JP4258266B2 - Crisis management support method, apparatus and program for parts supply system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a case where a parts supply base is damaged by using a computer when a disaster occurs in a system that produces parts by receiving parts supply from a plurality of parts supply bases, or when a disaster is predicted to occur. The present invention relates to a crisis management support method, apparatus, and program for a component supply system that provides support for quickly determining the impact on the final product and responding to a damaged component supply system.
[0002]
[Prior art]
Usually, when a product composed of a plurality of parts is produced, there is a parts supply system for receiving parts supply from a plurality of parts supply bases. For example, in the case of a product made up of an enormous number of parts such as an automobile, the parts supply system is connected in a wide variety of stages and in a wide range.
In such a component supply system, part of the system (part supply base in the system and part of the route connecting them) cannot be fully functioned due to the effects of disasters such as earthquakes, or the function is stopped. May affect the production of final products, etc., so it is possible to predict the occurrence of a disaster, quickly determine the impact of the disaster on the final product, and respond quickly to damaged parts supply systems If it can be performed, it is preferable for crisis management of the component supply system.
[0003]
For this reason, a technique for predicting the occurrence of a disaster and a region where the disaster occurs based on weather information has been devised (see Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-31533 A
[0005]
[Problems to be solved by the invention]
The technology described in the above-mentioned Patent Document 1 predicts a region where a disaster occurs, but does not calculate even the influence of the disaster that has occurred on the parts supply network and the final product. It was not enough to support crisis management.
Therefore, in the present invention, there is provided a component supply system crisis management support method, apparatus, and program capable of supporting the crisis management of the component supply system by calculating the influence of a disaster on the component supply network and the final product. It is to provide.
In the present invention, disasters include not only natural disasters such as typhoons and earthquakes, but also man-made disasters such as wars and terrorism, or accidents and strikes at production bases. This is to calculate the effect on the parts supply network and the final product when troubles occur.
[0006]
[Means for solving the problems]
The component supply system crisis management support method, apparatus, and program of the present invention for solving the above-described problems have the following features.
That is, in claim 1, the crisis management support method for a component supply system is when a disaster occurs in a system that produces components by receiving component supply from a plurality of component supply bases, or when a disaster is predicted to occur. In addition, a method for supporting crisis management of a parts supply system using a computer, At least the location information of the location where the normal function could not be fully exhibited or stopped due to the influence of the disaster The step of acquiring the disaster occurrence corresponding area information from the input unit, the step of reading the map information including the location information of the parts supply base into the storage unit, and the influence of the disaster from the disaster occurrence corresponding area information and the map information Determining the location to receive the operation by calculation of the calculation unit, acquiring the information of the component group supplied by the component supply base suffering the disaster from the storage unit, and acquiring the information of the component group, the component supply base suffering the disaster A product group that uses the parts supplied from is calculated by calculation of the calculation unit, and the production base of the calculated product group is displayed.
As a result, in this way, the damaged parts supply base can be quickly identified, and in order not to affect the production of the final product, for example, the same parts as the damaged parts supply base are produced. It is possible to instantly determine which parts need to be recovered, such as having the parts supplied from other parts supply bases, and sufficiently support crisis management of the parts supply system It becomes possible.
[0007]
According to a second aspect of the present invention, when the disaster management support device of the component supply system receives a component supply from a plurality of component supply bases and produces a product, or when a disaster is predicted to occur In addition, it is a device that supports crisis management of the parts supply system, At least the location information of the location where the normal function could not be fully exhibited or stopped due to the influence of the disaster From the storage means for storing the disaster occurrence applicable area information, the map information including the location information of each parts supply base, the information of the parts supplied from each parts supply base, and the information of the products using the parts, and the storage means Above Obtain map information that includes information on the area where the disaster occurred and location information of the parts supply base, and calculate the location of the affected area to determine the location affected by the disaster, and the parts group supplied by the determined damaged parts supply base Obtained information from the storage means, and obtained and calculated the damaged product group calculation means for determining the product group that uses the part Above Information on the area where the disaster occurred, map information including location information of parts supply bases, information on locations affected by disasters, information on parts groups supplied by parts supply bases in locations affected by disasters, and parts supply bases affected by disasters Display means for displaying information on the product group including the production base of the product group that uses the parts to be supplied.
As a result, it is possible to grasp the geographical location of the affected area and to produce the same parts as the parts supply base belonging to the affected area, for example, so as not to affect the production of the final product. It is possible to instantly determine which parts must be recovered, such as having the parts supplied from other parts supply bases.
Furthermore, it is possible to quickly plan the correspondence of the production process of the final product that involves the parts produced at the parts supply base in the affected area.
And, it becomes possible to sufficiently provide crisis management support for the parts supply system.
[0008]
According to a third aspect of the present invention, the determination of the location affected by the disaster by the disaster location calculation means is performed in units of parts supply bases.
Thereby, when a disaster occurs, the disaster location can be specified and displayed as the disaster component supply base easily and clearly. In addition, for example, when a situation occurs in which a parts supply base is unable to produce parts due to a fire, etc., it is possible to quickly grasp what kind of effect will occur on the final product, and supply parts Since it is possible to grasp at a glance which part supply base of the system should be changed to another part supply base, it is possible to sufficiently provide crisis management support for the part supply system.
[0009]
According to a fourth aspect of the present invention, the calculation of the location affected by the disaster by the disaster location calculation means is performed by designating a predetermined range.
Thereby, when a disaster occurs, it is possible to specify and display a plurality of parts supply bases included in the designated range collectively as a disaster location only by designating a certain range. In addition, for example, if an earthquake occurs over a wide area, and there is a situation where parts cannot be produced at the parts supply base in that area, it is possible to quickly grasp the impact on the final product. can do. In addition, it is possible to grasp at a glance which component supply base of the component supply system should be changed to another component supply base.
[0010]
According to a fifth aspect of the present invention, the location affected by the disaster determined by the disaster location calculation means includes a transportation route connecting the parts supply bases.
Thereby, not only the parts supply base, but also the transportation routes of the parts included in the designated range can be specified and displayed as the disaster location. For example, when an earthquake occurs over a wide area, not only the damaged parts supply base in the area but also the damaged route such as the route where parts transported through the area become untransportable I can grasp it.
Therefore, it is possible to quickly and surely understand what kind of impact will occur on the final product, and in addition to responding to changes in the parts supply base, it is possible to determine which route the parts transportation route should be changed to. It is possible to grasp at a glance, and it is possible to sufficiently provide crisis management support for the parts supply system.
[0011]
According to a sixth aspect of the present invention, the component supply system crisis management support program is used when a disaster occurs or a disaster is predicted to occur in a system that produces components by receiving component supply from a plurality of component supply bases. And a program for supporting crisis management of the component supply system, which is stored in the storage means. Include at least the location information where the normal function could not be fully demonstrated or the function was stopped due to the influence of the disaster Obtain map information with information on the area where the disaster occurred and location information of parts supply bases, and store the procedure for determining the location affected by the disaster and information on the parts group supplied by the affected parts supply base A procedure for obtaining a product group obtained from the means and using the part, and obtaining and indexing were performed. Above Information on the area where the disaster occurred, map information including location information of parts supply bases, information on locations affected by disasters, information on parts groups supplied by parts supply bases in locations affected by disasters, and parts supply bases affected by disasters And causing the computer to execute a procedure for displaying information on the product group including the production base of the product group that uses the supplied parts on the display means.
As a result, it is possible to grasp the geographical location of the affected area and to produce the same parts as the parts supply base belonging to the affected area, for example, so as not to affect the production of the final product. It is possible to instantly determine which parts must be recovered, such as having the parts supplied from other parts supply bases.
Furthermore, it is possible to quickly plan the correspondence of the production process of the final product that involves the parts produced at the parts supply base in the affected area.
And, it becomes possible to sufficiently provide crisis management support for the parts supply system.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the accompanying drawings.
As shown in FIG. 1, a component supply system crisis management support apparatus according to the present invention is a computer having functions of calculation, input, output, storage, and control, and includes information on disaster occurrence areas, component development information, and component information. , A database 1a storing product information, map information including map data, road network information, parts supply base location information, and the like, and a program for executing various processes of the crisis management support device are stored. The storage means 1 provided with the program storage unit 1b, the input means 2 for inputting these information into the database 1a, the information on the disaster location calculation unit 3a and the database 1a for determining the disaster location based on the information of the database 1a The calculation means 3 provided with the damaged product calculation unit 3b for determining the damaged product based on the disaster occurrence location stored in the database 1a Information, component development information includes map information, parts information, and product information, etc. and, calculated affected location, and an output means 5 for outputting and displaying disaster products.
[0013]
When a product that receives crisis management support from a parts supply system is a product composed of an enormous number of parts, such as an automobile, the final product is composed of many parts. The relationship between a product and a part is linked in many stages and widely.
For example, as shown in FIG. 2, the final product A is composed of primary parts B1, B2,..., And the primary part B1 is composed of secondary parts C1, C2, and the secondary parts. C1 is composed of tertiary parts D1 and D2, and tertiary part D1 is composed of quaternary parts E1, E2, E3, and E4, and so on. Is deployed.
[0014]
The component development information as shown in FIG. 2 is stored in the database 1a, and the component supply information corresponding to the components A, B1, C1,... Included in the component development information is stored in the database 1a. It is remembered.
For example, as shown in FIG. 2, as the component supply information, the component supply information a is associated with the final product A, the component supply information b1 is associated with the primary component B1, and the primary component B1 is Parts supply information c1 and c2 are associated with the developed secondary parts C1 and C2, respectively.
[0015]
As shown in FIG. 3, the component supply information a · b1 · c1... Is one type of information related to the component supply of the final product A and the components B1, C1.
Specifically, the information related to the component supply includes the component of the component, the production process of the component (there may be a plurality of components), the latest low-order component constituting the component (for example, the latest low-order constituting the component B1) The parts of C1 and C2), the attributes of the latest low-order parts that make up the parts (for example, whether they are dedicated parts or general-purpose parts), and the number of types of the latest low-order parts that make up the parts , Parts logistics information (for example, whether stocked in warehouse or delivered directly from production process, whether delivered via trading company or delivered directly), This is information on the moving distance of a part, the defect rate during production of the part, the cost of the part, and the lead time of the part.
[0016]
Further, referring to FIG. 3, for example, a product area 209 of the component supply information a displays products produced in the process of the production base A itself. Although the name “A” is displayed here, it may be displayed by a product number or the like. In the component supply information b1, the component B1 is displayed as a product to be produced.
In the component part area 211, the latest low-order parts group constituting the product in the product area 209 is displayed. In the parts supply information a, parts B1 and B2 are displayed as parts constituting the product A.
[0017]
In the component part production process area 213, a display showing a production process for producing the latest low-order part is made. For example, the part supply information a illustrates that the part “B1” is produced by “Okazaki 2Aa” and “Okazaki 3Bb” meaning “process 2Aa in Okazaki” and “process 3Bb in Okazaki”. .
[0018]
In the parts number area 215, the number of parts is displayed as a number. Here, the number of parts refers to the total number of the latest low-order parts used to manufacture one product (the parts produced in each process below the primary part).
[0019]
In the component type number / component attribute area 217, the number of component types and attributes are displayed. Here, as the number of types of parts, how many versions of the same part are manufactured is displayed with numerals.
In addition, as an attribute of a part, a dedicated product, a common product, or a general-purpose product is distinguished and displayed. For example, in the part supply information a, there are two versions of the part “B1” produced in “Okazaki 2Aa”, and the number “2” is displayed as the part type. Since “B1” is a dedicated product, it is displayed in the “special product” column of the autopsy attribute.
[0020]
The logistics information area 219 stores logistics information from the production process to the delivery process of parts. “Stock” when delivered from stock, “trade” when delivered via a trading company, and “delivery” under conditions that require compensation for delivery services. "Consideration required" is displayed.
[0021]
In the movement distance area 221, the movement distance from the production process to the next process of each part is displayed with a horizontal bar axis corresponding to the length.
For example, the distance from the production process “process 2Aa in Okazaki” to the own process (process in which the product A is produced) is stored in correspondence with the primary part B1.
[0022]
In the defect rate area 223, the probability of occurrence of a defective product during parts production is displayed with a horizontal bar axis corresponding to the size of the percentage.
[0023]
In the cost area 225, the cost of the part is displayed with a horizontal bar axis corresponding to the high price.
[0024]
In the lead time area 227, the lead time from ordering to delivery of parts is displayed as a horizontal bar axis corresponding to the length of time. Here, the lead time is displayed divided into lead times from ordering to delivery, and orders are received in the low-order production process (in the case of part B1, the parts C1 and C2 that are the component parts are produced). Represents the in-process lead time required for the completion of production, the inventory lead time that is stored until the completed parts are shipped, and the time required for transportation between the low-order production process and the high-order production process Displayed as either the transport lead time or the sum of these.
[0025]
A database having the same structure as the component supply information a described above is also created for the component supply information b1 and the component supply information c1.
In this way, the parts supply information a · b1 · c1... Includes at least information on the component parts to be produced and the production process of the parts.
And these parts supply information a * b1 * c1 ... is contained in the product information and parts information which are memorize | stored in the database 1a.
[0026]
The part supply information a · b1 · c1... Includes information indicating in which production process the component parts of each part are produced, that is, in which part supply base. In relation to this information, It also includes component supply base information (for example, the zip code or address of the location of the component supply base) for specifying the position of each component supply base.
[0027]
Further, the database 1a stores map data of necessary areas and road network data representing a road network. The map data and the road network data are not limited to information on a part of the country or information on the whole country, but may be information on a part of the world or the whole world.
[0028]
As shown in FIG. 4, the above-described parts development information, product information, parts information, parts supply base information, map data, road network data, and the like can be displayed on the output means 5 such as a monitor. .
The output means 5 displays map data 11 indicating the terrain of a desired area, and the map data 11 has a position corresponding to each location based on the parts development information and parts supply base information described above. The parts supply bases 12, 13a, 14a,... Are displayed.
[0029]
The base indicated by the numeral “0” on the map data 11 is the production base 12 where the final product A is produced, and the base indicated by the numeral “1” is the primary part B 1. B2... Are primary part supply bases 13a and 13b for supplying the final product A to the production base 12, and the base indicated by the numeral “2” is the secondary part C1. Secondary parts supply bases 14a, 14b, 14c, for producing C2... And supplying them to primary parts supply bases 13a, 13b, which are production bases of primary parts B1, B2,. 14d and indicated by the numeral "3" are secondary parts that produce tertiary parts D1, D2,... And are production bases of secondary parts C1, C2,. Tertiary parts supply bases 15a, 15b, 15c for supplying to the supply bases 14a, 14b, ... Yes, the base indicated by the numeral “4” is the third part supply base that produces the fourth parts E1, E2,... And is the production base for the third parts D1, D2,. This is a fourth part supply base 16a for supplying to 15a, 15b and 15c.
[0030]
On the map data 11, between the production base 12 and the primary part supply bases 13a and 13b, the primary part supply bases 13a and 13b, and the secondary part supply bases 14a, 14b, 14c, and 14d, Between the secondary parts supply bases 14a, 14b, 14c and 14d and the tertiary parts supply bases 15a, 15b and 15c, the tertiary parts supply bases 15a, 15b and 15c and the fourth parts supply base A road network 17, 17... That connects to 16 a is displayed.
[0031]
This road network 17, 17 ... is for supplying the fourth part E1, E2, ... produced at the fourth part supply base 16a to the third part supply base 15a, 15b, 15c. Route, route for supplying tertiary parts D1, D2,... Produced at tertiary part supply bases 15a, 15b, 15c to secondary part supply bases 14a, 14b, 14c, 14d, A route for supplying secondary parts C1, C2,... Produced at the secondary parts supply bases 14a, 14b, 14c, 14d to the primary parts supply bases 13a, 13b, and primary parts supply. The routes for supplying the primary parts B1, B2,... Produced at the bases 13a, 13b to the production base 12 of the final product A are shown.
The road network is set via a port when parts supply is performed using a sea route, and is set via an airport when the parts supply is performed using an air route.
[0032]
The contents such as parts development information, product information, parts information, parts supply base information, map data and road network data stored in the database 1a can be added, changed, deleted, etc. through the input means 2. Is possible.
[0033]
In addition, when the occurrence of a disaster such as an earthquake occurs or when the occurrence of a disaster is predicted, the database 1a is input with the disaster occurrence corresponding area information regarding the corresponding area of the disaster that has occurred.
Here, disaster-affected area information refers to location information of locations where normal functions could not be fully demonstrated or stopped due to the effects of disasters, such as earthquakes and typhoons. This is position information of a location where a building or road is damaged or flooded due to the above.
[0034]
For the input of the area corresponding to the occurrence of the disaster, the input of the production base 12 and the parts supply bases 13a, 14a,... Input. In the case of an input specifying a certain range, the range may include a plurality of parts supply bases 12, 13 a, 14 a... And a road network 17, 17.
By inputting this disaster occurrence area information into the database 1a, the crisis management support information can be displayed on the output means 5.
[0035]
Next, a flow when crisis management support information is displayed on the crisis management support apparatus will be described. The following procedure is executed by a program stored in the program storage unit 1b.
As shown in FIG. 5, first, the data collection and maintenance of the database 1a are performed by inputting various data relating to the respective parts supply base stored in the database 1a from the input means 2 (S201). Data collection and maintenance of the database 1a is performed as appropriate when data in the database 1a is added or changed.
Moreover, the information regarding each part B1, C1,... Such as the component production process and the number of parts as shown in FIG. 3 is directly input from the input device 2, and the parts supply bases 13a, 14a,. Can be input using a terminal device installed at the component supply bases 13a, 14a.
[0036]
As described above, the crisis management support device in the state where the database 1a has been prepared includes the disaster occurrence corresponding area information on the corresponding area of the disaster that occurred when the disaster occurred or when the occurrence of the disaster is predicted. The input is performed. As described above, this input can be performed by appropriately selecting an input specifying a location unit of a component supply base or a certain range.
[0037]
In this crisis management support device, prior to inputting the disaster-affected area information, it is determined whether the disaster that has occurred is a disaster that has occurred at each site or a disaster that has occurred within a certain range. Then, it is selected whether to input the disaster occurrence relevant area information in units of parts supply bases or by designating a certain range on the map data 11 (S202).
[0038]
When the input type is selected to input the disaster occurrence corresponding area information for each part supply base, the disaster occurrence corresponding area information is input for each part supply base (S203). The input of the disaster occurrence relevant area information can be specified by specifying each base on the displayed map data 11, or by displaying a list of bases on the display means 5 and selecting from the list. . In this case, it is also possible to select a plurality of component supply base units at the same time.
Thereby, the crisis management support device can acquire the disaster occurrence corresponding area information.
[0039]
When the disaster occurrence relevant area information is input, the calculation means 3 reads and acquires the map information including the map data 11, parts development information, parts supply base information, etc. from the database 1a (S204).
Next, the disaster location calculation unit 3a of the computing unit 3 compares the disaster component supply base input as the disaster occurrence relevant area information with the component supply base included in the acquired map information, The component development information of the corresponding component supply base is searched and determined (S205).
Component supply information as component information related to the component supply base is associated with the component development information of the damaged component supply base (for example, the component supply information b1 for the primary part B1 in the component development information). Are associated with each other), the calculation means 3 acquires information on a component group supplied by the component supply base (S206).
When the information on the parts group supplied by the damaged parts supply base is acquired, the damaged product calculation unit 3b of the calculation means 3 searches the database 1a for information on the product group assembled using the parts group and acquires the information. (S207).
[0040]
After acquiring these information, the parts supply bases 12, 13 a, 14 a... And the road network 17, 17. Based on the local information, the parts supply base affected by the disaster is specified and displayed (S208).
At the same time, a list of parts produced by the parts supply base affected by the disaster and a list of final products using these parts are also displayed.
[0041]
For example, as shown in FIG. 6, the display means 5 includes, on the map data 11, a production base 12, primary parts supply bases 13a and 13b, secondary parts supply bases 14a, 14b, 14c, and 14d. The tertiary part supply bases 15a, 15b, 15c, the fourth part supply base 16a, and the road network 17, 17,... Are displayed.
Furthermore, the secondary parts supply base 14a that is input as affected by the disaster, the third parts supply base 15a that is a direct low-order parts supply base developed from the secondary parts supply base 14a, and the production The bases 12 are highlighted to indicate that these bases 12, 14a, 15a are affected by the disaster.
[0042]
In addition to the map information, the name of the base affected by the disaster (in this case, the secondary parts supply base 14a), the name of the parts supplied by the base affected by the disaster (for example, piston xa / xb), The name of the final product to be supplied (for example, engines Xa and Xb) is displayed as character information.
[0043]
Thus, by displaying the development information of each component supply base on the map data 11 together with the display specifying the damaged component supply base, the geographical position of the damaged component supply base can be grasped. .
In addition, by displaying a list of damaged parts supply bases and parts produced at those parts supply bases, in order not to affect the production of the final product A, which parts are recovered (for example, It is possible to instantly determine whether or not the parts must be supplied from other parts supply bases that produce the same parts.
Furthermore, by displaying a list of the final products related to the parts produced at the damaged parts supply base, it is possible to quickly plan the response to the production process of the final products at the time of a disaster.
[0044]
On the other hand, when the input of the disaster occurrence corresponding area information is designated as a range in the selection of the input type in S202, the disaster occurrence corresponding area information is designated by an address unit such as prefecture, city, town, village, or on the map data 11. A predetermined range is input such as designating a desired range (S213). In this case, it is also possible to select a plurality of ranges simultaneously.
Thereby, the crisis management support device can acquire the disaster occurrence corresponding area information.
When the disaster occurrence relevant area information is input, the calculation means 3 reads and acquires the map information including the map data 11, parts development information, parts supply base information, etc. from the database 1a (S214).
Next, the disaster area calculation unit 3a of the calculation means 3 compares the disaster area input as the disaster occurrence relevant area information with the parts supply base and road network included in the acquired map information and includes them in the disaster area. The parts development information of the parts supply base to be searched and the parts development information of the parts supply base located in the lower order of the disaster route (stricken road network) are searched and determined (S215).
Parts supply information as part information related to the parts supply base is associated with the parts development information of the damaged parts supply base and the parts supply base located in the lower order of the disaster route (for example, parts development information). For the primary part B1, the part supply information b1 is associated), and the calculation means 3 acquires information on the part group supplied by the part supply base (S216).
When the disaster location calculation unit 3a of the computing unit 3 acquires information on a damaged component supply base and a component group supplied by a lower-level component supply base on the disaster route, information on a product group assembled using the component group Is retrieved from the database 1a (S217).
[0045]
After acquiring these information, the parts supply bases 12, 13 a, 14 a... And the road network 17, 17. Based on the regional information, the range affected by the disaster is specified and displayed (S218).
At the same time, the parts supply bases included in the area affected by the disaster and the parts produced by the parts supply bases located next to the disaster route are listed together with a list of the final products that use these parts. To do.
[0046]
For example, as shown in FIG. 7, the display means 5 includes a production base 12, primary parts supply bases 13a and 13b, secondary parts supply bases 14a, 14b, 14c, and 14d on the map data 11. The tertiary part supply bases 15a, 15b, 15c, the fourth part supply base 16a, and the road network 17, 17,... Are displayed.
Further, the range R input as the disaster occurrence corresponding area information, the secondary parts supply base 14b and the road network 17a included in the range R, the secondary parts supply base 14a and the third located below the road network 17a. The parts supply base 15a and the production base 12 are highlighted to indicate that these bases 12, 14a, 14b, 15a and the road network 17a are affected by the disaster.
[0047]
In addition to the map information, the base name included in the disaster occurrence range R (in this case, the secondary parts supply base 14b), the supply route included in the disaster occurrence range R (in this case, the road network 17a), and the range The name of the base existing immediately below the supply path included in R (in this case, the secondary parts supply base 14a) is displayed as character information.
Here, the road network 17 displayed on the display means 5 can be a straight line connecting two sites on the map data 11 or an actual road route connecting the two sites.
[0048]
As described above, by displaying the development information of each component supply base on the map data 11 together with the display for specifying the disaster range and the disaster route, it is possible to grasp the geographical position of the damaged component supply base. it can. As for the route, it is possible to examine a route that bypasses the damaged route.
In addition, the final product is displayed by displaying a list of parts that have been damaged, parts produced at the parts supply base, and parts that are produced at the parts supply bases immediately below and below the damage route. Which parts must be recovered (for example, have them supplied from other parts supply bases that produce the same parts) in order not to affect the production of A? Can be determined instantaneously.
Furthermore, by displaying a list of the final products related to the parts produced at the parts supply base related to the affected area, it is possible to quickly plan the production process of the final products at the time of a disaster.
[0049]
In this way, by specifying a part supply base unit or a predetermined range and displaying the place affected by the disaster, for example, a situation where a part supply base becomes impossible to produce parts due to a fire or the like When an earthquake occurs over a wide area, it becomes impossible to produce parts at the parts supply base located in the area, or parts that have been transported via the area cannot be transported. It is possible to quickly grasp what kind of influence will occur on the final product. In addition, it is possible to grasp at a glance which part supply base of the part supply system should be changed to another part supply base and which route should be changed to the part transportation route.
[0050]
【The invention's effect】
As described above, according to the present invention,
In order to quickly grasp the geographical location of the affected area, such as the parts supply base and supply route, so as not to affect the production of the final product, which parts must be recovered, Judgment can be made instantaneously.
In addition, it is possible to quickly plan the production process of the final product, which involves parts produced at the parts supply base and supply route in the disaster area, and sufficiently provide crisis management support for the parts supply system It becomes possible.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a crisis management support device for a parts supply system according to the present invention.
FIG. 2 is a diagram showing component development information of a component supply system.
FIG. 3 is a diagram showing component supply information.
FIG. 4 is a diagram showing output means in a state in which component development information, map data, road network data, and the like are displayed.
FIG. 5 is a diagram showing a flow when crisis management support information is displayed on the crisis management support apparatus.
FIG. 6 is a diagram showing a display example of the display means when it is selected that the disaster occurrence corresponding area information is input for each component supply base unit.
FIG. 7 is a diagram showing a display example of the display means when it is assumed that the range of the input of disaster occurrence corresponding area information is designated.
[Explanation of symbols]
1 Storage device
1a database
2 Input means
3 Calculation means
3a Disaster area calculation department
3b Damaged product calculation department
5 Output means

Claims (6)

This is a method that supports crisis management of parts supply systems using a computer when a disaster occurs in a system that produces parts by receiving parts supply from multiple parts supply bases or when a disaster is predicted to occur. And
At least the step of acquiring disaster-affected area information including the location information of the location where the normal function could not be fully demonstrated or the function was stopped due to the influence of the disaster from the input unit,
Reading and storing map information with location information of the parts supply base in a storage unit;
Calculating the location affected by the disaster from the disaster occurrence corresponding area information and map information by calculation of a calculation unit;
Acquiring from the storage unit information of a component group supplied by a component supply base suffering a disaster;
When acquiring the information of the parts group, calculating the product group using the parts supplied from the parts supply base suffering a disaster by calculation of the calculation unit, and displaying the production base of the calculated product group;
A crisis management support method for a component supply system characterized by comprising: A device that supports crisis management of a component supply system when a disaster occurs in a system that produces parts by receiving component supply from a plurality of component supply bases, or when an occurrence of a disaster is predicted,
At least information on the area where the disaster occurred , including location information of locations where normal functions could not be fully demonstrated or stopped due to the impact of the disaster, and location information of each component supply base Storage means for storing map information, information on parts supplied from each part supply base, and information on products using the parts;
From the storage means to acquire the map information with the location information of the disaster relevant local information and parts supply base, and the affected location calculation means to determine the location affected by the disaster,
The information on the parts group supplied by the determined damaged parts supply base is acquired from the storage means, and the damaged product group calculation means for determining the product group that uses the parts;
Acquisition and calculated the disaster relevant local information, parts map information including the location information of the supply base, information of the location affected by the disaster, the location parts supply base supplies parts group affected by the disaster information, and Display means for displaying information on the product group including the production base of the product group that uses the parts supplied by the damaged parts supply base;
A crisis management support device for a component supply system characterized by comprising:   3. The component supply system crisis management support apparatus according to claim 2, wherein the disaster-affected location calculation means determines the location affected by the disaster in units of component supply bases.   3. The component management system crisis management support apparatus according to claim 2, wherein the disaster location calculation means determines the location affected by the disaster by designating a predetermined range.   5. The component management system crisis management support device according to claim 4, wherein the location affected by the disaster determined by the disaster location calculation means includes a transportation route connecting the component supply bases. A program for supporting crisis management of a parts supply system when a disaster occurs in a system that produces parts by receiving parts supply from a plurality of parts supply bases, or when an occurrence of a disaster is predicted,
Information about the location and parts supply base where the disaster occurred , including the location information of the location where the normal function could not be fully exhibited or stopped due to the influence of the disaster, stored in the storage means To obtain map information with location information for and determine the location affected by the disaster,
Obtaining information about the parts group supplied by the determined damaged parts supply base from the storage means, and determining a product group that uses the parts;
Acquisition and indexing has been made, the disaster relevant local information, map information including the location information of the component supply bases, locations affected by the disaster information, the component supply bases supplying component group location affected by a disaster Information, and a procedure for causing the display means to display information on the product group including the production base of the product group that uses the parts supplied by the damaged part supply base.
A crisis management support program for parts supply system, which is executed by a computer.

Images