Enterprise Evaluation Supporting Device

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an enterprise evaluation supporting device, and in particular to a company evaluation assisting device, assisting method and assisting program capable of calculating the evaluated value of companies based on quantitative analysis of company strategy.

2. Description of the Related Art

Amendment of the Trust Business Law enabling the trust of intellectual property rights was passed in 2004, and the environment for utilizing intellectual property as the source of profits is steadily becoming organized. Further, in light of the “Intellectual Property Information Disclosure Guidelines” announced by the Ministry of Economy, Trade and Industry in 2004, certain companies are disclosing their intellectual property in IP reports and the like, and the disclosure of information concerning the intellectual property of respective companies is making progress.

Nevertheless, at the present stage, opportunities for general investors to access intellectual property related data such as the number of patent applications of each company are still scarce. Moreover, even assuming that an investor is able to view intellectual property related data, there is still a problem in that such investor will not be able to clearly understand how such data contributes to the company earnings.

The foregoing “Intellectual Property Information Disclosure Guidelines” are based on the recognition of the importance of companies disclosing the three strategies of business strategy, R&D strategy and intellectual property strategy as a triune activity to the market, and such activity being rightfully evaluated. Nevertheless, these three strategies have never been quantified, nor has it ever been demonstrated that these three strategies are associated with the company value. Thus, even if the three strategies are disclosed as a triune activity to the market, it is difficult for general investors to evaluate such strategies.

Japanese Patent Laid-Open Publication No. 2004-348170 describes performing principle component analysis based on a variance-covariance matrix of factors obtained from an annual security report, calculating the weighting of the respective factors, and determining the numerical value computed by multiplying the weighting to each factor for each company as the intellectual potential. Nevertheless, under the current status where the relationship of the three strategies of business strategy, R&D strategy and intellectual property strategy, which are abstract factors that cannot be directly observed, and the company value has not been demonstrated, principle component analysis cannot be used for evaluating the company value based on the three strategies.

SUMMARY OF THE INVENTION

The first object of the present invention is to provide a company evaluation assisting device capable of demonstrating the relationship of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company value, which are abstract factors that cannot be directly observed, and enabling the company evaluation based on these three strategies.

The second object of the present invention is to provide a company evaluation assisting device capable of quantitatively calculating the evaluated value of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company evaluated value, which are abstract factors that cannot be directly observed, based on the observation data.

An addition object of the present invention is to provide an assisting method and assisting program to be executed by a computer.

(1) In order to achieve the foregoing first object, the company evaluation assisting device of the present invention comprises:

input means for receiving input of causal model information hypothesizing,

a coefficient in which each of three evaluated values of business strategy, R&D strategy and intellectual property strategy influences a company evaluated value,

a coefficient in which each of the three evaluated values and the company evaluated value influences each of a plurality of observable indexes, and

an error variable in which each of factors other than the three evaluated values and the company evaluated value give fluctuation to each of the company evaluated value and the plurality of observable indexes;

coefficient estimation means for calculating an estimated value of each of the coefficients by covariance structure analysis based on the causal model information input from the input means, and the plurality of observable indexes;

adaptation verification means for verifying adaptation of the causal model by calculating an adaptation index based on each of the coefficients estimated with the coefficient estimation means; and

evaluated value calculation means for calculating at least one among the three evaluated values and the company evaluated value based on each of the coefficients and the plurality of observable indexes upon passing the verification by the adaptation verification means.

Thereby, it is possible to demonstrate the relationship where the three strategies of business strategy, R&D strategy and intellectual property strategy, which are abstract factors that cannot be directly observed, are inflicting a causal influence on the company value as an abstract factor that cannot be directly observed. It is also possible to demonstrate the relationship where the foregoing three strategies and the company value are inflicting a causal influence on an observable index. In addition, since company evaluation based on the three strategies is enabled, it is possible to perform company evaluation that is proven and highly reliable. Further, it is possible to obtain a causal model with high adaptation and significance by setting each of the three strategies of business strategy, R&D strategy and intellectual property strategy as causal model information that influences the company evaluated value.

(2) With this company evaluation assisting device, it is desirable to further comprise index selection means for selecting a plurality of observable indexes to be included in the causal model information,

wherein the index calculation means calculate correlation coefficients of the plurality of observable indexes that are candidates for selection, and select a combination of indexes in which the correlation coefficients are smallest.

Thereby, it is possible to statistically extract independent indexes, and reflect the various aspects of company activity on the analysis with fewer indexes.

(3) With this company evaluation assisting device, it is desirable

that the causal model information is information that hypothesizes an index showing at least

“(facility investment efficiency) or (labor productivity)”

=(value added amount)/[(tangible fixed assets) or (number of employees)]

as the observable index that is influenced by an evaluated value of the business strategy, and

that the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members, remuneration)+(welfare expense)+(tax and dues).

Thereby, it is possible to obtain a causal model with higher adaptation and significance.

It is more desirable that the causal model information further hypothesizes an index of

“profit to sales ratio”

=[(operating profit) or (gross operating profit)]/(sales volume),

“value added to sales ratio”

−(value added amount)/(sales volume), or

“ROA”

=[(value added amount, gross operating profit, or operating profit)+(patent royalty income)]/(total assets) as the observable index that is influenced by an evaluated value of the business strategy,

that the gross operating profit=(operating profit)+(R&D cost), and

that the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues).

(4) With this company evaluation assisting device, it is desirable

that the causal model information is information that hypothesizes an index showing at least

“R&D cost ratio”

=(R&D cost)/[(sales volume), (value added amount), (total assets) or (gross operating profit)]

as the observable index that is influenced by an evaluated value of the R&D strategy,

that the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues), and

that the gross operating profit=(operating profit)+(R&D cost).

Thereby, it is possible to obtain a causal model with higher adaptation and significance.

It is more desirable that the causal model information further hypothesizes an index of

“R&D cost per inventor”

=(R&D cost)/(number of inventors)

as the observable index that is influenced by an evaluated value of the R&D strategy.

(5) With this company evaluation assisting device, it is desirable

that the causal model information is information that hypothesizes an index showing at least

“(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”

=[(number of claims filed), (number of applications) or (number of patent registrations)]/(number of inventors) as the observable index that is influenced by an evaluated value of the intellectual property strategy.

Thereby, it is possible to obtain a causal model with higher adaptation and significance.

It is more desirable that the causal model information further hypothesizes an index of

“(number of claims per patent application) or (number of claims per patent registration)”

=[(number of claims filed)/(number of patent applications)]

or [(number of claims granted)/(number of patent registrations)]

as the observable index that is influenced by an evaluated value of the intellectual property strategy.

Furthermore,

“patent application productivity”

=(number of claims filed)/(R&D cost) may also be hypothesized.

(6) With this company evaluation assisting device, it is desirable

that the causal model information is information that hypothesizes an index showing at least

“PBR”

=(aggregate market value)/(equity capital) as the observable index that is influenced by the company evaluated value.

Thereby, it is possible to obtain a causal model with higher adaptation and significance.

It is more desirable that the causal model information further hypothesizes an index of

“total factor productivity”

=(current term value added amount)/(previous term value added amount)−[(1−Labor Distribution Share)×(current term depreciation target tangible fixed assets)/(previous term depreciation target tangible fixed assets)]−[(Labor Distribution Share)×(current term number of employees)/(previous term number of employees)] as the observable index that is influenced by the company evaluated value.

Furthermore,

“MVA”

=(total number of outstanding shares)×(stock price)−(shareholder's equity)

may also be hypothesized.

(7) With this company evaluation assisting device, the evaluated value calculation means may also calculate at least the evaluated value of the intellectual property strategy and the company evaluated value, and calculate the difference between the evaluated value of the intellectual property strategy and the company evaluated value.

As a result of seeking a value obtained by subtracting the company evaluated value from the intellectual property strategy evaluated value, it is possible to quantify the potential of so-called undervalued companies which are steadily executing their intellectual property strategy but have yet to appear in the market valuation related index. Contrarily, it could be said that companies having a low value are companies that are overvalued in the current market. Thereby, this value can be used to predict which company will succeed in the future and make investment decisions.

(8) With this company evaluation assisting device, the evaluated value calculation means may also calculate at least the evaluated value of the R&D strategy, the evaluated value of the intellectual property strategy and the company evaluated value, and calculate the sum of the evaluated value of the R&D strategy and the evaluated value of the intellectual property strategy.

Companies in which the sum of the R&D strategy evaluated value and the intellectual property strategy evaluated value is large can be evaluated as companies that are steadily executing their R&D strategy and intellectual property strategy.

It is also possible to give consideration to the company evaluated value. In other words, it could be said that companies in which the sum of the R&D strategy evaluated value and the intellectual property strategy evaluated value is large and the company evaluated value is small are so-called undervalued companies which are steadily executing their R&D strategy and intellectual property strategy but have yet to appear in the market valuation related index. Contrarily, it could be said that companies in which the sum of the R&D strategy evaluated value and the intellectual property strategy evaluated value is small and the company evaluated value is large are overvalued companies in the current market. Thereby, this value can be used to predict which company will succeed in the future and make investment decisions.

(9) The company evaluation assisting method of the present invention is realized by executing the processing with each means of the foregoing company evaluation assisting device.

(10) Further, the company evaluation assisting program of the present invention is for causing the computer to execute the respective steps of the foregoing company evaluation assisting method.

(11) In order to achieve the foregoing second object, the company evaluation assisting device of the present invention comprises:

storage means for storing respectively, for a plurality of companies,

“(facility investment efficiency) or (labor productivity)”

=(value added amount)/[(tangible fixed assets) or (number of employees)],

“PBR”

=(aggregate market value)/(equity capital) and other indexes;

standardization means for calculating a standardized value of each of the “(facility investment efficiency) or (labor productivity)” and the “PBR” of company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating a business strategy evaluated value by performing weighting of 0.06 or more and 0.70 or less, and 0.03 or more and 0.05 or less respectively to the “(facility investment efficiency) or (labor productivity)” and the “PBR” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members, remuneration)+(welfare expense)+(tax and dues).

Thereby, it is possible to quantitatively calculate the evaluated value of the business strategy, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“profit to sales ratio”

=[(operating profit) or (gross operating profit)]/(sales volume),

“value added to sales ratio”

=(value added amount)/(sales volume), or

“ROA”

=[(value added amount, gross operating profit, or operating profit)+(patent royalty income)]/(total assets); and

to standardize the index by the standardization means and calculate a business strategy evaluated value by performing weighting of 0.12 or more and 0.65 or less by the evaluated value calculation means,

wherein the gross operating profit=(operating profit)+(R&D cost), and

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues).

(12) Another company evaluation assisting device according to the present invention comprises:

storage means for storing respectively, for a plurality of companies,

“(facility investment efficiency) or (labor productivity)”

=(value added amount)/[(tangible fixed assets) or (number of employees)],

“PBR”

=(aggregate market value)/(equity capital) and other indexes;

evaluated value calculation means for calculating a business strategy evaluated value by performing weighting of 0.06 or more and 0.70 or less, and 0.02 or more and 0.05 or less respectively to the “(facility investment efficiency) or (labor productivity)” and the “PBR” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members, remuneration)+(welfare expense)+(tax and dues).

Thereby, it is possible to quantitatively calculate the evaluated value of the business strategy, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“profit to sales ratio”

=[(operating profit) or (gross operating profit)]/(sales volume),

“value added to sales ratio”

=(value added amount)/(sales volume), or

“ROA”

=[(value added amount, gross operating profit, or operating profit)+(patent royalty income)]/(total assets); and

wherein the gross operating profit=(operating profit)+(R&D cost), and

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues).

(13) Another company evaluation assisting device according to the present invention comprises:

storage means for storing respectively, for a plurality of companies,

“R&D cost ratio”

=(R&D cost)/[(sales volume), (value added amount), (total assets) or (gross operating profit)],

“R&D cost per inventor”

=(R&D cost)/(number of inventors),

“(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”

=[(number of claims filed), (number of applications) or (number of patent registrations)]/(number of inventors) and other indexes;

standardization means for calculating a standardized value of each of the “R&D cost ratio”, the “R&D cost per inventor” and the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)” of company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating an R&D strategy evaluated value by performing weighting of 0.20 or more and 0.35 or less, 0.15 or more and 0.25 or less, and 0.06 or more and 0.15 or less respectively to the “R&D cost ratio”, the “R&D cost per inventor” and the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members, remuneration)+(welfare expense)+(tax and dues), and

wherein the gross operating profit=(operating profit)+(R&D cost).

Thereby, it is possible to quantitatively calculate the evaluated value of the R&D strategy, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“patent application productivity”

=(number of claims filed)/(R&D cost), or

“examination request productivity”

=(patent application productivity)/(estimated examination request ratio); and

to standardize the index by the standardization means and calculate a R&D strategy evaluated value by performing weighting of −0.30 or more and −0.20 or less by the evaluated value calculation means,

wherein the estimated examination request ratio=(examination request ratio for applications in which examination request period is expired).

(14) Another company evaluation assisting device according to the present invention comprises:

storage means for storing respectively, for a plurality of companies,

“R&D cost ratio”

=(R&D cost)/[(sales volume), (value added amount), (total assets) or (gross operating profit)],

“R&D cost per inventor”

=(R&D cost)/(number of inventors) and other indexes;

standardization means for calculating a standardized value of each of the “R&D cost ratio” and the “R&D cost per inventor” of company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating an R&D strategy evaluated value by performing weighting of 0.20 or more and 0.70 or less, and 0.15 or more and 0.30 or less respectively to the “R&D cost ratio” and the “R&D cost per inventor” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues), and

wherein the gross operating profit=(operating profit)+(R&D cost).

Thereby, it is possible to quantitatively calculate the evaluated value of the R&D strategy, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“patent application productivity”

=(number of claims filed)/(R&D cost), or

“examination request productivity”

=(patent application productivity)/(estimated examination request ratio); and

to standardize the index by the standardization means and calculate a R&D strategy evaluated value by performing weighting of −0.60 or more and −0.08 or less by the evaluated value calculation means,

wherein the estimated examination request ratio=(examination request ratio for applications in which examination request period is expired).

It is also possible to store in the storage means as said other indexes,

to standardize the index by the standardization means and calculate a R&D strategy evaluated value by performing weighting of 0.03 or more and 0.15 or less by the evaluated value calculation means.

(15) Another company evaluation assisting device according to the present invention comprises:

storage means for storing indexes, for each of a plurality of companies,

“(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”

=[(number of claims filed), (number of applications) or (number of patent registrations)]/(number of inventors),

“(number of claims per patent application) or (number of claims per patent registration)”

=[(number of claims filed)/(number of patent applications)] or [(number of claims granted)/(number of patent registrations)],

“patent application productivity”

=(number of claims filed)/(R&D cost) and other indexes;

standardization means for calculating a standardized value of each of the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”, the “(number of claims per patent application) or (number of claims per patent registration)” and the “patent application productivity” of a company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating an intellectual property strategy evaluated value by performing weighting of 0.75 or more and 0.90 or less, 0.06 or more and 0.15 or less, and 0.03 or more and 0.07 or less respectively to the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”, the “(number of claims per patent application) or (number of claims per patent registration)” and the “patent application productivity” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes.

Thereby, it is possible to quantitatively calculate the evaluated value of the intellectual property strategy, which is abstract factor that cannot be directly observed, based on the observation data.

(16) Another company evaluation assisting device according to the present invention comprises:

storage means for storing indexes, for each of a plurality of companies,

“(number of claims per patent application) or (number of claims per patent registration)”

=[(number of claims filed)/(number of patent applications)] or [(number of claims granted)/(number of patent registrations)],

“patent application productivity”

=(number of claims filed)/(R&D cost) and other indexes;

standardization means for calculating a standardized value of each of the “(number of claims per patent application) or (number of claims per patent registration)” and the “patent application productivity” of a company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and evaluated value calculation means for calculating an intellectual property strategy evaluated value by performing weighting of 0.06 or more and 0.40 or less, and 0.02 or more and 0.40 or less respectively to the “(number of claims per patent application) or (number of claims per patent registration)” and the “patent application productivity” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes.

It is also possible to store in the storage means as said other indexes,

to standardize the index by the standardization means and calculate an intellectual property strategy evaluated value by performing weighting of 0.75 or more and 0.90 or less by the evaluated value calculation means.

(17) Another company evaluation assisting device according to the present invention comprises:

storage means for storing indexes, for each of a plurality of companies,

“PBR”

=(aggregate market value)/(equity capital),

“(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)”

=[(number of claims filed), (number of applications) or (number of patent registrations)]/(number of inventors),

“total factor productivity”

=(current term value added amount)/(previous term value added amount)−[(1−Labor Distribution Share)×(current term depreciation target tangible fixed assets)/(previous term depreciation target tangible fixed assets)]−[(Labor Distribution Share)×(current term number of employees)/(previous term number of employees)], and other indexes;

standardization means for calculating a standardized value of each of the “PBR”, the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)” and the “total factor productivity” of a company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating a company evaluated value by performing weighting of 0.25 or more and 0.60 or less, 0.10 or more and 0.15 or less, and 0.04 or more and 0.10 or less respectively to the “PBR”, the “(number of claims filed per inventor), (number of applications per inventor) or (number of patent registrations per inventor)” and the “total factor productivity” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues), and

wherein the labor distribution share=[(personnel expense to be included in selling cost and administrative expenses)+(labor cost to be included in manufacturing cost)]/(value added amount).

Thereby, it is possible to quantitatively calculate the company evaluated value, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“MVA”

=(total number of outstanding shares)×(stock price)−(shareholder's equity); and

to standardize the index by the standardization means and calculate a company evaluated value by performing weighting of 0.30 or more and 0.35 or less by the evaluated value calculation means.

(18) Another company evaluation assisting device according to the present invention comprises:

storage means for storing indexes, for each of a plurality of companies,

“PBR”

=(aggregate market value)/(equity capital),

“total factor productivity”

=(current term value added amount)/(previous term value added amount)−[(1−Labor Distribution Share)×(current term depreciation target tangible fixed assets)/(previous term depreciation target tangible fixed assets)]−[(Labor Distribution Share)×(current term number of employees)/(previous term number of employees)], and other indexes;

standardization means for calculating a standardized value of each of the “PBR” and the “total factor productivity” of a company to be evaluated among the plurality of companies based on average and variance of all companies for which the respective indexes are stored in the storage means; and

evaluated value calculation means for calculating a company evaluated value by performing weighting of 0.20 or more and 0.60 or less, and 0.04 or more and 0.15 or less respectively to the “PBR” and the “total factor productivity” of the company to be evaluated standardized with the standardization means, and weighting the remainder to the other indexes,

wherein the value added amount=(operating profit)+(R&D cost)+(depreciation cost)+(personnel expense)+(board members' remuneration)+(welfare expense)+(tax and dues), and

wherein the labor distribution share=[(personnel expense to be included in selling cost and administrative expenses)+(labor cost to be included in manufacturing cost)]/(value added amount).

Thereby, it is possible to quantitatively calculate the company evaluated value, which is abstract factor that cannot be directly observed, based on the observation data.

It is also possible to store in the storage means as said other indexes,

“MVA”

=(total number of outstanding shares)×(stock price)−(shareholder's equity); and

to standardize the index by the standardization means and calculate a company evaluated value by performing weighting of 0.20 or more and 0.40 or less by the evaluated value calculation means.

It is also possible to store in the storage means as said other indexes,

to standardize the index by the standardization means and calculate a company evaluated value by performing weighting of 0.07 or more and 0.15 or less by the evaluated value calculation means.

According to the present invention, firstly it is possible to provide a company evaluation assisting device capable of demonstrating the relationship of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company value, which are abstract factors that cannot be directly observed, and enabling the company evaluation based on these three strategies.

Secondly, it is possible to provide a company evaluation assisting device capable of quantitatively calculating the evaluated value of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company evaluated value, which are abstract factors that cannot be directly observed, based on the observation data.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram showing a structural example of a company evaluation assisting device according to an embodiment of the present invention;

FIG. 2 is an example of a path diagram explaining the schematic concept regarding covariance structure analysis to be performed by the company evaluation assisting device;

FIG. 3 is a flowchart explaining the processing flow in the company evaluation assisting device;

FIG. 4 is a first example of a path diagram applied to the company evaluation assisting device;

FIG. 5 is a second example of a path diagram applied to the company evaluation assisting device;

FIG. 6 is a third example of a path diagram applied to the company evaluation assisting device;

FIG. 7 is a fourth example of a path diagram applied to the company evaluation assisting device; and

FIG. 8 is a fifth example of a path diagram applied to the company evaluation assisting device.

DESCRIPTION OF REFERENCE MARKS

30 company evaluation assisting device

301 CPU (standardization means, coefficient estimation means, adaptation verification means, evaluated value calculation means)

305 recording medium (storage means)

315 HDD (storage means)

310 input means

312 display means

31 printer

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

<1. Configuration of Device (FIG. 1)>

FIG. 1 is a block diagram showing a structural example of a company evaluation assisting device according to an embodiment of the present invention. This company evaluation assisting device 30 is a computer device comprising a CPU 301, a ROM 302, a RAM 303, a recording medium mounting unit 304, a recording medium 305, a recording medium interface 306, a calendar clock 307, a transmission/reception means 308, a communication line 309, an input means 310, an input interface 311, a display means 312, a display interface 313, a recording means interface 314, a recording means 315 such as a hard disk drive (HDD), a printer interface 316, and a bus 317.

The CPU 301 controls the overall operation of the company evaluation assisting device 30 while using the RAM 303 as the work area according to program information for assisting company evaluation.

Incidentally, the CPU 301 may execute all processing, or a plurality of dedicated processing devices may be provided so as to make the respective processing devices share and execute such processing.

The recording medium 305 is detachably mounted to the recording medium mounting unit 304. Further, the recording medium mounting unit 304 is connected to the bus 317 via the recording medium interface 306 which records and reads various types of information in and from the recording medium 305. Incidentally, the recording medium 305 is a detachable recording medium of a magnetic recording system or optical recording system as represented by semiconductors such as a memory card, MO or magnetic disk. The recording medium 305 is capable of housing the internal database. Incidentally, the recording medium 305 is also capable of storing external data incorporated from an external database server not shown via the communication line 309.

The calendar clock 307 is used as a clock means for keeping time, and is connected to the bus 317.

The transmission/reception means 308 is connected to the external database server not shown with the communication line 309, and it communicates with the external database server, and acquires various indexes for company evaluation from the external database of the external database server. The acquired data is stored in the HDD 315 or recording medium 305 as an internal database.

The input means 310 is constituted from the likes of a keyboard, mouse, tablet or touch panel, and is connected to the bus 317 via the input interface 311.

The display means 312, for instance, is constituted from the likes of an LCD (Liquid Crystal Display), and is connected to the bus 317 via the display interface 313. This display means 312 displays the data input from the input means 310 and options of operational instructions on the screen. Further, the display means 312 displays the results of the various calculated evaluated values and incidental ranking on the screen.

The HDD (hard disk) 315 is a recording means storing various types of information such as the various constants relating to the processing of the company evaluation assisting device 30 and attribute information upon communicating with a communication device on a network; connection information such as URL (Uniform Resource Locators), gateway information and DNS (Domain Name System); management/finance information regarding the management of companies; various programs for assisting company evaluation; various indexes for company evaluation, functions for estimating the population parameter, and various types of information such as the threshold value for determining the model adaptation and significance of population parameters.

Further, the information stored in the HDD 315 can be read out via the recording means interface 314, and information can also be written in the HDD 315.

The printer 31 is connected to the bus 317 via the printer interface 316. This printer 31, as a printing means, prints information such as the various evaluated values calculated with the company evaluation assisting device 30 and its incidental ranking on a paper medium or the like.

<2. Application of Covariance Structure Analysis (FIG. 2)>

The company evaluation assisting device according to an embodiment of the present invention uses a statistical method known as covariance structure analysis. Thereby, it is possible to demonstrate the relationship of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company value, and perform company evaluation based on these three strategies.

<2-1. Setting of Variables>

Even though the relationship of the three strategies of business strategy, R&D strategy and intellectual property strategy, and the company value will be demonstrated, these are all abstract concepts that cannot be directly observed. Thus, in covariance structure analysis, these are represented as “latent variable” vector f to enable quantitative analysis. The vector element of the latent variable vector f is a latent variable describing the individual factors. The following values are used as the latent variable in the present embodiment.

f₁: business strategy evaluated value

f₂: R&D strategy evaluated value

f₃: intellectual property strategy evaluated value

f₄: company evaluated value

Meanwhile, “PBR,” “number of claims per inventor,” “total factor productivity” and so on are represented as an “observed variable” vector v by using observable indexes based on annual security reports and provided by each company, and information from the Intellectual Property Digital Library provided by the National Center for Industrial Property Information and Training.

Various indexes can be considered for use as observed variables, and examples thereof are shown as the 79 indexes of [Table 1] to [Table 6] described later. Which index to use will be decided by the user as a result of extracting a plurality of kinds of index combinations and analyzing the respective combinations, and selecting the combination with the highest adaptation. In addition, the user may also calculate the correlation coefficients between the indexes in advance, and select the indexes with small correlation coefficients. By selecting the indexes with small correlation coefficients, it is possible to statistically extract independent indexes, and reflect the various aspects of company activity on the analysis with fewer indexes. The correlation coefficients between the indexes calculated with the company evaluation assisting device 30, or the indexes selected with the company evaluation assisting device 30 based on the correlation coefficient are output to the display means 312 or the like to facilitate the input of causal model information by the user.

<2-2. Setting of Causal Model>

Relationship of the latent variables and the observed variables is unclear, and the relationship between the latent variables is also unclear. Nevertheless, it is possible to create a preliminary hypothesis.

As shown in FIG. 2, the diagram showing the causal association between the variables is referred to a “path diagram.” The path diagram of FIG. 2 is hypothesizing the causal association between the variables as follows.

Foremost, attention is focused on the unidirectional arrow drawn from the latent variable f₁(business strategy evaluated value) toward the left side of the drawing. Here, it is hypothesized that the company's business strategy represented with the latent variable f₁is contributing to the observed variable v₁(operating profit to sales ratio). This influence is represented as the coefficient λ₁. Nevertheless, the observed variable v₁(operating profit to sales ratio) is decided also be depending on a unique cause that cannot be explained only with the cause of the latent variable f₁(business strategy evaluated value). The fluctuation due to the unique cause can be indicated as the error variable e₁. Thus, a unidirectional arrow is also drawn from the error variable e₁to the observed variable v₁(operating profit to sales ratio).

Similarly, with the unidirectional arrow drawn from the latent variable f₂(R&D strategy evaluated value) toward the left side of the drawing, it is hypothesized that the company's R&D strategy is contributing to the observed variable v₂(R&D cost ratio) and the observed variable v₃(R&D cost per inventor). The influences are respectively represented as the coefficients λ₂and λ₃. The fluctuations due to the unique cause that cannot be explained only with the cause of the latent variable f₂(R&D strategy evaluated value) are respectively indicated as the error variables e₂and e₃.

Similarly, with the unidirectional arrow drawn from the latent variable f₃(intellectual property strategy evaluated value) toward the left side of the drawing, it is hypothesized that the company's R&D strategy is contributing to the observed variable v₄(number of claims per inventor). This influence is represented as the coefficient λ₄. The fluctuation due to the unique cause that cannot be explained only with the cause of the latent variable f₃(intellectual property strategy evaluated value) is indicated as the error variable e₄.

Similarly, with the unidirectional arrow drawn from the latent variable f₄(company evaluated value) toward the left side of the drawing, it is hypothesized that the company's company value is contributing to the observed variable v₅(PBR) and the observed variable v₆(total factor productivity). These influences are respectively represented as the coefficients κ₅and κ₆. The fluctuations due to the unique cause that cannot be explained only with the cause of the latent variable f₄(company evaluated value) are respectively indicated as the error variables e₅and e₆.

With the relationship of the latent variables, it is hypothesized that the latent variables f₁to f₃are contributing to the latent variable f₄(company evaluated value). These influences are respectively represented as the coefficients γ₁to γ₃. Nevertheless, the latent variable f₄(company evaluated value) is decided also by depending on the unique cause that cannot be explained only with the cause of the latent variables f₁to f₃. The fluctuation due to the unique cause is indicated as the error variable d₁.

<2-3. Conclusion of Equation>

As a result of creating a causal model hypothesized regarding the causal association of the latent variables and the observed variables, and the causal association of the latent variables, these relationships can be represented with a primary simultaneous equation. In other words, the individual observed variables v₁to V₆can be represented as:

Observed variable=coefficient×latent variable to become cause+error variable,

and the relationship of the latent variables can be represented as:

Latent variable to be influenced=coefficient×latent variable to become cause+error variable.

Nevertheless, when it is hypothesized that more latent variables are to become the cause, the sum of “coefficient×latent variables to become cause” is sought for the amount of such latent variables.

The example of FIG. 2 can be represented as follows:

v
_1i=λ₁×f_1i+e₁

v
_2i=λ₂×f_2i+e₂

v
_3i=λ₃×f_2i+e₃

v
_4i=λ₄×f_3i+e₄

v
_5i=κ₅×f_4i+e₅

v
_6i=κ₆×f_4i+e₆

f
_4i=γ₁×f_1i+γ₂×f_2i+γ₃×f_3i+d₁ (Formula 1)

Here, the suffix i is provided for differentiation since the observed variable vector v and the latent variable vector f are different values for each company. If the number of sample is N, then i=1, 2, . . . , N.

The primary simultaneous equation showing the foregoing causal association can be represented using the following matrix.

t=At+u (Formula 2)

Here, t is the “structure variable vector.” Since the structure variable vector t is composed of the latent variable vector f and the observed variable vector v, this is represented as t=[f, v]′ (“′” indicates the transposition matrix).

f: Latent variable vector. The vector element is the latent variable describing the individual factors.

v: Observed variable vector. The vector element is the individual observable indexes, and let it be assumed that it is standardized so that the expected value E[v] of v: E[v]=0.

Further, u is an “exogenous variable vector.” Since the exogenous variable vector u is composed of the error variable vector d concerning f and the error variable vector e concerning v, this is represented as u=[d, e]′ (“′” indicates the transposition matrix).

d: Error variable vector. The vector element is f_jitself when the error variable concerning the vector element of f or No. j element f_jof f is an exogenous variable.

e: Error variable vector. The vector element is v_kitself when the error variable concerning the vector element of v or the No. k element v_kof v is an exogenous variable.

Further, A is a “coefficient parameter matrix.” Since the coefficient parameter matrix A is composed of the coefficient matrix A_a, the coefficient matrix A_b, the coefficient matrix A_c, and the coefficient matrix A_d, this is represented as follows.

$\begin{matrix} A = [\begin{matrix} A_{a} & A_{c} \\ A_{b} & A_{d} \end{matrix}] & (Formula 3) \end{matrix}$

A_a: Coefficient matrix in which the coefficient γ_jrepresenting the prescribing power from the latent variable f_jto the latent variable f_j′ is arranged in the j′j element.

A_b: Coefficient matrix in which the coefficients λ_kand κ_krepresenting the prescribing power from the latent variable f_jto the observed variable v_kare arranged in the kj element.

A_c: Coefficient matrix in which the coefficient (does not exist in the path diagram shown in FIG. 2, and is therefore zero) representing the prescribing power from the observed variable v_kto the latent variable f_jis arranged in the jk element.

A_d: Coefficient matrix in which the coefficient (does not exist in the path diagram shown in FIG. 2, and is therefore zero) representing the prescribing power from the observed variable v_kto the observed variable v_k′ is arranged in the k′k element.

In the example of FIG. 2, since there is no unidirectional arrow from the observed variable to the observed variable, and there is no unidirectional arrow from the observed variable to the latent variable,

A_c=0, A_d=0

Further, the unidirectional arrow from the latent variable to the latent variable and the unidirectional arrow from the latent variable to the observed variable will be as follows when represented from the example of FIG. 2.

$\begin{matrix} A_{a} = [\begin{matrix} 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & 0 \\ γ_{1} & γ_{2} & γ_{3} & 0 \end{matrix}] A_{b} = [\begin{matrix} λ_{1} & 0 & 0 & 0 \\ 0 & λ_{2} & 0 & 0 \\ 0 & λ_{3} & 0 & 0 \\ 0 & 0 & λ_{4} & 0 \\ 0 & 0 & 0 & K_{5} \\ 0 & 0 & 0 & K_{6} \end{matrix}] & (Formula 4) \end{matrix}$

The example of FIG. 2 will be the following [Formula 5]. When [Formula 5] is substituted with [Formula 2], it will become the equivalent of [Formula 1].

$\begin{matrix} t = [\begin{matrix} f_{1 i} & f_{2 i} & f_{3 i} & f_{4 i} & v_{1 i} & v_{2 i} & v_{3 i} & v_{4 i} & v_{5 i} & v_{6 i} \end{matrix}], A = [\begin{matrix} 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ γ_{1} & γ_{2} & γ_{3} & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ λ_{1} & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & λ_{2} & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & λ_{3} & 0 & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & 0 & λ_{4} & 0 & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & K_{5} & 0 & 0 & 0 & 0 & 0 & 0 \\ 0 & 0 & 0 & K_{6} & 0 & 0 & 0 & 0 & 0 & 0 \end{matrix}] u = [\begin{matrix} f_{1 i} & f_{2 i} & f_{3 i} & d_{1} & e_{1} & e_{2} & e_{3} & e_{4} & e_{5} & e_{6} \end{matrix}], & (Formula 5) \end{matrix}$

If the created coefficient parameter matrix A and the vector u composed of exogenous variables, the company's latent variable vector f={f₁, f₂, f₃, f₄} can be sought from the observed variable vector v of the company.

The foregoing was the schematic concept of using the covariance structure analysis in the present embodiment. The specific processing routine is now explained using the generalized equation of [Formula 2].

<3. Specific Routine of Covariance Structure Analysis (FIG. 3)>

FIG. 3 is a flowchart explaining the processing flow in the foregoing company evaluation assisting device. This processing is executed by the CPU 301 of the company evaluation assisting device 30 of FIG. 1.

Upon executing this processing, individual observable indexes (for instance, PBR, number of claims per inventor, total factor productivity and so on) regarding each company are prepared in advance in the external database or the internal database.

<3-1. Input of Causal Model Information: S1>

Foremost, at step S1, whether the causal model information hypothesized regarding the causal association was input from the input means 310 is determined. This causal model information, for instance, is represented with the foregoing primary simultaneous equation based on the path diagram shown in FIG. 2.

<3-2. Creation of Vector: S2>

When the causal model information is input, at step S2, the latent variable vector f, the exogenous variable vector d, the exogenous variable vector e, and the coefficient parameter matrix A are created based on the causal model information. Further, the observed variable vector v standardized so that the expected value E[v]=0 by referring to the related observed variables of the external database or the internal database is created in the same number as the N number of samples.

<3-3. Estimation of Population Parameter: S3, S4>

Subsequently, at step S3, the population parameter is estimated based on the created latent variable vector f, exogenous variable vector d, exogenous variable vector e, coefficient parameter matrix A, and observed variable vector v. Here, the population parameter indicates the respective elements of the exogenous variable vector d, the exogenous variable vector e, and the coefficient parameter matrix A. The outline of estimating the population parameter is as follows.

<3-3-1. Representation by Population Parameter of Covariance Matrix>

Foremost, this is subject to representing the covariance matrix concerning the observed variables with the population parameter.

When O is 0 matrix and I is a unit matrix, [Formula 2] can be modified as follows.

(I−A)t=u

This formula can be modified as follows when I-A has an inverse matrix T.

t=Tu (Formula 6)

This formula can be further modified as follows when the matrix G in the form of [0, I] that satisfies v=Gt is applied from the left to both sides. Thereby, it is possible to extract only the variance-covariance matrix of the observed variables.

v=GTu [Formula 7]

Meanwhile, it is publicly known to represent the covariance matrix Σv of v as follows using the expected value vector E[v] in which the expected values of the respective elements of the vector v are the elements.

Σv=E[(v−E[v])(v−E[v])′]

=E[vv′] (Formula 8)

Thus, the covariance matrix Σv regarding the observed variables can be represented with the population parameter as follows based on [Formula 8] and [Formula 7].

Σv=E[GTuu′T′G′]

=GT(Σu)T′G′ (Formula 9)

Incidentally, Σu=E[uu′]. If the variance of the element of f is hypothesized as 1, since Σu will be uniformly set forth without depending on the sample i, the covariance matrix Σv regarding the observed variables will be uniformly set forth.

If I-A does not have an inverse matrix T, the equation of [Formula 6] cannot be obtained. In this case, it is determined that the population parameter cannot be estimated at step S4, and the routine returns to step S1 and waits for new causal model information to be input.

<3-3-2. Maximum Likelihood Estimation Method>

After the covariance matrix is obtained, the population parameter is estimated using the maximum likelihood estimation method.

Foremost, the vector having the coefficient parameter matrix A and E[uu′] in [Formula 6] as elements is set to θ. Since the covariance matrix Σv of [Formula 6] can also be represented by θ, this is indicated as Σ(θ).

Generally, when the variable v is following the multivariate normal distribution, it is publicly known that the probability F(X|θ) in which the data matrix of the variable v is observed can be represented as follows.

$\begin{matrix} F (X | θ) = {Π_{(i; 1 \leq i \leq N)} (2 Π)}^{(- n / 2)} {\langle Σ (θ) \rangle}^{(- 1 / 2)} \exp [(- 1 / 2) v^{'} {Σ (θ)}^{(- 1)} v] & [Formula 10] \end{matrix}$

Here,

n: Dimension of vector v

N: Number of samples

|Σ(θ)|: Determinant of matrix covariance matrix Σ(θ)

Σ(θ)⁽⁻¹⁾: Inverse matrix of covariance matrix Σ(θ).

[(−1/2)v′Σ(θ)⁽⁻¹⁾v] is the scalar quantity dependant on i.

The probability F(X|θ) is obtained by crossing the probability (2π)^(−n/2)|Σ(θ)|^(−1/2)exp[(−1/2)v′Σ(θ)⁽⁻¹⁾v] in which the individual samples are observed regarding all samples from i=1 to i=N.

Thus, θ that maximizes the probability F(X|θ) is set as the estimated value of the population parameter. In reality, the following function Fml organized by taking the natural logarithm of both sides of [Formula 7] is used to seek θ that maximizes Fml. As a result of seeking the logarithm, this can be treated as a monotonic increase function to facilitate the maximization.

Fml=tr(Σ(θ)⁽⁻¹⁾S)−ln|Σ(θ)⁽⁻¹⁾S|−n (Formula 11)

Here,

S: Covariance matrix Σv using data matrix of observed variables

tr(B): Sum of diagonal components of matrix B.

Upon seeking θ that maximizes the function Fml (or probability F(X|θ)), there are cases when the solution is not converged. In such a case, the solution of the primary simultaneous equation input at step S1 will be indefinite. Accordingly, it is determined that the population parameter cannot be estimated at step S4, and the routine returns to step S1 and waits for new causal model information to be input.

Incidentally, in the foregoing case, the causal model information based on the same path diagram subject to the restraint condition of the coefficient parameter may be input to estimate the population parameter once again. As a result of imposing the restraint condition on the coefficient parameter, the solution of the primary simultaneous equation can be uniquely sought.

Incidentally, the estimation method of the population parameter is not limited to the maximum likelihood estimation method. The least squares method, generalized least squares method, elliptic least squares method, elliptic generalized least squares method, elliptic re-weighting least squares method and other methods may be used.

<3-4. Verification of Adaptation and Significance: S5>

After the population parameter is estimated, adaptation of the causal model is verified at step S5. Verification of the adaptation uses the publicly-known adaptation index of GFI (Goodness of Fit Index) or AGFI (Adjusted Goodness of Fit Index), or both. GFI is an index showing what % the set causal model explained the data (covariance matrix Σv concerning the observed variable). The closer the value of GFI is to 1, the greater the power of explanation of the model. AGFI is an index that knocks off the instability of the population parameter from GFI in order to cover GFI's drawback (GFI improving even when the stability of the population parameter deteriorates when the causal model becomes complex). If GFI and/or AGFI is greater than a prescribed threshold value, adaptation is determined to exist.

Incidentally, when the GFI or AGFI has already been sought regarding a separate causal model and an inferior result is obtained, adaptation may be determined to be non-existent. Further, other indexes may also be jointly used in verifying the adaptation.

Further, verification of the significance regarding the individual population parameters is performed at step S5. Specifically, the primary linear equation corresponding to the 2 variables with an arbitrary unidirectional arrow in the path diagram is deemed to be a regression equation, and the true coefficient matrix of the population is set as r,

wherein (θ−Γ)/(diag(Σ(θ)))^1/2,

provided that (diag(C))^1/2is considered to be a diagonal matrix in which the square root of the diagonal element of the matrix C is the diagonal element. This quantity asymptotically follows the standard normal distribution. Accordingly, if the value substituted with Γ=0 is of a given value or greater, since the hypothesis of Γ=0 will be dismissed (significance of population parameter is not acknowledged), it is possible to acknowledge the significance of the population parameter.

When either the adaptation or the significance is not acknowledged, the routine returns to step S1 and waits for new causal model information to be input.

When the adaptation and the significance are acknowledged, the routine proceeds to subsequent step S6 and calculates the evaluated value. However, even when the adaptation and the significance are acknowledged, other causal models may be further verified for selecting the causal model with the highest adaptation.

<3-5. Calculation and Output of Evaluated Value: S6>

Subsequently, at step S6, the latent variable vector f is calculated from the observed variable vector v regarding each company based on the obtained population parameter, and set as the evaluated value.

In order to realize the above, Y should be foremost sought so f=Yv. When v′ is applied to both sides from the right side,

fv′=Yvv′.

Here,

$since$

$\begin{matrix} S = \sum v \\ = {vv}^{'} / (N - 1), \end{matrix}$

${fv}^{'} = (N - 1) YS .$

Thus,

Y=fv′S
⁽⁻¹⁾/(N−1)

Meanwhile, when the matrix K in the form of [O, I] that satisfies f=Kt is used, based on [Formula 6] and [Formula 7]

$\begin{matrix} {fv}^{'} = {Ktv}^{'} \\ = {KTuv}^{'} \\ = {KTuu}^{'} T^{'} G^{'} . \end{matrix}$

Thus, Y will be:

Y=KTuu′T′G′S
⁽⁻¹⁾/(N−1),

and Σu=uu′/(N−1), Y can be sought with the following equation.

Y=KT(Σu)T′G′S⁽⁻¹⁾ [Formula 12]

The component of Y sought as above will become the weighting to be applied to the respective indexes.

Accordingly, if the observed variable vector v of the company to be evaluated is substituted for f=Yv, the latent variable vector f can be sought. All or a part of the vector elements f₁to f₄of the sought latent variable vector f is output as the business strategy evaluated value, the R&D strategy evaluated value, the intellectual property strategy evaluated value or the company evaluated value of the company to be evaluated from the display means 312 or the printer 31 as the output means. Or, any one of the vector elements f₁to f₄is sought regarding each company, sorted in descending order, placed in a ranking regarding the vector element, and output from the display means 312 or the printer 31 as the output means.

<4. Specific Examples (FIG. 4 to FIG. 8)>

<4-1. Common Items>

FIG. 4 to FIG. 8 are examples of path diagrams applied to the company evaluation assisting device. These path diagrams are written with the population parameter calculated at the foregoing population parameter estimation step S3.

In these examples, analysis of 486 companies in the 5 industries of pharmaceutical products, chemicals, automobiles/transportation equipment, electronics and precision equipment in Japan is shown.

As explained above, the 3 evaluated values of business strategy evaluated value, R&D strategy evaluated value, and intellectual property strategy evaluated value, and the company evaluated value are used as the latent variables f₁to f₄, and the front 3 evaluated values are hypothesized as causal models that influence the company evaluated value. In FIG. 4 to FIG. 8, the labels of “management,” “R&D,” and “patent 1” are respectively affixed to the front 3 evaluated values, and the label of “black” is affixed to the company evaluated value.

Further, the bidirectional arrows mutually connecting the front 3 evaluated values show the correlation coefficients when selecting 2 evaluated values among the 3 evaluated values.

Further, “e₁₁,” “e₁₂” and the like shown in FIG. 4 to FIG. 8 are error variables in which factors other than the latent variables give fluctuation to the respective observable indexes, and “ev4” is an error variable that gives fluctuation to the company evaluated value.

As the observable indexes, a plurality of kinds of combinations are extracted from the 79 indexes listed in [Table 1] to [Table 6], respective combinations are analyzed, and the combinations with high adaptation are shown in FIG. 4 to FIG. 8. Incidentally, the 79 indexes are shown by being classified in the business/management related index of [Table 1] and [Table 2], the R&D related index of [Table 3], and the intellectual property related index of [Table 4] to [Table 6].

Upon performing the analysis, the third quarter average value from 1999 to 2001 was used as the R&D related index. The third quarter average value from 2000 to 2002 (provided with respect to indexes concerning registered patents such as the patent registration related index and total number of effective patents, the third quarter average value from 2001 to 2003 was used) as the intellectual property related index. The third quarter average value from 2001 to 2003 was used as the business/management related index. In other words, the time lag from R&D investment to patent application was hypothesized as 1 year, and the time lag from patent application to patent registration and commercialization was also hypothesized as 1 year.

TABLE 1

Business/Management Related Index (1)

Index Group
Index
Definition (Formula)

Investment
Facility Investment Amount
{(Current Term Tangible Fixed Assets − Previous Term,

Related

Tangible Fixed Assets)} + (Current Term Depreciation Cost)

Investment Trend Index
Term-on-Term Ratio of {(Facility Investment Amount) + (R&D Cost)}

Management/
Facility Investment Efficiency
(Value Added Amount)/(Tangible Fixed Assets)

Finance
Labor Productivity
(Value Added Amount)/(Number of Employees)

Analysis
Labor Equipment Ratio
(Tangible Fixed Assets)/(Number of Employees)

Related
Labor Distribution Share (To Value Added)
{(Personnel Expense to be Included in Selling Cost and Administrative

Expenses) + (Labor Cost to be Included in Manufacturing Cost)}/

(Value Added Amount)

Total Factor Productivity
(Value Added Amount Rate of Change) − {(1 − Labor Distribution

Share (To Value Added)) × (Depreciation Target Tangible Fixed Assets Rate of

Change)} − {(Labor Distribution

Share (To Value Added)) × (Number of Employees Rate of Change)}

Cost-to-Sales Ratio
(Cost of Sales)/(Sales Volume)

Cost of Sales-and-Administration Ratio to Sales
(Selling Cost and Administrative Expenses)/(Sales Volume)

Interest Bearing Debt Ratio
(Interest Bearing Debt)/(Total Assets)

Equity to Asset Ratio
(Equity Capital)/(Total Assets)

Stock Price
(Stock Price)

Profit Related
Sales Volume
(Sales Volume)

Value Added Amount
(Operating Net Profit) + (Interest Paid and Discount) + (R&D Cost) + (Depreciation

Cost) + (Personnel Expense (including board members' remuneration)) +

(Welfare Expense) + (Tax and Dues) (Operating Net Profit) = (Operating Profit) −

(Interest Paid and Discount)

Gross Business Profit (GOP)
(Operating Profit) + (R&D Cost)

Gross Operating Profit (GBP)
(Gross Business Profit (GOP)) + (Patent Royalty Income)

Earnings Before Interest Taxes, Depreciation and
(Operating Profit) + (Depreciation Cost)

Amortization (EBITDA)

Operating Profit
(Operating Profit)

Operating Net Profit
(Operating Profit) − (Interest Paid and Discount)

Patent Royalty Income
(Patent Royalty Income (Including Royalty Income of Trademarks and Brands, etc.))

ROA α
{(Value Added Amount) + (Patent Royalty Income)}/(Total Assets)

ROA β
{(GOP) + (Patent Royalty Income)}/(Total Assets)

ROA γ
{(EBITDA) + (Patent Royalty Income)}/(Total Assets)

ROA δ
{(Operating Profit) + (Patent Royalty Income)}/(Total Assets)

Earnings on Intellectual Assets (EOIA)
{(GOP) + (Patent Royalty Income)} − {(Financial Assets) ×

(Profit Ratio m)} + {(Tangible Fixed Assets) × (Profit Ratio f)}

(Profit Ratio m): Application of Short Term Prime Rate: (Profit Ratio f): Application

of Long Term Prime Rate

Return On Intellectual Assets (ROIA) (=ROA ∈)
(Earnings on Intellectual Assets)/(Total Assets)

TABLE 2

Business/Management Related Index (2)

Index Group
Index
Definition (Formula)

Excess Profit
Excess Value Added Amount
Sales Volume × {(Sales Volume Value Added Ratio) − (Industry Average Sales Volume Value

Related

Added Ratio)}

Excess GOP
Sales Volume × {(Sales Volume GOP Ratio) − (Industry Average Sales Volume GOP Ratio)}

Excess GBP
Sales Volume × {(Sales Volume GBP Ratio) − (Industry Average Sales Volume GBP Ratio)}

Excess EBITDA
Sales Volume × {(Sales Volume EBITDA Ratio) − (Industry Average Sales Volume EBITDA

Ratio)}

Excess Operating Profit
Sales Volume × {(Operating Profit Ratio (To Sales)) − (Industry Average Operating Profit

Ratio (To Sales))}

Excess ROA α
(ROA α) − (Industry Average ROA α)

Excess ROA β
(ROA β) − (Industry Average ROA β)

Excess ROA γ
(ROA γ) − (Industry Average ROA γ)

Excess ROA δ
(ROA δ) − (Industry Average ROA δ)

Excess Earnings on Intellectual
(Total Assets = Average of Term Beginning and Term End) × {(Return on Intellectual

Assets (EXEOIA)
Assets) − (Industry Average of Return on Intellectual Assets)

Market
Market Value Added (MVA: Actual
(Total Number of Outstanding Shares) × (Stock Price) − (Shareholders' Equity)

Valuation
Value)

Related
Market Value Added (MVA:
Present Value of Economic Value Added in Future = [{(R&D Cost) + (Operating Profit

Theoretical Value)
Theoretical Value + Patent Royalty Income) × (1 − Corporate Tax Rate)} − {(Interest Bearing

Debt) + (Equity Capital)} × (WACC)]/(Capital Cost)

Price Book-value Ratio (PBR)
(Aggregate Market Value)/(Equity Capital)

Expected Intellectual Property
{(Fixed Liabilities) × (Profit Ratio a) + (Aggregate Market Value) ×

Profit (EIPP)
(Profit Ratio p)} − {(Financial Assets) × (Profit Ratio m) +

(Tangible Fixed Assets) × (Profit Ratio f)} (Profit Ratio

a): (Weighted Average of Long Term Prime Rate and Bond Rate) × (1 − Corporate Tax)

(Profit Ratio p): Calculated Based on Capital Asset Pricing Model (CAPM). Yield on Long Term

10-Year Government Bonds. Stock Investment Profit Ratio. β Value were used:

(Profit Ratio m): Application of Short Term Prime Rate (Profit Ratio f): Application

of Long Term Prime Rate

TABLE 3

R&D Related Index

Index Group
Index
Definition (Formula)

R&D Related
R&D Cost
Total Amount of R&D Cost (Desirable to Use Average Value of Several Terms)

R&D Stock
Cumulative Total Amount of R&D Cost

Number of Inventors
(Calculated Based on “Inventor” Column of Laid-Open Publications)

Inventor Stock
Cumulative Number of Inventors

Inventor Ratio
(Number of Inventors)/(Number of Employees)

R&D Cost per Inventor
(R&D Cost)/(Number of Inventors)

R&D Efficiency
R&D Cost Ratio α
(R&D Cost)/(Sales Volume)

Related
R&D Cost Ratio β
(R&D Cost)/(Value Added Amount)

R&D Cost Ratio γ
(R&D Cost)/(GOP)

R&D Cost Ratio δ
(R&D Cost)/(Total Assets)

R&D Efficiency ∈
(Operating Profit)/(R&D Cost) (Desirable to Use Average Value of Several Terms for R&D Cost)

Patent Application
(Number of Claims of Patent Applications)/(R&D Cost) (The Number of Claims May be the Number of

Productivity
Claims in Each Section (A to H) and the Number of Claims May be replaced by the Number

of Patent Applications) (Average Value of Several Terms is Desirable

for the R&D Cost)

Examination Request
Correction of (Patent Application Productivity). (Patent Application Productivity) × (Estimated

Productivity
Examination Request Ratio) (Estimated Examination Request Ratio: Sought Based

on Number of Examination Requests for Previous Applications in which the term for

Examination Request is expired.)

Patent Granted
Correction of (Patent Application Productivity). (Patent Application Productivity) × (Estimated

Productivity
Registration Ratio) (Estimated Registration Ratio: Sought Based on Number of Registrations

of Previous Applications. Lapsed Years, Average Years to Patent Granted)

TABLE 4

Intellectual Assets Related Index (1)

Index Group
Index
Definition (Formula)

Patent Application Related
Number of Patent Applications
(Joint Application is Recorded as One Application)

Patent Application Stock
(Cumulative Number of Patent Applications)

Cumulative Patent Applications (A to H)
(Cumulative Patent Applications by Section)

Number of Claims Filed
(Sum of “Number of Claims” of Laid-Open Publications)

Number of Claims per Patent Application
(Number of Claims Filed)/(Number of Patent Applications)

Application per Inventor
(Number of Patent Applications)/(Number of Inventors) (Number of Patent Applications Does Not Include

Joint Applications)

Number of Claims per Inventor (Patent Application)
(Number of Claims Filed)/(Number of Inventors)

Number of Joint Applications
(Number of Joint Applications Among Patent Applications Filed)

Joint Filing Ratio
(Number of Joint Applications)/(Number of Patent Applications)

Number of Applicants in Joint Filing
(Number of Joint Applicants in Joint Applications)

Number of Applications Top Ranking Inventors Involved
Number of Applications in which M Number of Top Ranking Inventors Within the Company

Involved [This May be in a Single Year or Cumulative Total of Several Years]

Examination Request Related
Number of Examination Requests
(Number of Examination Requests Filed)

Number of Examination Requests Filed by Section
(Number of Examination Requests of Each Section (A to H))

Years to Examination Request (Average)
{Σ (Date of Examination Request − Filing Date)}/{(Number of Examination Requests) × (Annual

Number of Days)}

Examination Request Ratio
(Examination Request Ratio Pertaining to Number of Patent Applications of Each Year)

Cumulative Number of Examination Requests
(Cumulative Number of Examination Requests)

Examination Request Ratio (to Patent Application
(Cumulative Number of Examination Requests)/(Cumulative Patent Applications Filed)

Stock)

Patent Granted (Registrated Related
Number of Patents Granted
(Number of Patents Granted)

Registrations by Section
(Number of Registrations by Section (A to H))

Number of Registered Claims
(Number of “Claims” in Registered Gazette)

Patent Granted per Inventor
(Number of Registrations)/(Number of Inventors)

Number of Claims per Inventor (Patent Granted)
(Number of Registered Claims)/(Number of Inventors)

Years to Patent Granted (Average)
{Σ (Patent Registration Date − Patent Filing Date)}/{(Number of Patents Granted) × (Annual

Number of Days)}

Patent Granted Ratio (to Number of Applications)
(Number of Patents Granted Each Year)/(Number of Patent Applications Filed Each Year)

Patent Granted Stock
(Patent Granted Stock at the End of Each Year)

Patent Granted Ratio (to Application Stock)
(Patent Granted Stock)/(Patent Application stock)

Patent Granted Ratio (to Number of Examination
(Number of Patents Granted Each Year)/(Number of Examination Requests Filed Each Year)

Requests)

Patent Granted Stock Ratio
(Patent Granted Stock)/(Cumulative Number of Examination Requests)

Effective Number of Patents Granted
(Number of Patents Granted Each Year) − (Number of Patents Invalidated Among Patent

Registrations Each Year)

Patent Granted Renewal Ratio
(Effective Number of Patents Granted Among Patent Registrations Each Year)/(Number of

Patents Granted Each Year)

TABLE 5

Intellectual Assets Related Index (2)

Index Group
Index
Definition (Formula)

Items Related
Number of Oppositions and Invalidation Trials
Number of Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year (This May be an Overall Total. Total

to
(as Defendant)
Number of Several Years, or Average in Several Years)

Oppositions
Ratio of Number of Oppositions and
Ratio of Number of Oppositions and Invalidation Trials in Each Year (as Defendant) to Number of Applications Filed in Same

and
Invalidation Trials (as Defendant) to Number of
Year = (Number of Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year of a Certain

Invalidation
Patent Application
Company)/(Number of Patent Applications Filed by Said Company in Same Year)

Trials Filed
Ratio of Number of Oppositions and
Ratio of Number of Oppositions and Invalidation Trials in Each Year (as Defendant) to Number of Patents Granted in Same Year = (Number

(as
Invalidation Trials (as Defendant) to Number of
of Patents Subject to Oppositions or Invalidation Trials Filed (as Defendant))/(Number of Patents Granted to Said

Defendant)
Patent Granted
Company in Same Year)

Weighted Number of Oppositions and
Number of Opponents to Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year = Σ (Number of

Invalidation Trials (as Defendant)
Patents N Subject to Oppositions or Invalidation Trials (as Defendant) × (Number of People Who Filed Oppositions or

Invalidation Trials Against the N Patents)

Ratio of Weighted Number of Oppositions and
Ratio of Number of Opponents to Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year to Number

Invalidation Trials (as Defendant) to Number of
of Applications Filed by the Company in Same Year = {Σ (Number of Patents N Subject to Oppositions or Invalidation Trials (as

Patent Application
Defendant)) × (Number of People Who Filed Oppositions or Invalidation Trials Against the N Patents)}/(Number of Applications

Filed by Said Company in Same Year)

Ratio of Weighted Number of Oppositions and
Ratio of Number of Opponents to Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year to Number

Invalidation Trials (as Defendant) to Number of
of Patents Granted to the Company in Same Year = {Σ (Number of Patents N Subject to Oppositions or Invalidation Trials (as

Patent Granted
Defendant)) × (Number of People Who Filed Oppositions or Invalidation Trials Against the N Patents)}/(Number of Patents

Granted to Said Company in Same Year)

Relative Value of Number of Oppositions and
Ratio to Average Number in Industry in Relation to Number of Patents Subject to Oppositions or Invalidation Trials (as

Invalidation Trials (as Defendant)
Defendant) in Each Year = (Number of Patents Subject to Oppositions or Invalidation Trials (as Defendant) in Each Year of a

Certain Company)/(Average Number in Industry of Said Company in Same Year)

Relative Value of Weighted Number of
Ratio to Average Number in Industry in Relation to Weighted Number of Patents Subject to Oppositions and Invalidation Trials (as

Oppositions and Invalidation Trials (as
Defendant) in Each Year = {Σ (Number of Patents N Subject to Oppositions or Invalidation Trials (as Defendant)) × (Number

Defendant)
of People Who Filed Oppositions or Invalidation Trials Against the N Patents)}/(Average Number of People in Industry of Said

Company in Same Year)

Relative Value of Ratio of Number of
Ratio to Average Ratio in Industry in Relation to Ratio of Number of Oppositions and Invalidation Trials (as Defendant) in Each

Oppositions and Invalidation Trials (as
Year to Number of Applications = (Ratio of Number of Oppositions and Invalidation Trials (as Defendant) in Each Year of a

Defendant) to Number of Patent Application
Certain Company to Number of Applications)/(Average Ratio in Industry of Said Company in Same Year)

Relative Value of Ratio of Weighted Number of
Ratio to Average Ratio in Industry in Relation to Ratio of Weighted Number of Oppositions and Invalidation Trials (as Defendant)

Oppositions and Invalidation Trials (as
in Each Year to Number of Applications = (Ratio of Weighted Number of Oppositions and Invalidation Trials (as Defendant) in

Defendant) to Number of Patent Application
Each Year of a Certain Company to Number of Applications)/(Average Ratio in Industry of Said Company in Same Year)

Relative Value of Ratio of Number of
Ratio to Average Ratio in Industry in Relation to Ratio of Number of Oppositions and Invalidation Trials (as Defendant) in Each

Oppositions and Invalidation Trials (as
Year to Number of Patents Granted = (Ratio of Number of Oppositions and Invalidation Trials (as Defendant) in Each Year of a

Defendant) to Number of Patent Granted
Certain Company to Number of Patents Granted)/(Average Ratio in Industry of Said Company in Same Year)

Relative Value of Ratio of Weighted Number of
Ratio to Average Ratio in Industry in Relation to Ratio of Weighted Number of Oppositions and Invalidation Trials (as Defendant)

Oppositions and Invalidation Trials (as
in Each Year to Number of Patents Granted = (Ratio of Weighted Number of Oppositions and Invalidation Trials (as Defendant)

Defendant) to Number of Patent Granted
in Each Year of a Certain Company to Number of Patents Granted)/(Average Ratio in Industry of Said Company in Same Year)

Citation/
Number of Citations (as Patentee)
Number of Times a Certain Patent was Cited in Rejections of Other Patents (This May be an Overall Total, Total Number of Several Years,

Reference

or Average in Several Years)

Related
Number of Requests for Inspection/Delivery
Number of Requests for Wrapper of a Certain Patent (This May be an Overall Total, Total Number of Several Years, or Average in Several

Years)

Number of Appeal Trials Filed
Number of Appeal Trials Filed by a Certain Company [This May be the Number of Cases in a Single Year or Several Years]

TABLE 6

Intellectual Assets Related Index (3)

Index Group
Index
Definition (Formula)

Patent Stock Related
Total Number of Effective Patents
(Patent Granted Stock) − (Patent Invalidation Stock) [This May be of a certain time. or an Average in Several Years]

Total Share of Effective Patents
Σ{(Number of Effective Patents of Company by Each International Patent Classification)/(Total Number of

Effective Patents by Each International Patent Classification)} [This May be of a certain time. or an Average in Several

Years]

Total Patent Granted Renewal Ratio
(Total Number of Effective Patents)/(Patent Granted Stock) [This May be of a certain time. or an Average in Several

Years]

Years to Renewal Patent Granted
{Σ(Scheduled Invalidation Date of Each Patent of the Total Number of Effective Patents − Year End)}/

Expiration (Average)
{(Total Number of Effective Patents) × (Annual Number of Days)}

Patent Stock Index
(Total Number of Effective Patents) × (Years to Renewal Patent Granted Expiration (Average)) [This May be of a

certain time. or an Average in Several Years]

Total Patent Assets
{(R&D Cost)/(Number of Patents Granted)} × (Total Number of Effective Patents) [R&D Cost May be in a Single Year

or Cumulative Total of Several Years]

Patent
Share of Claims Filed (A to H)
(Number of Claims Filed by Company in One of International Patent Classification Sections A to H)/(Total

Concentration

Number of Claims Filed in the Same International Patent Classification Section) [Number of Claims May be of a Single

Index Related

Year. or a Cumulative Total of Several Years]

Patent Concentration Index
Σ[{(Number of Claims Filed by Company by Subclasses in International Patent Classification)/(Total Number

of Claims Filed by Company)}²]

Patent Concentration Index (A to H)
Patent Concentration Index by Each of International Patent Classification Sections A to H

Patent Diversification Index (PDI)
{1 − (Patent Concentration Index)} [The Patent Concentration Index May be by a Section or All Sections]

Patent Competitive Position Index
Σ[{Σ(Share of Each Company in Each Technical Field)²} × (Company Share in Each Technical Field)] × (1 + Excess

(PCPI)
Growth Ratio) [(1 + Excess Growth Ratio) Does Not Have to be Multiplied. The Technical Field is IPC Subclass or the

like.]

Average Patent Competitive Position
(Company PCPI)/(Number of Technical Fields covered by Company's Patent Applications) [This May be of a Single

Index (Average PCPI)
Year. or an Average in Several Years]

Patent
Patent Profitability α
{(GOP) + (Patent Royalty Income)}/(Total Number of Effective Patents) [This May be of a Single Year. or an Average

Profitability

in Several Years]

Related
Patent Profitability β
{(Excess Value Added) + (Patent Royalty Income)}/(Total Number of Effective Patents)

[This May be of a Single Year. or an Average in Several Years]

Patent Profitability γ
{(Excess GOP) + (Patent Royalty Income)}/(Total Number of Effective Patents) [This May be of a Single Year. or an

Average in Several Years]

Patent Profitability δ
{(Excess Earnings on Intellectual Assets) + (Patent Royalty Income)}/(Total Number of Effective Patents)

[This May be of a Single Year. or an Average in Several Years]

Patent Power Related
Patent Desire Index
Degree of Company's Intention to Acquire Patents.

Aggregation of Examination Request Ratio (to Patent Application Stock), Patent Granted Ratio (to Examination

Requested Stock) and so on Based on Generalized Linear Model (Generalized Linear Model: Analysis of Variance, Factor,

Principle Component, Covariance Structure, Multivariance Analysis and so on)

Check Power Against Other Company
Degree of Suppressing Rights of Other Companies, and Improving Value of One's Patent. Aggregation of Patent

Index
Oppositions (as Defendant), Number of Citations of Other Companies and so on Based on Generalized Linear

Model.) (Generalized Linear Model: Analysis of Variance, Factor, Principle Component, Covariance Structure, Multivariance Analysis and

so on)

<4-2. Example of FIG. 4>

<4-2-1. Explanation of Path Diagram>

The individual examples are now explained.

As evident from FIG. 4, in this causal model, with respect to the influences (contribution ratios) of the other 3 evaluated values on the company evaluated value (black), the business strategy evaluated value (management) was approximately 26%, the R&D strategy evaluated value (R&D) was approximately 17%, and the intellectual property strategy evaluated value (patent 1) was 46%.

Further, when viewing the mutual correlation coefficients of the 3 evaluated values, correlation between “management” and “patent 1” was 0.17, correlation between “patent 1” and “R&D” was 0.12, and correlation between “R&D” and “management” was 0.34, and they respectively shown a weak correlation.

Here, the company evaluated value (black) is set as a potential factor existing between the 3 evaluated values (latent variables) of business strategy evaluated value (management), R&D strategy evaluated value (R&D) and intellectual property strategy evaluated value (patent 1), and the 3 indexes (observed variables) of MVA (difference between aggregate market value and shareholder's equity), PBR (price book value ratio) and total factor productivity (technical progress ratio).

Since the market valuation indexes of MVA and PBR were used as the indexes that are influenced by the company evaluated value (black), it is possible to reflect the market valuation on the off-balance intangible assets such as the know-how and intellectual property of each company when the market value exceeds the book value. Contrarily, when the market value is less than the book value, it can be considered that the market is evaluating the company as hardly possessing off-balance intangible assets or lacking the capacity to making such assets the source of profits, and, therefore, this market valuation can be reflected.

Nevertheless, there are restrictions in the evaluation of intangible assets obtained from the market valuation index. This is because unrelated noise may be included in the evaluation of intangible assets since the market value becomes unfairly low or high due to the macro-economic environment and the asymmetrical nature of information existing between the company and market. Thus, in addition to the market valuation index, the “total factor productivity” is used as an index that is influenced by the company evaluated value (black). Here, the “total factor productivity” is obtained by subtracting the value added amount rate of change including the contribution of equipment and manpower from the rate of change of the “value added amount” in each business year of each company.

Further, as the indexes that are influenced by the business strategy evaluated value (management), the four indexes of “facility investment efficiency,” “equity to asset ratio,” “cost to sales ratio” and “operating profit to sales ratio” were selected.

Subsequently, as the indexes that are influenced by the R&D strategy evaluated value (R&D), the three indexes of “R&D cost ratio α,” “R&D cost per inventor” and “patent application productivity” were selected.

Finally, as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1), the five indexes of “number of claims per application,” “number of claims per inventor,” “patent diversification index,” “average patent competitive position index” and “patent application productivity” were selected. Incidentally, as other useful indexes that are influenced by the intellectual property strategy evaluated value (patent 1), there are the indexes of “patent desire index,” “check power against other company index,” “total share of effective patents” and the like. The definition and calculation formula of the respective indexes are as shown in [Table 1] to [Table 6].

The combinations of indexes shown in FIG. 4 are those with the highest model adaptation. Specifically, based on the chi-squared test, χ²=366.906 (degree of freedom df=70, p value=0.000). Further, RMSEA (Root Mean Square Error of Approximation)=0.094, GFI=0.907, AGFI=0.861.

<4-2-2. Weighting>

Further, the weighting (component of matrix Y) to be applied to the respective indexes for calculating the respective evaluated values at evaluated value calculation step S6 is as follows in the example of FIG. 4. The digit of 10⁻⁵was rounded off.

TABLE 7

Average

patent

competitive
Patent
Patent

Total factor
position
diversification
application
R&D cost

productivity
index
index
productivity
ratio α

management
0.0055
0.0008
0.0002
−0.0215
0.0233

R&D
0.0042
0.0043
0.0012
−0.2228
0.2351

patent1
0.0055
0.0514
0.0140
0.0626
0.0169

black
0.0455
0.0079
0.0022
−0.0108
0.0236

Operating

Number of

profit to

Cost to sales
R&D cost
claims per

sales ratio
MVA
ratio
per inventor
inventor

management
0.6015
0.0394
−0.2579
0.0210
0.0120

R&D
0.0410
0.0302
−0.0176
0.2117
0.0648

patent1
0.0055
0.0401
−0.0024
0.0152
0.7769

black
0.0540
0.3285
−0.0232
0.0212
0.1199

Number of
Facility

claims per
investment
Equity to

application
efficiency
asset ratio
PBR

management
0.0022
0.0717
0.1236
0.0325

R&D
0.0119
0.0049
0.0084
0.0249

patent1
0.1425
0.0007
0.0011
0.0330

black
0.0220
0.0064
0.0111
0.2704

According to the above,

(1) Indexes with large weighting for calculating the business strategy evaluated value (management) are as follows:

“operating profit to sales ratio” which is 0.6015,

“equity to asset ratio” which is 0.1236,

“facility investment efficiency” which is 0.0717,

“MVA” which is 0.0394, and

“PBR” which is 0.0325.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“cost to sales ratio” which is −0.2579.

(2) Indexes with large weighting for calculating the R&D strategy evaluated value (R&D) are as follows:

“R&D cost ratio α” which is 0.2351,

“R&D cost per inventor” which is 0.2117, and

“number of claims per inventor” which is 0.0648.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“patent application productivity” which is −0.2228.

(3) Indexes with large weighting for calculating the intellectual property strategy evaluated value (patent 1) are as follows:

“number of claims per inventor” which is 0.7769,

“number of claims per application” which is 0.1425, and

“patent application productivity” which is 0.0626.

(4) Indexes with large weighting for calculating the company evaluated value (black) are as follows:

“MVA” which is 0.3285,

“PBR” which is 0.2704,

“number of claims per inventor” which is 0.1199,

“operating profit to sales ratio” which is 0.0540, and “total factor productivity” which is 0.0454.

<4-3. Example of FIG. 5>

<4-3-1. Explanation of Path Diagram>

As evident from FIG. 5, in this causal model, with respect to the influences (contribution ratios) of the other 3 evaluated values on the company evaluated value (black), the business strategy evaluated value (management) was approximately 22%, the R&D strategy evaluated value (R&D) was approximately 14%, and the intellectual property strategy evaluated value (patent 1) was 35%.

Further, when viewing the mutual correlation coefficients of the 3 evaluated values, correlation between “management” and “patent 1” was 0.13, correlation between “patent 1” and “R&D” was 0.25, and correlation between “R&D” and “management” was 0.22, and they respectively shown a weak correlation.

In the example of FIG. 5, unlike FIG. 4, MVA was not used as the index that will be influenced by the company evaluated value (black). Thereby, fluctuation of the company evaluated value caused by the business size can be reduced.

Further, indexes that are influenced by the other 3 evaluated values that are slightly different from those in FIG. 4 were used, and comparatively high adaptation was obtained.

Specifically, the three indexes of “facility investment efficiency,” “cost to sales ratio” and “ROAα” were selected as the indexed that are influenced by the business strategy evaluated value (management).

Subsequently, the three indexes of “R&D cost ratio β,” “R&D cost per inventor” and “patent application productivity” were selected as the indexed that are influenced by the R&D strategy evaluated value (R&D).

Finally, the four indexes of “number of claims per application,” “number of claims per inventor,” “average patent competitive position index” and “patent application productivity” were selected as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1).

The definition and calculation formula of the respective indexes are as shown in [Table 1] to [Table 6].

According to the combinations of indexes shown in FIG. 5, based on the chi-squared test, χ²=193.459 (degree of freedom df=37, p value=0.000). Further, RMSEA (Root Mean Square Error of Approximation)=0.093, GFI=0.932, AGFI=0.879.

<4-3-2. Weighting>

TABLE 8

Average

patent

competitive
Patent

Total factor
position
application
R&D cost

productivity
index
productivity
ratio β

management
0.0059
0.0004
−0.0119
0.0153

R&D
0.0047
0.0045
−0.2424
0.3023

patent1
0.0035
0.0287
0.0402
0.0215

black
0.0811
0.0036
−0.0121
0.0233

Number of

Cost to sales
R&D cost
claims per

ROA α
ratio
per inventor
inventor

management
0.1260
−0.0370
0.0092
0.0121

R&D
0.0058
−0.0017
0.1820
0.1381

patent1
0.0007
−0.0002
0.0129
0.8812

black
0.0110
−0.0032
0.0140
0.1106

Number of
Facility

claims per
investment

application
efficiency
PBR

management
0.0011
0.6796
0.0410

R&D
0.0124
0.0311
0.0328

patent1
0.0792
0.0038
0.0242

black
0.0099
0.0593
0.5685

According to the above,

(1) Indexes with large weighting for calculating the business strategy evaluated value (management) are as follows:

“facility investment efficiency” which is 0.6796,

“ROAα” which is 0.1260, and

“PBR” which is 0.0410.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“cost to sales ratio” which is −0.0370.

(2) Indexes with large weighting for calculating the R&D strategy evaluated value (R&D) are as follows:

“R&D cost ratio β” which is 0.3023,

“R&D cost per inventor” which is 0.1820, and

“number of claims per inventor” which is 0.1381.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“patent application productivity” which is −0.2424.

(3) Indexes with large weighting for calculating the intellectual property strategy evaluated value (patent 1) are as follows:

“number of claims per inventor” which is 0.8812,

“number of claims per application” which is 0.0792, and

“patent application productivity” which is 0.0402.

(4) Indexes with large weighting for calculating the company evaluated value (black) are as follows:

“PBR” which is 0.5685,

“number of claims per inventor” which is 0.1106, and

“total factor productivity” which is 0.0811.

<4-4. Example of FIG. 6>

<4-4-1. Explanation of Path Diagram>

As evident from FIG. 6, in this causal model, with respect to the influences (contribution ratios) of the other 3 evaluated values on the company evaluated value (black), the business strategy evaluated value (management) was approximately 18%, the R&D strategy evaluated value (R&D) was approximately 16%, and the intellectual property strategy evaluated value (patent 1) was 38%.

Further, when viewing the mutual correlation coefficients of the 3 evaluated values, correlation between “management” and “patent 1” was 0.10, correlation between “patent 1” and “R&D” was 0.25, and correlation between “R&D” and “management” was 0.21, and they respectively shown a weak correlation.

In the example of FIG. 6, similar to FIG. 5, MVA was not used as the index that will be influenced by the company evaluated value (black). Thereby, fluctuation of the company evaluated value caused by the business size can be reduced.

Further, indexes that are influenced by the other 3 evaluated values that are slightly different from those in FIG. 5 were used, and comparatively high adaptation was obtained.

Specifically, the three indexes of “facility investment efficiency,” “interest bearing debt ratio” and “ROAα” were selected as the indexed that are influenced by the business strategy evaluated value (management).

The definition and calculation formula of the respective indexes are as shown in [Table 1] to [Table 6].

According to the combinations of indexes shown in FIG. 6, based on the chi-squared test, χ²=194.415 (degree of freedom df=37, p value=0.000). Further, RMSEA (Root Mean Square Error of Approximation)=0.094, GFI=0.931, AGFI=0.877.

<4-4-2. Weighting>

TABLE 9

Average

patent

competitive
Patent

Total factor
position
application
R&D cost

productivity
index
productivity
ratio β

management
0.0073
0.0003
−0.0147
0.0181

R&D
0.0069
0.0049
−0.2431
0.2988

patent1
0.0051
0.0312
0.0437
0.0233

black
0.0955
0.0047
−0.0158
0.0300

Interest

Number of

bearing debt
R&D cost
claims per

ROA α
ratio
per inventor
inventor

management
0.1779
−0.1129
0.0111
0.0097

R&D
0.0089
−0.0056
0.1823
0.1375

patent1
0.0008
−0.0005
0.0142
0.8702

black
0.0154
−0.0098
0.0183
0.1320

Number of
Facility

claims per
investment

application
efficiency
PBR

management
0.0010
0.5209
0.0371

R&D
0.0136
0.0260
0.0353

patent1
0.0863
0.0023
0.0263

black
0.0131
0.0451
0.4880

According to the above,

(1) Indexes with large weighting for calculating the business strategy evaluated value (management) are as follows:

“facility investment efficiency” which is 0.5209,

“ROAα” which is 0.1779, and

“PBR” which is 0.0371.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“interest bearing debt ratio” which is −0.1129.

(2) Indexes with large weighting for calculating the R&D strategy evaluated value (R&D) are as follows:

“R&D cost ratio β” which is 0.2988,

“R&D cost per inventor” which is 0.1823, and

“number of claims per inventor” which is 0.1375.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“patent application productivity” which is −0.2431.

(3) Indexes with large weighting for calculating the intellectual property strategy evaluated value (patent 1) are as follows:

“number of claims per inventor” which is 0.8702,

“number of claims per application” which is 0.0863, and

“patent application productivity” which is 0.0437.

(4) Indexes with large weighting for calculating the company evaluated value (black) are as follows:

“PBR” which is 0.4880,

“number of claims per inventor” which is 0.1320, and

“total factor productivity” which is 0.0955.

<4-5. Example of FIG. 7>

<4-5-1. Explanation of Path Diagram>

As evident from FIG. 7, in this causal model, with respect to the influences (contribution ratios) of the other 3 evaluated values on the company evaluated value (black), the business strategy evaluated value (management) was approximately 28%, the R&D strategy evaluated value (R&D) was approximately 25%, and the intellectual property strategy evaluated value (patent 1) was 36%.

Further, when viewing the mutual correlation coefficients of the 3 evaluated values, correlation between “patent 1” and “R&D” was 0.20, and correlation between “R&D” and “management” was 0.27, and they respectively shown a weak correlation.

In the example of FIG. 7, similar to FIG. 4, MVA was used as the index that will be influenced by the company evaluated value (black).

Further, indexes that are influenced by the other 3 evaluated values that are slightly different from those in FIG. 4 were used, and comparatively high adaptation was obtained.

Specifically, the four indexes of “patent profitability δ,” “facility investment efficiency,” “interest bearing debt ratio” and “operating profit to sales ratio” were selected as the indexed that are influenced by the business strategy evaluated value (management).

Subsequently, the three indexes of “R&D cost ratio α,” “R&D cost per inventor” and “patent application productivity” were selected as the indexed that are influenced by the R&D strategy evaluated value (R&D).

Finally, the five indexes of “number of claims per application,” “number of claims per inventor,” “patent diversification index,” “average patent competitive position index” and “patent application productivity” were selected as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1).

The definition and calculation formula of the respective indexes are as shown in [Table 1] to [Table 6].

According to the combinations of indexes shown in FIG. 7, based on the chi-squared test, χ²=349.153 (degree of freedom df=73, p value=0.000). Further, RMSEA (Root Mean Square Error of Approximation)=0.098, GFI=0.881, AGFI=0.829.

<4-5-2. Weighting>

TABLE 10

Average

patent

Patent

competitive
Patent
Patent

profitability
Total factor
position
diversification
application

δ
productivity
index
index
productivity

management
0.3399
0.0121
−0.0004
−0.0003
−0.005

R&D
0.0176
0.0111
0.0008
0.0005
−0.0925

patent1
−0.0061
0.0092
0.0193
0.0114
0.0246

black
0.0355
0.1045
0.0019
0.0011
−0.0054

Operating

Interest

R&D cost
profit to

bearing debt
R&D cost

ratio α
sales ratio
MVA
ratio
per inventor

management
0.0277
0.2999
0.0271
−0.0751
0.0088

R&D
0.5918
0.0155
0.0249
−0.0039
0.1878

patent1
0.0187
−0.0054
0.0206
0.0013
0.0059

black
0.0515
0.0313
0.2339
−0.0078
0.0163

Number of
Number of
Facility

claims per
claims per
investment

inventor
application
efficiency
PBR

management
−0.0188
−0.003
0.0955
0.0268

R&D
0.0365
0.0059
0.0049
0.0246

patent1
0.8357
0.1354
−0.0017
0.0203

black
0.0835
0.0135
0.01
0.2307

According to the above,

(1) Indexes with large weighting for calculating the business strategy evaluated value (management) are as follows:

“patent profitability δ” which is 0.3399,

“operating profit to sales ratio” which is 0.2999,

“facility investment efficiency” which is 0.0955,

“R&D cost ratio α” which is 0.0277,

“MVA” which is 0.0271, and

“PBR” which is 0.0268.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“interest bearing debt ratio” which is −0.0751.

(2) Indexes with large weighting for calculating the R&D strategy evaluated value (R&D) are as follows:

“R&D cost ratio α” which is 0.5918,

“R&D cost per inventor” which is 0.1878, and

“number of claims per inventor” which is 0.0365.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“patent application productivity” which is −0.0925.

(3) Indexes with large weighting for calculating the intellectual property strategy evaluated value (patent 1) are as follows:

“number of claims per inventor” which is 0.8357,

“number of claims per application” which is 0.1354, and

“patent application productivity” which is 0.0246.

(4) Indexes with large weighting for calculating the company evaluated value (black) are as follows:

“MVA” which is 0.2339,

“PBR” which is 0.2307,

“number of claims per inventor” which is 0.1045, and

“total factor productivity” which is 0.0835.

<4-6. Example of FIG. 8>

<4-6-1. Explanation of Path Diagram>

As evident from FIG. 8, in this causal model, with respect to the influences (contribution ratios) of the other 3 evaluated values on the company evaluated value (black), the business strategy evaluated value (management) was approximately 17%, the R&D strategy evaluated value (R&D) was approximately 16%, and the intellectual property strategy evaluated value (patent 1) was 32%.

Further, when viewing the mutual correlation coefficients of the 3 evaluated values, correlation between “management” and “patent 1” was 0.16, correlation between “patent 1” and “R&D” was 0.42, and correlation between “R&D” and “management” was 0.20, and they respectively shown a weak correlation.

In the example of FIG. 8, similar to FIG. 4, MVA was used as the index that will be influenced by the company evaluated value (black).

Further, indexes that are influenced by the other 3 evaluated values that are slightly different from those in FIG. 4 were used, and comparatively high adaptation was obtained.

Specifically, the four indexes of “facility investment efficiency,” “equity to asset ratio,” “cost to sales ratio” and “operating profit to sales ratio” were selected as the indexed that are influenced by the business strategy evaluated value (management).

Finally, the six indexes of “number of claims per application,” “number of registrations per inventor,” “patent diversification index,” “average patent competitive position index,” “patent granted ratio (to number of examination requests)” and “patent application productivity” were selected as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1).

The definition and calculation formula of the respective indexes are as shown in [Table 1] to [Table 6].

According to the combinations of indexes shown in FIG. 8, based on the chi-squared test, χ²=705.003 (degree of freedom df=83, p value=0.000). Further, RMSEA (Root Mean Square Error of Approximation)=0.082, GFI=0.925, AGFI=0.891.

<4-6-2. Weighting>

TABLE 11

Patent

Average
granted ratio

patent
(to number

Patent

Number of
competitive
of

diversification
Cost to sales
registrations
position
examination

index
ratio
per inventor
index
requests)

management
0.002
−0.3967
0.0036
0.0061
0.0023

R&D
0.0275
−0.0242
0.0505
0.0852
0.0321

patent1
0.0505
−0.0268
0.0927
0.1564
0.059

black
0.0062
−0.0243
0.0114
0.0192
0.0073

Patent

Operating

Total factor
application
R&D cost
profit to

productivity
productivity
ratio β
sales ratio
MVA

management
0.0043
−0.0133
0.0122
0.4391
0.0352

R&D
0.0103
−0.5011
0.2245
0.0267
0.0843

patent1
0.015
0.372
0.1882
0.0296
0.122

black
0.0428
0.0099
0.0294
0.0269
0.349

Number of
Facility

R&D cost per
claims per
investment
Equity to

inventor
application
efficiency
asset ratio
PBR

management
0.0148
0.0131
0.0727
0.1846
0.0273

R&D
0.2723
0.1832
0.0044
0.0112
0.0653

patent1
0.2283
0.3364
0.0049
0.0125
0.0945

black
0.0356
0.0414
0.0045
0.0113
0.2703

According to the above,

(1) Indexes with large weighting for calculating the business strategy evaluated value (management) are as follows:

“operating profit to sales ratio” which is 0.4391,

“equity to asset ratio” which is 0.1846,

“facility investment efficiency” which is 0.0727,

“MVA” which is 0.0352, and

“PBR” which is 0.0273.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“cost to sales ratio” which is −0.3967.

(2) Indexes with large weighting for calculating the R&D strategy evaluated value (R&D) are as follows:

“R&D cost per inventor” which is 0.2723,

“R&D cost ratio β” which is 0.2245, and

“number of claims per application” which is 0.1832.

Further, an index in which the weighting is a large negative value of an absolute value is as follows:

“patent application productivity” which is −0.5011.

(3) Indexes with large weighting for calculating the intellectual property strategy evaluated value (patent 1) are as follows:

“patent application productivity” which is 0.3720,

“number of claims per application” which is 0.3364, and

“R&D cost per inventor” which is 0.2283.

(4) Indexes with large weighting for calculating the company evaluated value (black) are as follows:

“MVA” which is 0.3490,

“PBR” which is 0.2703, and

“total factor productivity” which is 0.0428.

<4-7. Summary of [Table 7] to [Table 9]>

The weighting ([Table 7] to [Table 9]) to be applied to the respective indexes for calculating the respective evaluated values in the examples of FIG. 4 to FIG. 6 can be summarized as follows.

<4-7-1. Calculation of Business Strategy Evaluated Value>

In the calculation of the business strategy evaluated value (management), the following indexes are emphasized:

“facility investment efficiency” in which the weighting is preferably 0.06 or more and 0.70 or less,

“operating profit to sales ratio” or “ROAα” in which the weighting is preferably 0.12 or more and 0.65 or less, and

“PBR” in which the weighting is preferably 0.03 or more and 0.05 or less.

Further, the following index may be emphasized:

“equity to asset ratio” in which the weighting is preferably 0.10 or more and 0.15 or less.

Moreover, the lowness of the following indexes may be emphasized;

“cost to sales ratio” in which the weighting is preferably −0.30 or more and −0.03 or less, and

“interest bearing debt ratio” in which the weighting is preferably −0.15 or more and −0.10 or less.

Incidentally, the “facility investment efficiency” may be replaced with “labor productivity.” This is because “facility investment efficiency”=value added amount/tangible fixed assets and “labor productivity”=value added amount/number of employees, and these show mutually similar tendencies.

Further, the “operating profit to sales ratio”=operating profit/sales volume, and this may be replaced with “gross operating profit to sales ratio,” “value added amount to sales ratio” or the like. Moreover, the “ROAα”={value added amount+royalty income such as patent fees}/total assets, and “ROAα” may be replaced with “ROAβ” or “ROAδ” by substituting the portion of the value added amount with gross operating profit, operating profit or the like. The “operating profit to sales ratio” and its substitute index and the “ROAα” and its substitute index show mutually similar tendencies, and either index may be selected.

Further, the “equity to asset ratio” or the “interest bearing debt ratio” may also be mutually replaced by inverting the positive and negative of weighting. This is because “equity to asset ratio”=equity capital/total assets and “interest bearing debt ratio”=interest bearing debt/total assets, and these show mutually inverse correlations.

Further, the “cost to sales ratio” may be replaced with “cost of sales-and-administration ratio to sales” or “labor distribution share” because these show mutually similar tendencies.

<4-7-2. Calculation of R&D Strategy Evaluated Value>

In the calculation of the R&D strategy evaluated value (R&D), the following indexes are emphasized:

“R&D cost ratio α” or “R&D cost ratio β” in which the weighting is preferably 0.20 or more and 0.35 or less, and

“R&D cost per inventor” in which the weighting is preferably 0.15 or more and 0.25 or less.

Further, it is more desirable to emphasize the lowness of the following index:

“patent application productivity” in which the weighting is preferably −0.30 or more and −0.20 or less.

Incidentally, the “R&D cost ratio α”=R&D cost/sales volume and the “R&D cost ratio β”=R&D cost/value added amount, and either index may be selected. Moreover, since these show similar tendencies as “R&D cost ratio γ”=R&D cost/gross operating profit and “R&D cost ratio δ”=R&D cost/total assets, the two former indexes may be replaced with the two latter indexes.

Further, the “R&D cost per inventor” may be replaced with “R&D cost per employee”=R&D cost/number of employees.

Further, the “number of claims per inventor” may be replaced with “number of applications per inventor”=number of patent applications/number of inventors or “number of registrations per inventor”=number of patent registrations/number of inventors.

Further, the “patent application productivity”=number of claims filed/R&D cost may be replaced with “examination request productivity”=patent application productivity×estimated examination request ratio or “patent registration productivity”=patent application productivity×estimated registration ratio.

<4-7-3. Calculation of Intellectual Property Strategy Evaluated Value>

In the calculation of the intellectual property strategy evaluated value (patent 1), the following indexes are emphasized:

“number of claims per inventor” in which the weighting is preferably 0.75 or more and 0.90 or less,

“number of claims per application” in which the weighting is preferably 0.06 or more and 0.15 or less, and

“patent application productivity” in which the weighting is preferably 0.03 or more and 0.07 or less.

Incidentally, the “number of claims per application” may be replaced with “number of claims per registration”=number of registered claims/number of patent registrations.

<4-7-4. Calculation of Company Evaluated Value>

In the calculation of the company evaluated value (black), the following indexes are emphasized:

“PBR” in which the weighting is preferably 0.25 or more and 0.60 or less,

“number of claims per inventor” in which the weighting is preferably 0.10 or more and 0.15 or less, and

“total factor productivity” in which the weighting is preferably 0.04 or more and 0.10 or less.

Further, the following indexes may be emphasized:

“MVA” in which the weighting is preferably 0.30 or more and 0.35 or less.

Incidentally, the “MVA” may be replaced with “expected intellectual property profit.”

<4-8. Summary of [Table 7] to [Table 11]>

The weighting ([Table 7] to [Table 11]) to be applied to the respective indexes for calculating the respective evaluated values in the examples of FIG. 4 to FIG. 8 can be summarized as follows.

<4-8-1. Calculation of Business Strategy Evaluated Value>

In the calculation of the business strategy evaluated value (management), the following indexes are emphasized:

“facility investment efficiency” in which the weighting is preferably 0.06 or more and 0.70 or less,

“operating profit to sales ratio” or “ROAα” in which the weighting is preferably 0.12 or more and 0.65 or less, and

“PBR” in which the weighting is preferably 0.02 or more and 0.05 or less.

Further, the following index may be emphasized:

“equity to asset ratio” in which the weighting is preferably 0.10 or more and 0.20 or less.

Moreover, the lowness of the following indexes may be emphasized;

“cost to sales ratio” in which the weighting is preferably −0.40 or more and −0.03 or less, and

“interest bearing debt ratio” in which the weighting is preferably −0.15 or more and −0.06 or less.

Further, the “cost to sales ratio” may be replaced with “cost of sales-and-administration ratio to sales” or “labor distribution share” because these show mutually similar tendencies.

<4-8-2. Calculation of R&D Strategy Evaluated Value>

In the calculation of the R&D strategy evaluated value (R&D), the following indexes are emphasized:

“R&D cost ratio α” or “R&D cost ratio β” in which the weighting is preferably 0.20 or more and 0.70 or less, and

“R&D cost per inventor” in which the weighting is preferably 0.15 or more and 0.30 or less.

Further, it is more desirable to emphasize the lowness of the following index:

“patent application productivity” in which the weighting is preferably −0.60 or more and −0.08 or less.

Further, the following index may also be emphasized.

“number of claims per inventor” in which the weighting is preferably 0.03 or more and 0.15 or less.

Further, the “R&D cost per inventor” may be replaced with “R&D cost per employee”=R&D cost/number of employees.

<4-8-3. Calculation of Intellectual Property Strategy Evaluated Value>

In the calculation of the intellectual property strategy evaluated value (patent 1), the following indexes are emphasized:

“number of claims per application” in which the weighting is preferably 0.06 or more and 0.40 or less, and

“patent application productivity” in which the weighting is preferably 0.02 or more and 0.40 or less.

Further, the following index may also be emphasized:

“number of claims per inventor” in which the weighting is preferably 0.75 or more and 0.90 or less.

Incidentally, the “number of claims per application” may be replaced with “number of claims per registration”=number of registered claims/number of patent registrations.

<4-8-4. Calculation of Company Evaluated Value>

In the calculation of the company evaluated value (black), the following indexes are emphasized:

“PBR” in which the weighting is preferably 0.20 or more and 0.60 or less, and

“total factor productivity” in which the weighting is preferably 0.04 or more and 0.15 or less.

Further, the following indexes may be emphasized:

“MVA” in which the weighting is preferably 0.20 or more and 0.40 or less, and

“number of claims per inventor” in which the weighting is preferably 0.07 or more and 0.15 or less.

Incidentally, the “MVA” may be replaced with “expected intellectual property profit.”

<4-9. Ranking Example>

Here, the result of calculating the evaluated value with the company evaluation assisting device and outputting the ranking is explained.

Foremost, the company evaluated value ranking is indicated in [Table 12], and the ranking based on the respective indexes is indicated in [Table 13] as a reference and explained.

TABLE 12

Intellectual Property Strategic Company

Intellectual Property Strategic Management Company Ranking

and List of Company Score by Factor

Company

Rank
Name
Management
R&D
Patent

1
SHC
63
67
61

2
SON
46
87
82

3
TOY
71
86
64

4
TAP
67
63
88

5
KAO
71
75
52

6
CAN
62
95
78

7
KEY
100
69
67

8
HDM
64
100
49

9
ROH
59
67
55

10
TOE
66
76
72

11
ADV
44
56
67

12
NIM
43
80
66

13
MUM
53
57
55

14
SUC
46
60
65

15
UNC
59
56
72

16
HOY
62
60
52

17
FNE
53
65
57

18
NID
67
66
100

19
JSR
48
52
56

20
CIE
77
67
51

TABLE 13

Intellectual Property Strategic Company

Company Ranking of Each External Valuation Index

Total Factor

Rank
MVA
PBR
Productivity

1
SON
NOK
ADV

2
SHC
CIE
MOJ

3
TOY
NID
JSR

4
KAO
FNE
MBM

5
TAP
SHC
OMR

6
CAN
HOY
SHI

7
ROH
KAO
NIN

8
MUM
ARM
UNI

9
HDM
TOE
ASK

10
HIT
KEN
NDM

11
SUC
UNC
TIM

12
TOE
HDM
ISM

13
NIM
JSR
SEC

14
SHA
KEY
NSB

15
FAN
YAS
PEN

16
KEY
SUC
KIS

17
TOS
TAP
HIN

18
MBC
HIC
TRM

19
MBE
TDK
FUJ

20
RIC
ADV
ZEO

<4-9-1. Company Evaluated Value Ranking>

[Table 12] shows the ranking of the top 20 companies of the company evaluated value (black) sought as the latent variable f₄using the causal model of FIG. 4. In addition, the evaluated values of business strategy evaluated value (management), R&D strategy evaluated value (R&D) and intellectual property strategy evaluated value (patent 1) sought as the latent variables f₁to f₃are also shown regarding these 20 companies. With these 3 evaluated values, the deviation score was calculated and converted so that the average value will be 50 points and the highest point will be 100 points.

For reference, [Table 13] shows the respective top 20 companies of the 3 indexes of “MVA,” “PBR” and “total factor productivity” selected as indexes that are influenced by the company evaluated value (black).

As shown in [Table 12], according to the foregoing company evaluation assisting device, the business strategy evaluated value, the R&D strategy evaluated value, the intellectual property strategy evaluated value and the company evaluated value, which are abstract concepts that cannot be directly measured, can all be quantified. Accordingly, the comprehensive evaluation or evaluation from a specific viewpoint of each company can be performed quantitatively. As shown in [Table 14] to [Table 16], ranking can be provided for the respective values of business strategy evaluated value, R&D strategy evaluated value, and intellectual property strategy evaluated value.

Further, as evident from [Table 12] and [Table 13], although many of the top companies of the 3 indexes of [Table 13] are also ranked as the top companies of the company evaluated value (black) in [Table 12], the ranking does not coincide completely. As a result of performing evaluation based on the company evaluated value (black) as shown in [Table 12], a more comprehensive evaluation is enabled, and this can be utilized in making investment decisions.

Subsequently, the business strategy evaluated value ranking is indicated in [Table 14] and explained.

TABLE 14

Intellectual Property Strategic Company

Company Ranking of “Management” Factor and Company

Ranking of Each “Management” Factor Constituent Index

Company

Cost-to-

Ranking of
Facility

Sales Ratio
Operating

“Management”
investment
Equity to
(Ascending
Profit Ratio

Factor
efficiency
Asset Ratio
Order)
(To Sales)

1
SHC
MEG
SHI
KEY
KEY

2
SON
NGK
NKC
JDL
FAN

3
TOY
MYS
NCS
NOE
COS

4
TAP
TAP
MAM
SUN
TOY

5
KAO
HCI
NGK
HDM
NAN

6
CAN
CEM
FJF
KAO
TER

7
KEY
OMR
FAN
MAN
USH

8
HDM
UNC
KEY
SYS
JDL

9
ROM
SWC
GEC
SIS
MAI

10
TOE
KEY
MAN
TOA
ONP

11
ADV
NEI
JDL
LIO
HIE

12
NIM
TOP
FTC
MIY
HOY

13
MUM
ISC
ENP
TER
KAO

14
SUC
FUE
NIC
MOR
TAP

15
UNC
NIK
TIM
ONP
MAN

16
HOY
AIK
GOC
HMP
NIM

17
FNE
RIC
MAR
NAN
NIK

18
NID
FUM
HRE
SHI
THC

19
JSR
KOM
ICI
DIG
ARM

20
CIE
TOY
ICO
FAN
SHI

<4-9-2. Business Strategy Evaluated Value Ranking>

[Table 14] shows the ranking of the top 20 companies of the business strategy evaluated value (management) sought as the latent variable f₁using the causal model of FIG. 4. In addition, for reference, the respective top 20 companies of the 4 indexes of “facility investment efficiency,” “equity to asset ratio,” “cost to sales ratio,” and “operating profit to sales ratio” selected as the indexes that are influenced by the business strategy evaluated value (management) are shown. Incidentally, “cost to sales ratio” is indicated as the top 20 companies in ascending order.

As evident from [Table 14], although many of the top companies of the 4 indexes are also ranked as the top companies of the business strategy evaluated value (management), the ranking does not coincide completely. As a result of performing evaluation based on the business strategy evaluated value (management), a more comprehensive evaluation regarding the business strategy is enabled, and this can be utilized in making investment decisions.

Subsequently, the R&D strategy evaluated value ranking is shown in [Table 15] and explained.

TABLE 15

Intellectual Property Strategic Company

Company Ranking of “R&D” Factor and Company Ranking

of Each “R&D” Factor Constituent Index

Company

Ranking

of “R&D”
R&D Cost per

Patent Application

Factor
Inventor
R&D Cost Ratio α
Productivity

1
SHC
ICI
ADV
TIE

2
SON
FUE
HDM
MTC

3
TOY
TES
SEP
DNP

4
TAP
FCJ
HAP
RIE

5
KAO
MAM
DEN
HOP

6
CAN
UNI
SON
SEC

7
KEY
NCC
HEE
CLA

8
HDM
ISM
NIN
ZOC

9
ROH
TOY
NSH
KEN

10
TOE
ONP
CAN
KEW

11
ADV
OMR
ICI
TKO

12
NIM
NAT
FJK
NIF

13
MUM
ISS
HIK
KYP

14
SUC
VES
NKY
SHD

15
UNC
TPI
NGK
ROP

16
HOY
FUP
TOK
NIY

17
FUE
NIS
ALO
TRM

18
NID
JDR
SYS
MAR

19
JSR
KEI
NAT
SUB

20
CIE
FAN
ISM
SCE

<4-9-3. R&D Strategy Evaluated Value Ranking>

[Table 15] shows the ranking of the top 20 companies of the R&D strategy evaluated value (R&D) sought as the latent variable f₂using the causal model of FIG. 4. In addition, for reference, the respective top 20 companies of the 3 indexes of “R&D cost ratio α,” “R&D cost per inventor,” and “patent application productivity” selected as the indexes that are influenced by the R&D strategy evaluated value (R&D) are shown.

As evident from [Table 15], although many of the top companies of the 3 indexes are also ranked as the top companies of the R&D strategy evaluated value (R&D), the ranking does not coincide completely. As a result of performing evaluation based on the R&D strategy evaluated value (R&D), a more comprehensive evaluation regarding the R&D strategy is enabled, and this can be utilized in making investment decisions.

Subsequently, the intellectual property strategy evaluated value ranking is shown in [Table 16] and explained.

TABLE 16

Intellectual Property Strategic Company

Company Ranking of “Patent” Factor and Company

Ranking of Each “Patent” Factor Constituent Index

Check

Number of

Average

Power

Company

Claims per
Patent
Patent

Against
Total

Ranking of
Number of
Inventor
Diversi-
Competitive
Patent
Other
Share of

“Patent”
Claims per
(Patent
fication
Position
Desire
Company
Effective

Factor
Application
Application)
Index
Index
Index
Index
Patents

1
SHC
SHD
SHI
FUP
SHI
YAE
DIA
NEC

2
SON
CHE
TAP
SIO
HIK
NEC
NIT
MBE

3
TOY
TAP
SON
HDM
ARM
FJA
YAE
HIT

4
TAP
SON
MEG
MAE
TOC
DIE
FJA
HOR

5
KAO
NEC
DCI
MEI
KAO
KOD
NEI
NIE

6
CAN
CAN
SHD
AIS
TOS
MBM
NKD
SON

7
KEY
NEO
CAN
DEN
MAE
NIT
EBD
YAE

8
HDM
TOE
IBI
SUZ
ZOC
NKD
CLA
CLA

9
ROH
SHI
FJG
YAM
SUB
NEI
STE
YOE

10
TOE
UNI
CAC
OMR
OVC
YOE
NJR
NIT

11
ADV
JDL
UNC
MAE
HIT
EBD
KOD
KOD

12
NIM
NKD
NEC
SIT
NKY
STE
DIE
STE

13
MUM
NIM
SUB
FJF
SAN
NIE
NIE
NJR

14
SUC
MAZ
NIY
MBE
MBE
NET
YOE
DIA

15
UNC
ADV
NKY
FHI
KAN
MAE
HOR
FJG

16
HOY
NIG
NIM
SAN
NSR
HOR
FJG
NET

17
FNE
MAC
KAN
DAI
KEY
HIT
NET
MBM

18
NID
MEG
NEO
KOP
DNP
DIA
NEC
EBD

19
JSR
PIO
MBC
KIP
SHC
FJG
HIT
NEI

20
CIE
DCI
RIC
KEY
CHC
CLA
SON
FJA

<4-9-4. Intellectual Property Strategy Evaluated Value Ranking>

[Table 16] shows the ranking of the top 20 companies of the intellectual property strategy evaluated value (patent 1) sought as the latent variable f₃using the causal model of FIG. 4. In addition, for reference, the respective top 20 companies of a total of 7 indexes of “number of claims per application,” “number of claims per inventor,” “patent diversification index,” “average patent competitive position index” selected as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1), as well as “patent desire index,” “check power against other company index,” and “total share of effective patents” that are effective as the indexes that are influenced by the intellectual property strategy evaluated value (patent 1).

As evident from [Table 16], although many of the top companies of the 7 indexes are also ranked as the top companies of the intellectual property strategy evaluated value (patent 1), the ranking does not coincide completely. As a result of performing evaluation based on the intellectual property strategy evaluated value (patent 1), a more comprehensive evaluation regarding the intellectual property strategy is enabled, and this can be utilized in making investment decisions.

Subsequently, the ranking of “intellectual property strategy evaluated value”−“company evaluated value” is shown in [Table 17] and explained.

TABLE 17

“Undervalued” Companies and Their “patent” - “black” Values

“patent” - “black”

Company Ranking
[“R&D” + “patent” > 0] and [“black” < 0] Company List

1
DCI
2.804
NGC
1.471
TOU
0.553
DAS
0.159

2
MAC
2.781
STC
1.358
TTE
0.542
FEL
0.127

3
EXE
2.620
HOC
1.332
SEI
0.526
TYR
0.108

4
CMP
2.354
SEK
1.232
NSI
0.519
KUM
0.069

5
TFS
2.350
TIK
1.225
DAI
0.460
SHM
0.045

6
CAC
2.189
MDE
1.171
MIN
0.444
SUN
0.034

7
IBI
2.116
KYL
1.150
ALP
0.432
SSE
−0.042

8
PEN
2.092
SUK
1.076
NSG
0.350
NCK
−0.045

9
SNK
2.066
CAE
1.057
JAM
0.328
FJA
−0.110

10
MAZ
2.005
FUM
1.013
KKC
0.326
NSO
−0.110

11
KAN
1.956
SHO
0.949
ORI
0.302
OMR
−0.188

12
CAN
1.858
TIN
0.866
TSP
0.284
TEI
−0.217

13
NIY
1.762
MIJ
0.862
CIW
0.264
ICO
−0.265

14
HIM
1.691
SKE
0.797
KUR
0.258
MUT
−0.329

15
NOB
1.613
NCH
0.785
NCA
0.237
YAM
−0.369

16
NKC
1.599
CRA
0.731
SKA
0.231
TEI
−0.465

17
NKY
1.574
NVI
0.653
NKD
0.226
ESP
−0.600

18
UNI
1.530
SJU
0.638
FRE
0.203
NOK
−0.767

19
ENP
1.488
ICH
0.630
DKS
0.198
ICI
−0.822

SMI
0.628
KAP
0.175

<4-9-5. “Intellectual Property Strategy Evaluated Value”—“Company Evaluated Value” Ranking>

[Table 17] shows the ranking of the top 19 companies of values obtained by calculating the evaluated value using the causal model of FIG. 7, and subtracting the company evaluated value (black) from the intellectual property strategy evaluated value (patent 1). In addition, among the companies other than the foregoing top 19 companies, 59 companies in which the sum of the R&D strategy evaluated value (R&D) and the intellectual property strategy evaluated value (patent 1) is greater than 0 (average value) and the company evaluated value (black) is smaller than 0 (average value) are listed in the order of values obtained by subtracting the company evaluated value (black) from the intellectual property strategy evaluated value (patent 1).

The intellectual property strategy evaluated value (patent 1) is closely related to the intellectual property related index, and the company evaluated value (black) is closely related to the market valuation related index such as PBR. As a result of seeking the value obtained by subtracting the company evaluated value (black) from the intellectual property strategy evaluated value (patent 1), it is possible to quantify the potential of so-called undervalued companies which are steadily executing their intellectual property strategy but have yet to appear in the market valuation related index. Contrarily, it could be said that companies having a low value are companies that are overvalued in the current market. Thereby, this value can be used to predict which company will succeed in the future and make investment decisions.

Similarly, the companies in which the sum of the R&D strategy evaluated value (R&D) and the intellectual property strategy evaluated value (patent 1) is greater than 0 (average value) and the company evaluated value (black) is smaller than 0 (average value) can also be considered to be so-called undervalued companies which are steadily executing their R&D strategy and intellectual property strategy but have yet to appear in the market valuation related index. Contrarily, companies in which the sum of the R&D strategy evaluated value (R&D) and the intellectual property strategy evaluated value (patent 1) is smaller than 0 (average value) and the company evaluated value (black) is greater than 0 (average value) are companies that are overvalued in the current market. Thereby, this value can be used to predict which company will succeed in the future and make investment decisions.

Number	Date	Country	Kind
2005-063169	Mar 2005	JP	national
2005-110425	Apr 2005	JP	national

Enterprise Evaluation Supporting Device

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