JP2009069999A - Facility reservation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reserve facilities quickly just after an earthquake such that at a major earthquake affecting a wide area, facilities in the affected areas and peripheries can be used to the full to support damage restoration activities. <P>SOLUTION: An earthquake information reception part 60 receives an earthquake warning, based on earthquake detection by seismometers installed in various regions. In response to the earthquake warning, a facility reservation part 72 exchanges or updates data online by a preset algorithm to reserve facilities. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a facility use reservation apparatus for reserving use of a facility, and particularly supports damage recovery activities when a large earthquake that causes damage in a wide area occurs or when such an earthquake is predicted to occur. Therefore, the present invention relates to a facility use reservation apparatus that can quickly make reservations for the use of facilities so that the facilities in and around the stricken area can be utilized to the maximum.

  Since the P wave of the earthquake propagates ahead of the S wave that causes more damage than this, in Patent Document 1, for example, as shown in FIG. 2, the arrival of the earthquake is detected by detecting the initial motion of the P wave of the earthquake. A technique is disclosed in which alarm information for warning is generated and the alarm information is transmitted to an operator or an individual via any network such as the Internet or a public line network. In this way, human and property damage is minimized.

  Even if such precautions are taken, in the event of a large-scale earthquake, in addition to the collapse of buildings, infrastructure damage such as roads, railways, electricity, water, and gas will be serious. Although these restorations are urgent, the means for transporting people and materials, the means of communication, and the means for maintaining clothing, food, and shelter are lost, which delays the start of restoration and makes the restoration work itself difficult.

  Here, it will be possible to make effective use of limited means for transporting people and materials, and to maintain food, clothing, and shelter, so that recovery activities can be started immediately after the earthquake, for example, the day of the earthquake, and the recovery activities can be carried out quickly. To achieve this, it is conceivable to collect information on these facilities promptly and accurately and arrange these facilities promptly or automatically.

  For example, it is conceivable to distribute necessary information to a preset distribution destination when an earthquake occurs. However, when information is distributed to a customer, there is a problem that the setting to be made by the customer becomes complicated in order to select the information to be distributed. Furthermore, there is a problem of mismatch between information that the customer desires to be distributed and information that is actually distributed. In Patent Document 2, while making such a setting easy, it is possible to effectively distribute necessary and sufficient information that a customer desires to be distributed so that the mismatch does not occur based on the setting. . In FIG. 1, the presence / absence of information distribution is selected in combination from the distance from the disaster and the disaster level, so that necessary and sufficient distribution is performed.

  The Earthquake Early Warning service, which will be expanded to the public by the Japan Meteorological Agency in the future, immediately after the occurrence of the earthquake, analyzes the observation data captured by the seismometer near the epicenter and analyzes the epicenter and earthquake. The scale (magnitude) is immediately estimated, and the arrival time and seismic intensity of major motions in each region are estimated based on this, and these are reported as emergency earthquake warnings as quickly as possible.

  According to such an earthquake early warning, the arrival of an earthquake can be notified earlier based on a seismometer close to the epicenter compared to the conventional P-wave initial motion detection as described in Patent Document 1, for example.

  Patent Document 3 discloses a technique for improving the real-time property of such an emergency earthquake warning and providing earthquake information that is highly effective for the user. In Patent Document 3, the earthquake information distribution server converts the format of this emergency earthquake information and transmits it to the mobile communication terminal. On the other hand, when receiving this, the mobile communication terminal first displays emergency earthquake information as the first report. Next, the current position of the mobile communication terminal is detected, and based on this current position and the above-mentioned emergency earthquake information, the seismic intensity scale at the current position and the surplus time until the main motion arrives are predicted by calculation. The results are displayed as the second and third reports.

Japanese Patent No. 3890366 (FIG. 2) JP 2002-288202 A (FIG. 1) JP 2007-47936 A (FIG. 6)

  However, Patent Documents 1 to 3 are not systematic or wide-ranging to support the restoration of earthquake damage. In addition, we do not make reservations or arrange for the use of facilities in the stricken area and surrounding areas.

  The present invention has been made to solve the above-mentioned conventional problems, and in order to support damage recovery activities in the event of a large earthquake that causes damage over a wide area, or when such an earthquake is predicted, It is an object of the present invention to provide a facility use reservation apparatus that can quickly make reservations for the use of various facilities so that the facilities in and around the disaster area can be utilized to the maximum.

  The facility use reservation apparatus of the present invention is a facility use reservation apparatus for reserving the use of a facility, the earthquake information receiving unit receiving earthquake early warning based on earthquake detection by seismometers arranged in various places, A facility reservation processing unit for making a reservation for a facility according to an earthquake early warning or in accordance with a preset algorithm, or for performing an online data delivery or data update process. Is a solution.

  Further, in the facility use reservation apparatus, the facility reservation processing unit performs the reservation until a set time for each surplus time until the earthquake propagates and for each predicted seismic intensity of the propagated earthquake. The problem is solved by adjusting the timing.

  Furthermore, in the facility use reservation apparatus, the facility reservation processing unit corrects the reservation based on information collected later, thereby solving the problem.

  Furthermore, in the facility use reservation apparatus, the facility reservation processing unit is configured to transmit the e-mail that conveys the contents of the reservation to a preset e-mail address, thereby solving the problem. It is.

  According to the present invention, it is possible to collect various information immediately upon occurrence of an earthquake, and in some cases, before an earthquake wave propagates to the area, or to quickly make a reservation for an accommodation facility using such information. Therefore, it is possible to cope with a large amount of damage even before the communication infrastructure is damaged by an earthquake or becomes congested after the earthquake and becomes difficult to use.

  In addition, information can be effectively used in this way, and limited facilities can be effectively used. Therefore, it is possible to start the recovery activity immediately after the occurrence of the earthquake, for example, on the day of the earthquake occurrence, and to perform the recovery activity itself efficiently and quickly. Furthermore, even if the recovery work is in a long-term manner, support for that can be provided.

  When a large-scale earthquake occurs or when the occurrence is predicted with certainty, prediction information of damage status in the affected area can be created in advance. For example, if an earthquake with a seismic intensity of 6 or higher occurs in Chiba, reconstruction support workers are expected to be enormous in the affected area, so reservations for hotel vacancies in or near the affected area Can be created in advance as such prediction information. In addition, based on such prediction information, it is possible to automatically make a hotel accommodation reservation in or near the affected area, and can be engaged in a complete reconstruction support operation.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing an overall configuration in which the accommodation reservation server apparatus according to the first embodiment to which the present invention is applied is used.

  In the present embodiment, and in the second embodiment described later, the facility for making a reservation for use by applying the present invention is a hotel, an inn or other accommodation facility. In addition, the domestic accommodation system server device 16 provides online reservation reception for domestic accommodation via a website provided for general browsing via the Internet. Normally, a user can make a reservation reception for a desired domestic accommodation online by inputting the necessary items while browsing the website.

  In FIG. 1, first, the network 1 is formed by combining various networks connected to the Internet in addition to the Internet. For example, the network 1 includes a network for delivering electronic mail and data to a mobile phone or a personal computer.

  An accommodation destination reservation server device 12, a weather warning server device 10, a regional information relay server device 14, and a domestic accommodation system server device 16 to which the present invention is applied are connected to the network 1. Note that the weather warning server device 10 may be directly connected to the accommodation reservation server device 12 via a dedicated line.

  FIG. 2 is a diagram showing the information flow of the present embodiment.

  First, the weather warning server device 10 includes a large number of earthquake detection devices 7 and an earthquake warning notification device 8. The earthquake detection device 7 is a P-wave earthquake sensor that is located in more than two hundred locations nationwide by the Japan Meteorological Agency, and immediately after the occurrence of the earthquake, it is close to the epicenter and catches the occurrence. From the individual earthquake detection devices 7, installation position information and earthquake intensity information of the earthquake detection device 7 are transmitted to the earthquake alarm notification device 8 when an earthquake is detected.

  The earthquake warning notification device 8 is based on the information from the large number of earthquake detection devices 7 and provides an earthquake early warning (seismic source information (seismic location, latitude, longitude, depth, time of occurrence), predicted seismic intensity, predicted arrival time of main motion) It is something that emits. This earthquake early warning is transmitted to the accommodation reservation server device 12 via the network 1.

  FIG. 3 is a chart showing the emergency earthquake bulletin transmitted from the earthquake warning notification device 8 to the accommodation reservation server device 12.

  As shown in this figure, the earthquake warning notification device 8 is a representative point in Japan ("point" in the figure) where seismic waves with seismic intensity 4 or higher are expected to propagate, and the maximum seismic intensity expected for each point. ("Earthquake predicted in the figure"), and "Emergency by location" in a tabular form as shown, including these data of the estimated time (maximum time in the figure) until this maximum predicted seismic intensity propagates Earthquake early warning information ”is transmitted to the accommodation reservation server device 12. In the figure, A, B, and C are examples of the representative points.

  FIG. 4 is a block diagram illustrating a configuration of the accommodation reservation server device 12 according to the present embodiment. FIG. 5 is a chart showing an example of the processing algorithm stored in the processing algorithm database 70. FIG. 6 is a chart showing an accommodation reservation issued to the domestic accommodation system server device 16.

  As shown in FIG. 4, the accommodation reservation server device 12 includes an earthquake information receiving unit 60 that receives the above-mentioned “Earth Earthquake Early Warning Information by Point” from the Earthquake Warning Notification Device 8 of the weather warning server device 10, A processing algorithm database 70 in which a processing algorithm for issuing an accommodation facility reservation instruction based on the “Earthquake Early Warning Information” is stored, and a facility reservation processing unit that performs processing based on the processing algorithm and issues an accommodation facility reservation instruction 72 and a reservation information database 74 for storing information on the issued accommodation facility reservation.

  First, as shown in FIG. 5, the processing algorithm database 70 has a table format in which the condition of the predicted seismic intensity at a point in Japan is “input”, and the content of the accommodation reservation issued when the condition is satisfied is “output”. Stores the processing algorithm.

  For example, when receiving “Earthquake Early Warning Information by Point” including data with a predicted seismic intensity of 6 or more at the point A in FIG. 5, the prefecture code “12”, the municipal code “1002”, the accommodation form (type of accommodation facility) This is an algorithm for issuing an instruction to reserve an accommodation facility, which is “hotel”, instruction (instruction content) “reservation of all rooms” In addition, when receiving “Earthquake Early Warning Information by Point” including data with a predicted seismic intensity of 6 or more at the point A, the prefecture code “12”, the municipal code “1003”, the accommodation form (type of accommodation facility) “Ryokan” ”, An instruction (instruction content)“ 75% reservation ”, and an algorithm for issuing an instruction to reserve an accommodation facility.

  When the “Earthquake Early Warning Information by Point” transmitted as described above is received from the earthquake warning notification device 8 of the weather warning server device 10 by the earthquake information receiving unit 60, the received content is sent to the facility reservation processing unit 72. Communicated. Then, the facility reservation processing unit 72 matches the received content with a processing algorithm read from the processing algorithm database 70 and issues an instruction to reserve an accommodation facility to the domestic accommodation system server device 16 via the network 1. The domestic accommodation system server device 16 provides online reservation reception for domestic accommodation via a website provided for general browsing via the Internet.

  Normally, a user can make a reservation reception for a desired domestic accommodation online by inputting the necessary items while browsing the website. In the present embodiment, the facility reservation processing unit 72 automatically performs such processing as browsing and key input while processing the online delivery of necessary data to the domestic accommodation system server device 16. By doing so, the reservation instruction to the domestic accommodation system server device 16 is automatically performed. That is, based on the information (processing algorithm) stored in the processing algorithm database 70, the facility reservation processing unit 72 receives the data sent from the domestic accommodation system server device 16 and confirms the display of the above browsing. However, the necessary data is transmitted to the domestic accommodation system server device 16 instead of the key input as described above.

  For example, FIG. 6 shows a reservation instruction issued in this way. Each line in FIG. 6 corresponds to the output in FIG. When a reservation is established in the domestic accommodation system server device 16, the facility reservation processing unit 72 stores information on the established reservation in the reservation information database 74.

  FIG. 7 is a block diagram showing an overall configuration in which the accommodation destination reservation server device 12 of the second embodiment to which the present invention is applied is used.

  In this embodiment, in addition to the accommodation destination reservation server device 12, the weather warning server device 10, and the domestic accommodation system server device 16 to which the present invention is applied to the network 1, the facility side terminal device 3, the user side The terminal device 5, the regional information relay server device 14, and the public institution server device 18 are connected.

  In the present embodiment, when an earthquake early warning is issued from the weather warning server device 10, information such as the usage status of the accommodation facility is transmitted from the facility side terminal device 3 installed in each accommodation facility such as a hotel or an inn. Are collected in the accommodation reservation server device 12 via the domestic accommodation system server device 16. In addition, from the public institution server 18 that provides websites for general browsing online via the Internet, JR, private railways and other railway operation status, general national and expressway damage status, and power and gas infrastructure damage Information relating to the situation (hereinafter referred to as public institution information) is collected by the accommodation reservation server device 12.

  In the present embodiment, the processing algorithm stored in the processing algorithm database 70 used by the facility reservation processing unit 72 can be set by the user side terminal device 5. The user terminal device 5 sets or corrects the processing algorithm in the table format shown in FIG. 5 stored in the processing algorithm database 70 in the accommodation reservation server device 12 via the network 1. As a result, it is possible to set or modify the content of an instruction to reserve an accommodation facility according to the earthquake early warning information.

  8 to 10 are diagrams showing first to third examples of information flow in the present embodiment, respectively.

  In these drawings, the earthquake early warning issued from the weather warning server device 10 is appropriately or indirectly through the other device, such as the facility side terminal device 3, the regional information relay server device 14, and the accommodation reservation. It is received by the server device 12.

  In these drawings, the symbol SA indicates a route for collecting information from the facility side terminal device 3, the regional information relay server device 14, and the public institution server device 18 to the accommodation reservation server device 12. The reference SB indicates a route for domestic accommodation reservation made from the accommodation destination reservation server device 12 based on the information collected by the information collection.

  When a large earthquake occurs, there is a possibility that the communication infrastructure may be damaged by the earthquake, or the communication infrastructure may become congested after the earthquake, making it difficult to use.

  For this reason, in the first example of FIG. 8, the regional information relay server device 14 is interposed. The regional information relay server device 14 is arranged in each region in Japan so that earthquake damage and congestion do not occur in the communication infrastructure. In addition, the regional information relay server device 14 in the earthquake occurrence site and the vicinity thereof collects information on the usage status and damage status of the surrounding facilities, and collectively transmits the collected information to the accommodation reservation server device 12. By doing so, the influence of earthquake damage and congestion on the communication infrastructure is suppressed.

  The second example in FIG. 9 corresponds to the first embodiment described above.

  In the third example of FIG. 10, the accommodation reservation server device 12 has a function of collecting facility status information from the facility-side terminal device 3 and is provided online via the Internet, which the domestic accommodation system server device 16 has. It is equipped with a function to provide reservations for domestic accommodation via a website for general browsing. Alternatively, the domestic accommodation system server device 16 may be provided with the function of the accommodation destination reservation server device 12, and the domestic accommodation system server device 16 may be used as the accommodation destination reservation server device 12 of FIG.

  Here, in this third example, since the accommodation reservation server device 12 also has the function of the domestic accommodation system server device 16, the facility reservation processing unit 72 has performed in order to instruct reservation of the accommodation facility. The online delivery process of necessary data to the accommodation system server device 16 is a necessary data update process inside the accommodation destination reservation server device 12. That is, it is a necessary data update process for registering a reservation for an accommodation facility in the accommodation destination reservation server device 12.

  FIG. 11 is a block diagram illustrating a configuration of the facility-side terminal device 3 according to the present embodiment.

  The facility side terminal device 3 is arranged in each accommodation facility. The facility-side terminal device 3 includes an information transmission processing unit 30, a facility management processing unit 38, and a facility information database 36. The information transmission processing unit 30 includes an earthquake information reception unit 32 and an automatic information transmission unit 34.

  The facility information database 36 stores information regarding the use status of the facility, such as the availability and reservation status of each room provided for accommodation. The facility management processing unit 38 updates the usage status information as described above in accordance with the current status based on the key input of the operator on the facility side and information on other computer devices.

  The earthquake information receiving unit 32 receives an earthquake early warning from the weather warning server device 10. At the time of reception, the earthquake information receiving unit 32 transmits the fact that the earthquake early warning has been received and the contents thereof to the automatic information transmitting unit 34 and the facility management processing unit 38.

  The automatic information transmitting unit 34 stores information indicating the usage status of the accommodation facility stored in the facility information database 36 in response to the transmission from the earthquake information receiving unit 32 via the network 1. The information is transmitted to the device 12 and the regional information relay server device 14.

  The facility management processing unit 38 automatically transmits information on the earthquake early warning transmitted from the earthquake information receiving unit 32 to employees, users, guests, etc. at the facility by on-site broadcasting with voice synthesis. It may be something that can be transmitted.

  FIG. 12 is a block diagram showing the configuration of the regional information relay server device 14 of the present embodiment.

  As shown in the figure, the regional information relay server device 14 includes an earthquake information receiving unit 40, an information collection processing unit 42, a facility information database 48, a collected information transmission unit 50, and a processing algorithm database 52. The information collection processing unit 42 includes an automatic transmission information receiving unit 44 and a CTI (Computer Telephony Integration) processing unit 46.

  Here, part of the processing in the information collection processing unit 42 or the collected information transmission unit 50 is performed according to the processing algorithm stored in the processing algorithm database 52. These processing contents can be easily changed by rewriting the processing algorithm.

  First, the earthquake information receiving unit 40 receives an earthquake early warning from the weather warning server device 10. At the time of reception, the earthquake information receiving unit 40 transmits the fact that the earthquake early warning has been received and the contents thereof to the information collecting processing unit 42 and the collected information transmitting unit 50.

  The automatic transmission information receiving unit 44 receives the usage information of the facility from the automatic information transmission unit 34 of the facility-side terminal device 3 installed in each accommodation facility via the network 1 and stores it in the facility information database 48. Store.

  Also, the CTI processing unit 46 automatically transmits (outbound transmission) to the telephone on the facility side terminal device 3 side (accommodation facility side) in accordance with the reception of the earthquake early warning transmitted from the earthquake information receiving unit 40 and the content thereof. In addition, when the outgoing call arrives, the call is transferred to the accommodation reservation server apparatus 12 side.

  Even after the earthquake, when transmission restrictions are enforced in the telephone line network as a countermeasure for congestion of the communication infrastructure, it is easy to connect to the accommodation facility side by automatically transmitting within the area subject to the transmission restrictions. After the connection, the connected call is transferred to the accommodation reservation server device 12 side regardless of the inside or outside of the target area, so that the operator on the accommodation reservation server device 12 side can easily respond.

  Next, the collected information transmitting unit 50 collects information on the usage status of various facilities stored in the facility information database 48 and transmits the information to the accommodation reservation server device 12 via the network 1. As a result, the accommodation destination reservation server device 12 can collect information on the usage status of accommodation facilities via the regional information relay server device 14 regardless of the earthquake damage or congestion of the communication infrastructure. The collected information transmitting unit 50 transmits such information at the time of receiving the earthquake early warning in the earthquake information receiving unit 40 or at a predetermined time thereafter.

  Next, FIG. 13 is a block diagram illustrating a configuration of the accommodation destination reservation server device 12 according to the present embodiment.

  On the accommodation reservation server device 12 side, a call center where a large number of operators are enrolled is provided. By the CTI processing unit 66 of the accommodation destination reservation server device 12, depending on the situation, for example, in situations such as when outgoing calls are restricted, the CTI processing unit 46 of the regional information relay server device 14 is interposed, so that the operator side telephone and the accommodation facility side Can be used, and the usage situation of each accommodation facility side can be grasped by the reception of the operator. The usage situation on the accommodation facility side obtained in response to the operator is keyed and stored in the facility information database 68.

  As illustrated, the accommodation reservation server device 12 includes an earthquake information receiving unit 60, an information collection processing unit 62, a facility information database 68, a facility reservation processing unit 72, a reservation information database 74, and a processing algorithm database. 70. The information collection processing unit 62 includes an automatic transmission information receiving unit 64 and a CTI processing unit 66.

  Here, part of the processing in the information collection processing unit 62 or the facility reservation processing unit 72 is performed according to the processing algorithm stored in the processing algorithm database 70. These processing contents can be easily changed by rewriting the processing algorithm.

  First, the earthquake information receiving unit 60 receives an earthquake early warning from the weather warning server device 10. At the time of reception, the earthquake information receiving unit 60 transmits the fact that the earthquake early warning has been received and the contents thereof to the information collecting processing unit 62 and the facility reservation processing unit 72.

  Similar to the automatic transmission information receiving unit 44 of the regional information relay server device 14 described above, the automatic transmission information receiving unit 64 uses the facility from the automatic information transmission unit 34 of the facility-side terminal device 3 installed in each accommodation facility. Is received via the network 1 and stored in the facility information database 68.

  Furthermore, the automatic transmission information receiving unit 64 uses the accommodation facilities collected from the automatic information transmission unit 34 of the facility-side terminal device 3 in each location stored in the facility information database 48 of the regional information relay server device 14. Is collected from the collected information transmitting unit 50 of these regional information relay server devices 14.

  Also, the CTI processing unit 66 automatically transmits (outbound transmission) to the telephone on the facility side terminal device 3 side of the necessary accommodation facility according to the reception of the earthquake early warning transmitted from the earthquake information receiving unit 60 and the content thereof. When the outgoing call arrives, the call is connected to the telephone of the call center operator.

  In the present embodiment, the operator asks the staff of the facility about the usage status and the earthquake damage status on the accommodation facility side according to the operator's reception, so it is possible to collect information in detail according to the circumstances on the accommodation facility side. . For example, since it is possible to collect information on the disaster situation around the facility, it is also possible to collect information that can be used to estimate the situation of a nearby accommodation facility that is not connected to a telephone or communication network.

  Next, the facility reservation processing unit 72 performs the same processing as the facility reservation processing unit 72 of the first embodiment described above while referring to the information on the usage status of various facilities stored in the facility information database 68. Then, the reservation instruction is given to the domestic accommodation system server device 16.

  The facility reservation processing unit 72 also uses the information collected from the facility-side terminal device 3, the regional information relay server device 14, and the public institution server device 18 to reserve the accommodation facility for the domestic accommodation system server device 16. Give instructions. That is, such reservation is instructed using information on the usage status of the accommodation facility, the status of the earthquake disaster, and the status of the earthquake disaster of the surrounding railways and roads.

  Here, FIG. 14 is a flowchart showing a collection process of accommodation facility usage status and public institution information performed in the present embodiment.

  In this figure, first, in step S112, the P wave of an earthquake is detected by at least one earthquake detection device 7 of the weather warning server device 10, and an earthquake is detected. The detection is input to the earthquake alarm notification device 8. The data input from the earthquake detection device 7 to the earthquake warning notification device 8 includes position information data such as “east longitude… degree …… minute” and “north latitude …… degree …… minute”, and “acceleration …… gal (gal). ) ”Is information data indicating the earthquake intensity.

  Then, in step S112, the earthquake warning notification device 8 goes to the facility side terminal device 3, the accommodation destination reservation server device 12, the regional information relay server device 14, and the domestic accommodation system server device 16 via the network 1 or the like. The information on the emergency earthquake warning as shown in FIG. 3 is transmitted.

  Further, by this transmission, in step S114, the information of the emergency earthquake warning is received by these devices.

  In step S116, processing related to the earthquake early warning is performed in each device in accordance with the reception. In the facility-side terminal device 3, the automatic information transmitting unit 34 transmits the area information relay server device 14 or the accommodation destination reservation server device 12 via the network 1, or the area information relay server device 14 and the accommodation destination reservation server device 12. Information indicating the usage status of the accommodation facility is transmitted to both. In the regional information relay server device 14, information indicating the usage status of the accommodation facility stored in the facility information database 48 at that time, or at a time when information is collected from the facility-side terminal device 3 shortly thereafter, is displayed. This is transmitted to the reservation server device 12. In the accommodation reservation server device 12, the facility reservation processing unit 72 reserves the accommodation facility according to the processing algorithm shown in FIG. 5 stored in the processing algorithm database 70 based on the first earthquake early warning received. Is issued to the domestic accommodation system server device 16 via the network 1.

  Thereafter, in step S120, the accommodation reservation server device 12 appropriately collects information indicating the usage status of the accommodation facility from the facility side terminal device 3 via the regional information relay server device 14. The public institution information is collected from the public institution server device 18.

  Furthermore, in step S124 after several hours have passed since the occurrence of the earthquake, accurate information from the time of step S120 is appropriately collected from the facility side terminal device 3 via the regional information relay server device 14 (information indicating the usage status of the accommodation facility) In addition, it is collected from the public institution server device 18 (public institution information).

  At the time of step S120 and the time of step S124, more accurate and more information is usually collected than the time of step S116. Therefore, at these points, the facility reservation processing unit 72 of the accommodation destination reservation server device 12 corrects the accommodation reservation issued to the domestic accommodation system server device 16 according to the processing algorithm stored in the processing algorithm database 70. Or an additional reservation is issued to the domestic accommodation system server device 16 via the network 1.

  In the case of the earthquake early warning that is transmitted from the weather warning server device 10, if there is a surplus time in FIG. 3, the emergency earthquake bulletin from step S 120, step S 124, or later, or from the weather warning server device 10. The facility reservation processing unit 72 has a function of issuing an accommodation reservation instruction to the domestic accommodation system server device 16 via the network 1 based on more accurate information such as the second report and the third report of You may make it prepare.

  You may make it set the margin time and judgment seismic intensity used as a reference | standard beforehand. For example, if there is a possibility that the occurrence of a disaster will change greatly, such as whether the seismic intensity is 5 or seismic intensity 5 strong, the facility reservation function will wait for the above-mentioned accommodation reservation instruction until the preset spare time for each seismic intensity. The processing unit 72 may be provided.

  Next, the facility management processing unit 38 of the facility-side terminal device 3 may be linked with the accommodation management book of the accommodation facility. For example, it may be provided with a function of automatically maintaining the accommodation reservation database in light of the situation of the accommodation destination that changes daily.

  As the damage trend tracking function, the facility reservation processing unit 72 may be provided with a function of canceling a reservation and reducing a cancellation fee when there is little damage with respect to the predicted seismic intensity. The facility reservation processing unit 72 has a function to automatically change the contents of instructions after judging the damage situation of railways such as JR and private railways, general national roads, and highways as a public transportation network recognition tracking function. You may do it.

  The facility reservation processing unit 72 may be provided with a function for early notification by e-mail for a specific member as an early contact function for a specific corporation. Furthermore, the facility reservation processing unit 72 may be provided with a function of automatically notifying the accommodation reservation system administrator, for example, by telephone, mobile phone, or e-mail. Here, the mail address of the transmission destination of the mail and the type of information notified by the mail may be set in advance by the user terminal device 5 or the like.

The block diagram which shows the whole structure by which the accommodation reservation server apparatus of 1st Embodiment to which this invention was applied is used. Diagram showing the flow of information in the above embodiment The chart which shows the emergency earthquake bulletin transmitted to the accommodation reservation server apparatus from the earthquake warning notification apparatus of the said embodiment The block diagram which shows the structure of the accommodation destination reservation server apparatus of the said embodiment. The chart which shows an example of the processing algorithm stored in the physical algorithm database in the said embodiment The chart which shows the accommodation reservation issued with respect to the domestic accommodation system server apparatus in the said embodiment The block diagram which shows the whole structure by which the accommodation destination reservation server apparatus of 2nd Embodiment to which this invention was applied is used. Diagram showing a first example of information flow in the embodiment Diagram showing second example of information flow Diagram showing a third example of the flow of information The block diagram which shows the structure of the facility side terminal device of the said embodiment. The block diagram which shows the structure of the area information relay server apparatus of the said embodiment. The block diagram which shows the structure of the accommodation destination reservation server apparatus of the said embodiment. The flowchart which shows the collection process of the utilization condition of an accommodation establishment and public institution information performed in the said embodiment embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Network 3 ... Facility side terminal device 5 ... User side terminal device 7 ... Earthquake detection device 8 ... Earthquake warning notification device 10 ... Weather warning server device 12 ... Accommodation reservation server device 14 ... Area information relay server device 16 ... Domestic Accommodation system server device 18 ... Public institution server device 30 ... Information transmission processing unit 32, 40, 60 ... Earthquake information reception unit 34 ... Automatic information transmission unit 36 ... Facility information database 38 ... Facility management processing unit 42, 62 ... Information collection processing Units 44, 64 ... Automatic transmission information reception unit 46, 66 ... CTI processing unit 48, 68 ... Facility information database 50 ... Collection information transmission unit 52, 70 ... Processing algorithm database 72 ... Facility reservation processing unit 74 ... Reservation information database

Claims (4)

A facility use reservation device for reserving use of a facility,
An earthquake information receiver that receives earthquake early warnings based on earthquake detection by seismometers located in various locations;
A facility reservation processing unit for performing facility reservation, online data delivery, or data update processing according to the earthquake early warning and in accordance with a preset algorithm. Facility use reservation device.   2. The facility use reservation apparatus according to claim 1, wherein the facility reservation processing unit performs the reservation until a time set for each surplus time until an earthquake propagates and for each predicted seismic intensity of the propagated earthquake. A facility use reservation apparatus for adjusting the execution timing of the facility.   3. The facility use reservation apparatus according to claim 1 or 2, wherein the facility reservation processing unit corrects the reservation based on information collected later.   The facility use reservation apparatus according to any one of claims 1 to 3, wherein the facility reservation processing unit transmits an e-mail that conveys the details of the reservation to a preset mail address. A facility use reservation apparatus characterized by being.

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