JP6337489B2 - Information map generation program, apparatus, and method - Google Patents

Description

  The present invention relates to an information map generation program, an information map generation device, and an information map generation method.

  In recent years, with the aim of reducing medical expenses, the role of medical institutions is being promoted as a national policy. As one of the measures for this purpose, regional medical cooperation that local medical institutions cooperate to revitalize local medical care and develop efficient medical care for the purpose of improving medical quality and optimizing medical expenses. Is underway.

  Through regional medical cooperation, it is possible to promote the division of medical functions and specialization within the region according to the actual situation of each medical facility in the region and the medical situation in the region. For example, clinics and clinics, clinics and hospitals, or hospitals and hospitals can smoothly cooperate with each other, and each area's residents can be continued in the area by effectively utilizing each function. Be able to receive appropriate and appropriate medical care.

  In addition, a medical information processing system is provided in which various electronic data such as an electronic medical record in a medical institution can be easily operated by a doctor or a person in charge of office work and information can be analyzed freely. In this system, desired items are extracted from a plurality of pieces of medical information stored in a medical information management server, and the extracted items are connected to each other to generate secondary information. The secondary medical information is individually and specifically displayed on the user terminal device.

JP 2012-177976 A

  However, the conventional techniques as described above have a problem in that it is impossible to grasp the progress of regional medical cooperation because the degree of cooperation between medical institutions cannot be grasped.

  An object of the present invention is to generate an information map capable of grasping cooperation between medical institutions as one aspect.

In one aspect, an information map that displays a plurality of medical institutions including a first medical institution and a second medical institution is generated. Information indicating introduction from the first medical institution to the second medical institution from each of the plurality of medical institutions, and reservation for each inspection device from the first medical institution to the second medical institution Is obtained as linkage information and stored in the linkage information storage unit. Also, was obtained from the cooperation information stored in the linkage information storing unit, introduction rate from the first medical institution to the second medical institution, from the first medical institution to the second medical institution introduction number of patients per disease, and based on the number of reservations for each inspection device to the second medical institution from the first medical institutions, to calculate the strength of association the medical institution together. And the said information map is displayed on a display apparatus so that the said medical institutions may be connected via the relationship line with the display attribute according to the calculated said related strength.

  As one aspect, there is an effect that it is possible to generate an information map that can grasp the cooperation between medical institutions.

It is a block diagram which shows schematic structure of the medical institution cooperation map production | generation system which concerns on this embodiment. It is a functional block diagram which shows schematic structure of a medical institution cooperation map production | generation apparatus. It is a figure which shows an example of a cooperation information database. It is a figure which shows an example of the calculation result of the strength of cooperation. It is a figure which shows an example of a medical institution information database. It is a figure for demonstrating the production | generation of a cooperation map. It is a figure for demonstrating the production | generation of a cooperation map. It is a figure which shows an example of a cooperation map. It is a figure which shows an example of a cooperation map. It is a schematic block diagram which shows an example of the computer which functions as a medical institution cooperation map production | generation apparatus. It is a flowchart which shows a medical institution cooperation map production | generation process. It is a figure which shows an example of a cooperation map.

  Hereinafter, an example of an embodiment according to the disclosed technology will be described in detail with reference to the drawings.

  As shown in FIG. 1, the medical institution cooperation map generation system 10 according to the present embodiment includes a plurality of medical institution terminals 20A, 20B,..., 20E, 20F,. And the user terminal 40. The medical institution cooperation map generation device 30 is an example of an information map generation device of the disclosed technology. In the following, when the medical institution terminals 20A, 20B, ..., 20E, 20F, ... are described without distinction, they are simply referred to as "medical institution terminal 20".

  The medical institution terminal 20 is a terminal arranged for each medical institution. The medical institution terminals 20 are grouped according to the region to which the medical institution where the medical institution terminal 20 is located belongs. In the example of FIG. 1, the medical institution terminals 20A, 20B,... Belong to the group 21A, and the medical institution terminals 20E, 20F,. That is, each of the medical institutions in which the medical institution terminals 20A, 20B,... Are arranged belongs to the same area (for example, area A). In addition, each of the medical institutions where the medical institution terminals 20E, 20F,... Are arranged belongs to the same area (for example, area B). In the following, when the groups 21A and 21B are described without distinction, they are simply referred to as “group 21”.

  Here, cooperation between medical institutions and cooperation information will be described. Each medical institution may work in cooperation with each other. For example, when a patient is introduced from the medical institution A to the medical institution B, there are cases where the patient of the medical institution B uses the medical equipment of the medical institution A. In addition, a doctor of medical institution A may be dispatched to medical institution B. Further, the medical institution A may refer to the web chart of the medical institution A from the medical institution B. In this embodiment, the exchange of resources such as patients, doctors, facilities, and information that medical institutions have in this way is referred to as “cooperation between medical institutions”.

  The medical institution terminal 20 arrange | positioned at each medical institution is used for the cooperation between the above medical institutions. For example, when introducing a patient from medical institution A to medical institution B, electronic data indicating a letter of introduction from medical institution terminal 20A arranged in medical institution A to medical institution terminal 20B arranged in medical institution B Send. In addition, electronic data indicating a reply to the referral letter is transmitted from the medical institution terminal 20B to the medical institution terminal 20A. These electronic data, or history information that has been transmitted and received electronic data, is cooperation information that indicates cooperation of patient introduction. The medical institution terminal 20 holds cooperation information generated every time cooperation between medical institutions is performed in a predetermined recording area.

  In addition, when a patient of the medical institution B uses the medical facilities of the medical institution A, the medical institution terminal 20A is accessed from the medical institution terminal 20B disposed in the medical institution B, and the medical institution terminal 20A is disposed. Reserve medical facilities for institution A. In this case, this reservation information can be used as linkage information. Also, doctor dispatch can be handled as linkage information by registering the information in the medical institution terminal 20. In the reference of the web chart, the reference history can be handled as linkage information.

  The link information includes at least information for identifying the link source and link destination medical institutions. In addition, the cooperation information may include information on a disease related to an action performed by cooperation indicated by the cooperation information. By including disease information, a linkage map for each type of disease can be generated when a linkage map described later is generated. Note that the cooperation map is an example of an information map of the disclosed technology.

  At least medical institution terminals 20 belonging to the same group 21 are connected to each other via a network. Each of the medical institution terminals 20 is also connected to the medical institution cooperation map generation device 30 via a network. The medical institution terminal 20 transfers the cooperation information held by the medical institution terminal 20 to the medical institution cooperation map generation device 30 at a predetermined timing.

  Note that at least one of the medical institution terminals 20 belonging to each group 21 may function as a management apparatus that aggregates the cooperation information held by all the medical institution terminals 20 belonging to the group. In addition to the medical institution terminal 20, a dedicated management device may be provided for each group. In any case, when a management device is provided in the group 21, the management device aggregates the cooperation information held by each medical institution terminal 20 belonging to the group 21 and transfers it to the medical institution cooperation map generation device 30. To do.

  The user terminal 40 is a terminal used by the user. The user is assumed to be an organization that takes measures for regional medical cooperation such as a country or a medical association. The user terminal 40 is equipped with a web browser. Further, a display device is connected to the user terminal 40. The user accesses the medical institution cooperation map generation device 30 via the web browser and requests generation of a desired cooperation map. And the user terminal 40 receives the data which shows the cooperation map transmitted from the medical institution cooperation map production | generation apparatus 30, and displays the cooperation map based on the data which show the received cooperation map on a display apparatus.

  The medical institution cooperation map generation apparatus 30 includes an acquisition unit 31, a calculation unit 32, and a generation unit 33, as illustrated in FIG.

  The acquisition unit 31 acquires cooperation information from each of the plurality of medical institution terminals 20. Moreover, the acquisition part 31 specifies the target area which produces | generates a cooperation map, and acquires cooperation information from the medical institution terminal 20 which belongs to the group 21 corresponding to the target area. Or the acquisition part 31 selects and acquires the cooperation information transferred from the medical institution terminal 20 which belongs to the group 21 corresponding to a target area among the cooperation information transferred from all the medical institution terminals 20. Also good.

  The acquisition unit 31 stores the acquired cooperation information in the cooperation information database (DB) 35. FIG. 3 shows an example of the cooperation information DB 35. FIG. 3 is an example in which cooperation information indicating patient introduction between medical institutions is stored in the cooperation information DB 35 as cooperation information. In the example of FIG. 3, the collaboration information DB 35 includes a collaboration information ID that is an identifier of each collaboration information, information on a referral source medical institution, information on a referral destination medical institution, and information on a target disease. The medical institution information may be a medical institution ID that is an identifier of each medical institution and a name of each medical institution. The medical institution ID and name can be acquired by associating with the identification information of the medical institution terminal 20 that exchanges the linkage information. The target disease information may be a disease ID and a disease name, which are disease type identifiers.

  The calculation unit 32 obtains the frequency of the cooperation information for each medical institution from the cooperation information for a predetermined period acquired by the acquisition unit 31. The calculation unit 32 calculates the strength of cooperation between each of a plurality of medical institutions based on the obtained frequency of cooperation information for each medical institution. FIG. 4 shows an example of the calculation result of the strength of cooperation. In the example of FIG. 4, for each medical institution pair assumed in the medical institution included in the target area, the frequency of exchange of cooperation information between the pairs is directly used as the strength of cooperation. If the link information includes disease information, as shown in FIG. 4, the link information exchanged between pairs of medical institutions is counted for each type of disease, and the medical information is calculated for each type of disease. The strength of cooperation between institutions may be calculated.

  The generation unit 33 includes a node indicating each of a plurality of medical institutions, and generates a cooperation map that connects the nodes with a display that indicates strength according to the strength of cooperation between the medical institutions calculated by the calculation unit 32. To do. Specifically, the generation unit 33 acquires the coordinates on the map for plotting the nodes indicating the respective medical institutions on the map, for example, referring to the medical institution information DB 36 as illustrated in FIG.

  For example, as illustrated in FIG. 6, the generation unit 33 plots a node indicating each medical institution at a position on the map indicated by the acquired coordinates on the map. In the example of FIG. 6, the node indicating the hospital is represented by a square node, and the node indicating the clinic is represented by an elliptical node. This can be set by defining the type of medical institution (here, hospital or clinic) as attribute information of each medical institution in the medical institution information DB 36 and referring to this attribute information.

  As illustrated in FIG. 7, the generation unit 33 connects nodes indicating a pair of medical institutions with a line having a thickness (width) corresponding to the strength of cooperation between the medical institutions. The thickness of the line may be proportional to the strength of cooperation, or the strength of cooperation may be divided into a plurality of levels (for example, 5 levels) and may be determined according to the level.

  In addition, in the example of FIG. 7, although the strength of cooperation is represented by the thickness of the line, it is not limited to this. For example, the color of the line, shading, type, etc. may be changed to represent the strength of cooperation. Further, the thickness, color, shading, and type of the line may be appropriately combined and changed. Further, the display for connecting the nodes is not limited to a line. For example, it may be an illustration showing a chain or the hand of a person shaking hands. In this case, the strength of cooperation can be expressed by changing the type of chain or the way of shaking hands.

  The generation unit 33 transmits data indicating the generated cooperation map to the user terminal 40. Moreover, the production | generation part 33 produces | generates a cooperation map again according to the received information, and shows the produced | generated cooperation map, when the information of the change of a target area, selection of a target disease, etc. is received from the user terminal 40. Data is transmitted to the user terminal 40. The generation unit 33 may generate a plurality of linkage maps at a time. For example, based on cooperation information acquired from medical institution terminals 20 belonging to a plurality of groups corresponding to a plurality of regions, a plurality of cooperation maps can be generated for each region. Moreover, as shown in FIG. 4, based on the strength of cooperation between medical institutions calculated for each disease type, a plurality of cooperation maps can be generated for each disease type. And the production | generation part 33 transmits each of the data which show the produced | generated several cooperation map to the requested user terminal 40. FIG.

  For example, FIG. 8 illustrates an example of a cooperation map generated when the user terminal 40 requests generation of a cooperation map in which each of the areas A and B is designated as the target area. In this case, it is possible to intuitively grasp the progress of regional medical cooperation by comparing the cooperation maps for each region. In addition, an example of a cooperation map generated when the user terminal 40 requests generation of a cooperation map that designates the area A as the target area and designates each of diabetes and gastric cancer as the types of diseases is shown in FIG. Shown in In this case, the strength of cooperation for each type of disease can be grasped, and the difference in strength of cooperation due to the difference in the type of disease can also be grasped.

  In addition, when displaying a some cooperation map, as shown in FIG.8 and FIG.9, not only the case where a some cooperation map is displayed side by side, but the cooperation map displayed switches by switching of a window, a tab, etc. It is good also as such a form.

  The medical institution cooperation map generation device 30 can be realized by a computer 50 shown in FIG. 10, for example. The computer 50 includes a CPU 52, a memory 54, a nonvolatile storage unit 56, an input / output interface (I / F) 57, and a network I / F 58. The CPU 52, the memory 54, the storage unit 56, the input / output I / F 57, and the network I / F 58 are connected to each other via a bus 59.

  The storage unit 56 can be realized by an HDD (Hard Disk Drive), a flash memory, or the like. The storage unit 56 as a storage medium stores a medical institution cooperation map generation program 60 for causing the computer 50 to function as the medical institution cooperation map generation apparatus 30. In addition, the storage unit 56 includes a cooperation information storage area 65 and a medical institution information storage area 66. The CPU 52 reads the medical institution cooperation map generation program 60 from the storage unit 56 and develops it in the memory 54, and sequentially executes the processes of the medical institution cooperation map generation program 60. The medical institution cooperation map generation program 60 is an example of an information map generation program of the disclosed technology.

  The medical institution cooperation map generation program 60 includes an acquisition process 61, a calculation process 62, and a generation process 63. The CPU 52 operates as the acquisition unit 31 illustrated in FIG. 2 by executing the acquisition process 61. Further, the CPU 52 operates as the calculation unit 32 illustrated in FIG. 2 by executing the calculation process 62. The CPU 52 operates as the generation unit 33 illustrated in FIG. 2 by executing the generation process 63.

  When the medical institution cooperation map generation device 30 is realized by the computer 50, the cooperation information storage area 65 is used as a storage area for storing the cooperation information DB 35 shown in FIG. The medical institution information storage area 66 is used as a storage area for storing the medical institution information DB 36 shown in FIG. As a result, the computer 50 that has executed the medical institution cooperation map generation program 60 functions as the medical institution cooperation map generation apparatus 30.

  The medical institution cooperation map generation device 30 can be realized by, for example, a semiconductor integrated circuit, more specifically, an ASIC (Application Specific Integrated Circuit) or the like.

  The medical institution terminal 20 and the user terminal 40 can be realized by a computer including a CPU, a memory, a storage unit, an input / output I / F, and a network I / F. Moreover, the medical institution terminal 20 and the user terminal 40 can be realized by, for example, a semiconductor integrated circuit, more specifically, an ASIC or the like.

  Next, the operation of the medical institution cooperation map generation system 10 according to the present embodiment will be described. In the medical institution terminal 20 arranged in each medical institution, cooperation information indicating cooperation performed between the medical institutions is held in a predetermined storage area. And a user accesses the medical institution cooperation map production | generation apparatus 30 via the web browser mounted in the user terminal 40, and requests | requires the production | generation of a desired cooperation map. Receiving the request from the user terminal 40, the medical institution cooperation map generation device 30 executes the medical institution cooperation map generation process shown in FIG.

  In step S10 of the medical institution cooperation map generation process illustrated in FIG. 11, the acquisition unit 31 acquires cooperation information from each of the medical institution terminals 20 included in the group 21 corresponding to the target area. And the acquisition part 31 stores the acquired cooperation information in cooperation information DB35.

  Next, in step S12, the calculation unit 32 calculates, for each pair of all medical institutions assumed in the medical institution included in the target area, from the cooperation information for a predetermined period stored in the cooperation information DB 35 in step S10. The frequency of exchange of linkage information between pairs is obtained. Then, the calculation unit 32 calculates the strength of cooperation between medical institutions based on the obtained frequency of cooperation information. When the information on illness is also included in the cooperation information, the strength of cooperation between medical institutions may be calculated for each disease type based on the frequency of the cooperation information for each disease type.

  Next, in step S14, the generation unit 33 refers to the medical institution information DB 36 to acquire coordinates on the map for plotting nodes indicating medical institutions included in the target area on the map. And the production | generation part 33 plots the node which shows each medical institution on the position on the map which the acquired coordinate on a map shows.

  Next, in step S16, the generation unit 33 connects the nodes indicating the medical institution pairs with a line having a thickness (width) corresponding to the strength of cooperation between the medical institutions calculated in step S12. As a result, a linkage map is generated.

  Next, in step S18, the generation unit 33 transmits data indicating the generated cooperation map to the user terminal 40, and ends the medical institution cooperation map generation process. The user terminal 40 displays the cooperation map on the display device based on the received data indicating the cooperation map.

  In the medical institution cooperation map generation process described above, the case where the cooperation information held in the medical institution terminal 20 is acquired after receiving a request from the user has been described, but the present invention is not limited thereto. For example, the acquisition unit 31 can acquire cooperation information from the medical institution terminal 20 at any time and store it in the cooperation information DB 35 at a predetermined timing. And the medical institution cooperation map production | generation apparatus 30 may read the cooperation information stored in cooperation information DB35 at the timing which received the request from a user, and may make it produce | generate a cooperation map.

  As described above, according to the medical institution cooperation map generation system according to the present embodiment, in the medical institution cooperation map generation device, the strength of cooperation between medical institutions is determined based on the frequency of cooperation information between medical institutions. calculate. Then, in the medical institution cooperation map generation device, a cooperation map is generated in which the nodes indicating the medical institutions are connected with a display representing the strength corresponding to the strength of the cooperation between the medical institutions. Thereby, the degree of cooperation between medical institutions can be grasped intuitively.

  Moreover, the cooperation map for every area can be produced | generated by acquiring the cooperation information of the medical institution terminal arrange | positioned at the medical institution which belongs to an object area. Also, by including disease information in the cooperation information, a cooperation map for each type of disease can be generated. As a result, it is possible to provide useful information to formulate regional medical cooperation optimal for local residents. In addition, for example, it is possible to grasp a medical institution where there are few exchanges of referral patients, a region where a cooperation system for a specific disease is not established, and the like, which is also useful information for promoting regional medical cooperation.

  For example, in the example of FIG. 8, since it is possible to intuitively understand that the regional medical cooperation in the region B is not progressing compared to the region A, the country and the medical association can promote the regional medical cooperation in the region B. Judgment should be made such as putting effort. In addition, in the example of FIG. 9, hospital A has a system for gastric cancer, hospital B has a system for diabetes, but hospital C has an intuitive system for any disease. Can grasp. This is inconvenient for the residents in hospital C, so the government and the medical association can determine that medical resources in this area should be optimized.

  In the above-described embodiment, medical cooperation information indicating introduction of a patient between medical institutions has been described as an example (for example, FIG. 3), but other medical cooperation information may be used. A plurality of types of medical cooperation information may be used. In this case, the strength of cooperation between medical institutions can be calculated for each type of medical cooperation information. And a cooperation map about specific medical cooperation information can be generated as shown in FIG. 12, for example. Note that the example in FIG. 12 is a cooperation map based on medical cooperation information indicating that a patient of another medical institution has reserved an examination by MRI, which is equipment of a certain medical institution.

  Also, as shown in FIG. 12, in the linkage map, the node connection may be given directionality. In the example of FIG. 12, the patient of the medical institution indicated by the node on the start point side of the arrow has reserved the examination by MRI that is the facility of the medical institution indicating the node on the end point side of the arrow.

  In the above description, the medical institution cooperation map generation program 60 has been stored (installed) in advance in the storage unit 56, but is provided in a form recorded in a storage medium such as a CD-ROM or DVD-ROM. It is also possible.

  Regarding the above embodiment, the following additional notes are disclosed.

(Appendix 1)
A program for generating an information map for displaying a plurality of medical institutions including a first medical institution and a second medical institution,
Referral rate from the first medical institution to the second medical institution, the number of patients introduced for each disease from the first medical institution to the second medical institution, from the first medical institution to the second Based on any one of the number of reservations for each testing device to the medical institution, calculate the strength of the relationship between the medical institution,
An information map generation program for causing a computer to execute a process of displaying on the information map so as to connect the medical institutions via a relationship line having a display attribute corresponding to the calculated strength of association.

(Appendix 2)
Calculate the strength of association between medical institutions in the target area,
The information map generation program according to supplementary note 1, which causes the computer to execute a process of generating the information map of the target area.

(Appendix 3)
Calculating the strength of the association for each disease,
The information map generation program according to supplementary note 1 or supplementary note 2, which causes the computer to execute a process of creating the information map for each disease.

(Appendix 4)
The information map generation program according to any one of supplementary notes 1 to 3, wherein the strength of the relation is expressed by changing at least one of a width, a color, a shade, and a type of the relation line.

(Appendix 5)
An apparatus for generating an information map for displaying a plurality of medical institutions including a first medical institution and a second medical institution,
Referral rate from the first medical institution to the second medical institution, the number of patients introduced for each disease from the first medical institution to the second medical institution, from the first medical institution to the second A calculation unit that calculates the strength of association between the medical institutions, based on any one of the number of reservations for each testing device to the medical institution,
A generation unit that displays the information map so as to connect the medical institutions via a relationship line having a display attribute corresponding to the calculated strength of the association,
An information map generation device including:

(Appendix 6)
The calculation unit calculates the strength of association between medical institutions included in the target area,
The information map generation device according to attachment 5, wherein the generation unit generates the information map of the target area.

(Appendix 7)
The calculation unit calculates the strength of the association for each disease,
The information map generating device according to appendix 5 or appendix 6, wherein the generation unit generates the information map for each disease.

(Appendix 8)
The information generation unit according to any one of appendix 5 to appendix 7, wherein the generation unit represents the strength of the association by changing at least one of a width, a color, a shading, and a type of the relationship line. apparatus.

(Appendix 9)
A method for generating an information map that displays a plurality of medical institutions including a first medical institution and a second medical institution,
Referral rate from the first medical institution to the second medical institution, the number of patients introduced for each disease from the first medical institution to the second medical institution, from the first medical institution to the second Based on any one of the number of reservations for each testing device to the medical institution, calculate the strength of the relationship between the medical institution,
An information map generation method for causing a computer to execute a process of displaying on the information map so that the medical institutions are connected to each other via a relationship line having a display attribute corresponding to the calculated strength of association.

(Appendix 10)
Calculate the strength of association between medical institutions in the target area,
The information map generation method according to appendix 9, wherein the computer executes the process of generating the information map of the target area.

(Appendix 11)
Calculating the strength of the association for each disease,
The information map generation method according to appendix 9 or appendix 10, which causes the computer to execute a process of generating the information map for each disease.

(Appendix 12)
The information map generation method according to any one of supplementary notes 9 to 11, wherein the strength of the relation is expressed by changing at least one of a width, a color, a shade, and a type of the relation line.

(Appendix 13)
On the computer,
Acquire cooperation information indicating cooperation between each of a plurality of medical institutions,
Based on the frequency of the acquired cooperation information, calculate the strength of cooperation between each of the plurality of medical institutions,
Information for executing processing including generation of an information map that includes a node indicating each of the plurality of medical institutions and that displays strength and weakness corresponding to the calculated strength of cooperation. Map generator.

(Appendix 14)
The computer acquires at least one of information indicating patient introduction, information indicating a reply to the patient introduction, information regarding medical equipment reservation, information regarding dispatch of doctors, and reference history of the web chart as the linkage information. 14. An information map generation program according to supplementary note 13 for executing a process including:

DESCRIPTION OF SYMBOLS 10 Medical institution cooperation map generation system 20 Medical institution terminal 30 Medical institution cooperation map generation apparatus 31 Acquisition part 32 Calculation part 33 Generation part 35 Cooperation information database 36 Medical institution information database 40 User terminal 50 Computer 56 Memory | storage part

Claims (11)

A program for generating an information map for displaying a plurality of medical institutions including a first medical institution and a second medical institution,
Information indicating introduction from the first medical institution to the second medical institution from each of the plurality of medical institutions, and reservation for each inspection device from the first medical institution to the second medical institution Is obtained as linkage information, stored in the linkage information storage unit,
Obtained from the link information stored in the linkage information storing unit, introduction rate from the first medical institution to the second medical institution, each disease from the first medical institution to the second medical institution introducing patient population, and on the basis of the first medical institution number of reservations for each inspection device to the second medical institutions, to calculate the strength of the relation between the medical institution,
An information map generation program for causing a computer to execute a process of displaying the information map on a display device so as to connect the medical institutions via a relationship line having a display attribute corresponding to the calculated strength of association. Calculate the strength of association between medical institutions in the target area,
The information map generation program according to claim 1 which makes said computer perform processing which generates said information map of said object area. Calculating the strength of the association for each disease,
The information map generation program according to claim 1 or 2 which makes said computer perform processing which generates said information map for every said disease.   The information map generation program according to any one of claims 1 to 3, wherein the strength of the relation is expressed by changing at least one of a width, a color, a shading, and a type of the relation line. The linkage information includes information on dispatch of doctors from the first medical institution to the second medical institution,
When calculating the strength of association between the medical institutions, it is further calculated based on the number of doctors dispatched from the first medical institution to the second medical institution.
The information map generation program according to any one of claims 1 to 4. The linkage information includes a history of referring to the web chart of the second medical institution from the first medical institution,
When calculating the strength of association between the medical institutions, it is further calculated based on the number of references from the first medical institution to the web chart of the second medical institution.
The information map generation program according to any one of claims 1 to 5. The terminals installed in each of the plurality of medical institutions form a group of medical institutions connected to each other via a network, and collect cooperation information of all medical institutions belonging to the group to store the cooperation information The information map generation program according to any one of claims 1 to 6, which is stored in a section. In accordance with the strength of association between medical institutions included in each of a plurality of target areas, the information map is generated for each target area,
A plurality of the information maps generated for each target area are displayed on the display device in a comparable state.
The information map generation program according to any one of claims 1 to 7. Generating the information map for each disease according to the strength of the association for each of a plurality of diseases;
A plurality of the information maps generated for each disease are displayed on the display device in a comparable state.
The information map generation program according to any one of claims 1 to 8. An apparatus for generating an information map for displaying a plurality of medical institutions including a first medical institution and a second medical institution,
Information indicating introduction from the first medical institution to the second medical institution from each of the plurality of medical institutions, and reservation for each inspection device from the first medical institution to the second medical institution An acquisition unit that acquires information indicating the link information and stores it in the cooperation information storage unit;
Obtained from the link information stored in the linkage information storing unit, introduction rate from the first medical institution to the second medical institution, each disease from the first medical institution to the second medical institution and introduction number of patients, and on the basis of the first medical institution number of reservations for each inspection device to the second medical institution, calculation unit for calculating the strength of the relation between the medical institution,
A generation unit that displays the information map on a display device so as to connect the medical institutions via a relationship line having a display attribute corresponding to the calculated strength of the association,
An information map generation device including: A method for generating an information map that displays a plurality of medical institutions including a first medical institution and a second medical institution,
Information indicating introduction from the first medical institution to the second medical institution from each of the plurality of medical institutions, and reservation for each inspection device from the first medical institution to the second medical institution Is obtained as linkage information, stored in the linkage information storage unit,
Obtained from the link information stored in the linkage information storing unit, introduction rate from the first medical institution to the second medical institution, each disease from the first medical institution to the second medical institution introducing patient population, and on the basis of the first medical institution number of reservations for each inspection device to the second medical institutions, to calculate the strength of the relation between the medical institution,
Calculated through the relationship line having a display attribute in accordance with the relevant strength, the medical institution the information map display device information map generating method processing computer to run to display in such each other to connect the .

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