KR101634899B1 - Method and System for Floor Impact Sound Classification based on Subjective Evaluation and Sentence Scale - Google Patents

Abstract

A method and a system for floor impact sound classification based on daily life sentences and sensibility evaluation are disclosed. The method for floor impact sound classification based on daily life sentences and sensibility evaluation comprises the steps of: collecting sentences including responses and sensibility expressions of people with respect to a floor impact sound, and deriving a scale value between the sentences to produce a sentence scale; evaluating the sensibility of the people by performing annoyance evaluation and sentence evaluation of the people according to a level of the floor impact sound based on the sentence scale; storing the evaluation result in a rule-base; classifying the floor impact sound into grades for auditory stimuli; and matching the grades and the sentences based on the level of the floor impact sound to visualize responses and sensibility to the level of the floor impact sound as the sentence.

Description

TECHNICAL FIELD [0001] The present invention relates to floor impact sound classification methods and systems based on life sentence and emotion evaluation,

The present invention relates to a floor impact sound grading method and system based on living sentence and emotion evaluation. More particularly, to a method and system for grading a floor impact sound based on life sentence and emotion evaluation when a floor impact sound is generated.

Generally, the emotional evaluation system is a system that evaluates the emotions of people about specific stimuli. The system is composed of a digitizer input board configured to express the emotions of the subject in two dimensions (comfort / discomfort, tension / relaxation) In real time on the screen.

Korean Patent Laid-Open Publication No. 10-2013-0091198 relates to such a sensitivity evaluation method and an apparatus to which the sensitivity evaluation method is applied. In particular, a sensitivity evaluation method that reflects individual differences and an apparatus to which the sensitivity evaluation method is applied, detects a physiological signal from a subject, And evaluating physiological and subjective emotions from the physiological signals to compare and analyze physiological and subjective emotions, and correcting the rule bases when emotional days do not coincide with each other.

Generally, when evaluating emotions for people, there is a method of evaluating emotions of people by measuring physiological signals through sensors and a method of inputting emotions of their own directly to the input board. As a result of this system, it is possible to express people's emotions with a display device such as a monitor.

These results, however, contain only expressions of discomfort, relaxation, and arousal. Thus, people are not only unable to perceive their specific emotions and responses to a particular stimulus, but also know how others respond to the same stimulus.

In addition, since the conventional floor impact sound grade is only considering the physical indices, it does not reflect the response and emotion of the people.

Such a conventional emotional evaluation system can not provide specific emotions of people, and people can not understand their reactions and emotions to specific stimuli through this evaluation. For this reason, people are not able to grasp the damage situation of other neighbors about the floor impact sound recently, and they are emerging as a big problem of the residents of the apartment house and the apartment house recently.

The present invention relates to a floor impact sound grading model based on life sentence and emotion evaluation.

SUMMARY OF THE INVENTION The object of the present invention is to provide a floor impact sound evaluation system and a floor impact sound evaluation system which can reduce the impact sound when a floor impact sound is generated, And a floor impact sound grading method and system based on emotional evaluation, which are capable of deriving a sentence and estimating a response of a resident to a floor impact sound.

According to one aspect of the present invention, the rating method based on the life sentence and the emotion evaluation proposed in the present invention collects sentences containing the expressions of people's reactions and emotions for specific stimuli, derives a scale value between the sentences, ; Evaluating the emotions of the people based on the sentence scale through the evaluation of the annoyance degree and the sentence evaluation of the people according to the size of the specific stimulus; Storing the evaluated result in a rule base; Dividing the specific stimulus into a rating for auditory stimulation; And visualizing the response and emotion according to the size of the specific stimulus in the sentence by associating the specific stimulus with the grade and the sentence based on the sound size.

According to another aspect of the present invention, there is provided a method for grading a floor impact sound based on life sentence and emotion evaluation according to the present invention, comprising the steps of collecting sentences containing expressions of emotions and reaction of people to floor impact sounds, deriving a scale value between the sentences, ; Evaluating emotions of the people through the evaluation of the annoyance degree and the sentence evaluation of the people according to the size of the floor impact sound based on the sentence scale; Storing the evaluated result in a rule base; Dividing the floor impact sound into a rating for auditory stimulation; And visualizing the response and emotion according to the size of the floor impact sound by associating the floor impact sound with the grade and the sentence based on the sound size.

According to another aspect of the present invention, the step of constructing the sentence scale includes collecting sentences including responses and emotional expressions of people to the floor impact sound; Determining suitability of the collected sentences; Evaluating the strength of the sentences; Calculating a scale value of the sentences based on the strength evaluation; And deriving the sentences having the measure value to represent one sentence scale.

According to another aspect, the step of judging the appropriateness of the sentences may exclude sentences in which all of the people think negatively or positively, and sentences that contain double negation.

According to another aspect of the present invention, the step of calculating the measure value of the sentences may calculate the measure value by calculating a median value and a quadrature value of the sentence.

According to another aspect of the present invention, the step of calculating a measure value of the sentences may select a sentence having a low quartile deviation and exclude the remaining sentences when the median values of the two or more sentences are the same.

According to another aspect of the present invention, the step of evaluating emotions of the people comprises: preparing an experimental sound source through the floor impact sound; Conducting the evaluation of the degree of annoyance based on the produced test sound source and evaluating the sentence; Coding and analyzing the evaluated results; And a step of analyzing the degree of annoyance for the test sound source in the case of the annoyance degree evaluation based on the results of coding and analyzing and deriving an average sentence score value for the test sound source in the case of the sentence evaluation .

According to another aspect, the analysis results stored in the rule-base are a reference when the reproduction of the sentence scale is repeated and can be updated.

According to another aspect, dividing the floor impact sound into classes for auditory stimulation includes classifying the five classes by dividing the annoyance percentage data in the rule base by 20% for each class; Deriving a sound pressure level corresponding to the class based on the heavy impact sound source; Deriving a sentence scale graph in which the y-axis is the average sentence scale value and the x-axis is the sound pressure level, based on the average sentence scale value data existing in the rule base; And deriving a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade.

According to another aspect of the present invention, the floor impact sound grading system based on the life sentence and the emotion evaluation proposed in the present invention collects sentences including a response and emotional expression of a person to a floor impact sound, derives a scale value between the sentences, A sentence scale production department that produces a scale; A sensitivity evaluation unit for evaluating the sensitivity of the people through the evaluation of the degree of annoyance and the evaluation of the sentence according to the size of the floor impact sound based on the sentence scale; A rule-based part for storing the evaluated result; An impact sound grading unit for dividing the floor impact sound into classes for auditory stimulation; And a visualization unit that associates the floor impact sound with the grade and the sentence based on the sound size, and visualizes the response and emotion according to the size of the floor impact sound in the sentence.

According to another aspect of the present invention, the producing unit may include a sentence collecting unit for collecting sentences including responses and emotional expressions of people to the floor impact sound; A sentence discrimination unit for judging the appropriateness of the collected sentences; And an equal interval scale unit for calculating a scale value of the sentences and deriving the sentences having the scale value of the equal interval to present one sentence scale.

According to another aspect of the present invention, the emotion evaluation unit includes an experimental sound producer for producing an experimental sound source through the floor impact sound; An annoyance degree evaluating unit for evaluating the annoyance degree based on the produced test sound source; And a sentence evaluating unit for evaluating the sentence based on the produced test sound source.

According to another aspect of the present invention, the annoyance level estimating unit analyzes the rate of annoyance for the test sound source based on the results of coding and analysis, and the sentence evaluating unit can derive an average sentence test value for the test sound source.

According to another aspect, the rule-based part is a reference when the stored analysis results are reproduced again, and can be updated.

According to another aspect of the present invention, the impact sound grading unit may include a percentage-based classifying unit that classifies five grades by dividing the annoyance percentage data existing in the rule-base by 20% for each grade; A sound pressure level portion for deriving a sound pressure level corresponding to the class of the heavy impact sound source; A sentence scale graph for deriving a graph in which the y-axis is the average sentence scale value and the x-axis is the sound pressure level, based on the average sentence scale value data existing in the rule base; And a sentence scale interval derivation unit for deriving a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade.

According to the embodiments of the present invention, the response of the residents regarding the floor impact sound is expressed and produced in the form of a sentence, and the life sentence scale is prepared. By grading the floor impact sound based on the sentence scale and the degree of annoyance, It is possible to provide a method and system for grading a floor impact sound based on life sentence and emotion evaluation which estimates a response of a resident to a floor impact sound by extracting sentences.

According to the embodiments of the present invention, the subjective expressions are scaled to provide one criterion for the floor impact sound, so that the overall sensibility evaluation of the floor impact sound is performed in real time. Thus, a living sentence And a floor impact sound grading method and system based on emotion evaluation can be provided.

1 is a flowchart illustrating a floor impact sound grading method based on life sentence and emotion evaluation according to an embodiment of the present invention.
2 is a flowchart illustrating a method for producing a sentence scale according to an exemplary embodiment of the present invention.
3 is a flowchart showing a sensitivity evaluation method according to an embodiment of the present invention.
4 is a flowchart illustrating a floor impact sound grading method according to an embodiment of the present invention.
5 is a block diagram illustrating a floor impact sound grading system based on life sentence and emotion evaluation according to an embodiment of the present invention.
6 is a block diagram illustrating an impact sound grading unit according to an embodiment of the present invention.
FIG. 7 is a graph illustrating a floor impact sound grading method based on life sentence and emotion evaluation according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a floor impact sound grading method and system based on the above-described sentence scale and degree of annoyance, and a process for proposing a life sentence scale by expressing and producing a response of a resident about a floor impact sound. Through this, it is possible to derive the life sentence corresponding to the floor impact sound when the floor impact sound is generated, and it is possible to estimate the response of the occupant to the floor impact sound based on this.

Life sentence and emotional evaluation based grading methods can collect sentences containing human response and emotional expressions for specific stimuli and produce sentence scale by deriving the scale value between sentences.

Based on the sentence scale, people's emotions can be evaluated through evaluation of the degree of annoyance and sentence evaluation according to the size of the specific stimulus, and the evaluated result can be stored in the rule base.

Thereafter, the specific stimulus is divided into the ratings for the auditory stimulation, and the specific stimulus is correlated with the grade and the sentence based on the sound size, and the response and emotion according to the size of the specific stimulus can be visualized as a sentence.

In other words, it is possible to collect concrete sentences about how individual people think or react to specific stimuli (floor impact sounds) to express people's reactions and emotions to specific stimuli. Thereafter, the evaluation of the questionnaire based on the degree of annoyance scale is performed, and a sentence scale can be produced by deriving the scale value between the respective sentences.

Based on this sentence scale, it is possible to derive response sentences and annoyance level of people according to the size of sound by performing auditory evaluation at the same time as the degree of annoyance scale which is frequently presented in the evaluation of auditory stimulation.

Based on this, we can classify auditory stimuli and classify each grade and sentence based on sound size. In this way, when a certain stimulus (floor impact sound) occurs, the person can understand the specific response and emotion.

Here, the classification method and system based on the life sentence and the emotion evaluation are not limited to the floor impact sound, and the floor impact sound will be described below as an example of a specific stimulus.

1 is a flowchart illustrating a floor impact sound grading method based on life sentence and emotion evaluation according to an embodiment of the present invention.

Referring to FIG. 1, a floor impact sound grading system based on life sentence and emotion evaluation will be described in detail. Here, the floor impact sound grading system based on life sentence and emotion evaluation may include a sentence scale production section, a sensitivity evaluation section, a rule-base section, an impact sound grading section, and a visualization section.

In step 110, the sentence scale production section can collect sentences containing the response and emotional expressions of the people to the floor impact sound, and produce a sentence scale by deriving a scale value between sentences.

In other words, the production department of the sentence scale collects concrete sentences about how individual people think or react to a specific stimulus (floor impact sound) in order to express people's response and emotion to a floor impact sound, The sentence scale can be constructed by conducting the questionnaire evaluation based on the scale and deriving the scale value between the sentences.

In step 120, the emotion evaluation unit can evaluate people's emotion through the evaluation of the degree of annoyance and the evaluation of the sentence according to the size of the floor impact sound based on the sentence scale.

In other words, the emotion evaluation department can estimate the response sentence and the degree of annoyance according to the size of the sound of the floor impact sound by carrying out the auditory evaluation at the same time with the annoyance degree scale frequently presented in the evaluation of the auditory stimulation based on the sentence scale.

In step 130, the rule-base unit may store the response sentences and the degree of annoyance of the derived persons in a rule-based.

Here, the analysis results stored in the rule base are used as a reference when updating the previous sentence scale production method 110 and can be updated.

In step 140, the impact sound grading unit may divide the floor impact sound into classes for auditory stimuli.

In step 150, the visualization unit may associate each grade and sentence with a floor impact sound based on the size of the sound. Through this, it is possible to know what response and emotion is felt by people when a floor impact sound is generated. As a result, the specific response and emotion of a person according to the size of the floor impact sound can be visualized in sentences.

2 is a flowchart illustrating a method for producing a sentence scale according to an exemplary embodiment of the present invention.

Referring to FIG. 2, a method of constructing a sentence scale in the floor impact sound grading method based on life sentence and emotion evaluation can be shown.

In step 111, the sentence collecting unit may collect sentences including the response of the floor impact sound and emotional expressions.

In other words, for the emotional evaluation of specific people, the sentence collecting department can collect sentences containing the expressions of emotions and reactions of people regarding floor impact sounds. It can be collected based on, but not limited to, the Ministry of Environment and national noise information systems.

In step 112, the sentence determination unit may determine the suitability of the sentence based on the sentences collected in the above.

Here, we can exclude sentences that both people think negatively or positively, and sentences that contain double negation. It is also possible to exclude sentences deemed inappropriate and collect other sentences.

In step 113, after evaluating the appropriateness of the sentence, the strength evaluation may be performed based on the collected sentences. For example, you can evaluate how annoying people think about each sentence, using the 5-point scale and the 7-point scale.

In step 114, based on the result of the strength evaluation of the sentence, the equal interval measure can calculate the scale value of the sentences by calculating the quadrature deviation, which is the value of the median and quartile deviation of each sentence. If the median of two or more sentences is the same in this process, the sentences with low quartile deviation can be selected and the remaining sentences can be excluded.

In step 115, the equal interval measure may derive sentences with isometric values and present a single sentence scale.

In other words, the isometric scale can produce a single scale by selecting sentences with the same scale interval as possible. As an example, one scale that selects sentences with the same scale interval at most can be 5 points and can be 7 points.

In step 116, a sentence scale may be constructed to provide an appropriate sentence scale, and a sentence scale may be produced as a result of the sentence scale production method, thereby providing a basis for evaluating a floor impact sound when a floor impact sound is generated.

3 is a flowchart showing a sensitivity evaluation method according to an embodiment of the present invention.

Referring to FIG. 3, the emotional evaluation method can be shown in the floor impact sound grading method based on the life sentence and the emotion evaluation, and the emotional evaluation part can evaluate the emotion of the person through the evaluation of the degree of annoyance and the sentence evaluation in the floor impact sound.

In step 121, the experimental sound production unit can produce an experimental sound source to be used for the evaluation of the degree of annoyance and the sentence evaluation through the floor impact sound. Here, when producing an experimental sound source, the experimental sound source can be manufactured by dividing it by the sound pressure level and the sound pressure attenuation rate, but is not limited thereto.

In step 122, the annoyance degree evaluation unit may conduct the annoyance degree evaluation based on the sound source produced above. Then, in step 123, the sentence evaluation unit can perform the sentence evaluation simultaneously with the evaluation of the degree of annoyance.

In step 124, the emotion evaluation unit may perform coding and analysis tasks on the evaluated result.

In step 125, the pacedness assessor can analyze the evaluated results through a coding and analysis task through a percentage of the degree of pacedness, which is a measure of the total percentage of people annoying for the experimental sound source in the case of a paced degree assessment have.

In addition, at step 126, the sentence scale unit can analyze whether or not a person thinks that the sentence is considered most appropriate for the test sound source in the case of the sentence scale, and derive the average sentence scale value through the average value of the sentence scores.

4 is a flowchart illustrating a floor impact sound grading method according to an embodiment of the present invention.

Referring to FIG. 4, a floor impact sound grading method in a floor impact sound grading method based on life sentence and emotion evaluation can be shown.

In step 141, the floor impact sound grading system based on life sentence and emotion evaluation (grading system) can classify five grades by dividing the annoyance percentage data existing in the rule base by 20% for each grade. For example, if a classification operation based on a specified percentage is performed, the x-axis can be expressed as a sound pressure level, and the y-axis as a percentage. Based on this graph, it is possible to calculate the sound pressure level interval corresponding to each class when classifying it into five or more classes.

Further, at step 142, the grading system can derive a sentence scale graph in which the y-axis is an average sentence scale value and the x-axis is a sound pressure level, based on the average sentence scale value data existing in the rule-base.

Here, the specified sentence scale graph can be expressed by the y-axis as a sentence scale value and the x-axis as a sound pressure level. Then, it is possible to find the corresponding sentence scale value by shifting the sound pressure level interval classified in step 141 to the x axis of the sentence scale graph specified in step 142. This can be represented graphically in FIG. 7, and it is possible to proceed with the processor of the floor impact sound grading method based on life sentence and emotion evaluation through the above graph.

In step 143, the grading system may derive a sound pressure level corresponding to each grade based on the weighted impact sound source.

In step 144, the grading system may derive a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure levels corresponding to the five grades derived above.

5 is a block diagram illustrating a floor impact sound grading system based on life sentence and emotion evaluation according to an embodiment of the present invention.

5, the floor impact sound grading system based on life sentence and emotion evaluation includes a sentence scale production unit 210, a sensitivity evaluation unit 220, a rule-base unit 230, an impact sound gradation unit 240, (250). The description of the life sentence and the floor impact sound grading method based on the emotion evaluation in FIGS. 1 to 4 will not be repeated and will be described based on the main structure.

The sentence scale production unit 210 can collect sentences including the response and emotional expressions of the people to the floor impact sound, and can derive a sentence scale by deriving a scale value between sentences.

The emotion evaluation unit 220 can evaluate people's emotion through the evaluation of the degree of annoyance and the evaluation of the sentence according to the size of the floor impact sound based on the sentence scale.

The emotion evaluation unit 220 may include an experimental sound producer, an annoyance evaluation unit 221, and a sentence evaluation unit 222.

More specifically, the experimental sound source production unit can produce the experimental sound source through the floor impact sound.

The annoyance degree evaluation unit 221 can perform the annoyance degree evaluation based on the produced test sound source, and can analyze the percentage of annoyance about the test sound source based on the coded and analyzed results.

In addition, the sentence evaluation unit 222 can evaluate the sentence based on the produced test sound source, and can derive an average sentence test value for the test sound source based on the result of coding and analysis.

The rule-base unit 230 may store the evaluated result.

Also, the rule-base unit 230 can be updated and updated when the stored analysis results are reproduced again.

The impact sound grading unit 240 can divide the floor impact sound into classes for the auditory stimulus.

More specifically, the impact sound grading unit 240 classifies five grades by dividing the annoyance percentage data in the rule base by 20% for each grade, and derives a sound pressure level corresponding to the grade based on the weight impact sound source Based on the average sentence scale value data existing in the rule base, a graph of the sentence scale can be derived in which the y-axis is the average sentence scale value and the x-axis is the sound pressure level. The sentence scale interval corresponding to each grade can be derived corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade.

The visualization unit 250 can classify the floor impact sound based on the sound size, and classify the response and emotion according to the size of the floor impact sound as a sentence.

6 is a block diagram illustrating an impact sound grading unit according to an embodiment of the present invention.

6, the impact sound grading unit 240 includes a percentage-based classifying unit 241, a sentence scale graph 242, a sound pressure level display unit 242, Part 243, and sentence scale interval derivation part 244.

The percentage-based classifying unit 241 can classify five classes by dividing the annoyance percentage data in the rule-base by 20% for each class.

The sentence scale graph 242 can derive a graph based on the average sentence scale value data existing in the rule base, the y-axis as the average sentence scale value, and the x-axis as the sound pressure level.

The sound pressure level section 243 can derive a sound pressure level corresponding to the grade of the weight impact sound source.

The sentence scale interval derivation unit 244 can derive a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade.

According to the embodiments of the present invention, the response of the residents regarding the floor impact sound is expressed and produced in the form of a sentence, and the life sentence scale is prepared. By grading the floor impact sound based on the sentence scale and the degree of annoyance, The sentence can be derived and the response of the occupant to the floor impact sound can be estimated.

In addition, the present invention proposes a method of preparing a criterion for a floor impact sound by scaling subjective expressions, and it is a great effect to specifically measure and evaluate accurate human sensibility by conducting an overall emotion evaluation on a floor impact sound in real time .

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, controller, arithmetic logic unit (ALU), digital signal processor, microcomputer, field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing apparatus may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (15)

Collecting sentences containing expressions of emotions and responses of people to a specific stimulus, and deriving a scale value between the sentences to produce a sentence scale;
Evaluating the emotions of the people based on the sentence scale through the evaluation of the annoyance degree and the sentence evaluation of the people according to the size of the specific stimulus;
Storing the evaluated result in a rule base;
Dividing the specific stimulus into a rating for auditory stimulation; And
Correlating the specific stimulus with the class and the sentence based on the sound size, and visualizing the response and emotion according to the size of the specific stimulus in the sentence
Lt; / RTI >
Wherein the step of constructing the sentence scale comprises:
Collecting sentences including a response and emotional expression of the person to the specific stimulus;
Determining suitability of the collected sentences;
Evaluating the strength of the sentences;
Calculating a scale value of the sentences based on the strength evaluation; And
Deriving the sentences with the scale value equally and presenting one sentence scale
And a rating method based on emotion evaluation. Collecting sentences containing expressions of emotions and reactions of people to a floor impact sound, and deriving a scale value between the sentences to produce a sentence scale;
Evaluating emotions of the people through the evaluation of the annoyance degree and the sentence evaluation of the people according to the size of the floor impact sound based on the sentence scale;
Storing the evaluated result in a rule base;
Dividing the floor impact sound into a rating for auditory stimulation; And
Visualizing the response and emotion according to the size of the floor impact sound in the sentence by associating the grade and the sentence with the floor impact sound based on the sound size,
Lt; / RTI >
Wherein the step of constructing the sentence scale comprises:
Collecting sentences including a reaction and emotional expression of people to the floor impact sound;
Determining suitability of the collected sentences;
Evaluating the strength of the sentences;
Calculating a scale value of the sentences based on the strength evaluation; And
Deriving the sentences with the scale value equally and presenting one sentence scale
A floor impact sound grading method based on life sentence and emotion evaluation including. delete 3. The method of claim 2,
The step of determining the suitability of the sentences
Exclude sentences that all of the above people think negatively or positively and statements that contain double negation
A method for grading a floor impact sound based on life sentence and emotion evaluation. 3. The method of claim 2,
The step of calculating a measure value of the sentences
Calculating a median value and a quadratic difference value of the sentence and calculating the scale value
A method for grading a floor impact sound based on life sentence and emotion evaluation. 6. The method of claim 5,
The step of calculating a measure value of the sentences
If the median values of the two or more sentences are the same, select the sentence with the lowest quartile deviation and exclude the remaining sentences
A method for grading a floor impact sound based on life sentence and emotion evaluation. 3. The method of claim 2,
The step of evaluating the sensitivity of the people
Producing an experimental sound source through the floor impact sound;
Conducting the evaluation of the degree of annoyance based on the produced test sound source and evaluating the sentence;
Coding and analyzing the evaluated results; And
Analyzing the degree of annoyance for the test sound source in the case of the annoyance degree evaluation based on the results of coding and analyzing and deriving an average sentence test value for the test sound source in the case of the sentence evaluation
A floor impact sound grading method based on life sentence and emotion evaluation including. 3. The method of claim 2,
The analysis results stored in the rule base are used as a reference when reproducing the sentence scale again,
A method for grading a floor impact sound based on life sentence and emotion evaluation. 3. The method of claim 2,
Dividing the floor impact sound into classes for auditory stimuli
Classifying the five grades by dividing the annoyance percentage data in the rule base by 20% for each grade;
Deriving a sound pressure level corresponding to the class based on the heavy impact sound source;
Deriving a sentence scale graph in which the y-axis is the average sentence scale value and the x-axis is the sound pressure level, based on the average sentence scale value data existing in the rule base; And
Deriving a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade
A floor impact sound grading method based on life sentence and emotion evaluation including. A sentence scale production unit for collecting sentences including expressions of emotions and responses of people to floor impact sounds and generating a sentence scale by deriving a scale value between the sentences;
A sensitivity evaluation unit for evaluating the sensitivity of the people through the evaluation of the degree of annoyance and the evaluation of the sentence according to the size of the floor impact sound based on the sentence scale;
A rule-based part for storing the evaluated result;
An impact sound grading unit for dividing the floor impact sound into classes for auditory stimulation; And
A visualization unit for associating the grade and the sentence with the floor impact sound based on the sound size and visualizing the response and emotion according to the size of the floor impact sound in the sentence,
Lt; / RTI >
The producing unit,
A sentence collecting unit for collecting sentences including a reaction and emotional expression of people to the floor impact sound;
A sentence discrimination unit for judging the appropriateness of the collected sentences;
Calculating a scale value of the sentences, deriving the sentences having the scale value of the equal intervals, and presenting one sentence scale,
A floor impact sound grading system based on life sentence and emotion evaluation. delete 11. The method of claim 10,
The emotion evaluation unit
An experimental sound producer producing an experimental sound through the floor impact sound;
An annoyance degree evaluating unit for evaluating the annoyance degree based on the produced test sound source; And
A sentence evaluation unit for evaluating the sentence based on the produced test sound source,
A floor impact sound grading system based on life sentence and emotion evaluation. 13. The method of claim 12,
Wherein the annoyance degree evaluation unit analyzes the percentage of annoyance about the experiment sound source based on the results of coding and analysis, and the sentence evaluation unit derives an average sentence scale value for the experiment sound source
Floor impact sound grading system based on life sentence and emotion evaluation. 11. The method of claim 10,
The rule-base section
The stored analysis results are used as a reference when reproducing the sentence scale again,
Floor impact sound grading system based on life sentence and emotion evaluation. 11. The method of claim 10,
The impact sound grading unit
A percentage-based classifier for classifying five grades by dividing the annoyance percentage data in the rule base by 20% for each grade;
A sound pressure level portion for deriving a sound pressure level corresponding to the class of the heavy impact sound source;
A sentence scale graph for deriving a graph in which the y-axis is the average sentence scale value and the x-axis is the sound pressure level, based on the average sentence scale value data existing in the rule base;
A sentence scale interval derivation unit for deriving a sentence scale interval corresponding to each grade corresponding to the sentence scale graph based on the sound pressure level corresponding to the grade,
A floor impact sound grading system based on life sentence and emotion evaluation.

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