JP2021056548A - Estimation device, estimation system, estimation method, and program - Google Patents

Abstract

To provide an estimation device capable of estimating the number of patients to be diagnosed by a doctor.SOLUTION: An estimation device 1 includes: an acquisition section 31 for acquiring doctor related information 100 on a doctor; a storage section 20 for storing a model 22 generated so as to estimate the number of patients to diagnosed by the doctor from the doctor related information 100 on the basis of a correlation between the number of patients to be diagnosed by the doctor and the doctor related information 100 acquired by the acquisition section 31; and an estimation section 33 for estimating the number of patients to be diagnosed by the doctor by applying the doctor related information 100 acquired by the acquisition section 31 to the model 22 stored in the storage section 20. The acquisition section 31 acquires the doctor related information 100 including specialized field information 101 on a specialized field of the doctor as the doctor related information 100. The estimation section 33 estimates the number of patients to be diagnosed by the doctor by applying the doctor related information 100 including the specialized field information 101 to the model 22.SELECTED DRAWING: Figure 1

Description

The present invention relates to an estimation device, an estimation system, an estimation method and a program.

The medical function information provision system under the jurisdiction of the Ministry of Health, Labor and Welfare reports certain information on medical functions (medical subjects, medical treatment dates, medical treatment hours, available diseases / treatment details, etc.) to hospitals, etc. to the prefectural governors. Prefectural governments disclose such information to residents on their websites.

On the other hand, the targeting of doctors is important in the sales activities conducted by pharmaceutical companies to popularize their products (pharmaceuticals, etc.), and the number of patients treated by individual doctors is used as information to improve the accuracy of targeting. It is requested to grasp. However, the information disclosed by the above medical function information provision system is intended to support the appropriate selection of medical institutions by residents and patients, and the information on the number of patients treated by individual doctors is Not included. Conventionally, this information on the number of patients can only be obtained directly from individual doctors by questionnaire, and there is a problem that the information on the number of patients cannot be obtained for most doctors who have not conducted the questionnaire.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide an estimation device, an estimation system, an estimation method and a program capable of estimating the number of patients examined by a doctor.

The estimation device according to the first aspect of the present invention is an estimation device for estimating the number of patients examined by a doctor, and is an acquisition unit for acquiring doctor-related information related to the doctor and a patient examined by the doctor. A storage unit that stores a model generated so as to estimate the number of patients examined by the doctor from the doctor-related information based on the correlation between the number of patients and the doctor-related information acquired by the acquisition unit. The acquisition unit has an estimation unit that estimates the number of patients examined by the doctor by applying the doctor-related information acquired by the acquisition unit to the model stored in the storage unit. As the doctor-related information, the specialist field information related to the doctor's specialty field is acquired, and the estimation unit applies the doctor-related information including the specialty field information to the model, so that the patient examined by the doctor. Estimate the number of.

The estimation system according to the second aspect of the present invention includes an estimation device according to the first aspect and a terminal device, and the terminal device is for acquiring the doctor-related information or the doctor-related information. An estimation request including reference information is transmitted to the estimation device, and the acquisition unit acquires the doctor-related information used for estimation of the estimation unit based on the estimation request received from the terminal device, and the acquisition unit obtains the doctor-related information. The estimation device has a providing unit that transmits provided information including the estimation result of the number of patients by the estimating unit to the terminal device.

The estimation method according to the third aspect of the present invention is an estimation method in which one or more computers estimate the number of patients examined by a doctor, and includes an acquisition step of acquiring doctor-related information related to the doctor, and the above-mentioned. The model has an estimation step of estimating the number of patients examined by the doctor by applying the doctor-related information acquired in the acquisition step to a model stored in the storage unit, and the model is combined with the doctor-related information. It is generated so as to estimate the number of patients examined by the doctor from the doctor-related information based on the correlation with the number of patients examined by the doctor. The number of patients examined by the doctor is estimated by acquiring the specialized field information regarding the specialized field of the doctor and applying the doctor-related information including the specialized field information to the model in the estimation process.

The program according to the fourth aspect of the present invention uses one or more computers as the acquisition unit and the estimation unit in the estimation device according to the first aspect, or the estimation system according to the second aspect. This is a program for functioning as an acquisition unit, an estimation unit, and a provision unit.

According to the present invention, it is possible to estimate the number of patients examined by a doctor even if the information is not obtained by a questionnaire or the like.

FIG. 1 is a diagram showing an example of the configuration of the estimation system according to the present embodiment. FIG. 2A is a flowchart for explaining a method of generating a model. FIG. 2B is a flowchart for explaining a method of estimating the number of patients. FIG. 3 is a diagram showing a first configuration example for estimating the number of patients. FIG. 4 is a diagram showing a second configuration example for estimating the number of patients. FIG. 5 is a diagram showing a third configuration example for estimating the number of patients. FIG. 6 is a diagram showing a fourth configuration example for estimating the number of patients. FIG. 7 is a diagram showing a fifth configuration example for estimating the number of patients.

FIG. 1 is a diagram showing an example of the configuration of the estimation system according to the present embodiment. The estimation system shown in FIG. 1 includes an estimation device 1 and a terminal device 3. The estimation device 1 is connected to a network 9 such as the Internet, and can be accessed from the terminal device 3 of one or more users via the network 9. The estimation device 1 estimates the number of patients (hereinafter, may be simply referred to as "number of patients") examined by a specific doctor (one or more) according to the user's request received from the terminal device 3. Information on the estimated number of patients is transmitted to the terminal device 3.

The estimation device 1 operates as a server device such as a Web server, and displays a screen as a user interface on the display of the terminal device 3. When a user's request is input by an input device such as a keyboard or a mouse prompted by the guidance on this screen, the terminal device 3 transmits the input user's request to the estimation device 1.

Among the user requests transmitted by the terminal device 3 to the estimation device 1, the request for executing the estimation of the number of patients is hereinafter referred to as an "estimation request". The estimation request includes doctor-related information used in the estimation process for estimating the number of patients in the estimation device 1, or reference information for acquiring doctor-related information in the estimation device 1. The doctor-related information is information related to a specific doctor (a doctor whose number of patients is estimated), and includes, for example, information on a doctor's specialty (clinical department, specialty disease). The estimation request may include the doctor-related information used for the estimation process as it is, or may include reference information instead of the actual information for at least a part of the doctor-related information.

For example, the estimation device 1 transmits a list of doctors who are candidates for estimation to the terminal device 3 and displays it on the screen of the terminal device 3. This list of doctors is, for example, an existing database (for example, a doctor-related information database 23 described later) based on a user's request (conditions of a doctor as a candidate for estimation target) transmitted from the terminal device 3 to the estimation device 1. Etc.) extracted by the estimation device 1. The terminal device 3 displays a list of doctors received from the estimation device 1 on the display, and acquires information indicating a specific doctor selected by a user's input operation from the list as reference information. The terminal device 3 transmits an estimation request including the reference information (information indicating a specific doctor in the list) to the estimation device 1.

Further, the terminal device 3 may transmit the reference information directly input by the user's input operation to the estimation device 1 instead of from such a list of doctors.

When the estimation device 1 receives the estimation request from the terminal device 3, the estimation device 1 acquires doctor-related information based on the received estimation request. For example, if the received estimation request includes doctor-related information, the estimation device 1 acquires the information as it is. Further, when the estimation request includes reference information, the estimation device 1 refers to the reference information and acquires doctor-related information. For example, when the reference information is information indicating a specific doctor, the doctor-related information about the specific doctor is acquired from an existing database (for example, the doctor-related information database 23 described later). The estimation device 1 estimates the number of patients treated by this specific doctor based on the doctor-related information acquired for the specific doctor. The estimation device 1 transmits information including the estimation result (the number of patients treated by a specific doctor) to the terminal device 3 as provided information. The terminal device 3 outputs the estimation result of the number of patients included in the provided information received from the estimation device 1 to, for example, a display screen.

The estimation request transmitted from the terminal device 3 to the estimation device 1 is not limited to the one that specifies an existing doctor as the estimation target. For example, the terminal device 3 may directly input doctor-related information about a fictitious doctor by a user's input operation, and transmit an estimation request including the doctor-related information to the estimation device 1. In this case, the estimation device 1 estimates the number of patients of a fictitious doctor based on the doctor-related information included in the estimation request received from the terminal device 3.

The terminal device 3 can be realized by an information processing device such as a personal computer, a tablet, or a smartphone. For example, the terminal device 3 includes a communication device (network interface card, etc.) that communicates with the estimation device 1 via the network 9, a display device (liquid crystal display, etc.), and an input device (keyboard, mouse, touch panel, etc.). Including. Further, for example, the terminal device 3 includes a processor (CPU, MPU, etc.), a main storage device (ROM, RAM, etc.), and an auxiliary storage device (hard disk, flash memory, etc.) as a computer for controlling each of these devices. .. The computer of the terminal device 3 realizes various processes in the estimation system by executing a program loaded from the auxiliary storage device or the like into the main storage device. For example, the computer of the terminal device 3 accesses the estimation device 1 via the network 9, transmits an estimation request including doctor-related information or reference information about a specific doctor to the estimation device 1, and the specific doctor examines the device 1. The provided information including the estimation result of the number of patients to be used is received from the estimation device 1.

In the example of FIG. 1, the estimation device 1 has a communication unit 10, a storage unit 20, and a processing unit 30.

The communication unit 10 is a device for communicating with the terminal device 3 via the network 9, such as a network interface card that communicates in accordance with a predetermined communication standard such as Ethernet (registered trademark) or wireless LAN. Includes communication equipment.

The storage unit 20 includes a program 21 executed by the processor of the processing unit 30 described later, data used in the processing executed by the processing unit 30 (model 22, doctor-related information database 23, patient number information database 24, etc.) and the like. , Stores data that needs to be temporarily saved in the process of processing. The storage unit 20 includes storage devices such as a ROM, a RAM, a flash memory, a hard disk, and an optical disk. The storage unit 20 may be composed of one storage device, or may be composed of a plurality of storage devices of one or more types. Each storage device constituting the storage unit 20 is connected to the processing unit 30 via a computer bus or other means.

Model 22 is generated to estimate the number of patients examined by a particular doctor from the doctor-related information of a given particular doctor, based on the correlation between the number of patients examined by the doctor and the doctor-related information. This is a model created using a machine learning algorithm.

The "number of patients examined by a doctor" estimated by the model 22 is the number of patients in a unit period (for example, one year, six months, one month, etc.). If the same person becomes a patient multiple times within a unit period, the number of patients for this patient is counted as one.

The doctor-related information database 23 is a database in which doctor-related information of each doctor is registered, and is constructed based on information disclosed by a medical function information providing system or the like or information obtained by an original survey.

The patient number information database 24 is a database in which information on the number of patients used to generate the model 22 in the generation unit 32 described later is registered, and information on the number of patients treated by each doctor is registered together with doctor-related information. To. The doctor-related information database 23 is constructed based on, for example, information obtained by a questionnaire survey of each doctor and information disclosed by a medical function information providing system or the like.

That is, the doctor-related information database 23 registers doctor-related information about doctors for whom information on the number of patients has not been obtained, and the patient number information database 24 registers information on the number of doctors for which information on the number of patients has been obtained by questionnaire survey or the like. Register doctor-related information. The doctor-related information database 23 and the patient number information database 24 may be integrated into a single database.

The processing unit 30 is a device that controls the overall operation of the estimation device 1 and executes processing related to the estimation of the number of patients. The processing unit 30 includes, for example, one or more processors (CPU, MPU, etc.) that execute processing according to the instruction code of one or more programs 21 stored in the storage unit 20. The processing unit 30 operates as one or more computers by executing one or more programs 21 of the storage unit 20 by one or more processors.

The processing unit 30 may include one or more dedicated hardware (ASIC, FPGA, etc.) configured to realize a specific function. In this case, the processing unit 30 may execute the processing related to the estimation of the number of patients on one or more computers described above, or may execute at least a part of the processing on dedicated hardware.

The program 21 executed by the processing unit 30 may be read from another storage device or the like at an input / output interface (not shown) such as a USB port included in the estimation device 1, or a disk drive included in the estimation device 1. It may be read from a non-temporary tangible medium such as an optical disk by a reading device (not shown) such as a device, or may be acquired from another device via the communication unit 10.

In the example of FIG. 1, the processing unit 30 includes an acquisition unit 31, a generation unit 32, an estimation unit 33, and a provision unit 34. The processing unit 30 executes processing related to the estimation of the number of patients in these components.

The acquisition unit 31 acquires doctor-related information about the doctor to be estimated as information used for estimating the number of patients examined by the doctor. The acquisition unit 31 acquires doctor-related information used for estimation of the estimation unit 33 based on the estimation request received from the processing unit 30.

For example, the acquisition unit 31 communicates with the terminal device 3 using a predetermined protocol (such as HTTP), and displays a screen of a user interface for inputting a user's request regarding the doctor to be estimated on the display of the terminal device 3. The acquisition unit 31 acquires doctor-related information about a specific doctor according to a user's request input to the screen of this user interface.

In one example, the acquisition unit 31 receives from the terminal device 3 a user's request to transmit information on a list of doctors who are candidates for estimation. Upon receiving the user's request from the terminal device 3, the acquisition unit 31 extracts the doctor's information in the doctor-related information database 23 and displays the information of the extracted list of doctors on the display of the terminal device 3. In this case, for example, the acquisition unit 31 is registered in the doctor-related information database 23 based on the conditions (medical facility where the doctor works, the doctor's clinical department, etc.) included in the user's request received from the terminal device 3. A doctor who meets the conditions is extracted from the doctors, and the information of the list of the extracted doctors is displayed on the display of the terminal device 3. When the information of the list of doctors is displayed on the display of the terminal device 3, the terminal device 3 displays the information of a specific doctor selected by the user's input operation from the list of doctors (such as the identification code of the doctor in the list). Is acquired as reference information, and an estimation request including the reference information is transmitted to the estimation device 1. The acquisition unit 31 acquires doctor-related information corresponding to this specific doctor from the doctor-related information database 23 based on the reference information included in the estimation request received from the terminal device 3.

Further, in another example, when the acquisition unit 31 directly inputs the doctor-related information on the screen of the user interface of the terminal device 3 and receives the estimation request including the doctor-related information from the terminal device 3, the received estimation Acquire the doctor-related information included in the request as it is.

The generation unit 32 generates a model 22 for estimating the number of patients from doctor-related information by using the information on the number of patients of each doctor registered in the patient number information database 24 as teacher data. The machine learning algorithm used to generate the model 22 is arbitrary, and known algorithms such as linear regression, logistic regression, support vector machine, decision tree, gradient boosting, and neural network can be used.

The estimation unit 33 estimates the number of patients examined by the specific doctor by applying the doctor-related information of the specific doctor acquired by the acquisition unit 31 to the model 22 stored in the storage unit 20.

The providing unit 34 transmits the providing information including the estimation result of the number of patients by the estimation unit 33 to the terminal device 3. For example, the providing unit 34 communicates with the terminal device 3 by a predetermined protocol such as HTTP, and displays the estimation result of the number of patients included in the provided information on the display of the terminal device 3, similarly to the acquisition unit 31.

When the reference information included in the estimation request received from the terminal device 3 is information indicating a specific doctor registered in the patient number information database 24, the patient number information is acquired from the patient number information database 24. It is possible, and it is not necessary to estimate the number of patients by the estimation unit 33. In this case, instead of the acquisition unit 31 acquiring the doctor-related information from the doctor-related information database 23, the providing unit 34 acquires the information on the number of patients from the patient number information database 24, and the estimation unit 33 obtains the estimation result of the number of patients. Alternatively, the terminal device 3 may be provided with the actual number of patients information acquired from the patient number information database 24.

Next, a method of generating the model 22 and a method of estimating the number of patients in the estimation device 1 according to the present embodiment will be described with reference to FIGS. 2A and 2B.

FIG. 2A is a flowchart for explaining a method of generating the model 22 in the estimation device 1. First, the generation unit 32 acquires doctor-related information and patient number information for each of the plurality of doctors from the patient number information database 24 constructed based on public information, questionnaire survey information, and the like (ST100). Then, the generation unit 32 uses the acquired information on the number of patients as teacher data to generate a model 22 for estimating the number of patients from the acquired doctor-related information by a predetermined machine learning algorithm (ST105). The generation unit 32 stores the generated model 22 in the storage unit 20.

FIG. 2B is a flowchart for explaining a method of estimating the number of doctors in the estimation device 1. First, the acquisition unit 31 acquires doctor-related information of the doctor to be estimated (ST200). For example, the acquisition unit 31 receives doctor-related information of the doctor to be estimated from the doctor-related information database 23 based on information (reference information) indicating a specific doctor included in the user's request (estimation request) received from the terminal device 3. To get. Next, the estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information acquired in step ST200 to the model 22 stored in the storage unit 20 (ST205).

Next, some examples of the configuration for estimating the number of patients in the estimation device 1 according to the present embodiment will be described with reference to FIGS. 3 to 7.

(First configuration example)
FIG. 3 is a diagram showing a first configuration example in which the number of patients is estimated by the estimation device 1. In the first configuration example, the doctor-related information 100 includes the specialized field information 101 relating to the specialized field of the doctor. The specialized field information 101 includes information on a doctor's clinical department (for example, general internal medicine, cardiovascular medicine, etc.) and information on a disease specialized by a doctor (for example, cardiovascular disease, diabetes, etc.).

The model 22 in the first configuration example determines the number of patients examined by the doctor based on the correlation between the doctor-related information 100 (specialty field information 101) shown in FIG. 3 and the number of patients examined by the doctor. It is generated to estimate from the relevant information 100. The estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information 100 of the specific doctor to the model 22.

Here, the verification result of the estimation accuracy of the number of patients by the model 22 of the first configuration example actually generated will be described. In this verification, the data held by about 15,000 doctors (doctor-related information 100 and information on the number of patients) is randomly divided into model generation data and verification data at a ratio of 8: 2. The model 22 was generated based on the model generation data, and the verification data was applied to the generated model 22 to estimate the number of patients when the unit period was one month. To generate the model 22, a known machine learning algorithm for sequentially constructing a weak learner called XGBost was used. Then, the correlation coefficient r between the estimated number of patients xi and the actual number of patients yi was calculated by the following equation (1).

However, "n" is the estimated number of patients (the number of doctors who estimated the number of patients), and "i" indicates an integer from 1 to n.

As a result, the correlation coefficient r between the number of patients estimated by the model 22 of the first configuration example and the actual number of patients was "0.58".

(Second configuration example)
FIG. 4 is a diagram showing a second configuration example in which the number of patients is estimated by the estimation device 1. The doctor-related information 100A in the second configuration example includes the medical facility patient number information 102 in addition to the same specialized field information 101 as in the first configuration example (FIG. 3). The medical facility patient number information 102 is information regarding the number of patients in the medical facility where the doctor works.

The model 22A in the second configuration example is based on the correlation between the doctor-related information 100A (specialty field information 101, medical facility patient number information 102) shown in FIG. 4 and the number of patients examined by the doctor. It is generated to estimate the number of patients to be examined from the physician-related information 100A. The estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information 100A of the specific doctor to the model 22A.

Here, the verification result of the estimation accuracy of the number of patients by the model 22A of the second configuration example actually generated will be described. Similar to the first configuration example, the data held for about 15,000 doctors (doctor-related information 100A and information on the number of patients) is divided into model generation data and verification data at a ratio of 8: 2. The number of patients was estimated by randomly dividing and applying the verification data to the model 22A generated based on the model generation data. The unit period for the estimated number of patients was one month. Similar to model 22 (FIG. 3), XGBost was used to generate model 22A. When the correlation coefficient r between the estimated number of patients and the actual number of patients was calculated by the equation (1), it was "0.72". That is, the correlation coefficient r of the second configuration example was larger than that of the first configuration example. Therefore, since the doctor-related information 100A further includes the medical facility patient number information 102, the estimation accuracy of the model 22A generated so as to estimate the number of patients from the doctor-related information 100A is improved.

(Third configuration example)
FIG. 5 is a diagram showing a third configuration example in which the number of patients is estimated by the estimation device 1. The doctor-related information 100B in the third configuration example includes the medical facility bed number information 103 in addition to the same specialized field information 101 and the medical facility patient number information 102 as in the second configuration example (FIG. 4). The medical facility bed number information 103 is information on the number of beds in the medical facility where the doctor works.

The model 22B in the third configuration example correlates the doctor-related information 100B (specialty field information 101, medical facility patient number information 102, medical facility bed number information 103) shown in FIG. 5 with the number of patients examined by the doctor. Based on the relationship, it is generated so that the number of patients examined by the doctor is estimated from the doctor-related information 100B. The estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information 100B of the specific doctor to the model 22B.

Here, the verification result of the estimation accuracy of the number of patients by the model 22B of the third configuration example actually generated will be described. Similar to the first and second configuration examples, the data held for about 15,000 doctors (doctor-related information 100B and information on the number of patients) are divided into model generation data and verification data 8: 2. The number of patients was estimated by randomly dividing the data at the ratio of the above and applying the verification data to the model 22B generated based on the model generation data. The unit period for the estimated number of patients was one month. Similar to model 22 (FIG. 3), XGBost was used to generate model 22B. When the correlation coefficient r between the estimated number of patients and the actual number of patients was calculated by the equation (1), it was "0.79". That is, the correlation coefficient r of the third configuration example was even larger than that of the second configuration example. Therefore, since the doctor-related information 100B further includes the medical facility bed number information 103, the estimation accuracy of the model 22B generated so as to estimate the number of patients from the doctor-related information 100B is further improved.

(Fourth configuration example)
FIG. 6 is a diagram showing a fourth configuration example in which the number of patients is estimated by the estimation device 1. The doctor-related information 100C in the fourth configuration example includes the same specialized field information 101, medical facility patient number information 102, and medical facility bed number information 103 as in the third configuration example (FIG. 5), and the working doctor number information 104. Includes. The working doctor number information 104 is information on the number of working doctors in the medical facility where the doctor works, and indicates the number of working doctors at a certain temporary point.

The model 22C in the fourth configuration example is examined by a doctor with the doctor-related information 100C (specialty field information 101, medical facility patient number information 102, medical facility bed number information 103, working doctor number information 104) shown in FIG. Based on the correlation with the number of patients, it is generated so that the number of patients examined by the doctor is estimated from the doctor-related information 100C. The estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information 100C of the specific doctor to the model 22C.

Here, the verification result of the estimation accuracy of the number of patients by the model 22C of the fourth configuration example actually generated will be described. Similar to the first to third configuration examples, the data held for about 15,000 doctors (doctor-related information 100C and information on the number of patients) is divided into model generation data and verification data 8: 2. The number of patients was estimated by randomly dividing the data at the ratio of the above and applying the verification data to the model 22C generated based on the model generation data. The unit period for the estimated number of patients was one month. Similar to model 22 (FIG. 3), XGBost was used to generate model 22C. When the correlation coefficient r between the estimated number of patients and the actual number of patients was calculated by the equation (1), it was "0.80". That is, the correlation coefficient r of the fourth configuration example was even larger than that of the third configuration example. Therefore, since the doctor-related information 100C further includes the working doctor number information 104, the estimation accuracy of the model 22C generated so as to estimate the number of patients from the doctor-related information 100C is further improved.

(Fifth configuration example)
FIG. 7 is a diagram showing a fifth configuration example in which the number of patients is estimated by the estimation device 1. The doctor-related information 100D in the fifth configuration example includes the same specialized field information 101, medical facility patient number information 102, medical facility bed number information 103, and working doctor number information 104 as in the fourth configuration example (FIG. 6). , Neighboring facility patient number information 105 is included. The neighboring facility patient number information 105 is information on the number of patients in a predetermined number K (K indicates a natural number of 1 or more) closest to the medical facility where the estimated target doctor works. That is, the neighborhood facility patient number information 105 is information on the number of patients in the neighboring medical facilities from the first to the Kth closest to the medical facility where the estimated target doctor works.
The number of patients indicated by the number of patients in the neighborhood facility 105 is the number of patients in a unit period (for example, one year, six months, one month, etc.). If the same person becomes a patient multiple times within a unit period, the number of patients for this patient is counted as one.

The model 22D in the fifth configuration example is the doctor-related information 100D shown in FIG. 7 (specialty field information 101, medical facility patient number information 102, medical facility bed number information 103, working doctor number information 104, neighborhood facility patient number information). Based on the correlation between 105) and the number of patients examined by the doctor, it is generated to estimate the number of patients examined by the doctor from the doctor-related information 100D. The estimation unit 33 estimates the number of patients examined by a specific doctor by applying the doctor-related information 100D of the specific doctor to the model 22D.

Here, the verification result of the estimation accuracy of the number of patients by the model 22D of the fifth configuration example actually generated will be described. Similar to the first to fourth configuration examples, the data (doctor-related information 100D and information on the number of patients) held by about 15,000 doctors is divided into model generation data and verification data 8: 2. The number of patients was estimated by randomly dividing the data at the ratio of the above and applying the verification data to the model 22D generated based on the model generation data. The unit period for the estimated number of patients was one month. Neighboring facility patient number information 105 shows the five neighboring medical facilities closest to the medical facility where the estimated target doctor works (the closest to the medical facility where the estimated target doctor works is from the first to the fifth). The total number of patients per day at a nearby medical facility) is shown. Similar to model 22 (FIG. 3), XGBost was used to generate model 22D. When the correlation coefficient r between the estimated number of patients and the actual number of patients was calculated by the equation (1), it was "0.81". That is, the correlation coefficient r of the fifth configuration example was even larger than that of the fourth configuration example. Therefore, since the doctor-related information 100D further includes the neighboring facility patient number information 105, the estimation accuracy of the model 22D generated so as to estimate the number of patients from the doctor-related information 100D is further improved.

As described above, the estimation device 1 (first to fifth configuration examples) according to the present embodiment includes the acquisition unit 31 for acquiring the doctor-related information 100 related to the doctor, and the number of patients examined by the doctor. , The storage unit 20 that stores the model 22 generated so as to estimate the number of patients examined by the doctor from the doctor-related information 100 based on the correlation with the doctor-related information 100 acquired by the acquisition unit 31 and the acquisition unit. It has an estimation unit 33 that estimates the number of patients examined by a doctor by applying the doctor-related information 100 acquired by the unit 31 to the model 22 stored in the storage unit 20. In the acquisition unit 31, the doctor-related information 100 including the specialized field information 101 related to the doctor's specialized field is acquired as the doctor-related information 100. In the estimation unit 33, the number of patients examined by the doctor is estimated by applying the doctor-related information 100 including the specialized field information 101 to the model 22. Therefore, it is possible to estimate the number of patients examined by a doctor even if the information is not obtained by a questionnaire or the like.

Further, the estimation device 1 (second to fifth configuration examples) according to the present embodiment further includes the medical facility patient number information 102 regarding the number of patients in the medical facility where the doctor works as the doctor-related information 100A. By further including the medical facility patient number information 102 in the doctor-related information 100A, which is an explanatory variable of the model 22A, the patient can be utilized by utilizing the correlation between the number of patients in the medical facility where the doctor works and the number of patients examined by the doctor. The accuracy of number estimation can be improved.

Further, the estimation device 1 (third to fifth configuration examples) according to the present embodiment further includes the medical facility bed number information 103 regarding the number of beds in the medical facility where the doctor works as the doctor-related information 100B. By further including the medical facility bed number information 103 in the doctor-related information 100B, which is an explanatory variable of the model 22B, the correlation between the number of beds in the medical facility where the doctor works and the number of patients examined by the doctor is utilized. The accuracy of estimating the number of patients can be improved.

Further, the estimation device 1 (fourth to fifth configuration examples) according to the present embodiment further includes the number of working doctors information 104 regarding the number of working doctors in the medical facility where the doctor works as the doctor-related information 100C. By further including the number of working doctors information 104 in the doctor-related information 100C, which is an explanatory variable of the model 22C, the correlation between the number of working doctors in the medical facility where the doctor works and the number of patients examined by the doctor is utilized. The accuracy of estimating the number of patients can be improved.

Further, in the estimation device 1 (fifth configuration example) according to the present embodiment, as the doctor-related information 100D, the number of patients in the neighboring facility regarding the number of patients in the predetermined number of nearby medical facilities closest to the medical facility where the doctor works. Information 105 is further included. The doctor-related information 100D, which is an explanatory variable of the model 22D, further includes the number of patients in the neighboring facility 105, so that the number of patients in the predetermined number of nearby medical facilities closest to the medical facility where the doctor works and the patients examined by the doctor The correlation with the number can be used to improve the estimation accuracy of the number of patients.

The present invention is not limited to the above-described embodiment, but includes various variations.

The information included in the doctor-related information as the explanatory variable of the model is not limited to the information exemplified in the first to fifth configuration examples described above. For example, the doctor-related information (100, 100A, 100B, 100C, 100D) in each of the above-described configuration examples is the information exemplified as explanatory variables of the model (22, 22A, 22B, 22C, 22D) (specialty field information 101, Supplementary information other than medical facility patient number information 102, medical facility bed number information 103, working doctor number information 104, and neighboring facility patient number information 105) may be further included.

In addition, the doctor-related information includes one or more information and specialized field information 101 in the four illustrated information (medical facility patient number information 102, medical facility bed number information 103, working doctor number information 104, neighboring facility patient number information 105). And may be included in a combination different from that of the first configuration example to the fifth configuration example. In this case, the doctor-related information may further include auxiliary information other than the illustrated information.

1 ... estimation device, 3 ... terminal device, 9 ... network, 10 ... communication unit, 20 ... storage unit, 21 ... program, 22, 22A-22D ... model, 23 ... doctor-related information database, 24 ... patient number information database, 30 ... Processing department, 31 ... Acquisition department, 32 ... Generation department, 33 ... Estimating department, 34 ... Providing department, 100, 100A-100D ... Doctor-related information, 101 ... Specialized field information, 102 ... Medical facility patient number information, 103 … Medical facility bed number information, 104… Working doctor number information, 105… Neighborhood facility patient number information

Claims (8)

It is an estimation device that estimates the number of patients examined by doctors.
The acquisition department that acquires doctor-related information related to the doctor, and
A model generated to estimate the number of patients examined by the doctor from the doctor-related information based on the correlation between the number of patients examined by the doctor and the doctor-related information acquired by the acquisition unit. A memory unit that memorizes
It has an estimation unit that estimates the number of patients examined by the doctor by applying the doctor-related information acquired by the acquisition unit to the model stored in the storage unit.
The acquisition department acquires specialized field information related to the specialized field of the doctor as the doctor-related information.
The estimation unit estimates the number of patients examined by the doctor by applying the doctor-related information including the specialized field information to the model.
Estimator. The acquisition unit further acquires medical facility patient number information regarding the number of patients in the medical facility where the doctor works as the doctor-related information.
The estimation unit estimates the number of patients examined by the doctor by applying the doctor-related information including the number of patients in the medical facility to the model.
The estimation device according to claim 1. The acquisition unit further acquires medical facility bed number information regarding the number of beds in the medical facility where the doctor works as the doctor-related information.
The estimation unit estimates the number of patients examined by the doctor by applying the doctor-related information including the information on the number of beds in the medical facility to the model.
The estimation device according to claim 1 or 2. The acquisition department further acquires information on the number of working doctors regarding the number of working doctors in the medical facility where the doctor works as the doctor-related information.
The estimation unit estimates the number of patients examined by the doctor by applying the doctor-related information including the number of working doctors information to the model.
The estimation device according to any one of claims 1 to 3. As the doctor-related information, the acquisition unit further acquires information on the number of patients in the neighboring facility regarding the number of patients in a predetermined number of nearby medical facilities closest to the medical facility in which the doctor works.
The estimation unit estimates the number of patients examined by the doctor by applying the doctor-related information including the number of patients in the neighboring facilities to the model.
The estimation device according to any one of claims 1 to 4. The estimation device according to any one of claims 1 to 5, and the estimation device.
Has a terminal device and
The terminal device transmits an estimation request including the doctor-related information or reference information for acquiring the doctor-related information to the estimation device.
The acquisition unit acquires the doctor-related information used for estimation of the estimation unit based on the estimation request received from the terminal device.
The estimation device has a providing unit that transmits provided information including an estimation result of the number of patients by the estimation unit to the terminal device.
Estimate system. An estimation method in which one or more computers estimate the number of patients examined by a doctor.
The acquisition process for acquiring doctor-related information related to the doctor, and
It has an estimation step of estimating the number of patients examined by the doctor by applying the doctor-related information acquired in the acquisition step to a model stored in a storage unit.
The model is generated to estimate the number of patients examined by the doctor from the doctor-related information based on the correlation between the doctor-related information and the number of patients examined by the doctor.
In the acquisition process, as the doctor-related information, the specialized field information related to the specialized field of the doctor is acquired.
In the estimation step, the number of patients examined by the doctor is estimated by applying the doctor-related information including the specialized field information to the model.
Estimating method. One or more computers can be used as the acquisition unit and the estimation unit in the estimation device according to any one of claims 1 to 5, or as the acquisition unit, the estimation unit and the estimation unit in the estimation system according to claim 6. A program for functioning as the providing unit.

Images