WO2014167770A1 - Impression evaluation device and impression evaluation method - Google Patents

Abstract

This impression evaluation device comprises: a physical property information measurement unit (1) that measures at least one physical property information of an object (P) from among visual first physical property information, auditory second physical property information, tactile third physical property information, olfactory fourth physical property information, and gustatory fifth physical property information; a biological information measurement unit (3) that measures at least one biological information of a subject (Q) from among autonomic first biological information, central second biological information, endocrine-immunological third biological information, and bionomical-behavioral fourth biological information; and an impression evaluation unit that evaluates the impression that the subject (Q) has about the object (P) from the physical property information measured by the physical property information measurement unit (1) and the biological information measured by the biological information measurement unit (3) by employing a psychological model that represents a relationship between impression and said physical property information and said biological information and that employs at least one of value characteristics, activity, and competence as an index.

Description

Impression evaluation device and impression evaluation method

The present invention relates to an impression evaluation device and an impression evaluation method for evaluating an impression of a subject on a subject.

As an evaluation system for quantifying preferences for food, a system has been proposed for evaluating preferences of subjects using physical attribute data possessed by non-smelling materials and biological information data of subjects tasting it (See Patent Document 1). In addition, as a content reproduction apparatus for giving an impression intended by a content provider to a viewer, the evaluation value is estimated in advance by the biometric information of the viewer in each scene of the content such as a video, and the reproduction of the content is controlled. An apparatus has been proposed (see Patent Document 2).

Japanese Patent Application Publication No. 2003-290179 JP 2002-344904 A

However, the technology described in Patent Document 1 evaluates the subject's food preference based on taste and smell, and can not be diverted appropriately for evaluation of impressions on various objects with high accuracy. . Further, the technology described in Patent Document 2 does not consider physical property information of the surrounding environment, and the evaluation accuracy may be reduced.
An object of this invention is to provide the impression evaluation apparatus and the impression evaluation method which can evaluate the impression with respect to various objects with high precision in view of the said problem.

In order to achieve the above object, according to a first aspect of the present invention, a first physical property information of a visual system of a target, a second physical property information of a auditory system of a target, a third physical property information of a tactile system of a target, an olfactory sense of a target The physical property information measurement unit for measuring at least one physical property information of the fourth physical property information of the system and the fifth physical property information of the target taste system, the first biological information of the autonomic nervous system of the subject, the subject A biological information measuring unit for measuring at least one biological information of the second biological information of the central nervous system, the third biological information of the endocrine immune system of the subject, and the fourth biological information of the ecological behavior system of the subject; Physical property information and a living body measured by the physical property information measurement unit using a psychological model that represents physical property information and relationship between biological information and an impression, and at least one of value, activity and strength is an index From the biological information measured by the information measurement unit, the subject's And summarized in that a impression evaluation apparatus and a impression evaluation unit for evaluating the impression of.

An impression evaluation device according to a second aspect of the present invention is the impression evaluation device according to the first aspect, wherein the biological information measurement unit includes first biological information, second biological information, third biological information, and fourth biological information. Among the above, at least two pieces of biological information are measured.

An impression evaluation device according to a third aspect of the present invention is the impression evaluation device according to the first or second aspect, wherein the physical property information measurement unit includes first physical property information, second physical property information, third physical property information, and a third. Among the four physical property information and the fifth physical property information, at least two of the physical property information are measured.

An impression evaluation device according to a fourth aspect of the present invention is the impression evaluation device according to any one of the first to third aspects, comprising: a model storage unit that stores a plurality of different psychological models; At least one psychological model is selected from a plurality of psychological models according to the attribute setting unit receiving information and the attribute information received by the attribute setting unit, and physical property information and biological information used in the selected psychological model are measured. Thus, the physical property information measurement unit and the control unit that controls the biological information measurement unit are further provided, and the impression evaluation unit is characterized by evaluating the impression using the psychological model selected by the control unit.

An impression evaluation device according to a fifth aspect of the present invention is characterized in that, in the impression evaluation device according to the fourth aspect, the control unit reselects the psychological model.

An impression evaluation device according to a sixth aspect of the present invention is the impression evaluation device according to the fourth or fifth aspect, wherein the attribute information of the subject includes at least one of gender, age and personality characteristics It is characterized by

An impression evaluation device according to a seventh aspect of the present invention is the impression evaluation device according to any one of the first to sixth aspects, wherein the psychological model is a relationship between physical information and biological information and an impression at a predetermined timing. And a model representing a time-series relationship from a predetermined timing.

An impression evaluation device according to an eighth aspect of the present invention is the impression evaluation device according to any one of the first to seventh aspects, wherein the impression evaluation unit is a three factor indicator of value, activity and power. It is characterized by evaluating an impression by a psychological model.

An impression evaluation device according to a ninth aspect of the present invention is the impression evaluation device according to any one of the first to eighth aspects, further comprising an impression output unit that outputs an impression of the object evaluated by the impression evaluation unit. It is characterized by

The tenth aspect of the present invention relates to the first physical property information of the target visual system, the second physical property information of the target auditory system, the third physical information of the target tactile system, the fourth physical information of the target olfactory system and the target Measuring at least one physical property information of the fifth physical property information of the taste system, the first biological information of the autonomic nervous system of the subject, the second biological information of the central nervous system of the subject, the test The step of measuring at least one biological information of the third biological information of the endocrine immune system of the person and the fourth biological information of the ecological behavior system of the subject, and the relationship between the physical information and the biological information and the impression Evaluating the impression of the subject on the subject from the measured physical property information and the measured biological information using a psychological model having at least one of value, activity and competence as an index; The gist is that the method is an impression evaluation method including

FIG. 1 is a block diagram for explaining a basic configuration of an impression evaluation apparatus according to an embodiment of the present invention. FIG. 2 is a view for explaining a three-factor psychology model used in an impression evaluation unit of the impression evaluation device according to the embodiment of the present invention. FIG. 3 is a diagram for explaining an example of the operation of the impression evaluation device according to the embodiment of the present invention. FIGS. 4 (a) to 4 (d) are diagrams for explaining the indoor illumination environment as a target used in the embodiment of the present invention. FIG. 5 is a view for explaining the measurement results of the electroencephalogram of the subject in the example of the present invention. FIG. 6 is a diagram for explaining the amplitude of the electroencephalogram shown in FIG. 5 at a predetermined time.

Next, embodiments of the present invention will be described with reference to the drawings. In the following description of the drawings, the same or similar parts will be denoted by the same or similar reference numerals, and overlapping descriptions will be omitted. However, the embodiment shown below is an example of an apparatus and method for embodying the technical idea of the present invention, and the configuration is specified to the apparatus and method illustrated in the following embodiment. Not Various changes can be added to the technical idea of the present invention within the technical scope described in the claims.

(Impression evaluation device)
As shown in FIG. 1, the impression evaluation device according to the embodiment of the present invention includes a physical property information measurement unit 1, a physical property information data processing unit 2, a biological information measurement unit 3, and a biological information data processing unit 4. An impression evaluation unit 5, an impression evaluation database (D / B) 51, and an output unit 6 are provided. The impression evaluation apparatus according to the embodiment of the present invention evaluates the impression of the subject Q on the subject P based on the physical property information of the subject P and the biological information of the subject (user) Q.

The physical property information measurement unit 1 includes a first physical property information measurement unit 11, a second physical property information measurement unit 12, a third physical property information measurement unit 13, a fourth physical property information measurement unit 14, and a fifth physical property information measurement unit Equipped with The physical property information measurement unit 1 measures physical property information of the object P.

The first physical property information measurement unit 11 measures, for example, first physical property information of the visual system, such as illuminance, gloss, lightness, and saturation. The second physical property information measurement unit 12 measures, for example, second physical property information of the auditory system such as volume and frequency. The third physical property information measurement unit 13 measures, for example, third physical property information of the touch system such as surface roughness and hardness. The fourth physical property information measurement unit 14 measures, for example, fourth physical property information of the olfactory system such as odor concentration and odor intensity. The fifth physical property information measurement unit 15 measures, for example, fifth physical property information of a taste system such as sweetness and bitterness.

The first physical property information measurement unit 11, the second physical property information measurement unit 12, the third physical property information measurement unit 13, the fourth physical property information measurement unit 14 and the fifth physical property information measurement unit 15 may be configured by various sensors. The physical property information input unit may be adopted as physical property information obtained by measuring values input from the outside. The first physical property information measurement unit 11, the second physical property information measurement unit 12, the third physical property information measurement unit 13, the fourth physical property information measurement unit 14 and the fifth physical property information measurement unit 15 respectively measure physical property information measured It is output to the data processing unit 2.

The physical property information data processing unit 2 corresponds to the physical property information measurement unit 1, and includes a first physical property information data processing unit 21, a second physical property information data processing unit 22, a third physical property information data processing unit 23, and a fourth And a physical property information data processing unit 24. The physical property information data processing unit 2 inputs physical property information measured by the physical property information measurement unit 1, performs signal processing on digital data that can be processed by the impression evaluation unit 5, and outputs the processed digital data to the impression evaluation unit 5 as physical property information.

That is, the first physical property information data processing unit 21 processes the first physical property information measured by the first physical property information measurement unit 11 into data that can be processed by the impression evaluation unit 5, and the impression evaluation unit as the first physical property information. Output to 5 The second physical property information data processing unit 22 performs signal processing on the second physical property information measured by the second physical property information measurement unit 12 into data that can be processed by the impression evaluation unit 5 and outputs the second physical property information to the impression evaluation unit 5. Output. The third physical property information data processing unit 23 processes the third physical property information measured by the third physical property information measurement unit 13 into data that can be processed by the impression evaluation unit 5 and makes the impression evaluation unit 5 the third physical property information. Output. The fourth physical property information data processing unit 24 processes the fourth physical property information measured by the fourth physical property information measurement unit 14 into data that can be processed by the impression evaluation unit 5 and makes the impression evaluation unit 5 the fourth physical property information. Output. The fifth physical property information data processing unit 25 processes the fifth physical property information measured by the fifth physical property information measurement unit 15 into data that can be processed by the impression evaluation unit 5 and makes the impression evaluation unit 5 as fifth physical property information. Output.

The physical property information data processing unit 2 performs, for example, analog-to-digital conversion (A / D conversion), fast Fourier transform (FFT), peak detection, counting, normalization, etc. according to physical property information input from the physical property information measurement unit 1. Various calculations are performed, and signal processing is performed on data that can be processed by the impression evaluation unit 5.

The physical property information measurement unit 1 and the physical property information data processing unit 2 shown in FIG. 1 are an example for measuring the first to fifth physical property information of the object P. The physical property information measurement unit 1 and the physical property information data processing unit 2 may measure at least one physical property information among the first to fifth physical property information. That is, the physical property information measurement unit 1 does not have to include all of the first physical property information measurement unit 11 to the fifth physical property information measurement unit 15, and may have a measurement unit that measures target physical property information. The physical property information data processing unit 2 may include necessary processing units among the first physical property information data processing unit 21 to the fifth physical property information data processing unit 25 in accordance with the physical property information measurement unit 1.

Further, the physical property information measurement unit 1 and the physical property information data processing unit 2 may measure at least two physical property information of the first to fifth physical property information. By measuring two or more pieces of physical property information, the impression evaluation device according to the embodiment of the present invention evaluates the impression of the subject Q on the subject P with high accuracy based on the physical property information of the subject P. Can.

The biological information measurement unit 3 includes a first biological information measurement unit 31, a second biological information measurement unit 32, a third biological information measurement unit 33, and a fourth biological information measurement unit 34. The living body information measurement unit 3 measures the living body information of the subject Q.

The first living body information measurement unit 31 is, for example, a first living body of an autonomic nervous system such as heart rate (pulse rate), heart rate fluctuation component (HF), body temperature, blood pressure, respiratory rate, mental sweating, skin temperature and skin electrical activity. Measure information. The second biological information measurement unit 32 measures, for example, power values of frequencies of various brain waves such as alpha waves, and second biological information of the central nervous system such as cerebral blood flow. The third biological information measurement unit 33 measures, for example, the third biological information of the endocrine system such as the amylase concentration of saliva and the immunoglobulin A concentration and the immune system (endocrine immune system). The fourth living body information measurement unit 34 measures, for example, fourth living body information of an ecological behavior system such as a sight line, an expression, an action, and a sigh.

The first living body information measurement unit 31, the second living body information measurement unit 32, the third living body information measurement unit 33, and the fourth living body information measurement unit 34 may be configured by various sensors and measuring devices, and are input from the outside The biometric information input unit may be adopted as biometric information whose value is measured. The first biological information measurement unit 31, the second biological information measurement unit 32, the third biological information measurement unit 33, and the fourth biological information measurement unit 34 respectively output the measured biological information to the biological information data processing unit 4.

The biological information data processing unit 4 corresponds to the biological information measurement unit 3 and includes a first biological information data processing unit 41, a second biological information data processing unit 42, a third biological information data processing unit 43, and a fourth And a biometric information data processing unit 44. The biological information data processing unit 4 inputs the biological information measured by the biological information measurement unit 3, performs signal processing on digital data that can be processed by the impression evaluation unit 5, and outputs the digital data to the impression evaluation unit 5 as biological information.

That is, the first living body information data processing unit 41 processes the first living body information measured by the first living body information measurement unit 31 into data that can be processed by the impression evaluation unit 5 and sets the impression evaluation unit as the first living body information. Output to 5 The second living body information data processing unit 42 processes the second living body information measured by the second living body information measurement unit 32 into data that can be processed by the impression evaluation unit 5, and outputs the processed data to the impression evaluation unit 5 as the second living body information. Output. The third living body information data processing unit 43 performs signal processing on the third living body information measured by the third living body information measurement unit 33 into data that can be processed by the impression evaluation unit 5 and makes the impression evaluation unit 5 as the third living body information. Output. The fourth living body information data processing unit 44 processes the fourth living body information measured by the fourth living body information measurement unit 34 into data that can be processed by the impression evaluation unit 5 and makes the impression evaluation unit 5 the fourth living body information. Output.

The biological information data processing unit 4 performs analog digital conversion (A / D conversion), fast Fourier transform (FFT), peak detection, counting, normalization, etc. according to the biological information input from the biological information measurement unit 3. Various calculations are performed, and signal processing is performed on data that can be processed by the impression evaluation unit 5.

The biological information measurement unit 3 and the biological information data processing unit 4 shown in FIG. 1 are an example for measuring the first to fourth biological information of the subject Q. The living body information measurement unit 3 and the living body information data processing unit 4 may measure at least one living body information among the first to fourth living body information. That is, the living body information measurement unit 3 does not have to include all of the first living body information measurement unit 31 to the fourth living body information measurement unit 34, and may have a measurement unit that measures the target living body information. The biological information data processing unit 4 may be provided with a necessary processing unit among the first biological information data processing unit 41 to the fourth biological information data processing unit 44 according to the biological information measurement unit 3.

Further, the living body information measurement unit 3 and the living body information data processing unit 4 may measure at least two living body information of the first to fourth living body information, respectively. By measuring two or more pieces of biological information, the impression evaluation device according to the embodiment of the present invention evaluates the impression of the subject Q on the subject P with high accuracy based on the biological information of the subject Q. can do.

For example, when selecting an electroencephalogram as the second biological information and a line of sight or an action as the fourth biological information, the two pieces of biological information are correlated. For this reason, the impression evaluation device according to the embodiment of the present invention can evaluate the impression of the subject Q on the object P with high accuracy based on the biological information of the subject Q. When the line of sight is selected as the fourth biological information, the size of the pupil may be measured as the fourth biological information together with the line of sight.

In particular, the biological information measurement unit 3 is the first biological information measurement unit 31 and the second biological information measurement unit 32, and the biological information data processing unit 4 is the first biological information data processing unit 41 and the second biological information data processing unit 42. Suppose that it has. In this case, since the first biological information of the autonomic nervous system and the second biological information of the central nervous system can be measured in a relatively short time, the impression evaluation device according to the embodiment of the present invention, the subject Q It is possible to measure the biological information of the subject in substantially real time.

The impression evaluation unit 5 receives the first to fifth physical information, which are measured by the physical property information measurement unit 1 and subjected to signal processing in the physical property information data processing unit 2 respectively. The impression evaluation unit 5 receives the first to fourth biological information measured respectively in the biological information measurement unit 3 and subjected to signal processing in the biological information data processing unit 4. The impression evaluation unit 5 evaluates the impression of the subject Q on the object P from the input first to fifth physical information and the first to fourth biological information. The impression evaluation unit 5 includes, for example, an arithmetic processing unit such as a microprocessor and a peripheral circuit, and can perform temporary storage of calculation and information necessary for processing.

The impression evaluation database 51 stores impressions of the object P according to the first to fifth physical information of the object P and the first to fourth biological information of the subject Q. Impression evaluation unit 5 refers to impression evaluation database 51 from the first to fifth physical property information and the first to fourth biometric information, and collates the corresponding impression to make an impression of subject Q on object P. Evaluate The impression evaluation database 51 is composed of, for example, a main storage device consisting of volatile storage devices such as SRAM and DRAM, and an auxiliary storage device composed of non-volatile storage devices such as magnetic disks, optical disks, magneto-optical disks and semiconductor memories. Be done.

The impressions stored in the impression evaluation database 51 are, for example, value, activity, competence and palatability. The impression can be expressed by, for example, a psychological model which is a function representing the relationship between the first to fifth physical information and the first to fourth biological information and the impression of the subject Q. Further, the impression may adopt value, activity, strength, palatability and the like as high-order impressions, or may be adopted as low-order impressions constituting high-order impressions.

For example, as shown in FIG. 2, the impression evaluation unit 5 uses the semantic difference discrimination method (SD method) to make an impression on the object P according to a three-factor psychology model in which value, activity and strength are indexs. You may make it evaluate. In the example shown in FIG. 2, when the x-axis represents value, the y-axis represents activity, and the z-axis represents strength, the positive region of the x-axis indicates that the value is high, and the negative region indicates the value Indicates small. That is, as the x-axis value increases, the value increases. The positive region of the y-axis indicates dynamic, the negative region indicates static, and the activity increases as the value of the y-axis increases. The positive region of the z axis indicates that the forceability is large, the negative region indicates that the forceability is small, and the forcemetricity increases as the value of the z axis increases.

When the impression evaluated by the impression evaluation unit 5 is the value X of value, the value Y of activity, and the value Z of strength, for example, the psychological model is physical information pX, pY, pZ biological information qX, Formulas (1) to (3) can be represented as qY and qZ, respectively.
X = aXqX + bXpX + cX (1)
Y = aYqY + bYpY + cY (2)
Z = aZqZ + bZpZ + cZ (3)

The coefficients aX, bX, cX, aY, bY, cY, aZ, bZ and cZ are weights that can be determined by performing, for example, multiple regression analysis for each of value, activity and competence . When the object P is an indoor environment, in Equations (1) to (3), pX can be, for example, the illuminance at an arbitrary place in the room, and qX can be, for example, the heart rate of the subject Q. The impression evaluation unit 5 uses the three-factor psychology model by the SD method from the first to fifth physical information and the first to fourth biological information, and uses the three-factor psychology model according to the degree (value) of value, activity and competence. The impression of the examiner Q on the object P can be evaluated. The impression evaluation unit 5 may evaluate an impression on the object P using a psychological model having at least one of value, activity, and competence as an index.

The output unit 6 includes a display device such as a monitor, an XY plotter, and an output device such as a printer, and outputs various commands, data, and the like according to the inputs from the impression evaluation unit 5 and the control unit 7. The output unit 6 includes an impression output unit 61 that outputs an impression of the subject Q evaluated by the impression evaluation unit 5 with respect to the object P. The impression evaluation device according to the embodiment of the present invention includes the impression output unit 61, so that the evaluation of the impression can be recognized by the subject Q or the like in substantially real time.

The impression output unit 61 may display the impression of the subject Q based on, for example, a three-factor psychological model as in the example illustrated in FIG. As a result, the subject Q or the like can easily visually recognize the impression on the object P. Further, the impression output unit 61 may present the target P in a state suitable for the subject Q based on the evaluation result.

The impression evaluation device according to the embodiment of the present invention further includes a control unit 7, an input unit 8, and a model storage unit 9. The control unit 7 controls the operations of the physical property information measurement unit 1, the physical property information data processing unit 2, the biological information measurement unit 3, the biological information data processing unit 4, and the impression evaluation unit 5 according to the functions. In addition, the control unit 7 processes various operations necessary for the operation of the impression evaluation device according to the embodiment of the present invention.

The input unit 8 includes, for example, an input device such as a keyboard and a mouse, and an input device for inputting a signal output from an external device, and inputs various commands and data to the control unit 7. The input unit 8 includes an attribute setting unit 81 that receives attribute information of the subject Q according to an input operation of the operator or a signal from the outside, and inputs the attribute information to the control unit 7. The attribute information includes, for example, at least one of gender, age, personality characteristics, chronic disease such as eye disease, race, etc. of the subject Q.

The personality property is, for example, a character determined by various character diagnosis methods. The personality characteristic is determined by, for example, the output unit 6 outputting the question of the questionnaire, and the control unit 7 inputting from the input unit 8 the answer of the questionnaire according to the operation of the subject Q and analyzing it. Can.

The model storage unit 9 is a function that represents the relationship between the first to fifth physical property information and the first to fourth biological information and the impression, and stores a plurality of psychological models different from each other. The psychological model may be expressed as a function and stored as a function in the model storage unit 9, or may be expressed in a table format (table format) and stored as a table format in the model storage unit 9.

The plurality of psychological models stored in the model storage unit 9 are created in advance for each piece of attribute information of the subject Q, and are associated with the attribute information. The psychology model is a psychology model for each gender, a psychology model for each age, a psychology model for each personality characteristic, and the like. For example, a psychological model for men may be stored in the model storage unit 9 according to age and personality. Further, the psychological model may be roughly classified according to one predetermined attribute of the plurality of attribute information, and the coefficient of the independent variable may be changed according to the remaining attribute.

The model storage unit 9 is composed of, for example, a main storage device formed of volatile storage devices such as SRAM and DRAM, and an auxiliary storage device formed of non-volatile storage devices such as magnetic disks, optical disks, magneto-optical disks and semiconductor memories. Be done. In addition, the model storage unit 9 can store a series of programs and the like necessary for processing performed by the lighting evaluation device according to the embodiment of the present invention. The impression evaluation database 51 and the model storage unit 9 are displays as a logical structure, and in reality, they may be configured by the same hardware, or may be configured by divided separate hardware.

The control unit 7 includes a model selection unit 71 that selects a psychological model used for evaluation of an impression by the impression evaluation unit 5, and a condition setting unit 72. The model selection unit 71 selects at least one psychological model from the plurality of psychological models stored by the model storage unit 9 according to the attribute information received by the attribute setting unit 81. The condition setting unit 72 sets first to fifth physical property information and first to fourth biological information to be used in the psychological model selected by the model selection unit 71.

The control unit 7 measures the first physical property information measurement unit 11 to the fifth physical property information measurement unit 15 and measures the first to fifth physical property information and the first to fourth biological information set by the condition setting unit 72. The first biological information measurement unit 31 to the fourth biological information measurement unit 34 are controlled. For example, when the model storage unit 9 stores different psychological models according to the ages from the teens to the seventies, and the twenties are set as the attribute information, the model selection unit 71 models the psychological model corresponding to the twenties. It is selected from the storage unit 9. The control unit 7 measures the first physical property information measurement unit 11 to the fifth physical property information measurement unit 15 and the first biological information measurement unit so as to measure physical property information and biological information used in the psychological model selected by the model selection unit 71. 31 to control the fourth living body information measurement unit.

The control unit 7 includes, for example, an arithmetic processing unit such as a microprocessor and a peripheral circuit, and can perform temporary storage of calculation and information necessary for processing. The control unit 7 selects the psychological model used by the impression evaluation unit 5 for evaluation according to the attribute information of the subject Q, so that the impression evaluation unit 5 can make the impression on the subject P of the subject Q higher. It can be evaluated to accuracy.

(Impression evaluation method)
An example of a method for evaluating the impression of the subject Q on the object P will be described with reference to the flowchart shown in FIG. 3 using the impression evaluation device according to the embodiment of the present invention.
First, in step S1, the attribute setting unit 81 of the input unit 8 receives attribute information of the subject Q according to an input operation of the operator or a signal from the outside, and inputs the attribute information to the control unit 7.

In step S <b> 2, the model selection unit 71 of the control unit 7 selects at least one psychological model from the plurality of psychological models stored in the model storage unit 9 according to the attribute information received by the attribute setting unit 81.

In step S3, the condition setting unit 72 of the control unit 7 sets the first to fifth physical property information and the first to fourth biological information to be used for the psychological model selected by the model selection unit 71. The control unit 7 controls the physical property information measurement unit 1 and the biological information measurement unit 3 to measure the first to fifth physical property information and the first to fourth biological information set by the condition setting unit 72.

In step S4, the physical property information measurement unit 1 and the biological information measurement unit 3 are used for the psychology model selected by the model selection unit 71 according to the control of the control unit 7, and are set by the condition setting unit 72. -Measure the fifth physical information and the first to fourth biological information.

In step S5, the model selection unit 71 determines whether or not to reselect the selected psychological model. For example, in step S4, the model selection unit 71 determines to reselect the psychological model according to the physical information measured by the physical property information measurement unit 1 and the biological information measured by the biological information measurement unit 3. For example, the model selection unit 71 can determine to reselect the psychological model when it is determined that the evaluation of the impression is insufficient for the physical property information or the biological information measured in step S4. If it is determined that the psychological model is to be reselected, the process returns to step S2. If it is not determined to reselect the psychological model, the process proceeds to step S6.

In step S6, the physical property information data processing unit 2 and the biological information data processing unit 4 process the physical property information or biological information measured in step S4 into data that can be processed by the impression evaluation unit 5, and the impression evaluation unit 5 Output to

In step S7, the impression evaluation unit 5 uses the psychological model selected in step S2 to evaluate the impression of the subject Q on the object P from the physical property information or the biological information input in step S6.

In step S8, the impression output unit 61 of the output unit 6 outputs the impression evaluated in step S7, and ends the process. The impression output unit 61 compares the attribute information of the subject Q, the physical property information of the object P, and the subject Q biological information, and the condition of the subject Q more suitable than the impression evaluated in step S7. The subject P may be presented to the subject.

The impression evaluation apparatus according to the embodiment of the present invention evaluates the impressions of the subject Q with respect to various subjects P with high accuracy by using the physical property information of the subject P and the biological information of the subject Q. can do. For example, even with the same target P, the impression of the subject Q changes according to the state of the target P and the state of the subject Q. According to the impression evaluation device according to the embodiment of the present invention, the impression of the subject Q can be evaluated with high accuracy in accordance with the physical property information of the object P and the biological information of the subject Q.

Moreover, according to the impression evaluation apparatus which concerns on embodiment of this invention, the model memory | storage part 9 memorize | stores a several psychological model, and measures the physical-property information and biometric information which are used for the psychological model according to impression evaluation. Therefore, physical property information and biological information according to the attributes of the subject Q can be measured, and there is no unnecessary processing, and the impression of the subject Q on the object P can be evaluated with high accuracy.

-Example-
Hereinafter, the case where the impression with respect to the subject P of the subject Q is evaluated using the illumination environment in the room as the target P, the physical property information of the target P as the color temperature, and the biological information of the subject Q as the brain wave will be described. The subject Q measures an electroencephalogram for each of the illumination patterns of the four patterns shown in FIGS. 4A to 4D as the object P.

FIG. 4A shows the case of daylight white ceiling illumination with a color temperature of 5500K. FIG. 4 (b) shows the case of a bulb colored ceiling illumination with a color temperature of 4400K. FIG. 4C shows the case of centrally arranged illumination having a color temperature of 4400K. FIG. 4 (d) shows the case of distributed illumination with a color temperature of 4400K. The color temperatures are each measured at predetermined locations in the room.

In the room, the subject Q measures the electroencephalogram at the channel site Pz (medial parietal region) of the 10-20 method for four illumination environments. The brain waves of the subject Q are, as shown in FIG. 5, for the evaluation of the impression in the illumination environment of four patterns with respect to the amplitude 300 ms after the start of the illumination environment (stimulation to the subject Q) 300 ms. Used. Lines (a) to (d) in FIG. 5 correspond to the cases of FIGS. 4 (a) to (d), respectively.

As shown in FIG. 5, the P300 vertex amplitude in the four-pattern illumination environment increases in the order of concentrated illumination, daylight white ceiling illumination, dispersed illumination, and bulb-colored ceiling illumination. From the above, it can be determined that the subject Q has the highest preference for the object P, which is a ceiling light environment of light bulb color.

(Other embodiments)
As described above, although the present invention has been described by the embodiments, it should not be understood that the statements and the drawings that form a part of this disclosure limit the present invention. Various alternative embodiments, examples and operation techniques will be apparent to those skilled in the art from this disclosure.

For example, in the embodiment already described, the plurality of psychology models of the model storage unit 9 have the relationship between the first to fifth physical information and the first to fourth biometric information and the impression on the object P at predetermined timing and It may be a model that represents a time-series relationship from a predetermined timing. For example, when the subject Q has an impression of the object P at the first time and an impression of the object P after the next time, the impression may be different and a pattern may be found. In addition, depending on the impression of the preference of the subject Q, etc., there are cases where a pattern can be found in the time-series ecological behavior of the subject Q. As described above, when the psychological model represents the time-series relationship between physical property information and biological information, the impression of the subject Q on the object P can be evaluated with high accuracy by the temporal change from the predetermined timing. .

In addition to the above, it is a matter of course that the present invention includes various embodiments and the like which are not described herein, such as configurations to which the embodiment and the modified example of the present invention are applied. Accordingly, the technical scope of the present invention is defined only by the invention-specifying matters according to the scope of claims appropriate from the above description.

The entire contents of Japanese Patent Application No. 2013-081278 (filing date: April 9, 2013) are incorporated herein by reference.

ADVANTAGE OF THE INVENTION According to this invention, the impression evaluation apparatus and the impression evaluation method which can evaluate the impression with respect to various objects with high precision from physical-property information and biometric information can be provided.

DESCRIPTION OF SYMBOLS 1 physical property information measurement part 3 biometric information measurement part 5 impression evaluation part 61 impression output part 7 control part 81 attribute setting part

Claims (10)

1. First physical property information of a target visual system, second physical information of a target auditory system, third physical information of a target tactile system, fourth target physical information of the target olfactory system, and the second target physical system Physical property information measurement unit for measuring at least one physical property information among the five physical property information;
   The first biological information of the autonomic nervous system of the subject, the second biological information of the central nervous system of the subject, the third biological information of the endocrine immune system of the subject and the ecological behavior system of the subject A biological information measurement unit that measures at least one biological information of the fourth biological information;
   The relationship between physical property information and the biological information and the impression of the subject is expressed, and measurement is performed by the physical property information measurement unit using a psychological model having at least one of value, activity and strength as an index. And an impression evaluation unit for evaluating an impression of the subject on the object from the physical property information measured and the biological information measured by the biological information measurement unit.
2. The biological information measuring unit measures at least two pieces of biological information among the first biological information, the second biological information, the third biological information, and the fourth biological information. Impression evaluation device as described.
3. The physical property information measurement unit measures at least two physical property information among the first physical property information, the second physical property information, the third physical property information, the fourth physical property information, and the fifth physical property information. The impression evaluation apparatus according to claim 1 or 2.
4. A model storage unit that stores a plurality of the psychological models different from one another;
   An attribute setting unit that receives attribute information of the subject;
   According to the attribute information received by the attribute setting unit, at least one psychological model is selected from the plurality of psychological models, and the physical property information and the biological information used for the selected psychological model are measured. A control unit configured to control the physical property information measurement unit and the biological information measurement unit;
   The impression evaluation device according to any one of claims 1 to 3, wherein the impression evaluation unit evaluates the impression using a psychological model selected by the control unit.
5. The impression evaluation device according to claim 4, wherein the control unit reselects the psychological model.
6. The impression evaluation device according to claim 4 or 5, wherein the attribute information of the subject includes at least one of gender, age, and personality characteristics.
7. The psychological model is a model representing a relationship between the physical property information, the biological information, and the impression at a predetermined timing and a time-series relationship from the predetermined timing. The impression evaluation device according to any one of the above.
8. The impression evaluation device according to any one of claims 1 to 7, wherein the impression evaluation unit evaluates the impression according to a three-factor psychological model using values of value, activity and ability as indicators.
9. The impression evaluation device according to any one of claims 1 to 8, further comprising an impression output unit that outputs an impression of the object evaluated by the impression evaluation unit.
10. First physical property information of a target visual system, second physical information of a target auditory system, third physical information of a target tactile system, fourth target physical information of the target olfactory system, and the second target physical system Measuring at least one physical property information among the five physical property information;
    The first biological information of the autonomic nervous system of the subject, the second biological information of the central nervous system of the subject, the third biological information of the endocrine immune system of the subject and the ecological behavior system of the subject Measuring at least one biological information of the fourth biological information;
    The physical property information and the measured physical property information which represent the relationship between the physical property information and the biological information and the impression of the subject, and which use at least one of a value, activity, and competence as an index. Evaluating the impression of the subject on the subject from the measured biological information.

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