JP2005018144A - Disaster prevention system and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To rapidly and accurately perform direction of opening/closing of a floodgate or a land lock based on an observation result of a tsunami, and confirmation of an opening/closing situation thereof. <P>SOLUTION: This disaster prevention system has: a photographing means obtaining image data wherein the floodgate is photographed; a storage means storing address information and present position information about a worker's terminal; a writing means receiving the present position information about the worker's terminal from the terminal, and writing it into the storage means; a line securing means securing a communication line with the worker's terminal by use of the address information inside the storage means when receiving notification of the tsunami or an earthquake; a notification means outputting the direction of the closing or the opening of the floodgate to the worker's terminal positioned closest to the floodgate on the basis of the present position information inside the storage means by use of the communication line secured by the line securing means; a state decision means deciding an opening/closing state of the floodgate on the basis of the image data obtained by the photographing means; and an output means outputting the opening/closing state decided by the state decision means. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disaster prevention system and method.
[0002]
[Prior art]
Conventionally, emergency convocations and various instructions and reports performed for tsunami damage countermeasures, etc. were performed manually using landlines, mobile phones, etc. after reporting the occurrence of the tsunami. In addition, the person in charge went directly to the site to operate and confirm the sluice gates installed in rivers and other areas associated with the tsunami, and the opening and closing of the land provided on the embankments. In particular, the confirmation of the open / closed status of the sluice gates and landlocks at remote locations relied on telephone contact from the person in charge.
On the other hand, in Patent Document 1, in the event of an emergency due to the occurrence of an earthquake or tsunami, all tide locks to be monitored and controlled by remote operation are automatically closed to a certain height, and humans, After confirming that there are no harmful substances such as objects, a tide gate opening / closing system that fully closes the tide gate in a semi-closed state is described.
[0003]
[Patent Document 1]
JP-A-11-343617
[0004]
[Problems to be solved by the invention]
The conventional technology described above has the following problems.
(1) Since various measures for disaster prevention will be started after the report of the tsunami occurrence, the telephone line necessary for this response cannot be secured and the initial action is delayed.
(2) When a disaster occurs, information may be complicated, and various instructions and reports may not be accurately performed between workers who open and close sluices and land and disaster prevention personnel who give instructions for work. is there.
(3) It is impossible to quickly and surely confirm the open / closed state of sluices and land that can reach hundreds of places.
(4) In the vicinity of sluices and landlocks, it is not possible to secure a power source at the time of a power line disconnection in the event of a disaster, and there is no means to communicate the situation before and after the occurrence of the tsunami. is there.
However, Patent Document 1 does not solve the above-described problem. In other words, when a tsunami occurs, it is necessary to quickly secure a communication line with the worker, and when there is no worker at the sluice and land opening / closing operation place, the worker is surely instructed to open and close the sluice and land. Absent. Also, it does not reliably check the open / closed status of sluices and land during disasters and communicate the status of disasters to nearby residents.
[0005]
The present invention has been made in view of such circumstances, and its purpose is to promptly and accurately perform instructions for opening and closing sluices and land based on the tsunami observation results and confirmation of the opening and closing status. It is in providing the disaster prevention system and method which can be used.
[0006]
[Means for Solving the Problems]
The present invention has been made to solve the above-mentioned problems. The invention according to claim 1 is a photographing means for obtaining image data obtained by photographing a sluice or a land, current position information and address of an operator's terminal. A storage means for storing information; a writing means for receiving current position information of the terminal from the terminal of the worker; and a writing means for writing to the storage means; and a notification of the occurrence of a tsunami or an earthquake. A line securing means for securing a communication line with the worker's terminal using the address information in the network, and a sluice gate based on the current position information in the storage means using the communication line secured by the line securing means. Alternatively, a notification means for outputting an instruction to close or open the land to the operator's terminal located closest to the sluice or land, and the sluice or land based on the image data obtained by the photographing means. of A state determining means for determining the closed state, and output means for outputting the open or closed state of said state determination means determines a disaster prevention system comprising: a.
[0007]
Invention of Claim 2 is the disaster prevention system of Claim 1, Comprising: The said notification is performed based on the detection of the electromagnetic wave or P wave of an earthquake, It is characterized by the above-mentioned.
[0008]
The invention according to claim 3 is a disaster prevention in which an operator's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing the sluice or land are connected via a network. The image monitoring system includes means for transmitting image data obtained by photographing a sluice or a land to the command command system, and the command command system includes current position information of a terminal held by an operator and Storage means for storing address information; writing means for receiving current position information of the terminal from the operator's terminal; writing to the storage means; and notification of occurrence of a tsunami or earthquake; Using the address information, a line securing means for securing a communication line with the worker's terminal, a communication line secured by the line securing means, and a current location in the storage means Based on the information, a notification means for outputting an instruction to close or open the sluice or the land to the operator's terminal located closest to the sluice or the land, receiving image data from the image monitoring system, A disaster prevention system comprising: state determination means for determining an open / closed state of a sluice or land based on the image data; and output means for outputting the open / closed state determined by the state determination means.
[0009]
Invention of Claim 4 is a disaster prevention system of Claim 3, Comprising: The said memory | storage means further memorize | stored the image data of the state by which the sluice or the land was closed and opened, The said state determination The means compares the image data received from the image monitoring system with the image data in the storage means, and determines whether the sluice gate or the open / close state of the land.
[0010]
Invention of Claim 5 is a disaster prevention system of Claim 3 or Claim 4, Comprising: The said output means respond | corresponded to this instruction | indication from the said operator's terminal which the said notification means output the instruction | indication It receives and outputs information indicating that the work has been completed.
[0011]
The invention according to claim 6 is the disaster prevention system according to any one of claims 3 to 5, wherein the notification means determines whether or not work can be performed from the terminal of the worker who has output the instruction. When the information indicating whether or not this execution is possible indicates that the execution is not possible, the instruction is then output to the terminal of another operator close to the sluice or land. To do.
[0012]
A seventh aspect of the present invention is the disaster prevention system according to any one of the third to sixth aspects, wherein the line securing means receives a notification of the occurrence of a tsunami or an earthquake, and the image monitoring system A communication line is secured.
[0013]
The invention according to claim 8 is the disaster prevention system according to any one of claims 3 to 7, wherein the image monitoring system includes two or more different independent power supply systems, and the independent power supply Image data obtained by photographing a sluice or a land is transmitted to the command command system by power supplied from any of the methods.
[0014]
The invention according to claim 9 is the disaster prevention system according to claim 8, wherein the image monitoring system further includes power storage means for storing electric power supplied from any of the self-sustained power systems, The image data obtained by photographing the sluice or the land is transmitted to the command command system by the electric power supplied from the power storage means.
[0015]
A tenth aspect of the present invention is the disaster prevention system according to the ninth aspect, wherein the power storage means is installed in the ground.
[0016]
The invention according to claim 11 is the disaster prevention system according to any one of claims 3 to 10, further connected to an information display board for displaying information according to an instruction from the command command system. The output means instructs the information display board to display a warning accompanying the occurrence of a tsunami.
[0017]
The invention according to claim 12 is the disaster prevention system according to claim 11, wherein the line securing means receives a notification of occurrence of a tsunami or an earthquake and secures a communication line with the information display board. It is characterized by.
[0018]
A thirteenth aspect of the present invention is the disaster prevention system according to the eleventh or twelfth aspect, wherein the information display board includes two or more different independent power supply systems.
[0019]
A fourteenth aspect of the present invention is the disaster prevention system according to any one of the third to thirteenth aspects, wherein the communication is performed between the operator's terminal, the image monitoring system, or the information display board. When disconnection of the line is detected, a communication line between the disconnected operator's terminal, the image monitoring system, or the information display board is secured.
[0020]
The invention according to claim 15 is the disaster prevention system according to any one of claims 3 to 14, wherein the command command system, the operator's terminal, the image monitoring system, or the The information display board communicates wirelessly.
[0021]
The invention according to claim 16 is the disaster prevention system according to any one of claims 3 to 14, wherein the image monitoring system or the information display board performs communication by wire and wirelessly. Means, and the command command system communicates with the image monitoring system or the information display board in a wired or wireless manner.
[0022]
The invention according to claim 17 is a disaster prevention in which an operator's terminal, a command command system for commanding opening and closing of a sluice or a land, and an image monitoring system for photographing a sluice or a land are connected via a network. A command command system used in the system, the storage means for storing the current position information and address information of the terminal held by the worker, the current position information of the terminal received from the worker's terminal, and the storage means A writing means for writing to, a line securing means for receiving a notification of the occurrence of a tsunami or an earthquake and using the address information in the storage means to secure a communication line with the worker's terminal, and the line securing means Using a secured communication line, based on the current position information in the storage means, an instruction to close or open the sluice or land before the position closest to the sluice or land Notification means for outputting to the terminal of the operator, state determination means for receiving the image data from the image monitoring system, and determining the open / closed state of the sluice or the land based on the image data, and the opening / closing determined by the state determination means And an output means for outputting a state.
[0023]
According to an eighteenth aspect of the present invention, a disaster prevention system is formed by connecting an operator's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing the sluice or land via a network. A disaster prevention method used in a system, wherein the command command system prepares storage means for storing current position information and address information of a worker's terminal, and receives the current position information of the terminal from the worker's terminal And writing to the storage means while receiving notification of the occurrence of a tsunami or earthquake, and using the address information in the storage means to secure a communication line with the operator's terminal, and the current position in the storage means Based on the information, using the secured communication line, an instruction to close or open the sluice or land is output to the operator's terminal located closest to this sluice or land, Disaster method whose serial image monitoring system receives the image data obtained by photographing the floodgates or Ko Riku from outputs the image data to determine the open or closed state of the sluice or Ko Riku to group, and wherein.
[0024]
The invention according to claim 19 is a disaster prevention in which an operator's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing the sluice or land are connected via a network. A computer program for a command-and-command system used in the system, the step of receiving current position information of the terminal from the terminal of the operator and writing it to the storage means, and receiving notification of the occurrence of a tsunami or earthquake, the storage means Using the address information of the worker's terminal stored in the terminal, securing a communication line with the worker's terminal, and using the secured communication line based on the current position information in the storage means Outputting an instruction to close or open the sluice or land to the operator's terminal located closest to the sluice or land; and A computer program for receiving image data obtained by photographing a sluice or land from a vision system, and determining and outputting an open / closed state of the sluice or land based on this image data. is there.
[0025]
The invention according to claim 20 is a disaster prevention in which a worker's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing the sluice or land are connected via a network. A computer-readable recording medium storing a computer program of a command command system used in the system, the step of receiving the current position information of the terminal from the terminal of the operator and writing it in the storage means, and a tsunami or earthquake Securing the communication line with the worker's terminal using the address information of the worker's terminal stored in the storage means, and the current position information in the storage means Based on the above, before using the reserved communication line, the instruction to close or open the sluice or land is located near the sluice or land. A step of outputting to the operator's terminal; and a step of receiving image data obtained by photographing the sluice or the shore from the image monitoring system, and determining and outputting an open / closed state of the sluice or the shore based on the image data, A recording medium for recording a computer program of a command command system for causing a computer to execute each process.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a disaster prevention system according to an embodiment of the present invention.
[0027]
A detection sensor 10 is installed on the sea. The detection sensor 10 includes a means for detecting a tsunami from a P wave of ground motion using existing technology, a terrestrial mobile phone network in which a base station and switching equipment exist on the ground, and a direct satellite without a base station on the ground. Means for accessing a wireless communication network N such as a satellite communication network for communication. Then, it notifies the command system 20 of the disaster prevention management center that the tsunami has been detected via the wireless communication network N. Note that the P wave is a pitching ground motion observed at an early stage of the earthquake, followed by an S wave (rolling).
[0028]
A command and instruction system 20 is installed in the disaster prevention management center. The command and command system 20 includes a CTI (Computer Telephony Integration) server 30, a monitoring server 40, a monitoring terminal 50, a wireless communication control device 51, and a wired communication control device through a network such as a LAN (Local Area Network). 52 is connected.
[0029]
The wireless communication control device 51 accesses the wireless communication network N through a wireless interface used for a terrestrial mobile phone or satellite communication. In addition, the wired communication control device 52 accesses the wired communication network M such as a fixed telephone network or the Internet network through a telephone line, a broadband line, a dedicated line, or the like.
[0030]
The monitoring terminal 50 can be realized by a personal computer, for example. The monitoring terminal 50 has a function of displaying information output from the CTI server 30 or the monitoring server 40 on its own display. Further, it has a function of transmitting information input by an operator using an input means such as a mouse or a keyboard to the CTI server 30 or the monitoring server 40.
[0031]
FIG. 2 is a block diagram showing the inside of the CTI server 30 in an expanded manner.
The CTI server 30 includes a control unit 31, a communication unit 32, a storage unit 33, a writing unit 34, a line securing unit 35, a notification unit 36, and an output unit 37.
The control unit 31 includes a CPU (central processing unit) and various memories, and has functions of controlling each unit, temporarily storing data, transferring data, and the like.
The communication unit 32 includes a TCP / IP (Transmission Control Protocol / Internet Protocol), and via a network such as a LAN, the monitoring server 40, the monitoring terminal 50, the wireless communication control device 51, and the wired communication control device 52. And has a function of transmitting and receiving data.
The storage means 33 stores staff management information, work status confirmation information, and the like. The staff management information includes the staff name, contact information such as the telephone number and e-mail address of the mobile phone 60 owned by the staff, identification information of the working group in charge (group ID), identification information of the staff (responsible ID), current position Consists of information. The work status confirmation information indicates staff identification information (such as a responsible ID and staff name), availability information on whether or not the designated work can be performed, time required to complete the work, and scheduled work end time. It consists of work end schedule information, base information in charge indicating bases in charge of work (sluice gate, shore), work status information indicating whether the work is in progress or has been completed, and the like.
The writing means 34 receives the current position information from the mobile phone 60 and writes it in the staff management information in the storage means 33.
The line securing means 35 receives a notification of detection of a tsunami from the detection sensor 10 and uses the contact information of the staff management information in the storage means 33, or the communication path or communication band with the terminal of the staff mobile phone 60 or the like. Secure communication lines such as sessions. At the same time, a communication line with the image monitoring system 70 and the information display board 80 is secured. When the disconnection of the communication line with the mobile phone 60, the image monitoring system 70, or the information display board 80 is detected, the disconnected communication line is secured again.
The notification unit 36 gives a work instruction by voice guidance or electronic mail using the communication line secured by the line securing unit 35. In the work instruction for closing or opening the sluice and the shore, instructions are given in order from the staff whose current position is closest to the sluice or the shore that is the work target. In addition, when a call is received from a terminal such as the cellular phone 60 of the staff member or web access, information relating to availability or work report is collected by voice guidance or web, and the work status in the storage means 33 is collected. It has a function to write confirmation information. Messages such as voice guidance, e-mail, and web screen to be sent to the terminal are selected according to the identification information of the message input from the monitoring terminal 50.
The output unit 37 has a function of outputting, to the monitoring terminal 50, work reports collected by the notification unit 36, information related to availability, or screen information generated from various types of information stored in the storage unit 33.
[0032]
FIG. 3 is a block diagram showing the inside of the monitoring server 40 in an expanded manner.
The monitoring server 40 includes a control unit 41, a communication unit 42, a storage unit 43, a state determination unit 44, an output unit 45, and an image acquisition unit 46.
The control means 41 includes a CPU and various memories, and has functions for controlling each unit, temporarily storing data, transferring data, and the like.
The communication means 42 includes TCP / IP and is connected to the CTI server 30, the monitoring terminal 50, the wireless communication control device 51, and the wired communication control device 52 via a network such as a LAN, and transmits and receives data. Has the function to perform.
The storage means 43 stores base management information, work status confirmation information, and the like. The base management information includes base identification information (base code) for identifying the base, base name, base position information, monitoring status indicating the current switching status, monitoring history indicating the switching history, and sluice and land A monitoring basic sample which is image data in a closed state and an open state is stored.
The state determination unit 44 receives the sluice and land image data from the image monitoring system 70, compares the image data with the image data in the base management information stored in the storage unit 43, and determines the open / close state of the sluice and land. It has a function.
The output unit 45 has a function of outputting screen information generated from the base management information stored in the storage unit 43 and the image data acquired by the image acquisition unit 46 to the monitoring terminal 50. Further, it has a function of instructing the information display board 80 to display a warning or the like.
The image acquisition means 46 has a function of instructing the image monitoring system 70 to transmit image data of a sluice or land.
[0033]
The mobile phone 60 is a terminal carried by a staff member (worker) in charge of disaster prevention such as a local government. The mobile phone 60 has a voice processing function for controlling the handset and the handset. In addition, a browser for displaying the web screen information received from the CTI server 30 via the wireless communication network N on the display, or transmitting data input to the web screen by a key or the like to the CTI server 30, or an e-mail It has a mailer to send and receive. Further, it has a GPS (Global Positioning System) function, and periodically transmits the position information acquired by the GPS to the CTI server 30 via the wireless communication network N.
The terminal device 61 is, for example, a terminal such as a personal computer installed in a staff member's home. The terminal device 61 displays the web screen information received from the CTI server 30 via the wireless communication network N or the wired communication network M on the display, or the data input to the web screen using a mouse or a keyboard. A browser for transmitting to the CTI server 30 and a mailer for sending and receiving electronic mail are provided.
The staff may include sluice gates and local residents entrusted with the opening and closing operation of the shore.
[0034]
An image monitoring system 70 and an information display board 80 are installed at bases such as a sluice, a land, and a breakwater.
The image monitoring system 70 includes a satellite mobile phone device 71, a communication control device and camera controller 72, a camera 73, and a hybrid power source 74. The satellite mobile phone device 71 has a function of controlling access to the wireless communication network N by an interface used for satellite communication. Note that satellite communication is used as a backup for communication by terrestrial mobile phones. The communication control device and the camera controller 72 have a function of accessing the wireless communication network N through an interface used for the terrestrial mobile phone network, a function of accessing the wired communication network M, and the monitoring server 40. The camera 73 is controlled by an instruction and has a function of transmitting image data captured by the camera 73 to the monitoring server 40 via the satellite mobile phone device 71. The hybrid power source 74 is an uninterruptible power source (self-sustained power source system) that does not depend on a commercial power source including a wind power generator and a solar battery, and is connected to the satellite mobile phone device 71, the communication control device and camera controller 72, and the camera 73. Supply power. The image monitoring system 70 includes a high-function monitoring camera such as an infrared cut filter control function, horizontal 360 ° rotation, and vertical 90 ° drive.
[0035]
The information display board 80 includes a communication control device 81, a display board 82, and a hybrid power supply 83. The communication control device 81 has a function of controlling access to the wireless communication network N and the wired communication network M. The display board 82 is an LED (Light Emitting Diode) display or the like, and displays information according to an instruction from the command command system 20. The hybrid power supply 83 has the same configuration as the hybrid power supply 74 and supplies power to the communication control device 81 and the display board 82.
[0036]
FIG. 4A is a diagram showing a configuration of hybrid power supplies 74 and 83 (hereinafter simply referred to as “hybrid power supply”). The hybrid power source includes a wind power generator 91, a control unit 92, a solar cell 93, a control unit 94, a connection terminal board 95, a storage battery 96, a DC-AC inverter 97, and a load facility 98.
The connection terminal board 95 flows the electric power generated by the wind power generator 91 or the solar battery 93 to the storage battery 96, and the control units 92 and 94 respectively generate the electromotive force of the wind power generator 91 or the solar battery 93 below the storage battery 96. This prevents backflow in the event of an accident. Then, the DC-AC inverter 97 converts the power stored in the storage battery 96 from direct current to alternating current, and the lighting device, the satellite mobile phone device 71, the communication control device and camera controller 72, the camera 73, or the communication control device. Power is supplied to the load equipment 98 such as 81 and the display board 82. Although the storage battery 96 is installed in the ground, a storage device is used that does not leak electricity due to condensation or the like and can safely discharge hydrogen gas generated from the storage battery.
FIG. 4B shows an example of the hybrid power supply specification. In the figure, this hybrid power supply shows that the continuous operation time is 120 hours, the wind speed is 60 m / sec, and the pole height is 6 m when the maximum output of the system as a whole is 125 W and 30 W load. . The solar cell 93 is a single crystal silicon solar cell, the maximum output is 513 W, the number is 6, and the wind power generator 91 is rated output 300 W, rated wind speed 12.5 m / sec, and the operation start wind speed is 1.0 m. / Sec., The storage battery 96 is a 12V storage battery, the capacity is 390 Ah, and the number is six.
[0037]
FIG. 5 shows a setting example of the staff management information stored in the storage unit 33 of the CTI server 30. The staff management information is composed of a plurality of records including a person in charge name (staff name), a contact address, a group ID, a person in charge ID for identifying the staff member in charge, and current position information. In the figure, record 1, record 2,... Are registered, and the following information is recorded in record 1 and record 2.
[0038]
<Record 1>
・ Name of person in charge: Ichiro Unno
·contact information:
-Contact 1 (home phone): 01-234-XXXX
-Contact 2 (Home FAX): 01-234-XXXX
-Contact 3 (phone number of the mobile phone 60): 090-1234-XXXX
-Contact 4 (e-mail address of the mobile phone 60): umino @ cocomo. co. jp
-Contact 5 (e-mail address of the terminal device 61): umino @ pref-k. co. jp
・ Group ID:
-Group ID 1: 001
-Group ID 2: 002
・ Responsible ID:
-Charge ID 1: 001
-Responsible ID 2: 002
-Current position information: (latitude) xxx degrees xx minutes, (longitude) xxx degrees xx minutes
<Record 2>
・ Contact name: Namio Tsuda
·contact information:
-Contact 1 (home phone): 01-345-XXXX
-Contact 2 (Home FAX): 01-345-XXXX
-Contact 3 (phone number of mobile phone 60): 090-2345-XXXX
-Contact 4 (e-mail address of the mobile phone 60): tsuda @ cocomo. co. jp
-Contact 5 (e-mail address of the terminal device 61): tsuda @ pref-k. co. jp
・ Group ID:
-Group ID 1: 001
-Group ID 2: 002
・ Responsible ID:
-Charge ID 1: 001
-Responsible ID 2: 002
-Current position information: (latitude) xxx degrees xx minutes, (longitude) xxx degrees xx minutes
[0039]
FIG. 6 shows a setting example of the base management information stored in the storage unit 43 of the monitoring server 40. The base management information is composed of a plurality of records including a base code, a base name, a monitoring status, a monitoring history indicating the most recent opening / closing time, and daytime and nighttime monitoring basic samples. In the figure, record 1, record 2,... Are registered, and the following information is recorded in record 1 and record 2.
[0040]
<Record 1>
・ Base code: 0001
・ Base name: Southeast coast
・ Monitoring status: Closed
・ Monitoring history: (previous opening) January 23, 2003, 12:34:56, (previous closing) January 23, 2003, 23:45:59
・ Monitoring basic sample:
-Closed state: (daytime) 0001 closed daytime. bmp, (night) 0001 closed night. bmp
-Open state: (daytime) 0001 noon. bmp, (night) 0001 open. bmp
<Record 2>
・ Base code: 0002
・ Base name: Northwest coast
-Monitoring status: Open
・ Monitoring history: (previous opening) January 24, 2003, 12:34:56, (previous closing) January 23, 2003, 23:45:59
・ Monitoring basic sample:
-Closed state: (daytime) 0002 closed daytime. bmp, (night) 0002 closed. bmp
-Open state: (daytime) 0002 open. bmp, (night) 0002 open. bmp
[0041]
Next, the operation of the disaster prevention system according to one embodiment of the present invention will be described.
The staff always carries the mobile phone 60 and transmits the current position information to the CTI server 30 every predetermined time. The writing unit 34 of the CTI server 30 writes the current position information acquired from the mobile phone 60 in the staff management information in the storage unit 33.
[0042]
FIG. 7 shows a flow of pre-processing in which the monitoring server 40 acquires a monitoring basic sample to be used for determining the open / close state of the sluice and the land.
First, the monitoring server 40 is connected to the image monitoring system 70 installed at the monitoring target base via the wireless communication network N (step S100). Then, the image acquisition means 46 of the monitoring server 40 sets the camera 73 of the image monitoring system 70 at a home position that is a predetermined camera position and a zoom position where the open / closed state of the sluice gate and the land of the base can be confirmed, and the image is taken. An instruction is given to return the image (step S110).
Upon receiving an instruction from the monitoring server 40 via the wireless communication network N, the communication control device and the camera controller 72 of the image monitoring system 70 set the camera 73 at the home position and take a picture. The image acquisition unit 46 of the monitoring server 40 receives the image data taken by the camera 73 of the image monitoring system 70, and the storage unit 43 stores it according to the current time and the open / closed state of the sluice and the land. Is written in the monitoring basic sample of the site management information (step S120). Note that whether the image data should be written to the monitoring basic sample in the open state or the closed state is determined by an operator input from the monitoring terminal 50 or the like.
The monitoring server 40 acquires the image data of the open and closed states at daytime and nighttime for the sluices and land of all the bases to be monitored by the above processing, and accumulates them in the base management information in the storage means 43.
[0043]
FIG. 8 shows a flow of a line securing process when a tsunami occurs. In the line securing process, all public lines used by the disaster prevention system in advance are detected before the tsunami is detected by mass media, etc., and the communication network is congested. The communication line between the command command system 20 and the mobile phone 60 or the terminal device 61 is established.
[0044]
When an earthquake occurs and the detection sensor 10 detects a tsunami, the CTI server 30 and the monitoring server 40 receive a notification of tsunami detection via the wireless communication network N (step S200). The line securing means 35 of the CTI server 30 refers to the staff management information in the storage means 33, makes a call / outgoing call to all staff contacts, and establishes a communication line (session) (step S210, step S220). ). At this time, if multiple contacts are registered in the staff management information, you may make calls to or send calls only to contacts with high priority, or to multiple contacts. It is assumed that a communication line with the mobile phone 60 is always established. At the same time, a call is made to the image monitoring system 70 and the information display board 80, and a communication line (session) is established.
[0045]
FIG. 9 shows a flow of command processing. In the command instruction processing, the staff in charge grouped for each target task is automatically transmitted only by designating a pre-registered message and the identification information of the corresponding task group each time a business (task) occurs. At this time, the work is preferentially assigned to the staff near the work place (base). This transmission uses a telephone call or electronic mail using a communication line secured with the mobile phone 60 in FIG. The work completion report or the like is performed by accessing a telephone number or URL (Universal Resource Locator) for work report specified in advance, and a detailed flow will be described later.
[0046]
A local disaster prevention manager or the like inputs a group ID corresponding to a message from the monitoring terminal 50, for example, a sluice or land closure or opening work, and message identification information, and transmits them to the CTI server 30. To do. Here, it is assumed that the group ID corresponding to the work for closing the sluice of a certain base and the identification information of the message instructing the closing of the sluice are input. The notification means 36 of the CTI server 30 is a staff member corresponding to the input group ID, and the staff member closest to the sluice gate to be worked is determined based on the staff management information stored in the storage means 33. Select Then, using the communication line established in step S220, an electronic mail is sent or called (guidance is sent out) instructing the staff's mobile phone 60 to close the sluice (step S300).
[0047]
When the staff receives an instruction to close the sluice gate by e-mail to the mobile phone 60 owned by the staff, the staff accesses the URL for reporting whether the mobile phone 60 can be dispatched. The notification means 36 of the CTI server 30 that has received access from the mobile phone 60 returns a web screen for prompting input of availability information and required time (work completion schedule information). Then, when the dispatching permission / inhibition information and the required time input by the staff are received from the mobile phone 60, the information is written in the work status confirmation information in the storage means 33.
In addition, when the mobile phone 60 receives an instruction to close the sluice gate by voice guidance, the availability information and required time are input by voice such as DTMF (Dual Tone Multiple Frequency) or voice. The notification means 36 of the CTI server 30 writes the received dispatch availability information and required time in the work status confirmation information in the storage means 33 (step S310).
This work status confirmation information is transferred to the monitoring server 40 and written in the storage means 43.
[0048]
The notification means 36 of the CTI server 30 terminates the command command processing when the availability information received from the staff's mobile phone 60 indicates availability (step S320 Yes).
On the other hand, if the dispatching permission / inhibition information received from the staff's mobile phone 60 indicates that the dispatching is impossible (No in step S320), the staff corresponding to the input group ID and next to the sluice gate to be worked on is selected. Select (step S330). If there is a staff member to be selected (step S330 Yes), the communication line secured in step S220 is used to inquire whether or not the selected staff member can be dispatched (step S340). In addition, when there is no staff to be selected because selection has been completed for all staff or the current position is more than a predetermined distance from the base (No in step S330), “instruction impossible” is indicated. A message to be displayed is output to the monitoring terminal 50, and the command command process is terminated (step S350).
[0049]
FIG. 10 shows a flow of work report processing when a work report is made by Web access, and FIG. 11 shows a flow of work report processing when a work report is made by a call.
In FIG. 10, the staff member who closed the sluice gate at the base accesses the URL for work report designated in advance from the mobile phone 60 using the secured communication line (step S400). The notification means 36 of the CTI server 30 that has received access from the mobile phone 60 returns a web screen for prompting input of a work report. When receiving information (hereinafter referred to as work report information) related to a work report such as work status information input by the staff from the mobile phone 60, the work report information is written into the work status confirmation information in the storage means 33. Transfer to the monitoring server 40 (step S410). The monitoring server 40 writes the received work report information in the storage means 43 (step S420).
[0050]
In FIG. 11, the staff member who closed the sluice gate at the base places a call from the mobile phone 60 to the telephone number for work report designated in advance (step S450). The notification means 36 of the CTI server 30 that has received access from the mobile phone 60 sends out guidance prompting the user to input a work report. The staff inputs work report information by voice according to the guidance. The notification means 36 writes the work report information received from the staff to the work status confirmation information in the storage means 33, and delivers this work report information to the monitoring server 40 (step S460). The monitoring server 40 writes the received work report information in the storage means 43 (step S470).
[0051]
FIG. 12 is a diagram showing an example of a screen display of the mobile phone 60 when a work instruction is given by e-mail and a dispatching permission / inhibition report and work report are made by web access.
In step S300 or step S340 of FIG. 9, when the mobile phone 60 receives an e-mail from the CTI server 30 by its own mailer and selects this e-mail from the mail list screen, a mail opening screen is displayed. This e-mail describes the fact that the tsunami occurred, the date and time of the tsunami, the base (▲▲ Sluice) where the work is to be performed and the work content (closed), the URL for the availability report, the URL for the work report, etc. ing.
When a staff member accesses a URL for dispatching availability report (FIG. 9, step S310), a web provided with a radio button for selecting availability of dispatching and a field for inputting a scheduled time required for completion of work. The access screen is displayed.
In addition, when a URL for work report is accessed (FIG. 10, step S400), a radio button for selecting a work status such as closing or opening of a work target base, a field for inputting special notes, and the like are provided. The web access screen is displayed.
[0052]
On the other hand, in step S300 or step S340 of FIG. 9, when inquiring whether the work can be performed or not by calling (guidance) to the mobile phone 60, the notification means 36 of the CTI server 30 is “emergency command. Nankai earthquake for xx hours and xx minutes” The tsunami was derived from.Please close your ▲▲ sluice gate immediately. If you can dispatch, please press 1 #, if you can not dispatch, please press 2 #. " At this time, when “1 #” is received from the mobile phone 60, a guidance “Please enter the required time in minutes.” Is transmitted. When the required time is received from the mobile phone 60, a guidance “message is over” is transmitted, and the received information is written in the work status confirmation information in the storage means 33.
In addition, when a staff member makes a call from the mobile phone 60 to a work report telephone number (FIG. 11, step S450), the notification means 36 of the CTI server 30 is “This is a coastal disaster prevention center. Enter the sluice base number and press #. " For example, when a base number “0001 #” is received from the mobile phone 60 in response to this guidance, the base name corresponding to this base number is used and “It is the southeast coast. 1 # if correct, 2 if incorrect. Send a guidance like "Press #" to confirm. When voice indicating that the base is correct is input from the mobile phone 60, a guidance “message is over” is transmitted.
[0053]
FIG. 13 is a diagram showing a flow of analysis processing for grasping the open / close state of the sluice and the land. In the analysis process, the current image of the sluice and land to be monitored is compared with the previously stored still image (monitoring basic sample), and either “Closed” or “Open” is selected. It is judged whether it matches the image or is close with high probability.
The image acquisition means 46 of the monitoring server 40 connects to the image monitoring system 70 installed at the monitoring target base via the wireless communication network N (step S500). The image acquisition means 46 instructs the image monitoring system 70 to set the camera 73 at the home position and return the captured image. Then, in accordance with the instruction received from the monitoring server 40, the communication control device and the camera controller 72 of the image monitoring system 70 set the camera 73 at the home position and take a picture (step S510). And the image acquisition means 46 of the monitoring server 40 receives the image data which the camera 73 image | photographed (step S520).
[0054]
The state determination unit 44 reads out the monitoring basic sample of the daytime or nighttime monitoring basic sample of the base management information stored in the storage unit 43 corresponding to the current time, and acquires the image acquisition unit 46. Is compared with the received image data (step S530). If it is determined that the state is close (step S540 Yes), “closed” is written in the monitoring status in the base management information stored in the storage unit 43 (step S550). Then, the output unit 45 displays the “closed” state on the monitoring terminal 50 (step S560).
On the other hand, if it is determined that the state is not close (No in step S540), it is determined whether the state is close to the open state. When it is determined that the state is close to the open state (step S570 Yes), “open” is written in the monitoring status in the base management information stored in the storage unit 43 (step S580). Then, the output unit 45 displays the “open” state on the monitoring terminal 50 (step S590).
If it is determined that the state is not close to the open state (No in step S570), the processing from step S530 is repeated.
The monitoring server 40 performs the above analysis processing for all the bases, the base selected by the operator received from the monitoring terminal 50, or the target base for which the work is instructed in step S300.
[0055]
FIG. 14 shows an example of a work status confirmation list display screen displayed by the monitoring terminal 50.
When the CTI server 30 receives from the monitoring terminal 50 that the operator has performed an operation for displaying the work status confirmation list, the output unit 37 reads the work status confirmation information in the storage unit 33. And the staff name corresponding to the staff identification information, the base name corresponding to the base information in charge (the base in charge), the contact status indicating whether or not the instruction has been output to the terminal of the staff, dispatch availability information, work end schedule information Then, screen information for displaying a work status confirmation list including work status information is generated and transferred to the monitoring terminal 50. The monitoring terminal 50 displays a work status confirmation list according to the received screen information. The output unit 37 generates screen information for displaying the latest work status confirmation list every time the notification unit 36 updates the work status confirmation information in the storage unit 33, and outputs the screen information to the monitoring terminal 50.
[0056]
FIG. 15 shows an example of an unexecuted site list display screen displayed by the monitoring terminal 50. When the CTI server 30 receives from the monitoring terminal 50 that the operator has performed an operation for displaying a list of unexecuted sites, the output unit 37 reads the work status confirmation information in the storage unit 33. Then, the record of the work status information in the work status confirmation information is read, the base name corresponding to the base information in charge in this record, the identification information of the staff (name of the staff in charge), the work end schedule information, the work status Screen information for displaying a list of unexecuted sites including information and the like is generated and transferred to the monitoring terminal 50. The monitoring terminal 50 displays a list of unexecuted sites according to the received screen information. The output unit 37 generates screen information for displaying the latest list of unexecuted sites every time the notification unit 36 updates the work status confirmation information in the storage unit 33, and outputs the screen information to the monitoring terminal 50. You can also
[0057]
FIG. 16 shows an example of an open / close status list display screen output by the monitoring terminal 50.
When the monitoring server 40 receives from the monitoring terminal 50 that the operator has performed an operation for displaying the open / close status list, the output unit 45 reads the base management information in the storage unit 43. Then, using the read record, screen information for displaying an open / close status list including the base name and the monitoring status is generated and transferred to the monitoring terminal 50. The monitoring terminal 50 displays a list of opening / closing statuses of sluice and land according to the received screen information. The output unit 45 of the monitoring server 40 generates screen information for displaying the latest open / close status list every time the state determination unit 44 updates the monitoring status of the base management information in the storage unit 43, and monitors It can also be output to the terminal 50.
[0058]
FIG. 17 shows an example of the camera monitoring screen of the base output from the monitoring terminal 50.
When the monitoring server 40 receives from the monitoring terminal 50 that the operator has performed an operation for displaying a camera monitoring image at a certain base, the output means 45 outputs the base name (connection destination point name) and the image acquisition means. The screen information for displaying the image data in each direction of the base imaged by the image monitoring system 70 according to the instruction 46 is generated and transferred to the monitoring terminal 50. The monitoring terminal 50 displays a camera monitoring screen according to the received screen information.
In addition, when the monitoring terminal 50 receives input of photographing condition information such as a direction, zoom, and focus from the operator, the monitoring terminal 50 transfers the information to the monitoring server 40. The image acquisition unit 46 of the monitoring server 40 instructs the image monitoring system 70 to return the image data captured based on the imaging condition information. The image monitoring system 70 performs shooting according to the specified shooting condition information, and returns image data. The output unit 45 of the monitoring server 40 generates screen information for displaying the image data received by the image acquisition unit 46 and passes it to the monitoring terminal 50.
[0059]
Note that the output unit 45 of the monitoring server 40 receives the notification of tsunami detection from the detection sensor 10 in step S200 of FIG. 8, or the group ID corresponding to the requirement from the monitoring terminal 50 in step S300 of FIG. When it is input, the information display board 80 displays a tsunami detection, warning / evacuation advisory corresponding to the tsunami, such as “I will close the sluice”, and a closing notice.
Further, the output means 45 of the monitoring server 40 may receive base identification information and display content information input from the monitoring terminal 50 by the operator to the monitoring terminal 50 and instruct display on the information display board 80.
[0060]
Further, the line securing means 35 of the CTI server 30 monitors the communication line with the mobile phone 60, the image monitoring system 70 and the information display board 80, and when the communication line is disconnected, the disconnected mobile phone is again connected. The communication line between the telephone 60, the image monitoring system 70 or the information display board 80 is secured. If the communication line cannot be secured, the retry is performed within a predetermined time, within a predetermined number of retries, or until an instruction to stop the retry is received from the monitoring terminal 50 based on an input from a disaster prevention manager or the like. At this time, a communication line between the image monitoring system 70 and the information display board 80 is established using either a satellite communication, a radio such as a terrestrial mobile phone, or a wired line such as a telephone line, a broadband line, or an Internet line. Secure.
[0061]
In addition, when the CTI server 30 receives a notification of the occurrence of a tsunami from the detection sensor 10, the sluice gate or land closure operation to be executed is determined according to the area where the tsunami is detected, its size, etc. Inquiries regarding whether or not to dispatch may be made.
Further, the monitoring terminal 50 may be connected to the CTI server 30 and the monitoring server 40 via the wireless communication network N or the wired communication network M.
[0062]
In the above embodiment, the CTI server 30 receives the occurrence of the tsunami from the detection sensor 10, but the notification of the earthquake P wave detection is connected via the wireless communication network N or the wired communication network M. It may be received immediately after the P wave is detected from the server or the earthquake detection sensor that detects the P wave.
In recent research, it is known that the occurrence of an earthquake can be detected by electromagnetic waves before the earthquake shakes from the epicenter. Therefore, the notification of the detection of the electromagnetic wave due to the earthquake is received immediately after the detection of the electromagnetic wave due to the earthquake from the server connected via the wireless communication network N or the wired communication network M or the sensor detecting the electromagnetic wave of the earthquake. But you can.
As mentioned above, by receiving notification of the occurrence of an earthquake or tsunami immediately after detection of an electromagnetic wave of a P wave that is an initial shaking of the earthquake or an earthquake that travels at a speed about 50,000 times that of the earthquake, Alternatively, it is possible to secure a communication line earlier, such as before the earthquake arrives.
[0063]
According to the above embodiment, based on the observation results of tsunami and earthquake, secure the communication line to the terminal owned by the staff in charge of disaster prevention at an early stage, and retry the securing of the communication line when the line is disconnected This makes it possible to reliably perform work instructions and work reports for opening and closing sluices and land. In addition, it is possible to work quickly by instructing the staff closest to the sluice or landlock.
Furthermore, according to the above embodiment, based on the observation result of tsunami or earthquake, the communication line between the image monitoring system and the information display board is secured at an early stage, and when the line is disconnected, the communication line is retried. Do. In addition, a hybrid power source is provided for the image monitoring system and the information display board, and the power source is secured even when the power line is cut off in the event of a disaster, and further, the storage battery is prevented from being washed away by a tsunami by burying the storage battery in the ground. As a result, it is possible to easily and reliably check the sluice gate and the opening and closing status of the shore, and to transmit the warning about the occurrence of the tsunami to the sluice and the vicinity of the shore to prevent damage. it can.
[0064]
The above-described detection sensor 10, CTI server 30, monitoring server 40, monitoring terminal 50, wireless communication control device 51, wired communication control device 52, mobile phone 60, terminal device 61, image monitoring system 70, and information The display board 80 has a computer system inside. The above-described operation process is stored in a computer-readable recording medium in the form of a program, and the computer system reads and executes this program to perform the above processing. The computer system here includes an OS and hardware such as peripheral devices.
[0065]
In addition to ROM, “computer-readable recording medium” refers to a portable medium such as a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, or a storage device such as a hard disk built in a computer system. That means. Furthermore, the “computer-readable recording medium” refers to a volatile memory (RAM) inside a computer system that becomes a client or a system when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.
[0066]
【The invention's effect】
According to the present invention, based on the observation result of tsunami or earthquake, the communication line to the terminal owned by the worker is secured at an early stage, and when it is disconnected, it is secured again so that the sluice gate and the land can be opened and closed. Work instructions and work reports can be reliably performed. In addition, it is possible to perform work quickly by instructing the worker closest to the sluice or the land. Further, by using wireless communication, it is possible to operate the disaster prevention system without being affected by the communication line disconnection.
Further, it is possible to secure a communication line with the image monitoring system and the information display board, and it is possible to secure a power source when the power line is cut off in the vicinity of the sluice gate and land. As a result, it is possible to easily and surely confirm the open / closed status of the sluice gate and the land, and it is possible to reliably transmit a warning related to the occurrence of a tsunami, thereby suppressing damage.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a disaster prevention system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an expanded interior of the CTI server according to the embodiment.
FIG. 3 is a block diagram showing an expanded inside of a monitoring server according to the embodiment;
FIG. 4 is a diagram showing a configuration and specifications of a hybrid power supply according to the embodiment.
FIG. 5 is a diagram showing a setting example of staff management information according to the embodiment;
FIG. 6 is a diagram showing a setting example of base management information according to the embodiment;
FIG. 7 is a diagram showing a flow of pre-processing according to the same embodiment;
FIG. 8 is a diagram showing a flow of a line securing process when a tsunami occurs according to the same embodiment.
FIG. 9 is a diagram showing a flow of command processing according to the embodiment.
FIG. 10 is a diagram showing a flow of work report processing according to the embodiment;
FIG. 11 is a diagram showing a flow of work report processing according to the embodiment;
FIG. 12 is a diagram showing an example of a screen display of the mobile phone according to the embodiment.
FIG. 13 is a diagram showing a flow of analysis processing according to the embodiment;
FIG. 14 is a diagram showing an example of a work status confirmation list display screen according to the embodiment;
FIG. 15 is a diagram showing an example of an unexecuted site list display screen according to the embodiment;
FIG. 16 is a diagram showing an example of an open / close status list display screen according to the embodiment;
FIG. 17 is a diagram showing an example of a base camera monitoring screen according to the embodiment;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Detection sensor, 20 ... Command command system, 30 ... CTI server, 31, 41 ... Control means, 32, 42 ... Communication means, 33, 43 ... Storage means, 34 ... Write means, 35 ... Line securing means, 36 Reference means 37, 45 ... Output means 40 ... Monitoring server 44 ... State determination means 46 ... Image acquisition means 50 ... Monitoring terminal 51 ... Wireless communication control device 52 ... Wired communication control device 60 ... Mobile phone 61 ... Terminal device 70 Image monitoring system 71 Satellite mobile phone device 72 Communication control device and camera controller 73 Camera 74, 83 Hybrid power supply 80 Information display board 81 Communication Control device 82 ... Display board 91 ... Wind power generator 92, 94 ... Control unit 93 ... Solar cell 95 ... Connection terminal board 96 ... Storage battery 97 ... DC-AC Converter (INV), 98 ... load equipment

Claims (20)

Photographing means for obtaining image data of a sluice or land,
Storage means for storing the current position information and address information of the operator's terminal;
Writing means for receiving the current position information of the terminal from the terminal of the worker and writing it in the storage means;
A line securing means for securing a communication line with the operator's terminal using the address information in the storage means when receiving a notification of the occurrence of a tsunami or earthquake;
Using the communication line secured by the line securing means, based on the current position information in the storage means, an instruction to close or open the sluice or land is located near the sluice or land A notification means for outputting to the terminal of
State determining means for determining an open / closed state of the sluice or land based on image data obtained by the photographing means;
Output means for outputting the open / closed state determined by the state determining means;
A disaster prevention system characterized by comprising: The disaster prevention system according to claim 1, wherein the notification is performed based on detection of an electromagnetic wave or a P wave of an earthquake. A disaster prevention system in which a worker's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing a sluice or land are connected via a network,
The image monitoring system includes:
Means for transmitting image data of a sluice or land to the command command system,
The command command system includes:
Storage means for storing the current position information and address information of the terminal held by the operator;
Writing means for receiving the current position information of the terminal from the terminal of the worker and writing it in the storage means;
A line securing unit that receives a notification of the occurrence of a tsunami or earthquake and uses the address information in the storage unit to secure a communication line with the operator's terminal;
Using the communication line secured by the line securing means, based on the current position information in the storage means, an instruction to close or open the sluice or land is located near the sluice or land A notification means for outputting to the terminal of
State determination means for receiving image data from the image monitoring system and determining the open / closed state of the sluice or land based on this image data;
Output means for outputting the open / close state determined by the state determination means,
Disaster prevention system characterized by that. The storage means further stores image data in a state where the sluice or land is closed and opened,
The state determination means compares the image data received from the image monitoring system with the image data in the storage means, and determines the open / closed state of the sluice or land.
The disaster prevention system according to claim 3. The output means receives and outputs information indicating that the work corresponding to the instruction is completed from the terminal of the worker from which the notification means has output the instruction.
The disaster prevention system according to claim 3 or claim 4, characterized by that. The notification means receives information indicating whether or not the work can be performed from the terminal of the worker who has output the instruction, and when the information indicating whether or not the work can be performed indicates that the work cannot be performed, the sluice or land Output the instruction to the terminal of another operator close to
The disaster prevention system according to any one of claims 3 to 5, characterized in that. The line securing means receives a notification of the occurrence of a tsunami or an earthquake and secures a communication line with the image monitoring system.
The disaster prevention system according to any one of claims 3 to 6, wherein the disaster prevention system is provided. The image monitoring system includes:
With two or more different independent power supply systems,
The image data obtained by photographing the sluice or the land is transmitted to the command command system by the power supplied from any of the self-sustained power systems.
The disaster prevention system according to any one of claims 3 to 7, wherein the disaster prevention system is provided. The image monitoring system includes:
Furthermore, it comprises a power storage means for accumulating power supplied from any of the self-sustained power systems,
With the power supplied from the power storage means, the image data taken of the sluice or land is transmitted to the command command system.
The disaster prevention system according to claim 8. The disaster prevention system according to claim 9, wherein the power storage unit is installed in the ground. Furthermore, it is connected to an information display board that displays information according to instructions from the command command system,
The output means instructs the information display board to display a warning associated with the occurrence of a tsunami;
The disaster prevention system according to any one of claims 3 to 10, wherein the disaster prevention system is provided. The line securing means receives a notification of the occurrence of a tsunami or an earthquake, and secures a communication line with the information display board.
The disaster prevention system according to claim 11. The information display board comprises two or more different independent power supply systems,
The disaster prevention system according to claim 11 or 12, characterized in that. When the line securing means detects the disconnection of the communication line with the operator terminal, the image monitoring system or the information display board, the disconnected operator terminal, the image monitoring system or Securing a communication line with the information display board,
The disaster prevention system according to any one of claims 3 to 13, wherein the disaster prevention system is provided. The command command system and the operator's terminal, the image monitoring system, or the information display board communicate wirelessly.
The disaster prevention system according to any one of claims 3 to 14, characterized in that: The image monitoring system or the information display board includes means for performing wired and wireless communication,
The command command system, the image monitoring system, or the information display board communicates by wire or wirelessly.
The disaster prevention system according to any one of claims 3 to 14, characterized in that: This command command system is used in a disaster prevention system in which an operator's terminal, a command command system for commanding opening and closing of a sluice or land, and an image surveillance system for photographing a sluice or land are connected via a network. Storage means for storing the current position information and address information of the terminal held by the worker;
Writing means for receiving the current position information of the terminal from the terminal of the worker and writing it in the storage means;
A line securing unit that receives a notification of the occurrence of a tsunami or earthquake and uses the address information in the storage unit to secure a communication line with the operator's terminal;
Using the communication line secured by the line securing means, based on the current position information in the storage means, an instruction to close or open the sluice or land is located near the sluice or land A notification means for outputting to the terminal of
State determination means for receiving image data from the image monitoring system and determining the open / closed state of the sluice or land based on this image data;
Output means for outputting the open / closed state determined by the state determining means;
A command and command system characterized by comprising: A disaster prevention method used in a disaster prevention system in which an operator's terminal, a command command system for commanding opening and closing of a sluice or land, and an image monitoring system for photographing a sluice or land are connected via a network. ,
The command command system includes:
Prepare storage means for storing the current position information and address information of the operator's terminal,
While receiving the current location information of the terminal from the worker's terminal and writing to the storage means,
Receiving notification of the occurrence of a tsunami or earthquake, using the address information in the storage means, secure a communication line with the worker's terminal,
Based on the current position information in the storage means, an instruction to close or open the sluice or land is output to the operator's terminal located closest to the sluice or land using a secured communication line. And
Receive image data of a sluice or land from the image monitoring system, and based on this image data, determine the open or closed state of the sluice or land and output,
A disaster prevention method characterized by that. A computer of a command system used in a disaster prevention system in which an operator's terminal, a command system that commands opening and closing of a sluice or land, and an image surveillance system that photographs the sluice or land are connected via a network. A program,
Receiving the current position information of the terminal from the worker's terminal and writing it to the storage means;
Receiving notification of the occurrence of a tsunami or earthquake, using the address information of the worker's terminal stored in the storage means, securing a communication line with the worker's terminal;
Based on the current position information in the storage means, an instruction to close or open the sluice or land is output to the operator's terminal located closest to the sluice or land using a secured communication line. And steps to
Receiving image data of a sluice or land from the image monitoring system, and determining and outputting an open / closed state of the sluice or land based on this image data; and
A computer program for causing a computer to execute. A computer of a command system used in a disaster prevention system in which an operator's terminal, a command system that commands opening and closing of a sluice or land, and an image surveillance system that photographs the sluice or land are connected via a network. A computer-readable recording medium storing a program,
Receiving the current position information of the terminal from the worker's terminal and writing it to the storage means;
Receiving notification of the occurrence of a tsunami or earthquake, using the address information of the worker's terminal stored in the storage means, securing a communication line with the worker's terminal;
Based on the current position information in the storage means, an instruction to close or open the sluice or land is output to the operator's terminal located closest to the sluice or land using a secured communication line. And steps to
Receiving image data of a sluice or land from the image monitoring system, and determining and outputting an open / closed state of the sluice or land based on this image data; and
A recording medium for recording a computer program of a command command system for causing a computer to execute each of the above processes.

Images