JP2011086237A - Evaluation index determination device for organizational action plan and training evaluation device for organizational action plan - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To determine an evaluation index for properly evaluating an organizational action plan. <P>SOLUTION: A simulation execution part 22 changes execution order of a partial task and/or an organization member assigned to at least one task in training simulation, to change a scenario, and repeatedly executes training simulation under a plurality of scenarios. A second storage part 23 stores the time to complete the organizational action plan under each scenario. An analysis part 24 determines a proper evaluation time range for evaluating the organizational action plan as a time evaluation index, based on the plurality of plan completion times stored in the second storage part 23. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention provides, for example, an evaluation index determination device for an organizational action plan that determines an evaluation index for appropriately evaluating an organizational action plan in the event of a disaster, etc., and evaluates a training result based on the organizational action plan using the evaluation index The present invention relates to a training evaluation device for an organizational action plan.

Conventionally, disaster prevention drills have been carried out in order to strengthen cooperation between multiple organizations involved in disaster prevention. In this disaster prevention training, an organizational action plan in which the contents of actions to be performed by each organization is prepared in advance, and is performed by each organization acting in accordance with this organizational action plan.
In recent years, a disaster prevention training system has been proposed that effectively performs disaster prevention training by simulating a disaster using a computer and each organization inputting actions through a terminal (for example, (See Patent Documents 1-3).

JP 2005-215531 A JP-A-2005-284606 Japanese Patent Laid-Open No. 2003-216017

By the way, when disaster prevention training is performed using the simulation system as described above, it is necessary to evaluate the result of the disaster prevention training. Generally, this evaluation is performed by determining whether or not the entire process of the organizational action plan has been completed within a predetermined time.
However, the evaluation time, which is the above index, is determined uniformly regardless of the situation of the disaster and the ability of the organizational members to whom each action is assigned. There was a problem that the training results could not be accurately evaluated.

  The present invention has been made in view of such circumstances, and is determined by an evaluation index determination apparatus for an organizational action plan and an evaluation index determination apparatus for determining an evaluation index for appropriately evaluating an organizational action plan. It is an object of the present invention to provide a training evaluation apparatus for an organizational action plan that evaluates a training result based on the organizational action plan using the evaluation index.

In order to solve the above problems, the present invention employs the following means.
The present invention is an evaluation suitable for evaluating an organizational action plan in which a task executed when an event such as a disaster or an accident occurs, an execution order condition of the task, and an organization executing the task are defined in association with each other. An evaluation index determination device for an organizational action plan for determining an index, wherein training is performed based on the organizational action plan by assigning an organization member who executes the task to the task specified in the organizational action plan Simulation execution means for executing simulation, storage means for storing simulation results by the simulation execution means, and analysis means for determining the evaluation index by analyzing the simulation results stored in the storage means, The simulation execution means is at least when executing the training simulation. The scenario is changed by changing the order of execution of the organizational members and / or some of the tasks assigned to one of the tasks, and the training simulation is repeatedly executed under a plurality of scenarios. The plan completion time until the organizational action plan is completed is stored, and the analysis unit is suitable for evaluating the organizational action plan based on a plurality of plan completion times stored in the storage means. Provided is an evaluation index determination device for an organizational action plan that determines a long evaluation time range as a time evaluation index.

  According to the present invention, a simulation simulation based on the organizational action plan is repeatedly performed by the simulation execution unit while changing the scenario each time, and the plan completion time under the plurality of scenarios is stored in the storage unit. Then, the time range appropriate for completing the organizational action plan is determined as a time evaluation index by the analysis unit based on the plurality of plan completion times stored in the storage unit. In this way, the training simulation is repeatedly performed in consideration of various possibilities assumed when performing training based on the organizational action plan, and the evaluation index is determined based on these multiple simulation results. It is possible to determine an evaluation index suitable for evaluating the plan after sufficiently grasping the performance of the organizational action plan.

  In the evaluation index determining apparatus for the organizational action plan, the simulation executing means may perform a training simulation reflecting the working ability of each member who executes each task.

  For example, the time until the task is completed varies depending on the working ability of the member who executes each task. Therefore, by performing a training simulation that reflects the work ability of the member who performs each task, the work ability of the member can be reflected in the time evaluation index determined from the result of the training simulation. This makes it possible to set a more appropriate evaluation index.

  In the evaluation index determining apparatus for the organizational action plan, the simulation executing means may perform a training simulation that reflects task attributes such as difficulty, importance, and urgency of each task.

  For example, the order in which tasks are executed and the execution time of the tasks vary depending on the difficulty level, urgency level, and importance level of each task. Therefore, by performing a training simulation that reflects attributes such as difficulty, importance, and urgency of each task, it is possible to reflect these task attributes in the time evaluation index determined from the simulation results. Become. Thereby, a more appropriate evaluation index can be obtained.

  In the evaluation index determining apparatus for the organizational action plan, the simulation executing unit repeatedly performs the training simulation by increasing or decreasing the number of the organizational members that can be assigned to a task, and the analyzing unit includes the organizational member It is also possible to evaluate the vulnerability of the organizational action plan with respect to an increase or decrease in the number of members based on a change in the plan completion time due to a change in the number of people.

  In this way, by increasing or decreasing the number of organizational members that can be assigned to tasks by the simulation execution means, it is possible to grasp the influence of the organizational action plan on the increase or decrease in the number of people. This makes it possible to evaluate the vulnerability of the organizational action plan with respect to increase or decrease in personnel.

  The present invention relates to a result of training carried out based on an organization action plan in which tasks executed when an event such as a disaster or an accident occurs, an execution order condition of the tasks, and an organization executing the tasks are defined in association with each other A training evaluation device for an organizational action plan for evaluating a training result performed based on the organizational action plan using a time evaluation index determined by any one of the evaluation index determination devices for an organizational action plan. A training evaluation device for an organization action plan to be evaluated is provided.

  Thus, since the training result by an organization action plan is evaluated using the evaluation index determined after fully grasping the performance of the organization action plan, the training result can be evaluated with higher accuracy.

  In the organizational action plan training evaluation apparatus, in addition to the evaluation index related to time, at least one of a ratio of observing an execution order condition defined in the organizational action plan and a time required to perform each task The training result may be evaluated as an evaluation index.

  In this way, not only the evaluation index related to time, but also the evaluation of the training order including the evaluation of the execution order condition and the completion time evaluation of each task, it is possible to accurately evaluate the training result based on more detailed criteria. it can.

According to the present invention, there is an effect that it is possible to determine an evaluation index that can appropriately evaluate a training result performed based on an organizational action plan.
Moreover, according to this invention, there exists an effect that the training result performed based on the organization action plan can be evaluated based on a suitable parameter | index.

It is the block diagram which showed schematic structure of the evaluation index determination apparatus of the organization action plan which concerns on one Embodiment of this invention. It is the functional block diagram which expand | deployed and showed the function with which the evaluation index determination apparatus of the organization action plan which concerns on one Embodiment of this invention is provided. It is the figure which showed an example of the organization action plan. It is the figure which showed an example of the organization member list. It is the figure which showed an example of the action detailed list. It is the figure which showed an example of the list | wrist in which the organization member was allocated to each task. It is the figure which showed an example of the Gantt chart figure which showed the execution condition of each task in time series. It is the figure which showed an example of the plan completion time distribution in the case of a severe disaster pattern. It is the figure which showed an example of the plan completion time distribution in the case of a normal disaster pattern. It is a figure for demonstrating the training simulation apparatus which outputs the training result used as the evaluation object of the training evaluation apparatus of the organization action plan which concerns on one Embodiment of this invention.

DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of an organization action plan evaluation index determination device and an organization action plan training evaluation device according to the present invention will be described with reference to the drawings.
The organizational action plan evaluation index determination device according to the present embodiment is an evaluation index suitable for evaluating an organizational action plan in consideration of the characteristics of the organizational action plan and the ability of the organization members to implement the organizational action plan. Specifically, a time range suitable for completing the organizational action plan is determined as an evaluation index.
Hereinafter, the evaluation index determining apparatus for the organizational action plan according to the present embodiment will be described, and then the training of the organizational action plan according to the present embodiment for evaluating the training result using the evaluation index determined by the evaluation index determining apparatus. The evaluation device will be described.

FIG. 1 is a block diagram showing a schematic configuration of an evaluation index determination apparatus (hereinafter referred to as “evaluation index determination apparatus”) for an organizational action plan according to the present embodiment.
As shown in FIG. 1, an evaluation index determination device 10 according to the present embodiment is a computer system (computer system). For example, a CPU (central processing unit) 11, a RAM (Random
Main memory device 12 such as Access Memory), auxiliary storage device 13, input device 14 such as a keyboard and mouse, output device 15 such as a display and printer, and a communication device that exchanges information by communicating with external devices. 16 etc. are provided.

  The auxiliary storage device 13 is a computer-readable recording medium, such as a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, or a semiconductor memory. Various programs (for example, an evaluation index determination program) are stored in the auxiliary storage device 13, and the CPU 11 reads out the program from the auxiliary storage device 13 to the main storage device 12 and executes it to implement various processes. .

  FIG. 2 is a functional block diagram showing the functions provided in the evaluation index determination device 10 in an expanded manner. As shown in FIG. 2, the evaluation index determination device 10 includes a first storage unit 21, a simulation execution unit (simulation execution unit) 22, a second storage unit (storage unit) 23, and an analysis unit (analysis unit). 24.

  The storage unit 21 stores all information necessary for the simulation execution unit 22 to execute the simulation. Specifically, the first storage unit 21 stores an organization action plan, an organization member list, and an action detail list. FIG. 3 shows an example of an organization action plan, FIG. 4 shows an example of an organization member list, and FIG. 5 shows an example of an action details list.

  As shown in FIG. 3, the organization action plan is associated with a task name to be executed when a disaster occurs, an execution order condition of the task (preceding task / child task), and an organization (department in charge) in charge of the task. Yes. In addition, in the organizational action plan shown in FIG. 3, the urgency, importance, impact, external dependency, time required, work type, necessity of work qualification, work difficulty, standard task completion for each task. Time, number of people, and general priority are registered.

  Urgency is represented by a three-level evaluation with A being the most urgent. The importance is represented by a three-level evaluation with A being the most important. The degree of influence is represented by a three-step evaluation, where A is assigned to the highest degree of influence, and the range of influence on the external organization. The degree of external dependency is represented by a three-step evaluation with A being a load factor of other organizations higher than that of the own organization. The required time is represented by a three-stage evaluation, where A is the long time required to complete the task.

  In the preceding task, when there is a task to be executed in advance, the task number is registered. If there is no task to be executed in advance, the task number is set to 0. The child task indicates the number of tasks newly generated as the work is performed. For the type of work, “on-site visual inspection” is the task for visual confirmation at the site, “on-site equipment” is the task to confirm using the equipment at the site, and “on-site” “Work” and “Request” are registered for external request items.

  In addition, the necessity of work qualification is registered with the qualification required by the work practitioner determined by the internal organization regulations. The work difficulty level is represented by a three-step evaluation with A as the work difficulty level. In the department in charge, the department in charge of executing this task is registered. In the standard task completion time, a guideline for time (minutes) required for completion of work (expected time when the work qualification and work level are appropriate) is registered. In the number of persons, the number of persons necessary for the work execution is registered. The overall priority is represented by a three-level evaluation, with A being the task with the highest priority of execution, comprehensively judging the urgency, importance, impact, external dependency, required time, and preceding tasks. ing.

  As shown in FIG. 4, in the organization member list, the members of each organization are registered, and the organization to which each member belongs, past career, work qualification, and ability evaluation are registered. For example, the current affiliation is the affiliation, the X department, the Y department, and the Z department are the years of enrollment in each section in the past, the work qualification is the presence or absence of work qualification, In Z, the ability evaluation during each department is registered.

  As shown in FIG. 5, information related to the execution order is registered for each task in the action detail list. This is a list in which information regarding the execution order of each task in the organizational action plan shown in FIG. 3 is defined in more detail. Specifically, a trigger, an assumed action result, a contact organization, a child task condition, and a child task are registered for each task in the action detail list. The trigger registers a condition that allows the task to be executed. For example, when “task XX_completion” is described, execution is possible upon completion of the parent task regardless of the result of the parent task. Further, when “task XX_XX” is described, it can be executed only when the result of task XX is XX.

  In the assumed behavior result, an assumed damage situation (correct answer) is registered when training is performed. In the contact organization, an organization that communicates the task execution result is registered. In the child task condition, an expected result (damage status) is registered for each task. In the child task, a task number that can be executed upon completion of the task is registered.

  Returning to FIG. 2, the simulation execution unit 22 refers to the information stored in the first storage unit 21, and assigns organizational members to execute the tasks to each task specified in the organizational action plan. Try training based on organizational action plans. In addition, the simulation execution unit 22 changes the scenario by changing the execution order of the organization members and / or some tasks assigned to at least one task at the time of executing the simulation, and performs simulations under a plurality of scenarios. Execute. Thereby, a plurality of simulation results under different scenarios can be obtained.

The second storage unit 23 stores a simulation result by the simulation execution unit 22. Specifically, under each scenario, the time until all tasks defined in the organizational action plan are completed is stored as the plan completion time.
Based on the plurality of plan completion times stored in the second storage unit 23, the analysis unit 24 determines an appropriate time range required for completing all actions based on the organizational action plan as an evaluation index.

Next, the operation of the above-described organizational action plan evaluation index determination device 10 will be described in detail.
First, the simulation execution unit 22 arbitrarily assigns members registered in the organization member list to each task stored in the first storage unit 21. FIG. 6 shows an example of a list in which organizational members are assigned to each task.

  In this way, when an organizational member is assigned to each task, it is then simulated how each task is progressed by these organizational members. This simulation is performed based on various attributes such as the ability of the organization members, the urgency level registered in each task, and the impact level, for example. FIG. 7 shows an example of a Gantt chart showing the execution status of each task in time series.

  In FIG. 7, the time required to complete each task (corresponding to the length of the bar graph) varies depending on the difficulty level of the task and the abilities of the members assigned to the task. Specifically, the standard time in the organizational action plan shown in FIG. 3 and the evaluation corresponding to the relevant task of the member are read. If the evaluation of the member is A, the standard time is the time to complete the task. (Hereinafter referred to as “task completion time”), when the member evaluation is B, the standard time × 1.5 is the task completion time, and when the member evaluation is C, the standard time × 2 .0 is adopted as the task completion time.

  Further, the simulation execution unit 22 determines the task execution order based on the organizational action plan shown in FIG. 3 and the action detail list shown in FIG. The simulation execution part 22 assumes the action result of each task performed by the said member, and advances the training based on an organization action plan by implementing the child task according to the assumed result. And when all tasks are completed under a certain assumed behavior (under scenario), the time required to complete the simulation, that is, the time required to complete all tasks specified in the organizational action plan (plan completion) Time), and the plan completion time is stored in the second storage unit 23.

When one simulation is completed in this way, the simulation execution unit 22 changes a scenario different from the simulation, for example, a member that executes the task, or changes a part of the assumed action result of the parent task. As a result, the simulation process is performed differently from the previous time by changing the combination of child tasks to be executed. By repeating such a simulation many times, the simulation execution unit 22 obtains simulation results under various situations, and the second storage unit 23 stores the planned completion time in each assumed action result. It will be.
At this time, the simulation execution unit 22 may vary the assumed behavior result of the parent task so that all child tasks are executed. By doing in this way, it becomes possible to implement a simulation about all the combinations prescribed | regulated by the organization action plan.

  In the organizational action plan, when the assumed result pattern is divided into several groups, for example, it is divided into multiple groups such as a catastrophic disaster group, a normal disaster group, a small-scale disaster group, and an adjacent area disaster group. In such a case, it is preferable that the simulation is performed separately for each group, and the plan completion time is stored in the second storage unit 23 for each group.

The analysis unit 24 analyzes the plan completion time stored in the second storage unit 23 and determines a time range suitable for evaluating the organizational action plan. Specifically, the distribution of the planned completion time is examined, and the time when the organizational action plan is completed earliest (the earliest time for completing the plan Tmin) and the time when the organizational action plan is completed latest (the latest time for completing the plan Tmax) are determined. Extract. At this time, when the disaster pattern is divided into a plurality of groups, the planned completion earliest time Tmin and the planned completion latest time Tmax are extracted for each group.
For example, FIG. 8 shows an example of a planned completion time distribution in the case of a catastrophic disaster pattern, and FIG. 9 shows an example of a planned completion time distribution in the case of a normal disaster pattern. 8 and 9, the horizontal axis indicates the planned completion time, and the vertical axis indicates the frequency.

When the analysis unit 24 extracts the earliest planned completion time Tmin and the latest planned completion time Tmax, the analysis unit 24 determines an evaluation index based on the following equation. The evaluation index obtained here is a reasonable time range (minimum time and maximum time) for implementing the organizational action plan. Here, Tm is a disaster planned target execution time, that is, a time that is specified as having to be executed by this time. From the following equation, to evaluate the lower limit time T ₁ of the smaller value evaluation index among the disaster plans target run time Tm and planning completed earliest time Tmin, smaller of the disaster plans target run time Tm and planning completed latest time Tmax A value is selected as the evaluation upper limit time T ₂ of the evaluation index.

When the evaluation upper limit time T ₂ and the evaluation lower limit time T ₁ of the evaluation index are determined in this way, the actual training result is evaluated using this evaluation index.

  As described above, according to the evaluation index determination device for an organizational action plan according to the present embodiment, the ability of an organization member who implements the organizational action plan, the difficulty level of each task constituting the organizational action plan, and the like An evaluation index reflecting the characteristics of the organizational action plan can be determined.

[Training evaluation device based on organizational action plan]
Next, a training evaluation apparatus for an organizational action plan that evaluates a training result based on the organizational action plan using an evaluation index related to time determined by the evaluation index determination apparatus 10 for the organizational action plan will be described.
First, before describing the training evaluation apparatus according to the present embodiment, a training simulation apparatus that outputs a training result to be evaluated by the training evaluation apparatus will be described.

  As shown in FIG. 10, the training simulation apparatus 30 is connected to at least one organization terminal 31 for input by an organization member via a network 32, and input information input from the organization terminal 31. For example, a disaster prevention decision-making training apparatus disclosed in Japanese Patent Application Laid-Open No. 2005-215531 is an example.

Such a training simulation apparatus 30 has an organizational action plan like the evaluation index determination apparatus 10 described above, and presents the next task to each organization based on the organizational action plan. In each organization, the input information is transmitted to the training simulation apparatus 30 via the network 32 by inputting a member who executes the presented task, an execution result of the task, and the like from the organization terminal 31. The training simulation device 30 advances the training simulation one after another based on the input information. When all tasks defined in the organizational action plan are completed, the information on the input error input by the organization member in the simulation process and the plan completion time in the simulation are output as a simulation result.
Here, the information on the input error entered by the organization members includes information on the task execution order such as, for example, wrong task order or skipping necessary tasks, and the assumed damage situation at the time of training. It is a different result report.

  When receiving the simulation result from the above-described training simulation device 30, the organization behavior plan training evaluation device evaluates the simulation result based on the following evaluation formula.

  Here, the training evaluation apparatus according to the present embodiment is configured by a computer system in the same manner as the evaluation index determination apparatus 10 for the organizational action plan described above, and the hardware configuration thereof is the same as the configuration shown in FIG. . The organization action plan training evaluation apparatus stores the following functions and programs for executing the following evaluation processes, and each process is realized by the CPU executing these programs.

In the above equation (2), Q is the training evaluation value, α, β, γ, η, ε are arbitrary coefficients, F _true is the correct answer rate of the entire training, and F _comb is the task that should be started in advance. The number of tasks executed, more specifically, the number of tasks that executed a child task without executing the parent task, F _{each_Time} is a comprehensive evaluation value for each task, It is given by equation (3).

In the above equation (3), ε ₁ , ε ₁ , ξ ₁ , ξ ₂ are arbitrary coefficients, Tj ^end is the time required to execute task j, Tj ^normal is the standard completion time of task j, and C (j, manj) Indicates a coefficient in the case where task _j is executed by the member _{j who} is in charge of the task.
In this way, in each task, if the completion time of the task is shorter than or longer than the predetermined standard task completion time, a penalty is calculated by multiplying the difference from the standard completion time by a coefficient. By calculating these values and integrating these penalty values for all tasks, a penalty value related to time in each task is calculated.

Further, as expressed in the above equation (2), when the plan completion time T exceeds the evaluation upper limit time T ₂ in the training result, a penalty value corresponding to the excess is given, and the plan is completed. penalty value is given corresponding to the shortfall if the time T is below the rated limit time T _1. This means that if the planned completion time ends in a time shorter than the evaluation lower limit time T ₁ , it can be determined that the execution level of each task is insufficient, such as not performing the task properly. Further, when the planned completion time exceeds the evaluation lower limit time T ₂ , it can be determined that each task is not efficiently executed. The same applies to the completion time of each task. Also, if the task execution order is not performed correctly, points will be deducted.

  As described above, according to the present embodiment, the training result of the organization action plan based on the validity of the plan completion time as a whole organization action plan, the validity of the completion time of each task, and the validity of the execution order of each task. Therefore, it is possible to evaluate the training result with high accuracy based on the evaluation standard that matches the organizational action plan.

[Other Embodiments]
It should be noted that the vulnerability of the organizational action plan at the time of disaster can be evaluated by adding the following functions to the evaluation index determining apparatus 10 for the organizational action plan according to the present embodiment described above.

  One of the difficulties in responding to disasters is that members who respond to disasters may also be affected. That is, when a person skilled in performing a task can cope with a disaster, the organizational action plan at the time of the disaster is executed as expected. However, when the person becomes unable to respond due to injury or the like, the organizational action plan at the time of disaster does not proceed as expected, which may make it difficult to complete the task within the planned time. From this point of view, it can be said that an organizational action plan that has a large influence on the personnel reduction is vulnerable to the personnel reduction. In this respect, there is room for improvement in the organizational action plan or the organization configuration.

  Thus, in the evaluation index determination device for an organizational action plan according to another embodiment of the present invention, the function of evaluating the vulnerability of the organizational action plan against the decrease in the number of organizational members is added, so that the organizational action plan from a wider viewpoint. Can be evaluated.

  In the evaluation index determination device for an organizational action plan according to the present embodiment, the simulation execution unit 22 described above gradually reduces the number of organizational members that can be assigned to each task each time a simulation is performed. Specifically, first, it is assumed that all the members can cope, and under this assumption, a plurality of scenarios are created, and a plan completion time under each scenario is obtained. The analysis unit 24 obtains a plan completion earliest time Tmin and a plan completion latest time Tmax from a plurality of plan completion times. This process is the same as in the above-described embodiment.

  Subsequently, the simulation execution unit 22 reduces the number of organizational members that can be assigned to each task, creates each scenario under this condition, and obtains a plan completion time under each scenario. The analysis unit 24 obtains a plan completion earliest time Tmin and a plan completion latest time Tmax from a plurality of plan completion times. Subsequently, the analysis unit 24 compares the earliest planning completion time Tmin with the disaster planned target execution time Tm, and if the planning completion earliest time Tmin is smaller than the disaster planned target execution time Tm, as described above. The number of organizational members that can be assigned to each task is reduced by one, and simulation is performed, and the earliest time Tmin for completing the plan is obtained from the result. Then, the simulation is terminated when the earliest time Tmin for completion of the plan exceeds the planned target execution time Tm for disaster.

Subsequently, based on the statistical value of the result obtained by the simulation, vulnerability to personnel deficiency is evaluated. For example, the evaluation is performed based on the following expression (4).
Here, although the contents of evaluation differ depending on each organization, the viewpoint is centered on the average end time and the deviation. A longer average end time indicates that the organizational action plan is vulnerable to a decrease in the number of personnel, and a larger deviation means that the plan completion time depends greatly on the combination of personnel (combinations of personnel capabilities). Means.

In the above equation (4), α _{0 to} α _n and β _{0 to} β _n are coefficients, and F (n−1, n) is the increased processing time when the number of missing personnel is increased from n−1 to n. , Δσ (n−1, n) indicates the amount of increase in deviation when the number of deficient personnel is increased from n−1 to n.
The larger the evaluation value obtained based on the above equation (4), the higher the organizational action plan is more vulnerable to increase / decrease in organizational members.

10 Organizational Action Plan Evaluation Index Determination Device 11 CPU
12 main storage device 13 auxiliary storage device 14 input device 15 output device 16 communication device 21 first storage unit 22 simulation execution unit 23 second storage unit 24 analysis unit 30 training simulation device 31 organization terminal 32 network

Claims (6)

Determine an appropriate evaluation index for evaluating an organizational action plan that is defined by associating a task to be executed when an event such as a disaster or accident occurs, an execution order condition of the task, and an organization executing the task. An evaluation index determination device for an organizational action plan,
Simulation execution means for executing a training simulation based on the organizational action plan by assigning an organization member who executes the task to the task specified in the organizational action plan;
Storage means for storing simulation results by the simulation execution means;
Analyzing means for analyzing the simulation results stored in the storage means to determine the evaluation index, and
The simulation execution means changes a scenario by changing an execution order of an organization member and / or a part of the task assigned to at least one of the tasks when executing the training simulation, and trains under a plurality of scenarios. Run the simulation repeatedly,
The storage means stores a plan completion time until the organizational action plan is completed under each scenario.
The analysis unit determines an evaluation index for an organizational action plan that determines an appropriate evaluation time range for evaluating the organizational action plan as a time evaluation index based on a plurality of plan completion times stored in the storage unit apparatus.   2. The evaluation index determination apparatus for an organizational action plan according to claim 1, wherein the simulation execution means performs a training simulation reflecting the work ability of each member who executes each task.   The organizational behavior plan evaluation index determination device according to claim 1, wherein the simulation execution unit performs a training simulation in which task attributes such as difficulty, importance, and urgency of each task are reflected. The simulation execution means repeatedly performs the training simulation by increasing or decreasing the number of organizational members that can be assigned to a task,
The analysis means evaluates the vulnerability of the organizational action plan with respect to increase or decrease in the number of members based on a change in the plan completion time due to a change in the number of members of the organization. An evaluation index determination device for an organizational action plan according to any one of the above. An organization that evaluates the results of training conducted based on an organization action plan in which tasks to be executed when an event such as a disaster or an accident occurs, an execution order condition of the tasks, and an organization executing the tasks are defined in association with each other An action plan training evaluation device,
An organizational action plan for evaluating a training result carried out based on the organizational action plan using the time evaluation index determined by the evaluation index determining apparatus for an organizational action plan according to any one of claims 1 to 4. Training evaluation equipment.   Claims for evaluating the training result using, as an evaluation index, at least one of a ratio of complying with an execution order condition stipulated in the organizational action plan and a time required to perform each task in addition to the evaluation index related to time Item 6. The organizational behavior plan training evaluation device according to Item 5.

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