JP7477493B2 - Reservation systems and programs - Google Patents

Description

The present invention relates to a reservation system and a reservation program. More specifically, the present invention relates to a reservation system that manages reservations for facilities and a reservation program that causes a computer to execute the reservation system.

In recent years, various eco-activities have been undertaken as a measure against environmental problems. Such eco-activities are wide-ranging and many different ones have been proposed. Examples of such eco-activities include private power generation using renewable energy, eco-driving of automobiles, recycling of resources, and preferential use of environmentally friendly products. In recent years, various systems that provide compensation for eco-activities have been proposed with the aim of popularizing these eco-activities (see Patent Documents 1 to 3).

JP 2016-55138 A JP 2013-2873 A JP 2010-218437 A

The inventors are considering building a system that can contribute to the further spread of eco-friendly activities. The present invention was made based on such considerations.

The reservation system disclosed here is a system for a specified organization to reserve the use of a facility. This reservation system includes a table storage unit that stores a correspondence table showing the correspondence between eco-activities and reservation points, a point calculation unit that calculates reservation points according to eco-activities performed by members of the organization based on the correspondence table, a point storage unit that stores the calculated reservation points as reservation points owned by the organization to which the members belong, a reservation request storage unit that stores facility reservation applications made by organizations, a ranking setting unit that sets a reservation order based on the reservation points when multiple organizations make reservation applications for a single facility, and a reservation storage unit that stores the organization with the highest reservation order as the organization reserving the facility.

The inventors noticed that various organizations are competing to reserve various facilities such as athletic fields, gymnasiums, and indoor halls, and came up with the idea of linking the reservation of these facilities with eco-friendly activities. The reservation system disclosed here allows organizations whose members are active in eco-friendly activities to be given priority in the right to reserve facilities. This increases the motivation of members of each organization for eco-friendly activities, thereby contributing to the spread of eco-friendly activities on a group basis, that is, organizations.

In a preferred embodiment of the reservation system disclosed herein, the ranking setting unit sets reservation rankings for multiple groups based on the average reservation points per member. This prevents differences in the number of members of groups from affecting the setting of reservation rankings, thereby maintaining high motivation for eco-activities for each group.

In a preferred embodiment of the reservation system disclosed herein, the system further includes a subtraction processing unit that subtracts reservation points stored in the point storage unit under specified conditions. This embodiment can prevent organizations that have acquired a large number of reservation points in the past from continuing to monopolize the top spots in the reservation rankings. This can encourage the organization to continue eco-friendly activities, while preventing a decline in motivation among other organizations. It is preferable to perform the subtraction process for reservation points when a certain period of time has passed or when the points have been used to set the reservation rankings.

In addition, in the aspect including the subtraction processing unit, it is preferable to further include an eco-index setting unit that sets an eco-index for the group based on the total number of reservation points previously given to the group, and the ranking setting unit sets the reservation ranking based on the reservation points corrected based on the eco-index. This allows a certain evaluation to be given to eco-activities carried out in the past, thereby preventing a decrease in motivation for groups whose reservation points have been subtracted.

In a preferred embodiment of the reservation system disclosed herein, the eco-activity includes an electricity supply activity, which supplies electricity to others. The reservation system disclosed herein can, for example, contribute to the popularization and promotion of electricity supply activities.

In the case where the eco-activity includes an electricity supply activity, the electricity supply activity includes the act of supplying electricity to the facility for which the reservation is made. This can reduce the electricity costs of the facility for which the reservation is made, providing an advantage to the facility in adopting this system.

In addition, in an embodiment in which the eco-activity includes power supply activity, it is preferable to further include a power demand receiving unit that receives power demand information in the power system at predetermined time intervals, and a table correction unit that corrects the correspondence table related to power supply activity based on the power demand information. This reduces the load on power plants during power shortages, making a significant contribution to environmental improvement.

As another aspect of the technology disclosed herein, a reservation program is provided that causes a computer to make reservations for use of a facility by a specified organization. The reservation program is configured to cause the computer to execute the steps of calculating reservation points according to eco-activities performed by members of the organization and granting the calculated reservation points to the organization to which the members belong, storing a reservation application for the facility by the organization in the computer, setting a reservation priority based on the reservation points when multiple organizations make reservation applications for a single facility, and granting reservation authority for the facility to the organization with the highest reservation priority. By using such a reservation program, the reservation system disclosed herein can be easily constructed.

FIG. 1 is a conceptual diagram illustrating a reservation system according to an embodiment. FIG. 1 is a block diagram illustrating a reservation system according to one embodiment. 13 is a flowchart showing a procedure for awarding reservation points. FIG. 13 is a diagram illustrating an example of a correspondence table. 13 is a flowchart showing a procedure for reserving a facility. FIG. 13 is a diagram showing an example of reservation priority setting.

Below, an embodiment of the technology disclosed herein will be described with reference to the drawings. Note that matters other than those specifically mentioned in this specification that are necessary for implementing the technology disclosed herein (such as the configuration of each device that makes up the reservation system) can be understood as design matters for a person skilled in the art based on the prior art in the relevant field. The technology disclosed here can be implemented based on the contents disclosed in this specification and common technical knowledge in the relevant field. Note that in the drawings referred to in the following description, the same reference numerals are used for components and parts that perform the same function.

1. Explanation of Terms First, the meanings of terms used in this specification will be explained below.

(1) Organization In this specification, the term "organization" is a concept that broadly encompasses a group of members. An organization may be either a profit-making organization or a non-profit organization as long as it has members who share a certain purpose. Examples of organizations include companies, government agencies, clubs, circles, and families. The number of members of an organization is not particularly limited. The reservation system disclosed herein does not prohibit use by organizations with one member (such as private companies and private circles).

(2) Facility In this specification, the term "facility" is a concept that broadly includes equipment used by an organization. In other words, facilities are not limited to buildings, but also include outdoor spaces, rental equipment, mobile machines, etc. Furthermore, facilities may be either public facilities or private facilities. Examples of such facilities include gymnasiums, conference rooms, indoor halls, music rooms, accommodation facilities, dining facilities, sports grounds, entertainment facilities, exercise equipment, and seats in public transportation. The reservation system disclosed herein is a system that manages reservation information for at least one facility, that is, the reservation system disclosed herein may be a system that simultaneously manages reservation information for multiple facilities, or a system that manages reservation information for a single facility.

(3) Eco-Activities In this specification, "eco-activities" is a concept that broadly includes activities that can improve environmental problems. Examples of these eco-activities include power supply activities, eco-driving of automobiles, resource recycling activities, use of eco-bags, and purchase of products with environmental labels. Among the above eco-activities, "power supply activities" refers to activities that supply electricity to others. Note that power supply activities are not limited to the act of directly supplying electricity to a specific person, but include the act of supplying electricity to unspecified people by inputting electricity into the power grid. Furthermore, "eco-driving of automobiles" refers to driving an automobile so as to reduce sudden acceleration and deceleration and reduce fuel consumption. Furthermore, "environmental labels" refer to labels that indicate that a product has reduced environmental impact. Examples of such environmental labels include carbon offset certification labels, carbon neutral certification labels, low-emission vehicle certification, eco-marks, green marks, and recycled paper marks.

As will be described in detail later, the reservation system disclosed herein awards reservation points to an organization when a member of the organization performs an eco-activity, in accordance with the eco-activity. The eco-activity for which reservation points are awarded can be selected as appropriate by the administrator of the reservation system, and is not limited to the technology disclosed herein. When adopting power supply activities, it is preferable to include "supply of electricity to the facility for which reservations are made" as a point award target. This contributes to reducing the power costs of the facility, providing an advantage to the facility for adopting this system. Examples of power supply activities to the facility for which reservations are made include transmitting electricity to the facility from power generation equipment (such as solar panels) owned by the members, and generating electricity using power generation equipment (such as a bicycle with a generator) installed within the facility.

1. Configuration of the Reservation System Next, an embodiment of the reservation system disclosed herein will be described. Fig. 1 is a conceptual diagram showing a reservation system 100 according to this embodiment. Fig. 2 is a block diagram showing the reservation system according to this embodiment.

The reservation system 100 according to this embodiment is a system that adjusts reservations for a facility 20, taking into consideration eco-activities performed by members 12 of an organization 10. In other words, the reservation system 100 according to this embodiment is configured to be able to determine the organization that will actually reserve facility 20A when there is a conflict between reservations by multiple organizations 10A-10N at one facility 20A among multiple facilities 20A-20N. The specific configuration of the reservation system 100 will be described below.

As shown in FIG. 1, the reservation system 100 according to this embodiment is constructed as a client-server system. Specifically, the reservation system 100 includes a member terminal 14, an organization terminal 16, a facility management terminal 22, and a management server 50. The terminals are connected to each other via the management server 50.

(1) Member terminal The member terminal 14 is a terminal that transmits information on the eco-activity carried out by the member 12 to the management server 50. The member terminal 14 includes an input means 14a for inputting the organization to which the member 12 belongs and the content of the eco-activity, and a transmission means 14b for transmitting the information input to the input means 14a to the management server 50 (see FIG. 2). The member terminal 14 may also have an image display means (display, etc.) for displaying the input information. It is preferable that the member terminal 14 appropriately adopts a configuration suitable for the content of the eco-activity. For example, when supplying electricity from a power generation facility, a control computer of the power generation facility, a smartphone, tablet terminal, PC, etc. linked to the control computer can be used as the member terminal 14. On the other hand, when carrying out eco-driving of a car, a control computer of the vehicle, etc. can be used as the member terminal 14. Also, when carrying out resource recycling, use of eco-bags, purchase of environmentally labeled products, etc., a store management terminal, etc. can be used as the member terminal 14. As described above, the reservation system disclosed herein is not limited by the configuration of the member terminal.

(2) Group Terminal The group terminal 16 is a terminal used by the representative of the group 10 to apply for a reservation of the facility 20. The group terminal 16 includes an input unit 16a for inputting a reservation request, a transmission unit 16b for transmitting the reservation request to the management server 50, and a reception unit 16c for receiving a notification from the management server 50 (see FIG. 2). The group terminal 16 may also include an image display unit (such as a display) for displaying input information and received information. Examples of such group terminals 16 include smartphones, tablet terminals, and personal computers. The configuration of the group terminal 16 is not limited to the reservation system disclosed herein, and any configuration may be appropriately adopted as needed.

(3) Facility Management Terminal The facility management terminal 22 is a terminal that displays the reservation information stored in the management server 50. The manager of the facility 20 can grasp the reservation status of the facility 20 based on the reservation information displayed on the facility management terminal 22. This facility management terminal 22 has at least a receiving means 22a that receives a notification from the management server 50 (see FIG. 2). The facility management terminal 22 may also have an image display means (display, etc.) that displays the received information. As with the group terminal 16, the facility management terminal 22 may also be a smartphone, a tablet terminal, a personal computer, etc. Note that the configuration of the facility management terminal 22 is not limited to the reservation system disclosed herein, and a configuration according to need may be appropriately adopted.

(4) Management Server The management server 50 is communicatively connected to the member terminal 14, the group terminal 16, and the facility management terminal 22. For example, the management server 50 is connected to each terminal via a network such as the Internet. The management server 50 may be realized by a single computer, or may be realized by multiple computers working together. The management server 50 is equipped with a control device 60 that controls the reservation system 100. The configuration of the control device 60 is not particularly limited. Here, the control device 60 is, for example, a microcomputer. Such a computer is equipped with, for example, an I/F, a CPU, a ROM, and a RAM.

Next, the configuration of the control device 60 included in the management server 50 will be described. As shown in FIG. 2, the control device 60 includes a communication unit 70 that communicates with other terminals, a point processing unit 80 that performs processing related to reservation points, and a reservation unit 90 that performs processing related to reservations for the facility 20. Specifically, the communication unit 70 includes a first communication unit 71 that can communicate with the member terminal 14, a second communication unit 72 that can communicate with the group terminal 16, and a third communication unit 73 that can communicate with the facility management terminal 22. The point processing unit 80 includes a table storage unit 81, a point calculation unit 82, a point storage unit 83, a subtraction processing unit 84, an eco-index setting unit 85, an electricity demand receiving unit 86, and a table correction unit 87. The reservation unit 90 includes a reservation application storage unit 91, a ranking setting unit 92, and a reservation storage unit 93. The above-mentioned units are realized by the hardware of the control device 60 and the programs stored in the control device 60. In other words, the technology disclosed herein also provides a reservation program that realizes a control device (computer) having the above-mentioned configuration.

2. Control of the reservation system Next, a control procedure for controlling the reservation system 100 having the above configuration will be described. As described above, the reservation system 100 according to this embodiment includes a point processing unit 80 that performs processing related to reservation points, and a reservation unit 90 that performs processing related to reservations for the facility 20. Each control will be described below.

(1) Point Processing Unit First, the point processing unit 80 assigns reservation points to the organization 10 through processing executed by the table storage unit 81, point calculation unit 82, and point storage unit 83. Fig. 3 is a flowchart showing the procedure for assigning reservation points. The control procedure for assigning reservation points will be described below with reference to the flowchart in Fig. 3.

First, as shown in FIG. 3, when reservation points are awarded, the member 12 first inputs an eco-activity (S110). Specifically, when a member 12 of an organization 10 performs an eco-activity, the eco-activity is input to the member terminal 14. The member terminal 14 then transmits information indicating the organization to which the member 12 belongs (organization information) and information on the eco-activity performed by the member 12 (activity information) to the management server 50. The organization information and activity information are then input to the point calculation unit 82 via the first communication unit 71.

Next, in the reservation system 100 according to this embodiment, reservation points are calculated (S120). Specifically, the point calculation unit 82, which has received the activity information, calculates reservation points based on the activity information. At this time, a correspondence table showing the correspondence between the contents of eco-activities and reservation points is stored in the table storage unit 81 of the point processing unit 80. An example of such a correspondence table is shown in FIG. 4. The point calculation unit 82 calculates reservation points according to the eco-activity carried out by the member 12 based on the received activity information and the correspondence table in the table storage unit 81. For example, in the example shown in FIG. 4, when the point calculation unit 82 receives activity information indicating that 100 kWh of electricity has been supplied, it converts the activity information (electricity supply activity) into reservation points of 100P.

It is preferable that the correspondence table stored in the table storage unit 81 is configured so that it can be changed appropriately depending on the situation. For example, the reservation system 100 according to this embodiment is provided with a power demand receiving unit 86 and a table correction unit 87. The power demand receiving unit 86 is connected to an external network, receives power demand information in the power system at predetermined times, and transmits the power demand information to the table correction unit 87. The table correction unit 87 corrects the correspondence table stored in the table storage unit 81 based on the received power demand information. Here, what the table correction unit 87 corrects is the relationship (conversion rate) between the power supply amount and the reservation points in the power supply activity. For example, in the correspondence table shown in FIG. 4, a conversion rate is set that converts 1 kWh of power supply into 1P of reservation points. On the other hand, when power demand information indicating a shortage of power supply is received, the table correction unit 87 makes the reservation points granted for 1 kWh of power supply larger than 1P. This makes it possible to promote power supply activities during power shortages, thereby reducing the load on the power plant and greatly contributing to environmental improvement.

Next, in this embodiment, the reservation points are stored (S130). In this step, the point calculation unit 82 links the calculated reservation points with the organization information and transmits them to the point storage unit 83. The point storage unit 83 then adds reservation points to the organization 10 to which the member 12 belongs, based on the information received from the point calculation unit 82. In the reservation system 100 according to this embodiment, the reservation points of each organization 10A-10N are added by repeating the above-mentioned steps S110-S130. The reservation points stored in the point storage unit 83 are then used to make reservations for the facility 20, which will be described later.

As shown in FIG. 2, the point processing unit 80 of the reservation system 100 according to this embodiment further includes a subtraction processing unit 84. Although details will be described later, in the case where a reservation application for one facility 20 competes among a plurality of organizations 10A to 10N, the reservation system 100 according to this embodiment sets the reservation order based on the reservation points of each organization 10A to 10N. At this time, if the reservation points once granted are maintained forever, the organization 10 that has acquired a large amount of reservation points in the past can acquire a high reservation order without performing new eco-activity. If such a state continues, not only will the high-ranking organization 10 become reluctant to continue eco-activity, but it may also cause the motivation of other organizations 10 to decrease. In response to this, the subtraction processing unit 84 in this embodiment subtracts the reservation points stored in the point storage unit 83 under a predetermined condition. This makes it possible to prevent the organization 10 that has acquired a large amount of reservation points in the past from continuing to monopolize the high reservation order. Therefore, it is possible to encourage the high-ranking organization 10 to continue eco-activity, and to prevent the motivation of other organizations 10 from decreasing. It is preferable to perform the subtraction process of the reservation points when a certain period of time has passed. Specifically, the subtraction processing unit 84 may perform the subtraction process of setting the reservation points of each of the groups 10A to 10N to 0P every certain period of time (for example, one month). The subtraction processing unit 84 may also set a usage limit for the reservation points and sequentially subtract the reservation points that have passed the usage limit. By performing these subtraction processes, it is possible to encourage each of the groups 10A to 10N to continue eco-friendly activities. Furthermore, the conditions for performing the subtraction process are not limited to conditions based on the passage of time. For example, the subtraction processing unit 84 may perform the subtraction process of subtracting used reservation points. Furthermore, the subtraction processing unit 84 may be configured to perform both the subtraction process based on the passage of time and the subtraction process based on point usage.

Furthermore, the point processing unit 80 in this embodiment is equipped with an eco-index setting unit 85 that sets an eco-index for each of the organizations 10A-10N. This eco-index is calculated based on the total number of reservation points previously granted to the organization 10 (i.e., the total number of eco-activities previously performed by the members 12). By correcting the reservation points based on this eco-index, it becomes possible to partially reflect past performance in the current reservation points. As a result, it is possible to evaluate the past performance of the organization 10 whose reservation points have been subtracted by the subtraction processing unit 84, and therefore it is possible to suppress a decrease in motivation for the organization 10 whose reservation points have been subtracted.

(2) Reservation Unit Next, the reservation system 100 according to this embodiment includes a reservation unit 90 that processes reservations for the facility 20. The reservation unit 90 in this embodiment is configured to determine the organization 10 that can reserve the facility 20 based on the reservation points of each organization 10 stored in the point storage unit 83 when there is a competition for reservations for the facility 20 between multiple organizations 10A to 10N. Figure 5 is a flow chart showing the procedure for reserving a facility. The control procedure for reserving a facility will be described below.

First, as shown in FIG. 5, when reserving a facility, a reservation request is first made by the organization 10 (typically a representative of the organization 10) (S210). Specifically, the representative of the organization 10 inputs a reservation request including information about the facility to be used and the date and time into the organization terminal 16. The organization terminal 16 then transmits the reservation request to the management server 50. This reservation request is then input into the reservation request storage unit 91 via the second communication unit 72.

Next, in this embodiment, the reservation request is stored in the reservation request storage unit 91 (S220). Specifically, even if the reservation system 100 according to this embodiment receives a reservation request, it does not confirm the reservation, but continues to store the reservation request in the reservation request storage unit 91 until a predetermined period has elapsed. The period for which the reservation request is maintained (application maintenance period) is not particularly limited, and can be set appropriately by the administrator of this system. For example, the application maintenance period can be set within a range of about one month to two months before the requested reservation date.

The reservation system 100 according to this embodiment then performs a reservation request conflict determination when the application maintenance period has elapsed (S230). Specifically, the reservation request storage unit 91 transmits the reservation request for which the application maintenance period has elapsed to the ranking setting unit 92. The ranking setting unit 92 compares each of the received reservation requests and determines whether there is a reservation request in which both the desired facility and the desired date and time are overlapping. If there is no reservation request conflict (NO in S230), the ranking setting unit 92 transmits the reservation request (desired facility and desired date and time) to the reservation storage unit 93. The reservation storage unit 93 then performs a reservation confirmation process (S240) to confirm the reservation for the facility 20 based on the received reservation request, and ends the reservation control. At this time, it is preferable that the reservation storage unit 93 transmits the confirmed reservation information to the second communication unit 72 and the third communication unit 73, and notifies the corresponding organization 10 and facility 20 that the reservation has been confirmed.

On the other hand, if multiple groups 10 make reservation requests for one facility 20 (YES in S230), the ranking setting unit 92 sets the reservation ranking based on the reservation points (S250). In the following, an example will be described in which multiple groups 10A to 10N make competing reservation requests for the facility 20A in FIG. 1. When such a competing reservation request occurs, the ranking setting unit 92 refers to the point storage unit 83 and acquires the number of members 12 of each group 10A to 10N, the reservation points, and the eco index. Then, as shown in FIG. 6, the ranking setting unit 92 calculates the final points based on the information acquired from the point storage unit 83. The final points here are the average value of the reservation points corrected by the eco index divided by the number of members. Then, as shown in FIG. 6, the ranking setting unit 92 creates a reservation ranking in which the groups 10A to 10N are arranged in descending order of final points, and transmits this reservation ranking to the reservation storage unit 93.

Then, the reservation system 100 according to this embodiment confirms the reservation based on the reservation order (S260). Specifically, the reservation storage unit 93 stores the group 10A (see FIG. 6) with the highest ranking among the received reservation orders as the reservation group for the facility 20. As a result, the reservation group for the facility 20 with competing reservation applications is confirmed as group 10A. As in step S240 above, in this step, it is preferable to send the confirmed reservation information to the second communication unit 72 and the third communication unit 73 and notify each of the groups 10A to 10N that have made reservation applications and the corresponding facility 20A of the reservation confirmation status. At this time, it is preferable for the reservation system 100 to notify the groups 10B to 10N whose reservation applications were not permitted of the date and time when the reservation at the corresponding facility 20A was not confirmed. As a result, the groups 10B to 10N whose reservation applications were not permitted can promptly consider the next reservation candidate.

As described above, the reservation system 100 according to this embodiment awards reservation points to the organization 10 according to the eco-activities performed by the members 12, and sets priority for reservation applications for the facility 20 based on the reservation points. This makes it possible to link reservations for the facility 20 with eco-activities, thereby increasing the motivation of the members 12 for eco-activities. In other words, the reservation system 100 according to this embodiment can contribute to the spread of eco-activities on a group basis, that is, the organization 10.

<Other embodiments>
An embodiment of the technology disclosed herein has been described above. Note that the above embodiment shows an example to which the technology disclosed herein is applied, and does not limit the technology disclosed herein.

For example, as shown in FIG. 1, the reservation system 100 according to the embodiment described above is constructed by a client-server system in which each terminal is connected to each other via a management server 50. However, the reservation system disclosed herein is not limited to the configuration shown in FIG. 1. For example, the reservation system disclosed herein may be constructed by a cloud computing system or the like.

In addition, in the above-mentioned embodiment, when setting the reservation order, the average value (final points) obtained by dividing the reservation points corrected by the eco index by the number of members is used. However, the reservation order need only be set based on the reservation points, and is not limited to the above-mentioned embodiment. For example, the reservation order may be set by directly comparing the reservation points of each group. Note that, from the viewpoint of preventing a decrease in motivation due to reservation order being determined by differences in the number of members of a group, it is preferable to set the reservation order based on the average reservation points. Also, as mentioned above, from the viewpoint of appropriately evaluating past performance and preventing a decrease in motivation due to subtraction processing, it is preferable to adopt a form in which reservation points are corrected by the eco index.

10 Organization 12 Member 14 Member terminal 16 Organization terminal 20 Facility 22 Facility management terminal 50 Management server 60 Control device 70 Communication unit 71 First communication unit 72 Second communication unit 73 Third communication unit 80 Points processing unit 81 Table storage unit 82 Points calculation unit 83 Points storage unit 84 Subtraction processing unit 85 Eco index setting unit 86 Electricity demand receiving unit 87 Table correction unit 90 Reservation unit 91 Reservation request storage unit 92 Rank setting unit 93 Reservation storage unit 100 Reservation system

Claims (10)

A reservation system for a designated group to reserve use of a facility,
a table storage unit storing a correspondence table showing a correspondence relationship between eco activities and reservation points;
a points calculation unit that calculates the reservation points according to the eco-activity carried out by the members of the group based on the correspondence table;
a points storage unit that stores the calculated reservation points as reservation points owned by the organization to which the member belongs;
a reservation request storage unit that stores a reservation request for the facility made by the group;
a ranking setting unit that sets a reservation priority order based on the reservation points when a plurality of groups make reservation requests for one facility;
A reservation system comprising a reservation storage unit that stores the group with the highest reservation priority as a reservation group for the facility. The reservation system according to claim 1, wherein the ranking setting unit sets the reservation ranking of the multiple groups based on the average reservation points per member. The reservation system according to claim 1 or 2, further comprising a subtraction processing unit that subtracts the reservation points stored in the point storage unit under a predetermined condition. The reservation system according to claim 3, wherein the subtraction processing unit subtracts the reservation points according to the passage of a period. The reservation system according to claim 3 or 4, wherein the subtraction processing unit subtracts the reservation points used to set the reservation priority. an eco-index setting unit that sets an eco-index of the organization based on a total number of the reservation points that have been given to the organization in the past;
6. The reservation system according to claim 3, wherein the ranking setting unit sets the reservation ranking based on reservation points corrected based on the eco index. The reservation system according to any one of claims 1 to 6, wherein the eco-activity includes an electricity supply activity of supplying electricity to others. The reservation system according to claim 7, wherein the power supply activity includes the act of supplying power to the facility that is the subject of the reservation. a power demand receiving unit that receives power demand information in a power system at predetermined time intervals;
9. The reservation system according to claim 7, further comprising a table correction unit that corrects the relationship between the power supply activity and the reservation point in the correspondence table based on the power demand information. A reservation program that causes a computer to make a reservation for use of a facility by a specified group,
calculating reservation points according to eco-activities carried out by members of the organization and granting the calculated reservation points to the organization to which the members belong;
storing a reservation request for the facility by the organization in the computer;
a step of setting a reservation priority order based on the reservation points when a plurality of groups make reservation requests for one facility;
storing the group with the highest reservation priority as a reservation group for the facility;
A reservation program configured to cause the computer to execute the following:

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