JP2019057220A - Hospitalization room determination program, method for determining hospitalization room, and hospitalization room determination device - Google Patents

Abstract

To automatically assign appropriate rooms to sick children.SOLUTION: An input reception unit 20 receives input of information on the disease of a new sick child, and a determination unit 22 determines whether the disease of the sick child is an infection. A room assignment processing unit 24 determines a room to assign a sick child with reference to a disease name ratio table 38 storing the record of the number of persons who has been hospitalized due to an infection in the same time of the past if the sick child is having an infection.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an in-hospital room determination program, an in-hospital room determination method, and an in-hospital room determination apparatus.

  A facility that takes care of a sick child on behalf of a parent who cannot take a day off when a child who goes to a hospital on a day trip or goes to a nursery school or nursery school becomes sick (hereinafter referred to as a sick child care facility) In some cases, hospitalization for a short period of time, such as taking a one-day deposit to For example, in a sick childcare facility, if there is a phone call from the user the day before or on the day, the staff will ask for the name of the sick child and refer to the availability of the room to determine whether the child can be accepted. doing.

JP 2014-41439 A JP 2002-183296 A

  The staff of the facility needs to consider as many ill children as possible and consider allocating each ill child to an appropriate room in consideration of the situation of the sick child and the situation of the facility. It may take time. If it takes time to make a decision, it may be difficult to connect other users' telephones, or the facility staff may be unable to perform other tasks.

  In one aspect, an object of the present invention is to provide an in-hospital room determination program, an in-hospital room determination method, and an in-hospital room determination apparatus that can automatically allocate patients to appropriate rooms.

  In one aspect, the hospitalization room determination program accepts input of illness information of a hospitalized patient, determines whether the illness of the hospitalized patient is an infectious disease, and determines the illness of the hospitalized patient. If the patient is an infectious disease, a process for determining the room in which the patient to be hospitalized is hospitalized by referring to a storage unit storing the results of the number of patients hospitalized with the infectious disease at the same time in the past is executed on a computer. This is an in-hospital room determination program.

  Patients can be automatically assigned to the appropriate room.

It is a figure which shows the hardware constitutions of the hospitalization room determination apparatus which concerns on one Embodiment. It is a functional block diagram of an inpatient room determination apparatus. FIG. 3A is a diagram illustrating an example of the data structure of the disease name table, and FIG. 3B is a diagram illustrating an example of the data structure of the hospital room table. It is a figure which shows an example of the data structure of a past performance table. It is a figure which shows an example of the data structure of a room allocation table on that day. It is a figure which shows an example of the data structure of a disease name ratio table. It is a flowchart which shows the process of an inpatient room determination apparatus. It is a flowchart which shows the room allocation process (1) of FIG. FIG. 9A is a flowchart showing the room allocation process (2) in FIG. 7, and FIG. 9B is a flowchart showing the room allocation process (3) in FIG.

  Hereinafter, an embodiment of an in-hospital room determination system will be described in detail with reference to FIGS.

  The hospitalized room determination apparatus 10 according to the present embodiment is a system used in a sick childcare facility, and includes an information processing apparatus such as a PC (Personal Computer). The hospitalized room determination apparatus 10 is an apparatus that is operated by a staff member working at a childcare facility for sick children and automatically assigns rooms to new sick children (patients to be hospitalized).

  FIG. 1 shows a hardware configuration of the hospitalized room determination device 10. As shown in FIG. 1, an inpatient room determination device 10 includes a CPU (Central Processing Unit) 90, a ROM (Read Only Memory) 92, a RAM (Random Access Memory) 94, and a storage unit (here, an HDD (Hard Disk Drive)). 96, a network interface 97, a display unit 93, an input unit 95, a portable storage medium drive 99, and the like. The display unit 93 includes a liquid crystal display or the like, and the input unit 95 includes a keyboard, a mouse, a touch panel, or the like. Each component of the hospitalized room determination device 10 is connected to a bus 98. In the hospital room determination apparatus 10, a program stored in the ROM 92 or the HDD 96 (including the hospital room determination program) or a program read from the portable storage medium 91 by the portable storage medium drive 99 (including the hospital room determination program). ) Is executed by the CPU 90, the functions as the respective units shown in FIG. 2 are realized.

  FIG. 2 shows a functional block diagram of the hospitalized room determination apparatus 10. In the in-hospital room determination apparatus 10, the CPU 90 executes the program, thereby realizing functions as an input reception unit 20 as a reception unit, a determination unit 22, and a room allocation processing unit 24 as a determination unit. 2 also shows a disease name table 30, a room table 32, a past performance table 34, a room allocation table 36 on the day, and a disease name ratio table 38 as a storage unit stored in the HDD 96 or the like.

  The input reception unit 20 receives a disease name (a disease name of a new sick child that has been applied for by telephone) input by an employee working at a sick child childcare facility via the input unit 95. Further, the input receiving unit 20 refers to the disease name table 30, identifies a disease name code corresponding to the received disease name, and passes the identified disease name code to the determination unit 22. Here, the disease name table 30 has a data structure as shown in FIG. As shown in FIG. 3A, the disease name table 30 stores a disease name code and a disease name in association with each other. The input receiving unit 20 specifies “D1” as the disease name code if the received disease name is “influenza A”, and specifies “D6” as the disease name code if it is “trauma”.

  The determination unit 22 determines the processing to be performed by the room allocation processing unit 24 in consideration of the availability of the room, the epidemic time of the infectious disease, the shared room results for each disease, and the like. The determination unit 22 refers to the hospital room table 32, the past performance table 34, and the room allocation table 36 on the day when making a determination.

  Here, the hospital room table 32 has a data structure as shown in FIG. As shown in FIG. 3B, in the room table 32, the room code of each room and the capacity (capacity) of each room are stored in association with each other.

  The past performance table 34 has a data structure as shown in FIG. As shown in FIG. 4, the past performance table 34 is a table that stores which disease name (disease name code) is assigned to each room (A to F) in association with the date. From the past result table 34, for example, it is understood that the disease name codes D1, D2, D3, D4, and D7 have no room share results, and the disease name codes D5 and D6 have the room share results. The data of the past performance table 34 is updated based on the same day room allocation table 36 at the end of the day, for example.

  The room allocation table 36 on the day has a data structure as shown in FIG. As shown in FIG. 5, the room allocation table 36 on the day is a table for managing the names and disease name codes of the sick children assigned to each hospital room on the day. The room allocation table 36 on the day is updated every time a room is assigned to a new sick child (every time a process shown in FIGS. 7 to 9B described later is performed).

  Returning to FIG. 2, the room allocation processing unit 24 executes the room allocation processing to be performed based on the determination result of the determination unit 22. The room allocation processing unit 24 executes the room allocation process with reference to the disease name ratio table 38 in addition to the hospital room table 32 and the day room allocation table 36. Here, the disease name ratio table 38 has a data structure as shown in FIG. As shown in FIG. 6, the disease name ratio table 38 is a table that stores the results of totaling the number of sick children (actual results) accepted by the sick child care facility for each disease name code and every month. The disease name ratio table 38 of FIG. 6 stores data for one year (from January to December in 2016). From the disease name ratio table 38, it is possible to confirm which disease is prevalent every month.

(Processing of hospitalization room determination device 10)
Next, details of the process of the hospitalized room determination device 10 will be described with reference to the flowcharts of FIGS. 7 to 9B. In addition, as a premise of the processing of FIG. 7 to FIG. 9B, there is a policy of accepting as many sick names as possible in the sick child care facility, and that a sick child with one sick name is assigned to a plurality of hospital rooms. It is assumed that there is no rule.

  In the process of FIG. 7, first, in step S <b> 10, the input receiving unit 20 waits until a disease name of a new sick child is input. That is, at the stage where the staff inputs a disease name via the input unit 95, the input receiving unit 20 proceeds to step S11.

  If transfering it to step S11, the input reception part 20 will acquire the input disease name, and will refer to the disease name table 30 and will specify a disease name code. For example, if the input disease name is “influenza A”, the disease name code “D1” is specified. The input reception unit 20 passes the specified disease name code to the determination unit 22.

  Next, in step S12, the determination unit 22 determines whether the disease of the disease name code received from the input reception unit 20 is a disease with a shared room record. In this case, the determination unit 22 refers to the past record table 34 (FIG. 4) and determines whether or not there is a record in which the received disease name code is included in the same frame (column) as other disease name codes. to decide. If the determination in step S12 is negative, that is, if the disease of the received disease name code is an infectious disease and there is no shared room record, the process proceeds to step S14. On the other hand, if the determination in step S12 is affirmative, that is, if the disease of the received disease name code is not an infectious disease and there is a shared room record, the process proceeds to step S20.

  If the determination in step S12 is negative and the process proceeds to step S14, the determination unit 22 determines whether or not a sick child suffering from the disease with the input disease name code exists in the room allocation table 36 (FIG. 5) on the day. Judging. If the determination in step S14 is affirmed, the process proceeds to step S16. If the determination is negative, the process proceeds to step S18.

  In step S16, the room allocation processing unit 24 executes room allocation processing (1).

(Room allocation process (1))
Hereinafter, the room allocation process (1) will be described in detail with reference to the flowchart of FIG.

  In the process of FIG. 8, first, in step S50, the room layout processing unit 24 determines whether or not there is a vacancy in the hospital room (referred to as α) to which the sick child of the input disease name (disease name code) is assigned. . If the determination in step S50 is affirmative, since a new sick child can be assigned to the room α, the process proceeds to step S52, and the room allocation processing unit 24 assigns the new sick child to the room α and assigns it. By displaying the result on the display unit 93, the staff is notified. Thereafter, all the processes in FIG. 8 are terminated, and all the processes in FIG. 7 are also terminated. In step S52, it can be said that the room allocation processing unit 24 preferentially assigns a new sick child with an infectious disease to a hospital room to which a sick child with the same infectious disease is assigned. Thereby, the childcare with the same infectious disease can be allocated to the same hospital room, thereby enabling efficient childcare.

  On the other hand, if the determination in step S50 is negative, that is, if there is no room in the room α, the process proceeds to step S54, and the room allocation processing unit 24 has more capacity than the room α and the unselected room Judge whether there is. If there is a room that has a larger capacity than the room α and there is no room that has not been selected, the determination in step S54 is denied and the process proceeds to step S66. If transfering it to step S66, the room allocation process part 24 will notify an employee by displaying unacceptable on the display part 93. FIG. Thereafter, all the processes in FIG. 8 are terminated, and all the processes in FIG. 7 are also terminated.

  On the other hand, if the determination in step S54 is affirmative, that is, if there are more rooms than the room α and there is a room that has not been selected, the process proceeds to step S56, and the room allocation processing unit 24 starts from the room α. A room with a large capacity is selected from those with a small capacity and is designated as room β.

  Next, in step S58, the room division processing unit 24 determines whether or not there is a vacancy in the hospital room β. If the determination in step S58 is negative, the process returns to step S54. On the other hand, if the determination in step S58 is affirmative, the process proceeds to step S60.

  In step S60, the room allocation processing unit 24 determines whether the number of people currently assigned to the hospital room β is equal to or less than the capacity of the hospital room α. That is, in step S60, it is determined whether all of the sick children currently assigned to the hospital room β can be moved to the hospital room α. If the determination in step S60 is negative, the process returns to step S54, but if the determination in step S60 is affirmative, the process proceeds to step S62.

  If transfering to step S62, the room allocation process part 24 will replace all the sick children allocated to the hospital room (alpha) and the hospital room (beta). Next, in step S64, the room allocation processing unit 24 assigns a new sick child to the hospital room β, and displays on the display unit 93 that the result of the allocation and the replacement of the sick child by the hospital rooms α and β are displayed to the staff. Notice. Thereafter, all the processes in FIG. 8 are terminated, and all the processes in FIG. 7 are also terminated.

  Returning to FIG. 7, if the determination in step S14 is negative, that is, the disease of the new sick child is an illness (infectious disease) with no shared room results, and a sick child with the same disease is assigned to any room. If not, the process proceeds to step S18, and the room allocation processing unit 24 executes the room allocation process (2).

(Room allocation process (2))
Hereinafter, the room allocation process (2) will be described in detail with reference to the flowchart of FIG.

  In the process of FIG. 9A, first, in step S70, the room layout processing unit 24 determines whether there is a hospital room to which no sick child is assigned. If the determination in step S70 is negative, that is, if at least one sick child is assigned to all hospital rooms, the process proceeds to step S74, and the room layout processing unit 24 determines that no acceptance is possible. By displaying on the display unit 93, the staff is notified. Thereafter, all the processes in FIG. 9A are terminated, and all the processes in FIG. 7 are also terminated.

  On the other hand, if the determination in step S70 is affirmative, that is, if a sick child is not assigned to at least one hospital room, the process proceeds to step S72. In step S72, the room allocation processing unit 24 determines to which of the unassigned hospital rooms a new sick child is allocated based on the following allocation rules.

<Allocation rule>
(1) If the disease name has the largest number of sick children in the same month a year ago, assign it to an unassigned room with the largest capacity.
(2) If the disease name has the smallest number of sick children in the same month one year ago, assign it to the unassigned room with the smallest capacity.
(3) If it is other than (1) and (2) above, it will be assigned in order from the second largest number of unassigned hospital rooms.

  In addition, by determining the room to which the new sick child is assigned based on the above allocation rules, when the sick of the new sick child is in an epidemic, the sick child with the same disease as the new sick child is given priority over the room with a large capacity Can be assigned automatically. In addition, by using the above-mentioned allocation rules, when other infectious diseases are in the epidemic, it is possible to vacate (reserve) a large number of rooms for sick children with the infectious diseases. It is.

  When a room to which a new sick child is allocated is determined as described above, the room allocation processing unit 24 notifies the staff by displaying the allocation result on the display unit 93. Thereafter, all the processes in FIG. 9A are terminated, and all the processes in FIG. 7 are also terminated.

  Returning to FIG. 7, if the determination in step S12 is affirmative, that is, if the new sick child has a disease with a shared room record, the process proceeds to step S20. It is determined whether or not a sick child suffering from the disease having the inputted disease name code exists in the room allocation table 36 (FIG. 5) on that day. If the determination in step S20 is affirmed, the process proceeds to step S22. If the determination is negative, the process proceeds to step S24.

  When the process proceeds to step S22, the room allocation processing unit 24 performs the room allocation process (1). The room allocation process (1) in step S22 is the same as the room allocation process in step S16, and is the process of the flowchart in FIG. That is, in step S22, a new sick child with a shared room record is preferentially assigned to a room to which the same sick child is assigned (S52), or the same sick child is assigned. When a new sick child cannot be assigned to a hospital room, a process such as replacing a hospital room with a larger capacity (S62, S64) is executed. When the process of step S22 ends, the entire process of FIG. 7 ends.

  On the other hand, if the determination in step S20 is negative and the process proceeds to step S24, the determination unit 22 determines whether there is a hospital room to which a sick child who can share a room with the input disease name (disease name code) is assigned. Judging. If the determination in step S24 is affirmative, the process proceeds to step S26. If the determination is negative, the process proceeds to step S28.

  When the process proceeds to step S26, the room allocation processing unit 24 performs the room allocation process (1) in the same manner as steps S16 and S22. In the processing of FIG. 8, the processing is performed by setting a room to which a sick child who can be in a room with the input disease name (disease name code) is assigned as the room α. After the process of step S26 is executed, the entire process of FIG.

  On the other hand, when the process proceeds to step S28, the room allocation processing unit 24 performs the room allocation process (3).

(Room allocation process (3))
Hereinafter, the room allocation process (3) will be described in detail with reference to the flowchart of FIG.

  In the process of FIG. 9B, first, in step S170, the room layout processing unit 24 determines whether there is a hospital room to which no sick child is assigned. If the determination in step S170 is negative, that is, if at least one sick child is assigned to all hospital rooms, the process proceeds to step S174, and the room layout processing unit 24 determines that the acceptance is not allowed. By displaying on the display unit 93, the staff is notified. Thereafter, the entire process of FIG. 9B is terminated, and the entire process of FIG. 7 is also terminated.

  On the other hand, if the determination in step S170 is affirmative, that is, if a sick child is not assigned to at least one hospital room, the process proceeds to step S172. If transfering to step S172, the room allocation process part 24 will allocate the sick room with the fewest capacity among unassigned sick rooms to a new sick child. Since the disease of a new sick child is not an infectious disease, it is not an epidemic disease, so by assigning the room with the smallest capacity among the vacant rooms available for new sick children, it is possible to infect other infectious diseases such as infectious diseases. It is possible to secure a large number of rooms for illness.

  When a room to which a new sick child is allocated is determined as described above, the room allocation processing unit 24 notifies the staff by displaying the allocation result on the display unit 93. Thereafter, the entire process of FIG. 9B is terminated, and the entire process of FIG. 7 is also terminated.

  As described above in detail, according to this embodiment, the input receiving unit 20 receives input of information on the illness of the new sick child (S10, S11), and the determining unit 22 is infected with the illness of the new sick child. It is determined whether or not the patient is ill (S12). In the case of an infectious disease, the room allocation processing unit 24 refers to the disease name ratio table 38 that stores the results of the number of patients hospitalized with the infectious disease at the same time in the past, and assigns a room to be assigned to a new sick child. It decides (S72 of S18). In this case, if the same disease as a new ill child was prevalent at the same time in the past, it is highly likely that it will be necessary to accept many children with the same illness as the new ill child. Assign sick children to rooms with large capacity. Further, if the same disease as the new sick child has not been prevalent at the same time in the past, the new sick child is assigned to a room with a small capacity. In this way, a new sick child can be automatically assigned to an appropriate room from the beginning. Thereby, it is possible to suppress the occurrence of troubles such as total replacement of sick children assigned to two hospital rooms at the stage where the hospital rooms have been buried. In addition, by assigning new sick children to appropriate rooms, it is possible to accept the maximum number of sick children, to prevent the spread of infectious diseases, and to improve the efficiency of childcare in the facility.

  In this embodiment, a new sick child with an infectious disease is preferentially assigned to a hospital room to which a sick child with the same infectious disease is assigned (S52). Thereby, it becomes possible to raise the child with the same infectious disease efficiently in the same hospital room.

  Further, in this embodiment, when a new sick child with an infectious disease cannot be assigned to a hospital room to which a child with the same infectious disease is assigned (S50: No in S16), it is transferred to another hospital room that can be accommodated. A child with the same infectious disease as the new sick child is transferred and a new sick child is assigned (S62, S64 of S16). Thereby, it becomes possible to allocate a new sick child and the sick child of the same infectious disease as a new sick child to an appropriate hospital room.

  Moreover, in this embodiment, the hospital room where the sick child who is not infectious disease is allocated preferentially with respect to the new sick child who is not infectious disease (S26). Thereby, since it is possible not to assign a patient who is not infectious disease to the same room as the patient who is infectious disease, it is possible to prevent the spread of infection. Therefore, parents of sick children can leave the sick children in sick child care facilities with peace of mind.

  Moreover, in this embodiment, it is specified based on the past performance table 34 whether the disease of a new sick child is an infectious disease (S12). Thereby, it is possible to appropriately specify whether or not the disease is an infectious disease based on past results.

  In the above embodiment, since a disease with no shared room record is determined based on the past record table 34, a disease that is not an infectious disease but should not be shared (for example, a disease that is not an infectious disease such as asthma). The determination in step S12 may also be denied in cases where the child coughs and other sick children or parents feel uneasy. However, even if such a determination is made, it is possible to assign a sick child such as asthma to an appropriate hospital room by performing the processing of FIG.

  In the above embodiment, instead of using the past record table 34, for example, in the disease name table 30, information regarding whether or not an infection is present may be managed. In this case, the determination unit 22 may determine whether or not the disease is an infectious disease with reference to the disease name table 30 in step S12.

  In addition, although the said embodiment demonstrated the example which uses the hospitalization room determination apparatus 10 in a sick child childcare facility, it is not restricted to this, The hospitalization room determination apparatus 10 is used in the facilities in which a day-trip hospitalization etc. are possible, such as a hospital. It is good to do.

  In addition, the process of the said embodiment is good also as performing with a cloud server. In this case, the staff of each sick child childcare facility inputs information on the illness of the new sick child from a terminal connected to the cloud server via the network. Then, when illness information is notified from the terminal to the cloud server, the cloud server executes the above-described processing of FIG. 7 to FIG. 9B based on the notified information, and results (information to be notified) ) Back to your device. Even if it does in this way, the effect similar to the said embodiment can be acquired.

  The above processing functions can be realized by a computer. In that case, a program describing the processing contents of the functions that the processing apparatus should have is provided. By executing the program on a computer, the above processing functions are realized on the computer. The program describing the processing contents can be recorded on a computer-readable recording medium (except for a carrier wave).

  When the program is distributed, for example, it is sold in the form of a portable recording medium such as a DVD (Digital Versatile Disc) or a CD-ROM (Compact Disc Read Only Memory) on which the program is recorded. It is also possible to store the program in a storage device of a server computer and transfer the program from the server computer to another computer via a network.

  The computer that executes the program stores, for example, the program recorded on the portable recording medium or the program transferred from the server computer in its own storage device. Then, the computer reads the program from its own storage device and executes processing according to the program. The computer can also read the program directly from the portable recording medium and execute processing according to the program. Further, each time the program is transferred from the server computer, the computer can sequentially execute processing according to the received program.

  The above-described embodiment is an example of a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.

In addition, the following additional remarks are disclosed regarding description of the above embodiment.
(Appendix 1) Accepting input of illness information of hospitalized patients,
Determining whether the illness of the hospitalized patient is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. To
An in-hospital room determination program for causing a computer to execute processing.
(Supplementary Note 2) If the disease of the patient to be hospitalized is an infectious disease, and there is no patient with the infectious disease on the day, the larger the number of people hospitalized with the infectious disease at the same time in the past, the more space is available The in-hospital room determination program according to appendix 1, wherein the in-hospital patient is determined with priority given to a room.
(Appendix 3) If the disease of the patient to be hospitalized is an infectious disease and there is a patient with the infectious disease on the day, the patient to be hospitalized will be admitted preferentially in the same room as the patient with the infectious disease. The in-hospital room determination program according to appendix 1 or 2, wherein a room to be determined is determined.
(Appendix 4) If the disease of the patient to be hospitalized is an infectious disease and there is a patient with the infectious disease on the day, but the same room as the patient with the infectious disease is not available, The patient with the infectious disease is transferred to an empty room that can accommodate the patient to be hospitalized, and the empty room is determined as a room in which the patient to be hospitalized is hospitalized. Hospitalization room decision program.
(Additional remark 5) The illness of the patient to be hospitalized is an infectious disease, and the smaller the number of people hospitalized with the infectious disease at the same time in the past, the lower the number of occupying rooms, the higher the priority, and The in-hospital room determination program according to any one of appendices 1 to 4, wherein a room to be determined is determined.
(Appendix 6) When the hospitalized patient's disease is not an infectious disease, the room to which the inpatient patient is hospitalized is determined in preference to the room to which another non-infectious patient on the day is assigned. The in-hospital room determination program according to any one of appendices 1 to 5, characterized in that:
(Appendix 7) Whether or not the illness of the patient to be hospitalized is an infectious disease is specified based on whether or not the ill patient has a history of sharing a room with another ill patient in the past. The in-hospital room determination program according to any one of appendices 1 to 6, characterized in that:
(Appendix 8) Accepting input of illness information of hospitalized patients,
Determining whether the illness of the hospitalized patient is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. To
A method for determining an in-hospital room, characterized in that the processing is executed by a computer.
(Additional remark 9) The reception part which receives the input of the disease information of the patient who is hospitalized,
A determination unit for determining whether the disease of the patient to be hospitalized is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. A decision unit to
An in-hospital room determination device.
(Appendix 10) When the disease of the patient to be hospitalized is an infectious disease and there is no patient with the infectious disease on the day,
The determination unit preferentially determines a room where the patient to be hospitalized is hospitalized, giving priority to an empty room with a larger number of people as the number of patients hospitalized with the infection in the same period in the past is increased. The in-hospital room determination device according to 9.
(Appendix 11) If the disease of the patient to be hospitalized is an infection, and there is a patient with the infection on the day,
11. The hospitalization room determination device according to appendix 9 or 10, wherein the determination unit determines a room where the patient to be hospitalized is given priority by giving priority to the same room as the patient with the infectious disease.
(Additional remark 12) When the disease of the patient who is hospitalized is an infectious disease and there is a patient with the infectious disease on the day, but the same room as the patient with the infectious disease is not available,
The determining unit moves the infectious disease patient to an empty room that can accommodate the infectious disease patient and the hospitalized patient, and determines the empty room as a room in which the inpatient patient is hospitalized. The in-hospital room determination device according to any one of appendices 9 to 11.
(Supplementary note 13) The illness of the patient to be hospitalized is an infectious disease, and the smaller the number of patients hospitalized with the infectious disease at the same time in the past, the priority is given to the empty room with a smaller number of people, The in-hospital room determination device according to any one of appendices 9 to 12, wherein the in-hospital patient is determined in a room to be hospitalized.
(Supplementary Note 14) If the disease of the hospitalized patient is not an infectious disease,
In any one of Supplementary notes 9 to 13, wherein the determining unit determines a room in which the patient to be hospitalized is hospitalized, giving priority to a room to which a patient who is not infectious on the day is assigned. The in-hospital room determination device described.
(Supplementary Note 15) Whether or not the illness of the patient to be hospitalized is an infectious disease is specified based on whether or not the ill patient has a history of sharing a room with another ill patient in the past. The in-hospital room determination device according to any one of appendices 9 to 14, characterized in that:

10 Hospitalization room determination device 20 Input reception part (reception part)
22 Judgment Unit 24 Room Division Processing Unit (Decision Unit)
38 Disease name ratio table (storage)

Claims (9)

Accepts information on illnesses of hospitalized patients,
Determining whether the illness of the hospitalized patient is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. To
An in-hospital room determination program for causing a computer to execute processing.   When the disease of the patient to be hospitalized is an infectious disease and there is no patient with the infectious disease on the day, priority is given to a vacant room with a larger capacity as the number of patients hospitalized with the infectious disease at the same time in the past. The in-hospital room determination program according to claim 1, wherein the in-hospital patient is hospitalized.   If the disease of the patient to be hospitalized is an infectious disease and there is a patient with the infectious disease on the day, the same room as the patient with the infectious disease is prioritized and the room where the patient to be hospitalized is hospitalized is determined. The in-hospital room determination program according to claim 1 or 2, characterized in that:   If the illness of the patient to be hospitalized is an infectious disease and there is a patient with the infectious disease on the day, but the same room as the patient with the infectious disease is not vacant, The patient with the infectious disease is transferred to a vacant room that can accommodate a patient, and the vacant room is determined as a room in which the patient to be hospitalized is hospitalized. Hospitalization room decision program.   The hospitalized patient's disease is an infectious disease, and the smaller the number of people hospitalized with the infectious disease at the same time in the past, the empty room with less capacity is given priority, and the room where the hospitalized patient is hospitalized is determined. The in-hospital room determination program according to any one of claims 1 to 4, wherein:   When the illness of the patient to be hospitalized is not an infectious disease, the room to which the patient to be hospitalized is admitted is preferentially given priority to the room to which another non-infectious patient is assigned on the day. The in-hospital room determination program according to any one of claims 1 to 5.   Whether or not the illness of the patient to be hospitalized is an infectious disease is specified based on whether or not the ill patient has a history of sharing a room with another ill patient in the past. The in-hospital room determination program according to any one of claims 1 to 6. Accepts information on illnesses of hospitalized patients,
Determining whether the illness of the hospitalized patient is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. To
A method for determining an in-hospital room, characterized in that the processing is executed by a computer. A reception unit that accepts input of illness information of hospitalized patients;
A determination unit for determining whether the disease of the patient to be hospitalized is an infectious disease;
When the illness of the patient to be hospitalized is an infectious disease, a room for storing the patient to be hospitalized is determined by referring to a storage unit that stores the results of the number of patients admitted with the infectious disease at the same time in the past. A decision unit to
An in-hospital room determination device.

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