JP2009064278A - Arrangement plan creation device, arrangement plan creation method, and arrangement plan creation program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an arrangement plan creation device, an arrangement plan creation method and an arrangement plan creation program for creating an arrangement plan which is efficient for preventing a crime. <P>SOLUTION: A CPU 20A drives a target fragility level value being the target value of a fragility level value showing the scale of fragility against a crime of every region occupied by a plurality of departments arranged in a building being the object of creation of an arrangement plan, and classifies the regions occupied by the plurality of departments into every size of the derived target fragility level values, and the regions occupied by the plurality of departments are arranged in the building so that the regions classified into the same group can be continuously united. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an arrangement plan creating apparatus, an arrangement plan creating method, and an arrangement plan creating program, and more specifically, an arrangement plan creating apparatus, an arrangement plan creating method, and an arrangement for creating an arrangement plan for arranging a plurality of unit areas in a building. Regarding planning program.

As a conventional technique for creating an arrangement plan of a plurality of unit areas in a building, Patent Literature 1 describes, for each combination of two departments in a plurality of departments occupying a building, mutual proximity between the combined departments. Deriving a mutual similarity, deriving a set proximity indicating a degree of proximity placement for each combination of two departments in the plurality of departments based on the mutual proximity and the mutual similarity, The placement positions of the plurality of departments are arranged in the building so that the required floor area indicated by the required floor area information is within the allowable floor area, and the arrangement result is displayed. Technology is disclosed.
JP 2006-302137 A

  However, in the technique disclosed in Patent Document 1, since the risk of crime by an unspecified number of people for the assets of each unit area arranged in a building is not considered, it is not always efficient in preventing crime. There was a problem that it was not always possible to create a realistic plan.

  The present invention has been made to solve the above-described problems, and provides an arrangement plan creation apparatus, an arrangement plan creation method, and an arrangement plan creation program capable of creating an efficient arrangement plan for preventing crime. For the purpose.

  In order to achieve the above object, the arrangement plan creation device according to claim 1 shows the degree of vulnerability to crime for each unit area of a plurality of unit areas arranged in a building for which an arrangement plan is to be created. Deriving means for deriving a target vulnerability level value that is a target value of the vulnerability level value, classification means for classifying the plurality of unit areas for each magnitude of the target vulnerability level value derived by the deriving means, and the classification Arrangement means for arranging the plurality of unit areas in the building so that the unit areas classified into the same group by the means are continuously gathered.

  According to the arrangement plan creating apparatus according to claim 1, the vulnerability level indicating the degree of vulnerability to crime for each unit area of the plurality of unit areas arranged in the building to be created for the arrangement plan by the deriving means. A target vulnerability level value that is a target value of the value is derived. The unit area includes a department included in the company, a department unit area, a room unit area, and an entire company area.

  Here, in the present invention, the plurality of unit areas are classified by the classifying unit for each size of the target vulnerability level value derived by the deriving unit.

  In the present invention, the plurality of unit areas are arranged in the building by the arrangement means so that the unit areas classified into the same group by the classification means are continuously gathered.

  As described above, according to the arrangement plan creating apparatus according to claim 1, the vulnerability level indicating the level of vulnerability to crime for each unit area of the plurality of unit areas arranged in the building to be created for the arrangement plan. A target vulnerability level value that is a target value of the value is derived, and the plurality of unit areas are classified according to the size of the target vulnerability level value so that the unit areas classified into the same group are continuously gathered. Since the plurality of unit areas are arranged in the building, the countermeasures against crimes can be performed collectively for each group regardless of the number of unit areas belonging to each group, which is efficient in preventing crimes. A simple arrangement plan can be created.

  By the way, when the present invention is applied to a form in which a plurality of unit areas in a company having a plurality of unit areas are arranged in a building, etc., the target vulnerability level value in each unit area is the value of the asset that the unit area has. It should be determined based on the amount of assets and the allowable loss of the entire unit area placed in the building for which the placement plan is to be created.

  Therefore, according to the present invention, as in the invention described in claim 2, asset information indicating an asset amount of each of the plurality of unit areas and allowable loss information indicating an allowable loss amount of the plurality of unit areas as a whole. May be provided, and the derivation unit may derive the target vulnerability level value based on the asset information and the allowable loss information input by the input unit. Thereby, as a result of being able to derive the target vulnerability level value more accurately, it is possible to create an arrangement plan more accurately. The input by the input means includes input from an input device such as a keyboard, a touch panel, a tablet, a digitizer, and a mouse, as well as input from an external device via a communication line such as the Internet or a local area network. included. The above assets include tangible assets and intangible assets such as information.

  By the way, the target vulnerability level value of the present invention should be greatly influenced by the crime occurrence state at the construction position of the building to be prepared for the arrangement plan.

  Therefore, according to a second aspect of the present invention, as in the third aspect of the present invention, the input means further inputs position information indicating a construction position of the building, and a past crime occurrence state within a predetermined area. And a second derivation for deriving a crime occurrence probability at the construction position indicated by the position information inputted by the input means based on the crime situation information. And the target fragile level based on the crime occurrence probability derived by the asset information and the allowable loss information inputted by the input means and the second derivation means. A value may be derived. Thereby, as a result of being able to derive the target vulnerability level value more accurately, it is possible to create an arrangement plan more accurately. The crime status information storage means includes a RAM (Random Access Memory), an EEPROM (Electrically Erasable and Programmable Read Only Memory), a semiconductor storage element such as a flash EEPROM (Flash EEPROM), and a portable recording medium such as a flexible disk. And an external storage device provided in a fixed recording medium such as a hard disk or a server computer connected to a network.

  In addition, it is preferable that the said predetermined area | region in the invention of Claim 3 is Tokyo. As a result, the crime occurrence probability can be calculated as taking into account various regional characteristics such as metropolitan areas, countryside areas, coastal areas, mountainous areas, etc., and the crime occurrence probability at construction locations in areas other than Tokyo is calculated. Even when deriving, it can be derived with high accuracy.

  Further, in the invention according to claim 3, as in the invention according to claim 4, the derivation means has L as the allowable loss amount, N as the crime occurrence probability, and Aj as the unit area j. When the asset amount of the asset is used and Fj is the target vulnerability level value of the unit region j, the target vulnerability level value Fj may be derived for each unit region by the following arithmetic expression.

Thereby, as a result of being able to derive the target vulnerability level value more accurately, it is possible to create an arrangement plan more accurately.

  Further, in the invention described in claim 3 or claim 4, as in the invention described in claim 5, the criminal situation information indicates the occurrence status of theft accompanying intrusion to a past building in the predetermined area. The second deriving means may derive the probability of theft accompanying the intrusion into the building as the crime occurrence probability. As a result, it is possible to obtain a crime occurrence probability corresponding to a theft involving intrusion into a building. As a result, a target vulnerability level value can be derived more accurately, so that an arrangement plan can be created more accurately.

  Further, according to the present invention, as in the invention described in claim 6, countermeasure information storage means in which countermeasure information indicating a predetermined security countermeasure corresponding to the magnitude of the target vulnerability level value is stored in advance, You may further provide the countermeasure plan means to plan so that the security measure shown by the said countermeasure information corresponding to the corresponding target weakness level value may be applied to the boundary position between groups. Thereby, it is possible to easily create an arrangement plan including security measures. The countermeasure information storage means may be a semiconductor storage element such as a RAM, an EEPROM, or a flash EEPROM, a portable recording medium such as a flexible disk, a fixed recording medium such as a hard disk, or a server computer connected to a network. An external storage device provided is included.

  Furthermore, the present invention may further comprise display means for displaying placement result information indicating a placement result by the placement means, as in the invention described in claim 7. Thereby, since a user can grasp | ascertain an arrangement result, the convenience for a user can be improved. The display by the display means includes a visible display by the display device, a permanent visible display by the image forming device, and an audible display by the sound generation device.

  On the other hand, in order to achieve the above-mentioned object, the layout plan creation method according to claim 8 is a method for creating a plan for creating a layout plan, wherein the unit area of a plurality of unit areas is vulnerable to crimes. A derivation step for deriving a target vulnerability level value that is a target value of the vulnerability level value indicating, and a classification step for classifying the plurality of unit areas for each size of the target vulnerability level value derived by the derivation step; An arrangement step of arranging the plurality of unit regions in the building so that the unit regions classified into the same group by the classification step are continuously gathered.

  Therefore, according to the arrangement plan creation method described in claim 8, since it operates in the same manner as the invention described in claim 1, as in the invention described in claim 1, an efficient arrangement plan for preventing crime is provided. Can be created.

  On the other hand, in order to achieve the above-described object, the arrangement plan creation program according to claim 9 is a vulnerability vulnerability against crime for each unit area of a plurality of unit areas arranged in a building for which an arrangement plan is to be created. A derivation step of deriving a target vulnerability level value, which is a target value of the vulnerability level value indicating, and a classification step of classifying the plurality of unit areas for each size of the target vulnerability level value derived by the derivation step; An arrangement step of arranging the plurality of unit regions in the building so that the unit regions classified into the same group by the classification step are continuously gathered is executed.

  Therefore, according to the arrangement plan creation program of the ninth aspect, the computer can be caused to act similarly to the invention of the first aspect. Can create an efficient placement plan.

  According to the present invention, the target vulnerability level value, which is the target value of the vulnerability level value indicating the level of vulnerability to crime for each unit area of the plurality of unit areas arranged in the building to be prepared for the arrangement plan, is obtained. Deriving and classifying the plurality of unit areas for each size of the target vulnerability level value, and arranging the plurality of unit areas in the building so that the unit areas classified into the same group are continuously gathered Therefore, regardless of the number of unit areas belonging to each group, it is possible to collectively take measures against crimes for each group, so it is possible to create an efficient arrangement plan to prevent crimes An effect is obtained.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings. Here, a case will be described in which the present invention is applied to an arrangement plan creation system configured as a client / server system for creating an arrangement plan for arranging a plurality of departmental areas belonging to a company on a building. .

  First, with reference to FIG. 1, the structure of the arrangement plan creation system 10 to which this invention was applied is demonstrated.

  As shown in the figure, the arrangement plan creation system 10 according to this embodiment includes a server device 20 owned by a plan contractor of an arrangement plan by the system 10 and a plurality of predetermined system users (here, arrangements). And a client device 40 owned by a plurality of departments belonging to a company for which a plan is to be created).

  The server device 20 and each client device 40 are connected to the network 12 via a connection device 70 such as a modem, a router, or a TA (Terminal Adapter). Therefore, the server device 20 and each client device 40 can communicate with each other via the network 12. In the arrangement planning system 10 according to the present embodiment, the Internet is applied as the network 12. However, the present invention is not limited to this, and is not limited to this. Intranet, LAN (Local Area Network), VAN (Value Added Network), telephone line network Various networks such as Echonet and HomePNA can be applied singly or in combination.

  The client device 40 has a keyboard for inputting various information, an input device such as a mouse (pointing device), a display 42 for displaying various menu screens and processing results, and the like for printing various information. Printers and the like. Since this hardware configuration is general, a detailed description thereof is omitted here.

  Next, with reference to FIG. 2, the configuration of the main part of the electrical system of the server device 20 having a particularly important role in the present system will be described.

  As shown in the figure, the server device 20 according to the present embodiment is used as a CPU (central processing unit) 20A that controls the operation of the entire server device 20, a work area when the CPU 20A executes various processing programs, and the like. The RAM 20B, a ROM 20C in which various control programs, various parameters, and the like are stored in advance, a secondary storage unit (here, a hard disk device) 20D used for storing various information, and used for inputting various information. A keyboard 20E, a display 20F used for displaying various types of information, and an input / output port 20G for exchanging various types of information with an external device via the network 12 are provided. They are electrically connected to each other by a bus BUS.

  Therefore, the CPU 20A is connected to the network 12 via the RAM 20B, the ROM 20C, and the secondary storage unit 20D, the acquisition of various input information via the keyboard 20E, the display of various information on the display 20F, and the input / output port 20G. Various types of information can be exchanged with external devices.

  On the other hand, in FIG. 3, main storage contents of the secondary storage unit 20 </ b> D provided in the server device 20 are schematically shown. As shown in the figure, the secondary storage unit 20D stores a database area DB for storing various databases, a control program for controlling the server device 20, a program for performing various processes, and the like. Program area PG.

  The database area DB includes a building information database DB1, a parameter database DB2, an asset value information database DB3, a vulnerability level value database DB4, and a countermeasure information database DB5. Hereinafter, the configuration of these databases will be described in detail with reference to the drawings.

  As shown in FIG. 4, the building information database DB1 according to the present embodiment includes a building (hereinafter referred to as a building plan) in which each information of a building ID (Identification), the number of floors, an allowable floor area of each floor, and a construction position is a target of an arrangement plan. , Called “planning target building”).

The building ID is given in advance as different data (in this embodiment, numerical data) by the server device 20 in order to identify the planning target building. This is information indicating the number of floors of the planned building to be planned. Further, the allowable floor area of each floor is information indicating a floor area where each department of each floor of the corresponding plan target building can be arranged, and the construction position indicates a construction position of the corresponding plan target building. Information. In the example shown in the figure, for example, the planned building assigned “0001” as the building ID has 10 floors, the first floor has an allowable floor area of 350 m ² , and the second floor has an allowable floor area of 370 m ² . The construction position is XX prefecture △△ city □□ town 1-2-3, etc.

  By the way, the arrangement plan creation system 10 according to the present embodiment derives the crime occurrence probability at the construction position of the planned building, and uses the crime occurrence probability to derive a later-described target vulnerability level value. .

  Note that any known method can be applied to the crime occurrence probability derivation method. However, in the arrangement plan creation system 10 according to the present embodiment, Japanese Patent Application Laid-Open No. 2006-92311 by the applicant of the present invention. The technology disclosed in the publication is applied.

  In this technology, several parameters (population by town chome, number of households, number of offices, number of employees, distance to the nearest station, Parameters obtained by combining one or more of 10 types of parameters such as the number of passengers at the station, area, road rate, vacancy rate, and habitable land area) are used as explanatory variables, and a predetermined area (for example, Tokyo Based on the regression analysis with the crime situation information indicating the past crime occurrence situation (number of crime occurrences) in Tokyo) as the explained variable, it is derived as the one that can best return to the crime situation indicated by the crime situation information. The crime occurrence probability is derived using the regression equation.

  In this technique, the regression equation is the following equation (1), and the distance to the nearest station is divided by the number of establishments as a parameter X that can best return the crime occurrence probability by the regression equation. The value (hereinafter referred to as “non-anonymous level value”) obtained by dividing the population by the number of employees as parameter Y (hereinafter referred to as “monitoring level value”) is Each was found. Note that a, b, c, and d in equation (1) are regression coefficients.

N = 10 ^a−bX−cY + d (1)
In addition, this technology focuses on the fact that there is a bias in the areas where crimes occur depending on the type of crime, and the predetermined types of crime (theft with intrusion into buildings, theft without intrusion into buildings) In addition, theft targeting automobiles, theft without entering buildings, theft targeting motorcycles and bicycles, theft without entering buildings, and targeting automobiles, motorcycles, and bicycles. Regression formulas are calculated to calculate the probability of crime occurrence for each type of theft (excluding theft and violent crime).

  The following equation (2) is an example of an arithmetic expression for calculating the crime occurrence probability N when “theft with intrusion to the building” is applied as the crime type, and the equation (3) is the crime type It is an example of an arithmetic expression for calculating a crime occurrence probability N in a case where “theft without involving the invasion of a building and excluding theft for automobiles, motorcycles, and bicycles” is applied.

N = 10 ^{0.421-0.0230X-0.126Y} + 0.476 (2)
N = 10 ^{1.62 −0.0320X−0.576Y} +6.87 (3)
In addition, since the calculation formula deriving method for calculating the crime occurrence probability is described in detail in Japanese Patent Application Laid-Open No. 2006-92311, further description thereof is omitted here.

  As shown in FIG. 5, the parameter database DB2 according to the present embodiment stores the town chomes throughout Japan, and the non-anonymous level value X and the monitoring level value Y corresponding to each town chome are the town chomes. Separately stored and configured. In the parameter database DB2 according to the present embodiment, as the distance to the nearest station to be applied in the non-anonymous level value X, the distance from the center position of the corresponding town street to the nearest station is applied.

  In the arrangement plan creation system 10 according to the present embodiment, since the target is the inside of the building, “theft with intrusion into the building” is applied as the crime type, and the secondary storage unit In the predetermined area of 20D, a regression equation (for example, Equation (2)) for calculating the probability of occurrence of the crime of the type is stored.

  On the other hand, as shown in FIG. 6, the asset value information database DB3 according to the present embodiment is a department belonging to a planning target building and belonging to a company that is a target of an arrangement plan (hereinafter referred to as a “planning target company”). For each (hereinafter referred to as “planned department”), it is configured to store information on the assets owned.

  As shown in the figure, in the asset value information database DB3 according to the present embodiment, the asset name of the asset of each room included in the corresponding department for each of the tangible asset and the intangible asset as the asset information. The asset amount and the like are stored, and the asset amount (total asset amount) of the corresponding department as a whole is stored in association with the building ID assigned to the corresponding plan target building. The asset amount corresponding to the “accessible server” in the figure is an amount indicating the asset value of the information stored in the server accessible from any room of the corresponding department.

  On the other hand, as shown in FIG. 7, the vulnerability level value database DB4 according to the present embodiment includes information on a building ID, a department name, a room name, a required floor area, an asset amount, and a target vulnerability level value. It is configured to be stored for each department of the building.

The building ID is the same as that of the building information database DB1, the department name is information indicating the name of the corresponding planning target department, and the room name is the room of the corresponding planning target department. This is information indicating the name. The required floor area is information indicating the floor area required for the corresponding room, the asset amount is information indicating the asset amount of the asset of the corresponding room, and further, the target vulnerable level value. Is information indicating the target value of the vulnerability level value indicating the level of vulnerability to crime of the corresponding planning target department. In the example shown in the figure, for example, in the general affairs department (planning target department) arranged in the planning target building assigned “0001” as the building ID, the “office room” having a required floor area of 120 m ² , There is a “file room” with a required floor area of 60m ² , the asset amount of the general affairs department as a whole is XX million yen, and the target vulnerability level is 0.01. Is shown.

  Further, as shown in FIG. 8, the countermeasure information database DB5 according to the present embodiment has a countermeasure to be taken when the target vulnerability level value is within the range for each predetermined range of the target vulnerability level value. Is stored so as to store information. In the example shown in the figure, for example, for a region where the target vulnerability level value is larger than 0.5, it is shown that the countermeasure “provide a security camera” should be implemented, and the target vulnerability level value is 0.1. For areas that are larger and less than or equal to 0.5, implement the measures “Always lock doors (manage keys with a key box)” and “Use card reader.” Indicates that it should be. The countermeasure information database DB5 according to the present embodiment takes countermeasures corresponding to the boundary positions between groups (hereinafter referred to as “security lines”) obtained by classification by a department allocation processing routine program described later. As a result, it is possible to achieve the corresponding target vulnerability level value, and it is obtained on the basis of actual data when measures are taken to improve the vulnerability level value for other buildings in the past. Information is registered in advance.

  Next, the operation of the arrangement plan creation system 10 according to the present embodiment will be described.

  The server device 20 according to the present embodiment accepts an instruction to formulate an arrangement plan from the planning target company via the client device 40 by the system user as needed, and has received information indicating the instruction. At this time, a building information input process is executed for acquiring information on the target building from the system user (hereinafter referred to as “registration requester”).

  First, building information input processing executed in the server device 20 will be described with reference to FIG. FIG. 9 is a flowchart showing the flow of processing of the building information input processing program executed by the CPU 20A of the server device 20 when the building information input processing is executed. The program is stored in the program area PG of the secondary storage unit 20D. Stored in advance.

  First, in step 100, information indicating a predetermined building information input screen is transmitted to the client device 40 of the access source (request source for formulating an arrangement plan), thereby displaying on the display 42 of the client device 40. A building information input screen is displayed, and in the next step 102, input of predetermined information is awaited.

  FIG. 10 shows an example of a building information input screen displayed on the display 42 of the client device 40 that is the access source by the processing in step 100 described above. As shown in the figure, on the building information input screen according to the present embodiment, a message prompting the user to input information related to the building to be registered is displayed, and “construction position”, “floor”, “Allowable floor area of each floor” and “Contact information of a department to be moved in” are displayed together with a rectangular frame for inputting each.

  When the building information input screen as shown in the figure is displayed on the display 42, the registration requester operates the target of planning by operating a keyboard or mouse (pointing device) (not shown) provided in the client device 40. Corresponds to the location of the building, number of floors, permissible floor area of each floor, and contact information of the department (planned department) scheduled to move in (here, the e-mail address corresponding to the client device 40 provided in the planned moving area) After inputting in the rectangular frame to be used, pointing is designated with the mouse using the “end” button displayed at the bottom of the building information input screen. In response to this, as a result of the information input on the building information input screen by the registration requester being transmitted to the server device 20, the above step 102 becomes affirmative and the process proceeds to step 104.

  In step 104, a building ID that has not been registered in the building information database DB1 so far is generated. In the next step 106, the construction position, the number of floors, and the permission of each floor entered by the registration requester on the building information input screen. Each information of the floor area is stored (registered) in the building information database DB1 together with the generated building ID, and the information indicating the input contact information of the department to be moved in is associated with the generated building ID and the secondary storage unit It memorize | stores in 20D predetermined area | region, and this building information input process program is complete | finished after that.

  By execution of the above building information input processing program, a building information database DB1 shown in FIG. 4 is constructed as an example.

  When the building information input processing program ends, the server device 20 executes an arrangement plan creation process for formulating an arrangement plan for the planning target building registered in the building information database DB1 by the building information input processing program.

  Next, with reference to FIG. 11, the arrangement plan creation process executed in the server device 20 will be described. FIG. 11 is a flowchart showing the flow of processing of the arrangement plan creation processing program executed by the CPU 20A of the server device 20 when the arrangement plan creation processing is executed. The program is also stored in the program area PG of the secondary storage unit 20D. Stored in advance.

  First, in step 200, the contact information of a planned occupancy department (planned department) indicated by information stored in a predetermined area of the secondary storage unit 20D in the building information input processing program with information indicating a predetermined questionnaire input screen. The questionnaire input screen is displayed on the display 42 of the client device 40 of each planning target department, and the next step 202 waits for input of predetermined information.

  The predetermined person in charge of the planning target department provided with the client device 40 that has received the information indicating the questionnaire input screen (here, the department head of the department) displays the questionnaire input screen indicated by the received information. The operation to be displayed on the display 42 of 40 is performed.

  12 to 13 show an example of a questionnaire input screen displayed on the display 42 of the client device 40 by this operation. Since the questionnaire input screen according to the present embodiment has a large number of input items, the screen shown in FIG. 12 (hereinafter referred to as “first questionnaire input screen”) by operating a keyboard or a mouse (not shown). To the screen shown in FIG. 13 (hereinafter referred to as “second questionnaire input screen”).

  As shown in FIG. 12, on the first questionnaire input screen according to the present embodiment, a rectangular frame for inputting the department name and the number of personnel of the own department is displayed, and information on assets owned by the own department A rectangular frame for entering is displayed. Accordingly, the predetermined person in charge inputs the department name, the number of personnel, and the information about the asset relating to the own department in the corresponding rectangular frame. In the first questionnaire screen according to the present embodiment, the format of the rectangular frame for inputting information related to the asset is excluded from the schematic diagram of the asset value information database DB3 shown in FIG. 6 and the column of building ID. Of course, almost the same format is applied, but it is not limited to this.

  As shown in FIG. 13, the second questionnaire input screen according to the present embodiment displays a rectangular frame for inputting the name of the room owned by the department and the floor area required for the room. The Therefore, the predetermined person in charge inputs the name of the room owned by the department and the floor area required for each room in the corresponding rectangular frame.

  When the predetermined person in charge completes the input of the above various information on the first and second questionnaire input screens, pointing to the “end” button displayed at the bottom of the second questionnaire input screen is designated with a mouse (not shown). To do. In response to this, as a result of the information input on the questionnaire input screen by the predetermined person in charge being transmitted to the server device 20, the above step 202 becomes an affirmative determination, and the routine proceeds to step 204.

  In step 204, information input by the predetermined person in charge on the first and second questionnaire input screens is stored (registered) in a state where it is associated with the building ID of the planned building.

  That is, the information input on the first questionnaire input screen is stored in the corresponding column of the asset value information database DB3. At this time, the CPU 20A generates a department ID that has not been registered in the asset value information database DB3 and stores it in the asset value information database DB3. On the other hand, the information input on the second questionnaire input screen is stored in the corresponding column of the vulnerability level value database DB4. At this time, the CPU 20A also stores information indicating the total amount of assets included in the information stored in the asset value information database DB3 in the corresponding asset amount column of the vulnerability level value database DB4.

  In the next step 206, information inputted on the questionnaire input screen from the contact information of all the planned departments (planned departments) indicated by the information stored in the predetermined area of the secondary storage unit 20D in the building information input processing program. It is determined whether or not the input (reception) has been completed. If a negative determination is made, the process returns to step 202. When an affirmative determination is made, the process proceeds to step 208.

  By the above processing, the asset value information database DB3 shown in FIG. 6 as an example and the vulnerability level value database DB4 shown in FIG. 7 as an example are constructed. However, at this time, the target vulnerability level value is not registered in the target vulnerability level value column in the vulnerability level value database DB4.

  In step 208, information indicating a predetermined allowable loss input screen is transmitted to a predetermined client device 40 (here, the client device 40 owned by the manager who manages the planning target company). Thus, the allowable loss amount input screen is displayed on the display 42 of the client device 40, and in the next step 210, input of predetermined information is awaited.

  The manager performs an operation of causing the display 42 of the client device 40 to display an allowable loss amount input screen indicated by the received information. FIG. 14 shows an example of an allowable loss amount input screen displayed on the display 42 of the client device 40 by this operation. As shown in the figure, a rectangular frame for inputting an allowable loss amount (damage amount) for one year in the planning target company is displayed on the allowable loss amount input screen according to the present embodiment. Therefore, the manager inputs the allowable loss amount for one year in the planning target company in the rectangular frame, and then points to the “End” button displayed at the bottom of the allowable loss input screen with the mouse. specify. In response to this, the information indicating the allowable loss amount input on the allowable loss amount input screen by the manager is transmitted to the server device 20. As a result, step 210 is affirmative and the process proceeds to step 212. It should be noted that the input person of the allowable loss amount is not limited to the manager, and it is needless to say that it may be, for example, an executive other than the manager of the planning target company, or another person such as the registration requester.

  In step 212, the crime occurrence probability is calculated based on the information indicating the construction position of the planned building registered in the building information database DB1. Here, the calculation is performed as follows.

  First, a non-anonymous level value X and a monitoring level value Y corresponding to the construction position are read from the parameter database DB2, and a regression equation (for example, equation (2)) for calculating the crime occurrence probability is used as the secondary storage unit 20D. Read from.

  Then, the crime occurrence probability is calculated by substituting the read non-anonymous level value X and the monitoring level value Y into the read regression equation. Thereby, the crime occurrence probability at the position where the planning target building is constructed can be obtained.

  In the next step 214, the target vulnerability level value Fj for each planning target department is calculated by the following equation (4).

Here, L is the allowable loss amount input on the allowable loss amount input screen, N is the crime occurrence probability calculated by the processing of step 212, and Aj is the asset amount of the asset of the corresponding plan target department j Is represented respectively. The asset amount Aj can be obtained by reading the asset amount corresponding to the planning target department from the vulnerability level value database DB4.

  In the next step 216, the target vulnerability level value Fj for each planning target department obtained by the processing in step 214 is stored in the target vulnerability level value column of the vulnerability level value database DB4. Run the processing routine program.

  Hereinafter, the department allocation processing routine program according to the present embodiment will be described with reference to FIG. Here, in order to avoid complications, a case will be described in which each planning target section is arranged on one floor of the planning target building (hereinafter referred to as “planning target floor”).

  In step 300 in the figure, the permissible floor area corresponding to the planning target floor is read from the building information database DB1, and the required floor area and target vulnerability level value Fj corresponding to the planning target department are read from the vulnerability level value database DB4. read out.

  In the next step 302, the planning target departments are classified for each magnitude of the target vulnerability level value Fj read out by the processing in step 300.

  That is, first, it is determined in which range the read target vulnerability level value Fj is included in a predetermined range of multiple levels. In the department allocation processing routine program according to the present embodiment, the range defined in the countermeasure information database DB5 is applied as the range of the plurality of stages. For example, when the countermeasure information database DB5 is as shown in FIG. 8, the range is greater than 0.5, greater than 0.1, less than 0.5, greater than 0.05, and 0. The range of 1 or less is applied.

  Next, the planning target departments determined to be included in the same range by this processing are stored in a predetermined area of the secondary storage unit 20D together with information indicating the corresponding ranges, assuming that the departments belong to the same group.

  In the next step 304, each planning target department is arranged with respect to the allowable floor area of the planning target floor so that the planning target departments determined to belong to the same group by the processing of step 302 are continuously gathered. . At this time, the CPU 20A arranges a room owned by each planning target department for each planning target department so that a necessary floor area can be secured.

  In the next step 306, it is determined whether or not all the planning target departments have been arranged within the allowable floor area by the process of step 304. If the determination is affirmative, the department arrangement processing routine program is terminated. On the other hand, when it becomes negative determination, it transfers to step 308.

  In step 308, it is determined whether or not the arrangement by the processing in step 304 has been completed for all arrangement patterns (arrangement combinations). If the determination is affirmative, the process proceeds to step 310, but the determination is negative. If so, the process returns to step 304 above. When the processes in steps 304 to 308 are repeatedly executed, in step 304, the arrangement is performed with an arrangement pattern that has not been arranged so far.

  In step 310, information indicating that the planning target department cannot be arranged (hereinafter referred to as “arrangement impossible information”) is stored in a predetermined area of the secondary storage unit 20 </ b> D, and then the main department arrangement processing is performed. End the routine program. When the department allocation processing routine program ends, the process proceeds to step 220 of the allocation plan creation processing program (see FIG. 11).

  In step 220, whether or not the placement of the planning target department is completed by the department placement processing routine program is determined by determining whether or not the placement impossible information is not stored in a predetermined area of the secondary storage unit 20D. If the result of determination is negative, the process proceeds to step 222, and information indicating that the planned department has not been allocated is sent to the predetermined client device 40 (in this case, the request source for the planning of the allocation plan). Information (not shown) indicating that the planning target department could not be arranged is displayed on the display 42 of the client apparatus 40, and then this arrangement plan creating process is performed. Exit the program.

  On the other hand, if the determination in step 200 is affirmative, the process proceeds to step 224, and information indicating measures corresponding to all the groups including the planning target department obtained by classification by the department arrangement processing routine program is displayed. In the next step 226, which is read out from the countermeasure information database DB5, information indicating a department allocation result presentation screen in a predetermined format is constructed based on various information obtained by the above processing, and a predetermined client device 40 (here, the client device 40 that has requested the formulation of the allocation plan), the department allocation result presentation screen is displayed on the display 42 of the client device 40, and then the actual allocation plan is created. Terminate the processing program.

  FIG. 16 shows an example of a department arrangement result presentation screen displayed on the display 42 by the processing of step 226 described above. By referring to such a screen, it is possible to easily grasp the arrangement state of the planning target department and the security measures when the arrangement state is adopted.

  As described above in detail, in the present embodiment, a plurality of unit areas (here, areas in units of plan target units) arranged in a building (in this case, a planning target building) that is the target of creation of an arrangement plan. Deriving a target vulnerability level value, which is a target value of a vulnerability level value indicating the degree of vulnerability to crime for each unit area, and classifying each of the plurality of unit areas for each target vulnerability level value. Since the plurality of unit areas are arranged in the building so that the unit areas classified into the same group are continuously gathered, regardless of the number of unit areas belonging to each group, countermeasures against crimes for each group Therefore, it is possible to create an efficient arrangement plan for preventing crime.

  Further, in the present embodiment, the asset information indicating the asset amount of the asset each of the plurality of unit areas and the allowable loss information indicating the allowable loss amount of the entire plurality of unit areas are input, the asset information and the Since the target vulnerability level value is derived based on the permissible loss information, the target vulnerability level value can be derived more accurately, so that an arrangement plan can be created more accurately.

  Further, in the present embodiment, position information indicating the construction position of the building is further input, and the crime occurrence probability at the construction position indicated by the input position information indicates the past crime occurrence status within a predetermined area. Since the target vulnerability level value is derived based on the inputted asset information and the allowable loss information and the derived crime occurrence probability derived based on the crime situation information, the target vulnerability level value is more accurately determined. As a result, it is possible to create an arrangement plan more accurately.

  In the present embodiment, the target vulnerability level value is derived for each unit area by the equation (4), so that the target vulnerability level value can be derived more accurately, so that an arrangement plan can be created more accurately. can do.

  Further, in the present embodiment, the crime status information is information indicating the occurrence status of theft accompanying intrusion into the past building in the predetermined area, and the crime occurrence probability is theft of theft accompanying the intrusion into the building. Since the probability of occurrence is derived, the probability of crime occurrence corresponding to theft involving intrusion to the building can be obtained. As a result, the target vulnerability level value can be derived more accurately. Can be created.

  In the present embodiment, countermeasure information indicating a predetermined security countermeasure corresponding to the magnitude of the target vulnerability level value is stored in advance, and the boundary position between the groups (here, the security line) is stored. Since the security measure indicated by the measure information corresponding to the corresponding target vulnerability level value is planned, an arrangement plan including the security measure can be easily created.

  Further, in the present embodiment, since the arrangement result information indicating the arrangement result is displayed, the arrangement result determined for the user can be easily grasped, so that the convenience for the user is improved. Can do.

  Note that the configuration of the arrangement plan creation system 10 described in the present embodiment (see FIGS. 1 to 3) is merely an example, and it is needless to say that the arrangement plan creation system 10 can be appropriately changed without departing from the gist of the present invention.

  For example, in the present embodiment, the case where the present invention is applied to a client / server system has been described. However, the present invention is not limited to this and may be applied to a personal computer alone. . As an example of the form in this case, the form which makes the server apparatus 20 which concerns on this Embodiment bear the process performed by each client apparatus 40 can be illustrated. In this case, needless to say, it is not necessary to perform communication between the server apparatus 20 and the client apparatus 40 described in the present embodiment. Also in this case, the same effects as in the present embodiment can be obtained.

  Further, in the present embodiment, the case where the area of the planning target department is applied as the unit area of the present invention has been described, but the present invention is not limited to this, for example, the area of the entire company or the room unit It is good also as a form which applies the area | region of. In these cases, the same effects as in the present embodiment can be obtained.

  The processing flow of various programs shown in the present embodiment (see FIGS. 9, 11, and 15) is also an example, and it goes without saying that it can be changed as appropriate without departing from the gist of the present invention. Yes.

  For example, in the arrangement plan creation processing program according to the present embodiment, the case where the information indicating the arrangement result is visually displayed on the display 42 has been described. However, the present invention is not limited to this and is permanently set by the image forming apparatus. A form of visual display or an audible display by a sound generation device may be used. In these cases, the same effects as in the present embodiment can be obtained.

  Further, in the department allocation processing routine program according to the present embodiment, the case where the area to be allocated to each planning target department is only one floor of the planning target building has been described, but the present invention is limited to this. As an example, as shown in FIG. 17, the entire planning target building may be an arrangement target, and a plurality of buildings may be an arrangement target.

  As an example of the case where the entire planning target building is set as an arrangement target, as shown in FIG. 17, an example is shown in which the planning target department is arranged on a different floor for each group obtained in the department arrangement processing routine program. be able to. In this case, a security line may be set for a vertical flow line such as an elevator or a staircase.

  Similarly, as a form example in the case where a plurality of buildings are to be arranged, a form in which planning target departments are arranged in different buildings for each group obtained in the department arrangement processing routine program can be exemplified. In this case, a security line may be set for the entrance and exit of each building.

  In these cases, the same effects as in the present embodiment can be obtained.

  The configurations of various screens shown in the present embodiment (see FIGS. 10, 12 to 14, and 16) are also examples, and can be appropriately changed without departing from the gist of the present invention. Needless to say.

  Various arithmetic expressions (formulas (1) to (4)) shown in this embodiment are also examples, and it goes without saying that they can be changed as appropriate without departing from the gist of the present invention.

  Furthermore, the configuration of various databases shown in the present embodiment (see FIGS. 4 to 8) is also an example, and it goes without saying that it can be changed as appropriate without departing from the gist of the present invention.

  For example, the amount of assets for each room in the asset value information database DB3 and the amount of assets for accessible servers are not necessarily required, and these pieces of information can be deleted.

It is a schematic diagram which shows the structure of the arrangement plan creation system which concerns on embodiment. It is a block diagram which shows the principal part structure of the electric system of the server apparatus which concerns on embodiment. It is a schematic diagram which shows the main memory content of the secondary storage part with which the server apparatus which concerns on embodiment was equipped. It is a schematic diagram which shows the structure of the building information database which concerns on embodiment. It is a schematic diagram which shows the structure of the parameter database which concerns on embodiment. It is a schematic diagram which shows the structure of the asset value information database which concerns on embodiment. It is a schematic diagram which shows the structure of the vulnerability level value database which concerns on embodiment. It is a schematic diagram which shows the structure of the countermeasure information database which concerns on embodiment. It is a flowchart which shows the flow of a process of the building information input process program which concerns on embodiment. It is the schematic which shows the display state of the building information input screen which concerns on embodiment. It is a flowchart which shows the flow of a process of the arrangement plan creation process program which concerns on embodiment. It is the schematic which shows the display state of the 1st questionnaire input screen which concerns on embodiment. It is the schematic which shows the display state of the 2nd questionnaire input screen which concerns on embodiment. It is the schematic which shows the display state of the allowable loss amount input screen which concerns on embodiment. It is a flowchart which shows the flow of a process of the division | segmentation arrangement | positioning process routine program which concerns on embodiment. It is the schematic which shows the display state of the department arrangement result presentation screen which concerns on embodiment. It is a schematic diagram with which it uses for description of the modification of embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Arrangement plan creation system 12 Network 20 Server apparatus 20A CPU (Derivation means, classification means, arrangement means, 2nd derivation means, countermeasure plan means)
20D secondary storage (crime status information storage means, countermeasure information storage means)
20G I / O port (input means)
40 Client device 42 Display (display means)
DB1 Building information database DB2 Parameter database DB3 Asset value information database DB4 Vulnerability level value database DB5 Countermeasure information database

Claims (9)

A derivation means for deriving a target vulnerability level value, which is a target value of a vulnerability level value indicating the level of vulnerability to crime for each unit area of a plurality of unit areas arranged in a building to be created in an arrangement plan;
Classification means for classifying the plurality of unit areas for each size of the target vulnerability level value derived by the derivation means;
Arranging means for arranging the plurality of unit areas in the building so that the unit areas classified into the same group by the classification means are continuously collected;
Arrangement plan creation device equipped with. Input means for inputting asset information indicating the amount of assets of each of the plurality of unit areas and allowable loss information indicating the allowable loss amounts of the plurality of unit areas as a whole,
The arrangement plan creating apparatus according to claim 1, wherein the deriving unit derives the target vulnerability level value based on the asset information and the allowable loss information input by the input unit. The input means further inputs position information indicating a construction position of the building,
A crime situation information storage means in which crime situation information indicating a past crime occurrence situation within a predetermined area is stored;
Second derivation means for deriving a crime occurrence probability at the construction position indicated by the position information input by the input means based on the crime situation information;
Further comprising
The derivation unit derives the target vulnerability level value based on the asset information and the allowable loss information input by the input unit and the crime occurrence probability derived by the second derivation unit. The arrangement plan creation device described. The derivation means, when L is the allowable loss amount, N is the crime occurrence probability, Aj is the asset amount of the asset of the unit area j, and Fj is the target vulnerability level value of the unit area j, The arrangement plan creation device according to claim 3, wherein the target vulnerability level value Fj is derived for each unit area by the following arithmetic expression.
The crime status information is information indicating the occurrence status of theft involving intrusion to a past building in the predetermined area,
5. The arrangement plan creation device according to claim 3, wherein the second derivation unit derives an occurrence probability of theft accompanying intrusion into the building as the crime occurrence probability. Countermeasure information storage means in which countermeasure information indicating a predetermined security countermeasure corresponding to the size of the target vulnerability level value is stored in advance;
Measures planning means for planning to perform security measures indicated by the measures information corresponding to the corresponding target vulnerability level values at the boundary positions between the groups;
The arrangement plan creation device according to any one of claims 1 to 5, further comprising: The arrangement plan creation device according to claim 1, further comprising display means for displaying arrangement result information indicating an arrangement result by the arrangement means. A derivation step of deriving a target vulnerability level value, which is a target value of a vulnerability level value indicating the level of vulnerability to crime for each unit area of a plurality of unit areas arranged in a building that is a target of creation of an arrangement plan;
A classifying step of classifying the plurality of unit regions for each size of the target vulnerability level value derived by the deriving step;
An arrangement step of arranging the plurality of unit regions in the building so that the unit regions classified into the same group by the classification step are continuously gathered;
An arrangement plan creation method comprising: A derivation step for deriving a target vulnerability level value, which is a target value of a vulnerability level value indicating the degree of vulnerability to crime for each unit area of a plurality of unit areas arranged in a building to be created in the arrangement plan;
A classification step of classifying the plurality of unit areas for each size of the target vulnerability level value derived by the deriving step;
An arrangement step of arranging the plurality of unit regions in the building so that the unit regions classified into the same group by the classification step are continuously gathered;
An arrangement plan creation program that causes a computer to execute.