent sound box is not used, dust can be prevented from entering the intelligent sound box through the sound outlet to damage electronic components of the intelligent sound box, the service life of the intelligent sound box is prolonged, the intelligent sound box can perform corresponding safety early warning on an emergency, and the use effect of the intelligent sound box can be improved.

Description

Intelligent sound equipment based on APP terminal control of artificial intelligence and implementation method thereof

Technical Field

The invention relates to the technical field of sound equipment, in particular to intelligent sound equipment controlled by an APP terminal based on artificial intelligence and an implementation method thereof.

Background

The intelligent sound box is an upgrade product of the sound box, is a tool for home consumers to access the internet by using voice, can possibly cause poor sound quality if the volume is too small, can easily damage the eardrum of the user if the volume is too large, has long play time, can cause damage to the eardrum of the user, and can even cause hearing loss seriously. Moreover, if the playing sound is too high, the neighbor rest of the partition wall is inevitably disturbed, and other people are necessarily affected unless the house with the good sound insulation effect is used.

The Chinese patent with publication number CN108668202B discloses an artificial intelligent sound, a maximum sound volume value and a reasonable sound volume value are stored in a micro-control chip of the patent in advance, the actual sound volume under the use state is detected at intervals, the actual sound volume is compared with the maximum sound volume value and the reasonable sound volume value, the sound volume is reasonably regulated according to the compared result, the sound volume effect of the patent is good, the sound volume can be always controlled in a reasonable range, the influence of the too low sound volume on audio-visual effect is prevented, or the hearing is prevented from being damaged due to the too high sound volume, and the hearing health of a user is comprehensively ensured. However, the intelligent sound equipment of the above patent has the following defects in the actual use process:

1. when the existing intelligent sound box is not used, the sound outlet of the intelligent sound box is exposed outside, dust is easy to enter the intelligent sound box through the sound outlet, electronic components of the intelligent sound box are damaged, normal use of the intelligent sound box is affected, and the service life of the intelligent sound box is shortened;

2. the existing intelligent sound equipment cannot monitor the surrounding environment state in real time, cannot perform corresponding safety early warning aiming at an emergency, and is poor in using effect.

Disclosure of Invention

The invention aims to provide an intelligent sound box controlled by an APP terminal based on artificial intelligence and an implementation method thereof, when the intelligent sound box is not used, dust can be prevented from entering the intelligent sound box through a sound outlet to damage electronic components of the intelligent sound box, the service life of the intelligent sound box is prolonged, the intelligent sound box can perform corresponding safety early warning on an emergency, the use effect of the intelligent sound box can be improved, and the problems in the background art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an intelligent stereo set based on APP terminal control of artificial intelligence, includes intelligent stereo set, intelligent stereo set's side terminal surface is provided with data transmission interface, on & off switch, reset key, TF draw-in groove and optical fiber interface, data transmission interface is located the upper end of on & off switch and the reset key that set up side by side, on & off switch and reset key are located the upper end of TF draw-in groove and optical fiber interface that sets up side by side, intelligent stereo set's preceding terminal surface is provided with the display screen and makes sound hole, the display screen is located the top in making sound hole, making sound hole is shielded through dustproof covering mechanism, dustproof covering mechanism sets up the lower extreme at intelligent stereo set.

Preferably, the dustproof cover mechanism comprises an outer baffle seat and an inner baffle plate, the outer baffle seat is arranged at the lower end of the intelligent sound box, an inner baffle plate is arranged on the inner side of the outer baffle seat, the inner baffle plate is fixed in the outer baffle seat through a connecting assembly, and the inner baffle plate is clung to the outer surface of the intelligent sound box.

Preferably, the both sides terminal surface of interior baffle all is provided with the direction slider, the direction slider is embedded to have the ball, the direction slider is located the inboard of outer fender seat, and the direction slider passes through the ball and slides on the inner wall of outer fender seat, the direction slider passes through coupling assembling and fixes on outer fender seat.

Preferably, the connecting assembly comprises a connecting base, a spiral spring, a telescopic guide column, a connecting plate and a fixing rod, wherein the connecting base is arranged on the outer wall of the outer baffle seat, the connecting plate is arranged on the inner side of the connecting base and connected to the inner wall of the connecting base through the spiral spring and the telescopic guide column, the fixing rod is arranged on the connecting plate and penetrates through the outer baffle seat, and the fixing rod extends into the guide sliding block.

Preferably, the connecting assembly further comprises an operating handle, the operating handle is mounted on the connecting plate, one end, far away from the connecting plate, of the operating handle penetrates through the connecting base, and the operating handle extends to the outer side of the connecting base.

Preferably, the smart sound further comprises

The instruction acquisition module is used for acquiring control instruction information sent by a user through the APP terminal in real time, wherein the user control instruction information comprises voice instruction information and text instruction information, and the user selects a control instruction sending mode suitable for the user according to the user's own needs;

the instruction processing module is used for processing the acquired user control instruction information, extracting the user control instruction information according to the user control requirement, identifying and analyzing the user control instruction information, acquiring user control instruction data, searching and calculating the user control instruction data, filtering out user control instruction data useless for the user control requirement, reserving the user control instruction data useful for the user control requirement, calculating the reserved user control instruction data and determining the semantic characteristics of the user control instruction;

the instruction feedback module is used for responding and feeding back the user control instruction semantic features, searching instruction feedback information matched with the user control instruction semantic features from the stored instruction feedback strategies according to the user control instruction semantic features, calling out the searched instruction feedback information, and performing interactive feedback on the intelligent sound according to the instruction feedback information.

Preferably, the instruction feedback module searches the instruction feedback information matched with the user control instruction semantic feature from the stored instruction feedback strategies according to the user control instruction semantic feature, and includes the following steps:

step 1: according to the stored command feedback strategy, determining feedback variables of the semantic features of the user control command:

B＝k _i {a ₁ ，a ₂ ，a ₃ …a _i }

wherein B represents a set of feedback variables; k (k) _i A subdivision coefficient representing semantic features of a user control instruction corresponding to the ith feedback variable; a, a _n Represents the ith feedback variable;

step 2: according to the feedback variable, constructing a related model of the semantic features of the user control instruction:

wherein Y (i) represents a feature function of the user control instruction semantics; q _i Representing the corresponding semantic features of the ith feedback variable; r is (r) _i Representing the feature confidence of the semantic feature corresponding to the ith feedback variable; f represents a correlation value; f (x, y) represents a sequence function of the semantic features of the user control instruction corresponding to the feedback variable; when F is more than or equal to 0, feedback can be performed; when F < 0 indicates that feedback is not possible.

Preferably, the smart sound further comprises

The environment monitoring module is used for monitoring the surrounding environment characteristic information of the intelligent sound equipment, acquiring the surrounding environment characteristic information of the intelligent sound equipment, referring to the stored surrounding environment standard information of the intelligent sound equipment, carrying out contrast analysis on the acquired surrounding environment characteristic information of the intelligent sound equipment, and formulating a corresponding analysis evaluation report according to a contrast analysis result;

the safety early warning module is used for carrying out safety early warning on the surrounding environment characteristic information of the intelligent sound equipment, responding quickly and executing corresponding feedback operation according to the analysis and evaluation report, and carrying out corresponding safety early warning on the emergency;

when the acquired surrounding environment characteristic information of the intelligent sound is subjected to comparison analysis, the following operations are executed:

referring to the stored surrounding environment standard information of the intelligent sound equipment, comparing and analyzing the acquired surrounding environment characteristic information of the intelligent sound equipment;

aiming at the condition that the acquired surrounding environment characteristic information is in the stored surrounding environment standard information range, the formulated analysis and evaluation report is that no emergency occurs, and no safety precaution is carried out;

aiming at the situation that the acquired surrounding environment characteristic information is not in the stored surrounding environment standard information range, the established analysis and evaluation report is that an emergency occurs, and corresponding safety precaution is carried out.

Preferably, the comparative analysis comprises:

step 1: according to the stored ambient environment standard information of the intelligent sound equipment (1), constructing a standard information model:

wherein B represents a standard information model; η (eta) _i Element risk characteristics of an ith environmental element in the surrounding environment standard information are represented; λ represents a reference risk factor; q _i Element characteristics of an ith environmental element in the surrounding environment standard information are represented; f (F) an environmental linear transformation function under an environmental variation coefficient F in the surrounding environmental standard information; n represents the total number of the environmental elements; i is e n; i is a positive integer;

step 2: according to the acquired surrounding environment characteristic information, cake is matched with a standard information model:

wherein H is _j Element characteristics representing a j-th element in the surrounding environment characteristics; v (V) _j A position parameter representing a j-th element in the surrounding feature; t (T) _j Representing the duration of the j-th element in the surrounding feature at the location; when P is less than 1, the surrounding environment is likely to have emergency, and early warning is needed.

According to another aspect of the present invention, there is provided a method for implementing an intelligent sound based on an APP terminal control of artificial intelligence, which is applied to the intelligent sound based on an APP terminal control of artificial intelligence, including the steps of:

s1: acquiring control instruction information comprising voice instruction information and text instruction information sent by a user through an APP terminal in real time, extracting the user control instruction information according to user control requirements, and identifying and analyzing the user control instruction information to acquire user control instruction data;

s2: searching and calculating user control instruction data, filtering out user control instruction data which is useless for user control requirements, reserving user control instruction data which is useful for the user control requirements, calculating the reserved user control instruction data, and determining semantic features of the user control instructions;

s3: according to the semantic features of the user control instructions, the instruction feedback information matched with the semantic features of the user control instructions is searched from the stored instruction feedback strategies, the searched instruction feedback information is called out, and the intelligent sound equipment performs interactive feedback according to the instruction feedback information.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the intelligent sound box, the dustproof covering mechanism is arranged on the intelligent sound box, and the sound outlet is shielded by the dustproof covering mechanism, so that when the intelligent sound box is not used, the inner baffle plate protrudes out of the outer baffle seat, and the inner baffle plate shields the sound outlet, so that dust can be prevented from entering the intelligent sound box through the sound outlet to damage electronic components of the intelligent sound box, normal use of the intelligent sound box can be fully ensured, and the service life of the intelligent sound box is prolonged.

2. According to the intelligent sound equipment and the method, the surrounding environment characteristic information is monitored in real time through the intelligent sound equipment, the acquired surrounding environment characteristic information is subjected to comparison analysis by referring to the stored surrounding environment standard information of the intelligent sound equipment, a corresponding analysis and evaluation report is formulated according to a comparison analysis result, the analysis and evaluation report is fast responded and corresponding feedback operation is executed, corresponding safety early warning is carried out on an emergency, and the use effect of the intelligent sound equipment is improved.

Drawings

FIG. 1 is a schematic diagram of an intelligent sound box with an inner baffle plate which does not cover sound outlet holes;

FIG. 2 is a schematic diagram of the intelligent sound box with the inner baffle shielding the sound outlet;

FIG. 3 is a schematic view of the inner baffle plate of the present invention facing away from the outer baffle seat without protruding;

FIG. 4 is a schematic view of the inner baffle plate of the present invention projecting from the outer baffle seat;

FIG. 5 is an enlarged view of the invention at A in FIG. 3;

FIG. 6 is a block diagram of a smart sound of the present invention;

fig. 7 is a flowchart of an algorithm for comparing and analyzing the acquired surrounding characteristic information of the smart sound and determining an analysis evaluation report according to the present invention.

In the figure: 1. an intelligent sound box; 11. a data transmission interface; 12. a switching key; 13. a reset key; 14. a TF card slot; 15. an optical fiber interface; 16. a display screen; 17. a sound outlet hole; 2. a dust-proof covering mechanism; 21. an outer baffle seat; 22. an inner baffle; 221. a guide slide block; 222. a ball; 23. a connection assembly; 231. a connecting base; 232. a coil spring; 233. a telescopic guide post; 234. a connecting plate; 235. a fixed rod; 236. an operating handle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the problem that when current intelligent stereo set is not using, the sound hole of its intelligent stereo set exposes in the outside, and the dust is very easy in getting into intelligent stereo set through the sound hole, and damages intelligent stereo set's electronic components, influences intelligent stereo set's normal use, reduces intelligent stereo set's life, please refer to fig. 1-5, and this embodiment provides following technical scheme:

the utility model provides an intelligent stereo set based on APP terminal control of artificial intelligence, including intelligent stereo set 1, intelligent stereo set 1's side terminal surface is provided with data transmission interface 11, on & off switch 12, reset key 13, TF draw-in groove 14 and optical fiber interface 15, data transmission interface 11 is located the upper end of on & off switch 12 and the reset key 13 that set up side by side, on & off switch 12 and reset key 13 are located the upper end of TF draw-in groove 14 and optical fiber interface 15 that set up side by side, intelligent stereo set 1's preceding terminal surface is provided with display screen 16 and sound hole 17, display screen 16 is located sound hole 17's top, sound hole 17 shields through dustproof covering mechanism 2, dustproof covering mechanism 2 sets up the lower extreme at intelligent stereo set 1.

The dustproof cover mechanism 2 comprises an outer baffle seat 21 and an inner baffle 22, the outer baffle seat 21 is arranged at the lower end of the intelligent sound box 1, the inner baffle 22 is arranged on the inner side of the outer baffle seat 21, the inner baffle 22 is fixed in the outer baffle seat 21 through a connecting component 23, and the inner baffle 22 is clung to the outer surface of the intelligent sound box 1.

The guide sliding blocks 221 are arranged on the end faces of the two sides of the inner baffle 22, the balls 222 are embedded in the guide sliding blocks 221, the guide sliding blocks 221 are located on the inner side of the outer baffle 21, the guide sliding blocks 221 slide on the inner wall of the outer baffle 21 through the balls 222, and the guide sliding blocks 221 are fixed on the outer baffle 21 through the connecting assembly 23.

When the guide slider 221 slides on the inner wall of the outer stopper 21 by the balls 222 to move the inner stopper 22 smoothly in the outer stopper 21 and the inner stopper 22 moves to the lower end of the outer stopper 21, the guide slider 221 is mounted on the inner wall of the outer stopper 21, so that the inner stopper 22 does not fall off from the inside of the outer stopper 21.

The connecting assembly 23 comprises a connecting base 231, a spiral spring 232, a telescopic guide post 233, a connecting plate 234 and a fixing rod 235, wherein the connecting base 231 is arranged on the outer wall of the outer baffle seat 21, the connecting plate 234 is arranged on the inner side of the connecting base 231, the connecting plate 234 is connected to the inner wall of the connecting base 231 through the spiral spring 232 and the telescopic guide post 233, the fixing rod 235 is arranged on the connecting plate 234, the fixing rod 235 penetrates through the outer baffle seat 21, and the fixing rod 235 extends into the guide sliding block 221.

The connection assembly 23 further includes an operation handle 236, the operation handle 236 is mounted on the connection plate 234, an end of the operation handle 236 remote from the connection plate 234 penetrates the connection base 231, and the operation handle 236 extends to the outside of the connection base 231.

When the intelligent sound equipment 1 is used, the operation handle 236 drives the connecting plate 234 and the fixing rod 235 to move towards the direction approaching to the operation handle 236, the spiral spring 232 and the telescopic guide column 233 shrink due to the extrusion force until the fixing rod 235 is not inserted into the outer baffle seat 21 any more, the inner baffle 22 is pushed to move upwards in the outer baffle seat 21 until the inner baffle 22 does not cover the sound hole 17 at all, the operation handle 236 is loosened, the spiral spring 232 and the telescopic guide column 233 are extended due to the extrusion force no more, the connecting plate 234 and the fixing rod 235 are pushed to move towards the direction far away from the operation handle 236, the fixing rod 235 penetrates through the outer baffle seat 21, and the fixing rod 235 extends into the guide sliding block 221, at this time, the inner baffle 22 is fixed in the outer baffle seat 21, and the inner baffle 22 does not cover the sound hole 17, so that the normal use of the intelligent sound equipment 1 can be ensured.

It should be noted that, when the intelligent sound box 1 is not in use, the operation handle 236 drives the connecting plate 234 and the fixing rod 235 to move towards the direction close to the operation handle 236, the coil spring 232 and the telescopic guide post 233 shrink due to the extrusion force until the fixing rod 235 is no longer inserted into the guide slide block 221, at this time, the guide slide block 221 is no longer fixed by the fixing rod 235, so that the inner baffle 22 moves downwards in the outer baffle seat 21, the inner baffle 22 protrudes out of the outer baffle seat 21, and the inner baffle 22 shields the sound outlet 17, so that dust can be prevented from entering the intelligent sound box 1 through the sound outlet 17 to damage electronic components of the intelligent sound box 1, normal use of the intelligent sound box 1 can be fully ensured, and the service life of the intelligent sound box 1 is prolonged.

In order to solve the problem that the existing intelligent sound equipment cannot monitor the state of the surrounding environment in real time and cannot perform corresponding safety early warning for an emergency, the use effect is poor, referring to fig. 6-7, the present embodiment provides the following technical scheme:

the intelligent sound box 1 also comprises

The instruction acquisition module is used for acquiring control instruction information sent by a user through the APP terminal in real time, wherein the user control instruction information comprises voice instruction information and text instruction information, and the user selects a control instruction sending mode suitable for the user according to the user's own needs;

the instruction processing module is used for processing the acquired user control instruction information, extracting the user control instruction information according to the user control requirement, identifying and analyzing the user control instruction information, acquiring user control instruction data, searching and calculating the user control instruction data, filtering out user control instruction data useless for the user control requirement, reserving the user control instruction data useful for the user control requirement, calculating the reserved user control instruction data and determining the semantic characteristics of the user control instruction;

the instruction feedback module is used for responding and feeding back the user control instruction semantic features, searching instruction feedback information matched with the user control instruction semantic features from the stored instruction feedback strategies according to the user control instruction semantic features, and calling out the searched instruction feedback information to perform interactive feedback according to the instruction feedback information, wherein the intelligent sound equipment 1 is used for generating the interactive feedback.

Preferably, the instruction feedback module searches the instruction feedback information matched with the user control instruction semantic feature from the stored instruction feedback strategies according to the user control instruction semantic feature, and includes the following steps:

step 1: according to the stored command feedback strategy, determining feedback variables of the semantic features of the user control command:

B＝k _i {a ₁ ，a ₂ ，a ₃ …a _i }

wherein B represents a set of feedback variables; k (k) _i A subdivision coefficient representing semantic features of a user control instruction corresponding to the ith feedback variable; a, a _n Represents the ith feedback variable;

step 2: according to the feedback variable, constructing a related model of the semantic features of the user control instruction:

wherein Y (i) represents a feature function of the user control instruction semantics; q _i Representing the corresponding semantic features of the ith feedback variable; r is (r) _i Representing the feature confidence of the semantic feature corresponding to the ith feedback variable; f represents a correlation value; f (x, y) represents a sequence function of the semantic features of the user control instruction corresponding to the feedback variable; when F is more than or equal to 0, feedback can be performed; when F < 0 indicates that feedback is not possible.

The principle of the technical scheme is as follows:

when the feedback is performed, the feedback information is determined to be fed back based on specific instructions. In the process, firstly, the variable parameters of the feedback variable are built based on the semantic features of the user control instruction, so in the step 1, according to the subdivision coefficients of the semantic features of the user control instruction, the subdivision coefficients are feedback variables based on the subdivision coefficients, which are obtained after the semantic features of the user are subdivided based on different types (such as different voiceprints of voice). However, even if the voiceprints of the voices are different for the same instruction, the subdivision coefficients are the same. Furthermore, in step 2, the present invention is based on a set of feedback variables first by constructing a simultaneous correlation modelThe confidence calculation of the user control command is integrated from feedback variables, the confidence is used for judging whether the semantic features of the collected user control command can be believed, if so, the command is ambiguous, for example, the voice is not heard clearly but cannot be confidenceA kind of electronic device. And further, feedback can be realized when the correlation model is greater than or equal to 0. If the confidence is 0, at this time, only feedback variables are in the feedback set, but no feedback semantic features exist, and at this time, F < 0 is caused to indicate that feedback cannot be performed. Only when there is a feedback variable and also a feedback feature, feedback can be performed. f (x, y) represents a sequence function of the semantic features of the user control instruction corresponding to the feedback variable; namely +.>A sequence function of semantic features of the input with confidence.

The intelligent sound box 1 also comprises

The environment monitoring module is used for monitoring the surrounding environment characteristic information of the intelligent sound equipment 1, acquiring the surrounding environment characteristic information of the intelligent sound equipment 1, referring to the stored surrounding environment standard information of the intelligent sound equipment 1, carrying out contrast analysis on the acquired surrounding environment characteristic information of the intelligent sound equipment 1, and formulating a corresponding analysis evaluation report according to a contrast analysis result;

the safety early warning module is used for carrying out safety early warning on the surrounding environment characteristic information of the intelligent sound equipment 1, responding quickly and executing corresponding feedback operation according to the analysis and evaluation report, and carrying out corresponding safety early warning on the emergency;

when the acquired surrounding environment characteristic information of the intelligent sound equipment 1 is subjected to comparative analysis, the following operations are executed:

referring to the stored surrounding environment standard information of the intelligent sound 1, comparing and analyzing the acquired surrounding environment characteristic information of the intelligent sound 1;

aiming at the condition that the acquired surrounding environment characteristic information is in the stored surrounding environment standard information range, the formulated analysis and evaluation report is that no emergency occurs, and no safety precaution is carried out;

aiming at the situation that the acquired surrounding environment characteristic information is not in the stored surrounding environment standard information range, the established analysis and evaluation report is that an emergency occurs, and corresponding safety precaution is carried out.

Preferably, the comparative analysis comprises:

step 1: according to the stored ambient environment standard information of the intelligent sound equipment 1, constructing a standard information model:

wherein B represents a standard information model; η (eta) _i Element risk characteristics of an ith environmental element in the surrounding environment standard information are represented; λ represents a reference risk factor; q _i Element characteristics of an ith environmental element in the surrounding environment standard information are represented; f (F) an environmental linear transformation function under an environmental variation coefficient F in the surrounding environmental standard information; n represents the total number of the environmental elements; i is e n; i is a positive integer;

step 2: according to the acquired surrounding environment characteristic information, cake is matched with a standard information model:

wherein H is _j Element characteristics representing a j-th element in the surrounding environment characteristics; v (V) _j A position parameter representing a j-th element in the surrounding feature; t (T) _j Representing the duration of the j-th element in the surrounding feature at the location; when P is less than 1, the surrounding environment is likely to have emergency, and early warning is needed.

In the invention, in the process of carrying out contrast analysis and early warning through surrounding environment information, the invention firstly builds a standard information model, the building of the standard information model has two parts,the risk part is used for judging the risk weights of different elements in the standard information model; />For determining standard informationThe specific change coefficient of the element can determine the risk limit value of different elements in the standard information through the change coefficient and the risk weight. And in step 2 by +.>The specific characteristics of the actual environment are determined, the specific characteristics of the actual environment are matched through standard information, and if the matching value is smaller than 1, the characteristics of the actual environment are lower than the limit value of the standard environment, so that early warning is needed at the moment.

It should be noted that, the intelligent sound 1 monitors the surrounding environment characteristic information in real time, and performs a comparison analysis on the acquired surrounding environment characteristic information with reference to the stored surrounding environment standard information of the intelligent sound 1, and formulates a corresponding analysis evaluation report according to the comparison analysis result, and according to the analysis evaluation report, the intelligent sound 1 responds quickly and executes a corresponding feedback operation, and performs a corresponding safety early warning for an emergency, thereby improving the use effect of the intelligent sound 1.

In order to better show the implementation flow of the intelligent sound equipment controlled by the APP terminal based on artificial intelligence, the embodiment now provides an implementation method of the intelligent sound equipment controlled by the APP terminal based on artificial intelligence, which is applied to the intelligent sound equipment controlled by the APP terminal based on artificial intelligence, and comprises the following steps:

s1: acquiring control instruction information comprising voice instruction information and text instruction information sent by a user through an APP terminal in real time, extracting the user control instruction information according to user control requirements, and identifying and analyzing the user control instruction information to acquire user control instruction data;

s2: searching and calculating user control instruction data, filtering out user control instruction data which is useless for user control requirements, reserving user control instruction data which is useful for the user control requirements, calculating the reserved user control instruction data, and determining semantic features of the user control instructions;

s3: according to the user control command semantic features, finding command feedback information matched with the user control command semantic features from a stored command feedback strategy, calling out the found command feedback information, and carrying out interactive feedback by the intelligent sound equipment 1 according to the command feedback information.

In summary, according to the intelligent sound equipment based on the APP terminal control of the artificial intelligence and the implementation method thereof, when the intelligent sound equipment 1 is not used, the inner baffle 22 protrudes out of the outer baffle seat 21, and the inner baffle 22 shields the sound outlet 17, so that dust can be prevented from entering the intelligent sound equipment 1 through the sound outlet 17 to damage electronic components of the intelligent sound equipment 1, normal use of the intelligent sound equipment 1 can be fully ensured, the service life of the intelligent sound equipment 1 is prolonged, the intelligent sound equipment 1 monitors surrounding environment characteristic information in real time, and the acquired surrounding environment characteristic information is subjected to comparison analysis by referring to stored surrounding environment standard information of the intelligent sound equipment 1, an analysis and evaluation report is formulated according to a comparison analysis result, a corresponding feedback operation is quickly responded and executed according to the analysis and evaluation report, and corresponding safety early warning is performed on an emergency, so that the use effect of the intelligent sound equipment 1 is improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The intelligent sound equipment based on the APP terminal control of artificial intelligence comprises an intelligent sound equipment (1), and is characterized in that a data transmission interface (11), a switch key (12), a reset key (13), a TF card slot (14) and an optical fiber interface (15) are arranged on the side end face of the intelligent sound equipment (1), the data transmission interface (11) is positioned at the upper ends of the switch key (12) and the reset key (13) which are arranged side by side, the switch key (12) and the reset key (13) are positioned at the upper ends of the TF card slot (14) and the optical fiber interface (15) which are arranged side by side, a display screen (16) and a sound outlet (17) are arranged on the front end face of the intelligent sound equipment (1), the display screen (16) is positioned above the sound outlet (17), the sound outlet (17) is shielded by a dustproof covering mechanism (2), and the dustproof covering mechanism (2) is arranged at the lower end of the intelligent sound equipment (1).

The dustproof covering mechanism (2) comprises an outer baffle seat (21) and an inner baffle plate (22), the outer baffle seat (21) is arranged at the lower end of the intelligent sound equipment (1), the inner baffle plate (22) is arranged on the inner side of the outer baffle seat (21), the inner baffle plate (22) is fixed in the outer baffle seat (21) through a connecting component (23), and the inner baffle plate (22) is tightly attached to the outer surface of the intelligent sound equipment (1);

the guide sliding blocks (221) are arranged on the end faces of the two sides of the inner baffle plate (22), the balls (222) are embedded in the guide sliding blocks (221), the guide sliding blocks (221) are located on the inner side of the outer baffle seat (21), the guide sliding blocks (221) slide on the inner wall of the outer baffle seat (21) through the balls (222), and the guide sliding blocks (221) are fixed on the outer baffle seat (21) through the connecting assembly (23);

the connecting assembly (23) comprises a connecting base (231), a spiral spring (232), a telescopic guide column (233), a connecting plate (234) and a fixing rod (235), wherein the connecting base (231) is installed on the outer wall of the outer baffle seat (21), the connecting plate (234) is arranged on the inner side of the connecting base (231), the connecting plate (234) is connected onto the inner wall of the connecting base (231) through the spiral spring (232) and the telescopic guide column (233), the fixing rod (235) is installed on the connecting plate (234), the fixing rod (235) penetrates through the outer baffle seat (21), and the fixing rod (235) extends into the guide sliding block (221);

the connecting assembly (23) further comprises an operating handle (236), the operating handle (236) is arranged on the connecting plate (234), one end of the operating handle (236) away from the connecting plate (234) penetrates through the connecting base (231), and the operating handle (236) extends to the outer side of the connecting base (231);

the intelligent sound equipment (1) further comprises

The environment monitoring module is used for monitoring the surrounding environment characteristic information of the intelligent sound equipment (1), acquiring the surrounding environment characteristic information of the intelligent sound equipment (1), carrying out contrast analysis on the acquired surrounding environment characteristic information of the intelligent sound equipment (1) by referring to the stored surrounding environment standard information of the intelligent sound equipment (1), and formulating a corresponding analysis evaluation report according to a contrast analysis result;

the safety early warning module is used for carrying out safety early warning on the surrounding environment characteristic information of the intelligent sound equipment (1), responding quickly and executing corresponding feedback operation according to the analysis and evaluation report, and carrying out corresponding safety early warning on the emergency;

when the acquired surrounding environment characteristic information of the intelligent sound equipment (1) is subjected to comparison analysis, the following operations are executed:

the acquired surrounding environment characteristic information of the intelligent sound equipment (1) is subjected to comparison analysis by referring to the stored surrounding environment standard information of the intelligent sound equipment (1);

aiming at the condition that the acquired surrounding environment characteristic information is in the stored surrounding environment standard information range, the formulated analysis and evaluation report is that no emergency occurs, and no safety precaution is carried out;

aiming at the situation that the acquired surrounding environment characteristic information is not in the stored surrounding environment standard information range, the established analysis and evaluation report is that an emergency occurs, and corresponding safety precaution is carried out;

the comparative analysis includes:

step 1: according to the stored ambient environment standard information of the intelligent sound equipment (1), constructing a standard information model:wherein (1)>Representing a standard information model; />Representing the +.o in the surrounding standard information>Element risk characteristics of individual environmental elements; />Representing a reference risk factor; />Representing the +.o in the surrounding standard information>Element characteristics of individual environmental elements; />Environmental variation coefficient in ambient standard information +.>The lower ambient linear transformation function; />Representing the total number of environmental elements; />；/>Is a positive integer; step 2: according to the acquired surrounding environment characteristic information, cake is matched with a standard information model: />Wherein (1)>Representing the +.>Element characteristics of the individual elements; />Representing the +.>Position parameters of the individual elements; />Representing the +.>The duration of the location of the individual element; when->When the emergency occurs, the surrounding environment is indicated to possibly happen, and early warning is needed.

2. The intelligent sound equipment controlled by an APP terminal based on artificial intelligence according to claim 1, wherein: the intelligent sound equipment (1) further comprises

The instruction acquisition module is used for acquiring control instruction information sent by a user through the APP terminal in real time, wherein the user control instruction information comprises voice instruction information and text instruction information, and the user selects a control instruction sending mode suitable for the user according to the user's own needs; the instruction processing module is used for processing the acquired user control instruction information, extracting the user control instruction information according to the user control requirement, identifying and analyzing the user control instruction information, acquiring user control instruction data, searching and calculating the user control instruction data, filtering out user control instruction data useless for the user control requirement, reserving the user control instruction data useful for the user control requirement, calculating the reserved user control instruction data and determining the semantic characteristics of the user control instruction;

the instruction feedback module is used for responding and feeding back the user control instruction semantic features, searching instruction feedback information matched with the user control instruction semantic features from the stored instruction feedback strategies according to the user control instruction semantic features, and calling out the searched instruction feedback information to perform interactive feedback according to the instruction feedback information, wherein the intelligent sound equipment (1) is used for playing the interactive feedback.

3. The implementation method of the intelligent sound equipment based on the APP terminal control of the artificial intelligence is applied to the intelligent sound equipment based on the APP terminal control of the artificial intelligence as set forth in any one of claims 1-2, and is characterized by comprising the following steps:

s1: acquiring control instruction information comprising voice instruction information and text instruction information sent by a user through an APP terminal in real time, extracting the user control instruction information according to user control requirements, and identifying and analyzing the user control instruction information to acquire user control instruction data;

s2: searching and calculating user control instruction data, filtering out user control instruction data which is useless for user control requirements, reserving user control instruction data which is useful for the user control requirements, calculating the reserved user control instruction data, and determining semantic features of the user control instructions;

s3: according to the user control command semantic features, finding command feedback information matched with the user control command semantic features from a stored command feedback strategy, calling out the found command feedback information, and carrying out interactive feedback on the intelligent sound equipment (1) according to the command feedback information.