KR101950685B1 - System and method for establishing disaster recovery execution plan of soc facilities - Google Patents

Abstract

The present invention provides a system and a method for establishing an SOC facility damage recovery execution plan which can establish a recovery execution plan to quickly recover from damage to SOC facilities. According to an embodiment of the present invention, the system for establishing an SOC facility damage recovery execution plan comprises: a damage facility and situation input unit to input SOC facilities damaged by a disaster and a damage situation; a damage recovery method selection unit to select a damage recovery method based on the inputted damage facilities and damage situation; a damage recovery execution plan establishing unit to allocate recovery resources and derive a damage recovery execution plan to perform the selected damage recovery method; an information transfer unit to request damage recovery aid from a mobile terminal loaded in the allocated recovery resources; a moving status determination unit to use current location information, acceleration information, angular velocity information, and direction information of recovery resources for which the damage recovery aid is requested to determine whether to move the recovery resources by the mobile terminal loaded in the allocated recovery resources; a reception checking unit to receive moving status determination information of the allocated recovery resources from the moving status determination unit; and a recovery resource change situation determination unit to use the moving status determination information of the recovery resources received by the reception checking unit to determine and decide whether to reallocate recovery resources and whether to change the derived damage recovery execution plan in the damage recovery execution plan establishing unit.

Description

SYSTEM AND METHOD FOR ESTABLISHING DISASTER RECOVERY EXECUTION PLAN OF SOC FACILITIES [0002]

The present invention relates to a system and method for establishing an SOC facility damage recovery execution plan, and more particularly, to a system and method for establishing an SOC facility damage restoration execution plan by a natural disaster such as a typhoon or a heavy rainfall. And a system and method for establishing an SOC facility disaster recovery action plan that can establish a recovery action plan to recover quickly if damage occurs.

In recent years, abnormal weather caused by global warming has caused natural phenomena such as typhoons, earthquakes, strong winds and snowfall as well as rising atmospheric temperature, and it is also threatening the safety of SOC facilities.

Especially, if damage to SOC facilities occurs due to natural disasters, emergency recovery should be performed within the Golden Time to prevent the spread of damages and secondary damage.

However, in reality, it takes a lot of time to request the dispatch of the recovery equipment through the wired communication with the recovery equipment operator and to grasp the situation.

In addition, it is not possible to know whether the recovery resources are available or not, and it is difficult to actually use the recovery recovery plan, and it is difficult to change the recovery recovery plan reflecting the situation of the site.

In order to solve these problems, a technique has been introduced that combines standard operating procedures and emergency support resource and geographic information for each type of disaster, creates scenarios, allocates corresponding resources, manages the status system, and restores disaster situations .

However, even in such a case, it is disadvantageous that it is impossible to change the recovery plan and to manage the recovery equipment reflecting the information such as whether the recovery equipment is available or not, because the corresponding resource is allocated and the recovery plan is established by the predetermined scenario.

A related prior art is Korean Patent Laid-Open Publication No. 10-2016-0110867 (published on Sep. 22, 2016), which discloses a scenario-based disaster response establishment system and method.

Disclosure of the Invention The present invention has been made to solve the above-mentioned problems and it is an object of the present invention to provide a system for establishing a restoration execution plan for an SOC facility that can establish a recovery execution plan so that, when a SOC facility is damaged by natural disasters such as typhoons and heavy rain, .

In addition, the present invention provides a method of establishing a restoration execution plan for SOC facilities that can establish a restoration execution plan so that, when a SOC facility is damaged by natural disasters such as typhoons and heavy rainfall, it is quickly restored.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention which are not mentioned can be understood by the following description and more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

The system for establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention is a system for disaster recovery based on the SOC facilities and the damage input situation input unit, A restoration execution plan establishing unit for allocating restoration resources and deriving a disaster recovery execution plan to perform the selected disaster recovery method, a mobile unit mounted on the allocated restoration resources, An information transferring unit for requesting disaster recovery support to the terminal, a mobile terminal mounted on the allocated restoration resource, for restoring the restoration resource using the current location information, the acceleration information, the angular velocity information, A movement determination unit for determining whether or not the recovery resource is moved; A reception confirmation unit for receiving information on whether or not the allocated recovery resource is moved from the movement determination unit; A recovery resource allocating unit that allocates a recovery resource to the recovery recovery execution plan determining unit based on the determination information on whether or not the recovery resource has been moved through the reception confirmation unit, And a change situation determination unit.

Preferably, the damage recovery method selection unit may select a damage recovery method according to the damage type, the damage scale, and the emergency repair construction standard of the damage facilities inputted from the damage facilities and the situation input unit.

In addition, the disaster recovery execution plan establishing unit may derive a candidate resource including at least one restoration resource capable of performing the selected disaster recovery method from a stored restoration resource database with respect to an operational restoration resource, The current location of the at least one recovery resource included in the candidate resource, and then, using the information on the movement speed of each of the at least one recovery resource included in the derived candidate resource, the occurrence time of the disaster, It is judged whether or not it is possible to move within the set time from the position to the disaster occurrence area, so that only the movable recovery resources can be selected and allocated to the disaster recovery.

In addition, in the mobile terminal mounted on the allocated restoration resource, a request for a disaster recovery support request is received from the information transmission unit using wireless communication with the information transmission unit, And a movement command receiver for instructing the movement determination unit to determine whether the resource is moved.

A GPS receiving the current position information of the allocated restoration resource to determine whether the restoration resource is moved in the movement determination unit; a three-axis accelerometer detecting acceleration information of the allocated restoration resource; A gyroscope for detecting angular velocity information of the allocated restoration resource, and a geomagnetic sensor for receiving direction information of the allocated restoration resource.

Axis accelerometer, the current position information of the restoration resource received by the GPS, the acceleration information of the restoration resource detected by the three-axis accelerometer, the angular velocity information of the restoration resource detected by the gyroscope, Wherein the navigation information includes information on the current location of the restoration resource, acceleration information, angular velocity information, and acceleration information of the restoration resource, Direction information to determine whether the recovery resource is moved.

In addition, whether or not the recovery resource is moved may include at least one of a state in which the recovery resource is in a start-off state, a state in which the recovery resource is turned on and a position is not changed, a state in which the recovery resource is approaching a damage occurrence area, Or a state in which the vehicle is in a state of departure from the vehicle.

In addition, the mobile terminal installed in the allocated recovery resource may further include an unexpected state input unit for receiving the unexpected state information of the recovery resource.

At this time, the unexpected situation information of the recovery resource input from the unexpected situation input unit is transmitted to the reception confirmation unit, and the recovery resource change status determination unit determines the recovery status of the recovery resource based on the unexpected situation information of the recovery resource received through the reception confirmation unit And may instruct the damage recovery execution plan establishment unit to reallocate the recovery resource and to change the recovery recovery execution plan.

A method for establishing an SOC facility damage recovery execution plan according to another embodiment of the present invention includes the steps of: (a) inputting, at the damage facility and the situation input unit, an SOC facility and a damage situation caused by a disaster; Selecting a damage restoration method based on the inputted damage facilities and the damage situation in the damage restoration method selecting part; (c) selecting, from the damage restoration execution plan establishing part, (D) requesting disaster recovery support to the mobile terminal mounted on the allocated restoration resource in the information transfer unit; (e) A determination unit that determines whether the recovery resource is moved using the current position information, the acceleration information, the angular velocity information, and the direction information of the recovery resource requested to be damaged or damaged; (F) receiving, in the acknowledgment unit, information on whether or not the allocated recovery resource is moved from the movement determination unit; and (g) in the recovery resource change status determination unit, And determining whether the recovery resource is reallocated in the recovery plan execution unit and whether the derived recovery plan is to be changed by using the information on whether or not the recovery resource is moved.

Preferably, in the step (b), the damage recovery method selecting unit may select the damage recovery method according to the damage type, the damage scale, and the emergency recovery construction standard of the damage facilities inputted from the damage facilities and the situation input unit.

The step (c) further includes the steps of: (c-1) deriving a candidate resource including at least one recovery resource capable of performing the predetermined damage recovery method from the stored recovery resource database with respect to the operational recovery resource; (c-2) determining a current placement position of at least one restoration resource included in the derived candidate resource, and (c-3) determining at least one restoration resource, , The disaster occurrence time, and the disaster occurrence area to determine whether or not the disaster can be moved within the set time from the current disposal location to the disaster occurrence area, and selecting only the movable recovery resources and allocating to the disaster recovery.

In addition, in the step (c-3), when the derived candidate resource can not be moved, the operation of deriving the candidate resource may be performed again in the step (c-1).

In addition, in the step (d), the movement command reception unit receives the requested damage recovery support request signal from the information transfer unit, and the movement command receiver notifies the movement determination unit of the recovery resource It can be instructed to judge whether or not to move.

In addition, in the step (e), a GPS receiving the current position information of the allocated restoration resource, a three-axis accelerometer detecting acceleration information of the allocated restoration resource, And a geomagnetic sensor for receiving direction information of the allocated restoration resource, the movement determination unit may determine whether the restoration resource is moved.

At this time, in the step (e), the movement determination unit receives the map information including the damaged area in advance and uses the map information and the current position information, the acceleration information, the angular velocity information, and the orientation information of the restoration resource And determine whether the recovery resource is moved.

In the step (e), whether or not the recovery resource is determined to be moved by the movement determination unit may be determined based on at least one of a start-off state of the recovery resource, a state in which the startup of the recovery resource is turned on, A state in which the user is approaching the occurrence area, and a state in which the recovery resource is leaving the damage occurrence area.

The method may further include, before the step (e), receiving, from the unexpected state input unit, the unexpected state information of the recovery resource requested to support the disaster recovery.

In addition, the unexpected state information of the recovery resource input from the unexpected state input unit is transmitted to the reception confirmation unit in the step (f), and the recovery resource change state determination unit determines whether or not the recovery resource change state determination unit And can reallocate the restoration resource and change the restoration execution plan to the restoration execution plan establishment unit based on the unexpected situation information of the restoration resource.

According to the present invention, there is an advantage that a recovery execution plan can be established so that the SOC facility can be quickly recovered if damage occurs due to natural disasters such as typhoons and heavy rain.

According to the present invention, it is possible to determine whether or not the restoration equipment (eg, excavator, bulldozer, dump truck, etc.) is available and allocate the restoration resource, To perform a recovery operation. Accordingly, it is possible to create, modify, and supplement the disaster recovery execution plan reflecting the situation of the site. As a concrete example, it is determined whether or not the movement to the damaged area is possible by using the moving speed and immersion prediction simulation according to the restoration equipment, and the restoration equipment is selected. The position information, acceleration information, angular velocity information (Eg, start-off, start-up, no change in position, access to the damaged area, departure from the damaged area, etc.) based on the direction information and the map information so as to perform the recovery operation or reallocate the candidate resources , And disaster recovery plan that reflects on-site situation can be established, revised, and supplemented.

In addition, according to the present invention, since the candidate resource availability and support request according to the restoration method are considered in consideration of the movement of the restoration resource, reassignment of the restoration equipment and change of the restoration execution plan can be facilitated There are advantages. Generally, in case of disaster emergency recovery should be performed within the golden time, so it is important to perform quick recovery work. However, in the past, it was difficult to apply the recovery recovery plan without considering the situation of recovery resources. According to the present invention, there is an advantage that the conventional problem can be solved and the damage recovery execution plan that can be practically applied can be established, corrected, and supplemented.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 is a block diagram briefly showing a system for establishing an SOC facility damage recovery execution plan and a mobile terminal mounted on a recovery device according to an embodiment of the present invention.
FIG. 2 is a flowchart briefly showing a method of establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention.
3 is a flowchart briefly showing a step of selecting a recovery resource among the SOC facility damage recovery execution planning methods according to an embodiment of the present invention.
4 is a flowchart illustrating a step of determining whether or not a restoration resource is shifted in establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention.
5 is a diagram illustrating a logging screen of sensor information built in a mobile terminal in a system for establishing an SOC facility damage recovery execution plan according to an exemplary embodiment of the present invention.
6 is an exemplary view of an unexpected situation report screen in the SOC facility damage recovery execution plan establishment system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification. Further, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In the drawings, like reference numerals are used to denote like elements throughout the drawings, even if they are shown on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, the terms first, second, A, B, (a), (b), and the like can be used. These terms are intended to distinguish the components from other components, and the terms do not limit the nature, order, order, or number of the components. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; intervening "or that each component may be" connected, "" coupled, "or " connected" through other components.

The present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. As shown in FIG.

In the present invention, 'SOC (Social Overhead Capital) facilities' refers to dams, boats, bridges, river banks, retaining walls and slopes.

In the present invention, 'establishment of the SOC facility damage recovery plan' refers to the establishment of an action plan for quickly recovering the damage of SOC facilities due to natural disasters such as typhoon and heavy rain.

In the present invention, the term 'recovery resource' refers to various types of recovery equipment that can be used for each recovery method required for restoration of an SOC facility. Typical examples include excavators, bulldozers, dump trucks, and the like, but are not limited thereto.

The system and method for establishing an SOC facility damage recovery execution plan according to the present invention determines whether or not a recovery resource is transferred after allocating a recovery resource (i.e., recovery equipment) by determining whether the recovery equipment is available and requesting a recovery resource. This allows re-allocation or recovery of candidate resources (ie, candidate recovery equipment) to create, modify, or supplement a disaster recovery action plan that reflects the site situation.

In addition, a suitable recovery method is selected according to damage type, damage scale, emergency recovery construction standard, etc. of the damaged SOC facilities, and candidate resources for recovery are derived.

In addition, the recovery equipment can select the optimal recovery equipment by estimating the moving speed of the recovery equipment, the expected time and area of the flooding in the route, and determining whether movement from the currently disposed location to the damaged area is possible.

After the support request to the damaged area of the restoration device, the position information, the acceleration information, the angular velocity information, the direction information, and the like from a plurality of sensors (e.g., GPS, accelerometer, gyroscope, geomagnetic sensor, etc.) Obtains various information and grasps information on whether or not the restoration equipment is moved. The information about the movement of the recovered equipment can be transferred to the recovery execution plan establishment system to be used for the situation determination for the change of the recovery resource.

On the other hand, in case of an unexpected situation (failure, delay, etc.) of the recovery equipment, this situation is reported automatically, so that it is easy to change and reallocate the recovery equipment.

1 is a block diagram briefly showing a system for establishing an SOC facility damage recovery execution plan and a mobile terminal mounted on a recovery device according to an embodiment of the present invention.

Referring to FIG. 1, an SOC facility damage recovery execution plan establishment system 100 according to an embodiment of the present invention includes damage facilities and a situation input unit 110, a damage recovery method selection unit 120, An information transfer unit 140, an acknowledgment unit 150, and a restoration resource change state determination unit 160. The recovery resource change state determination unit 160 may include a recovery resource change state determination unit 160, In addition, a movement command receiving unit 210, various sensors (e.g., a GPS 221, a three-axis accelerometer 222, a gyroscope 223, (Including the geomagnetism sensor 224), a movement determination unit 230, and an unexpected state input unit 240.

The damage facility and situation input unit 110 can input the SOC facilities and the damage situation caused by the disaster.

For example, natural disasters such as typhoons and heavy rain may occur, causing damages to SOC facilities such as dams, boats, bridges, river banks, retaining walls, and slopes. In order to quickly recover from these damages, the damaged SOC facilities and damage conditions must be specifically entered.

Therefore, the damage facility and the situation input unit 110 can be configured to input the SOC facilities and the damage situation in which the damage has occurred.

The damage recovery method selection unit 120 selects a damage recovery method based on the inputted damage facilities and damage conditions.

Specifically, the damage recovery method selecting unit 120 may select a damage recovery method based on the damage type, the damage scale, and the emergency recovery construction standard of the damage facilities and the damage input facilities inputted from the situation input unit 110. Here, the damage recovery method may include all public construction methods related to the construction and repair of the facilities, and is not limited to a specific type of construction method.

The disaster recovery execution plan establishing unit 130 allocates a restoration resource to perform the selected disaster recovery method and takes a role of deriving or establishing a disaster recovery execution plan.

More specifically, the information about the available recovery resource can be stored in advance, which is referred to as a 'recovery resource database'.

The disaster recovery execution plan setting unit 130 derives a candidate group (hereinafter, referred to as 'candidate resource') including at least one restoration resource capable of performing the selected disaster recovery method from the restoration resource database. The disaster recovery execution plan setting unit 130 determines a location where at least one restoration resource included in the derived candidate resource is currently disposed.

Then, the disaster recovery execution plan setting unit 130 uses the information on the movement speed, the disaster occurrence time, and the disaster occurrence area of each recovery resource included in the derived candidate resources to set the set time from the current disposal location to the disaster occurrence area , The time required for the recovery operation).

Accordingly, the disaster recovery execution plan establishing unit 130 can quickly allocate the restoration resources that can be moved to the disaster occurrence area within the golden time, and can allocate the disaster recovery to the disaster recovery area, thereby enabling quick restoration work.

The information transferring unit 140 requests the disaster recovery support to the mobile terminal 200 mounted on the recovery resource allocated in the disaster recovery execution plan establishing unit 130. [

Meanwhile, in the mobile terminal 200 mounted on the allocated restoration resource, a movement command receiving unit 210 is provided.

The movement command receiving unit 210 receives the requested damage recovery support request signal from the information transmitting unit 140 using wireless communication with the information transmitting unit 140. [ In addition, it is possible to issue a command to the movement determination unit 230 to determine whether or not the recovery resource requested for damage recovery support is moved.

The movement determination unit 230 determines whether the corresponding recovery resource is moved in the mobile terminal 200 mounted on the allocated recovery resource. For this, the movement determination unit 230 may use the current position information, the acceleration information, the angular velocity information, and the orientation information of the restoration resource for which the damage recovery support is requested.

For example, the GPS 221 that receives the current position information of the restoration resource, the three-axis accelerometer 222 that detects the acceleration information of the restoration resource, the gyroscope 223 that detects angular velocity information of the restoration resource, The geomagnetism sensor 224 for receiving the direction information of the geomagnetic sensor 224 may be installed through the mobile terminal 200 mounted on the restoration resource and used for determining whether or not to move.

More specifically, the current position information of the recovery resource received by the GPS 221, the acceleration information of the recovery resource detected by the three-axis accelerometer 222, the angular velocity information of the recovery resource detected by the gyroscope 223, The direction information of the recovery resource received by the geomagnetic sensor 224 is transmitted to the movement determination unit 230. [ At this time, the movement determination unit 230 receives map information including the damaged area in advance and stores it. In addition to the map information, the current position information, the acceleration information, the angular velocity information, and the direction information of the restoration resource are integrally used It is possible to determine whether or not the recovery resource is moved.

For example, the judgment information about whether or not the recovery resource is moved can be classified into the following four states. First, the start-off state of the recovery resource, the start-up state of the recovery resource, the state in which the location is unchanged, the state in which the recovery resource is approaching the damage area, and the state in which the recovery resource is leaving the damage area can be classified.

The acknowledgment unit 150 may receive the determination information on the movement of the recovery resource allocated from the movement determination unit 230.

The recovery resource change situation determination unit 160 determines whether or not the recovery resource reallocation and the disaster recovery execution in the disaster recovery execution plan configuration unit 130 are performed It is possible to judge whether the plan is changed or not.

Meanwhile, the unexpected state input unit 240 may be configured to receive the unexpected state information of the recovery resource from the mobile terminal 200 mounted on the allocated recovery resource. Here, the term 'unexpected situation' refers to a situation such as a failure of a recovery resource or inaccessibility of a damaged area, but the present invention is not limited thereto and may include various situations in which a recovery resource can not move to a damaged area.

The unexpected situation information of the recovery resource input from the unexpected state input unit 240 may be transmitted to the reception confirmation unit 150 together with the determination information on the movement of the recovery resource allocated from the movement determination unit 230. [

When the recovery resource change state determination unit 160 receives the unexpected state information of the recovery resource through the acknowledgment unit 150, it can instruct the damage recovery execution plan establishment unit 130 to allocate the recovery resource again , You may be instructed to make appropriate changes to the disaster recovery plan.

Next, a description will be made of a method of establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention.

FIG. 2 is a flowchart briefly showing a method of establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention. FIG. 3 is a flowchart briefly showing a step of determining a recovery resource availability and selecting a recovery resource. FIG. 4 is a flowchart illustrating a step of determining whether or not a restoration resource is moved in establishing an SOC facility damage recovery execution plan according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIGS. 2 to 4, a method for establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention includes an SOC facility and a situation input step S110, a damage recovery method selection step S120, The resource allocation step S150 and the disaster recovery execution plan deriving step S160, the recovery resource support requesting step S170, the determination whether the recovery resource is moved or received, the receiving step S180, ).

First, the SOC facility and the damage condition inputting step (S110) in which the damage occurs can be input in the damage facilities and the situation inputting unit 110 (see FIG. 1).

Next, as the damage recovery method selection step (S120), the damage recovery method selection section 120 (see FIG. 1) may select the damage recovery method based on the input damage facilities and damage conditions.

In this step S120, appropriate damage restoration methods can be selected according to the damage type, damage scale, and emergency restoration construction standard inputted from the damage facilities and the situation input unit 110 (refer to FIG. 1) Any construction method required for construction and repair can be used without restriction.

Next, as a recovery resource allocation step (S150), the recovery resources are allocated to perform the selected recovery scheme in the recovery plan planning unit 130 (see FIG. 1), and the recovery plan can be derived have.

In operation S150, a candidate resource is derived in operation S130. In operation S140, a determination is made as to whether or not a recovery resource to be allocated for damage recovery among the derived candidate resources is available. (S150). ≪ / RTI >

First, in step S130 of deriving a candidate resource, a candidate resource including at least one recovery resource capable of performing a damage recovery method selected from the stored recovery resource database with respect to the operational resource can be derived.

Subsequently, a step of judging whether or not it is available (S140) is performed. Referring to FIG. 3, a candidate resource may be selected through a step of deriving a candidate resource (S 130). If a candidate resource including at least one recovery resource is selected, step S142 of grasping a current placement position of at least one recovery resource included in the candidate resource may be performed. Next, the moving speed for each restoration resource is calculated (S143), and a flood prediction simulation is performed to obtain information on the occurrence time of the disaster and the disaster occurrence area (S144). In step S145, it is determined whether the current location of the recovery resource can be moved within the set time from the current location of the recovery resource to the disaster occurrence area. If there is no moveable recovery resource, step S141 of selecting a candidate resource may be performed again.

On the other hand, if there is a recovery resource that can be moved to the disaster occurrence area through the determination of availability, the disaster recovery execution plan setting unit 130 (see FIG. 1) allocates an available recovery resource (S150) (S160).

On the other hand, when the allocation of the recovery resources and the derivation of the damage recovery execution plan are performed in the damage recovery execution plan setting unit 130 (see FIG. 1), the information transfer unit 140 (see FIG. 1) And performs the step of requesting disaster recovery support (S170) to the mobile terminal 200 (see FIG. 1).

Here, the damage recovery support request signal requested from the information transferring unit 140 (see FIG. 1) is received by the movement command receiving unit 210 (see FIG. 1). The movement command receiving unit 210 (see FIG. 1) may issue a command to the movement determining unit 230 (see FIG. 1) to determine whether or not the recovery resource requested to be damaged or damaged is moved.

Next, as a step of determining whether or not the recovery resource is moved (S180), the current position information, the acceleration information, the angular velocity information, and the direction information of the recovery resource requested for damage recovery support in the movement determination unit 230 And determines whether or not the recovery resource is moved.

1) for receiving the current position information of the restoration resource, a three-axis accelerometer 222 (see FIG. 1) for detecting the acceleration information of the restoration resource, A gyroscope 223 (see FIG. 1) that detects the angular velocity information of the restoration resource, and a geomagnetic sensor 224 (see FIG. 1) that receives the direction information of the restoration resource.

4 is a diagram illustrating a process of determining whether or not a recovery resource is moved in establishing an SOC facility damage recovery execution plan according to an embodiment of the present invention.

Referring to FIG. 4, the step of determining whether the recovery resource is moved (S180) may further include map information including the current location information, the acceleration information, the angular velocity information, and the direction information of the restoration resource as well as the damaged area.

Here, the map information may be pre-stored in the movement determination unit 230 (see FIG. 1).

On the other hand, if the movement of the recovery resource is calculated in this manner, the calculated information can be classified into various status information related to the movement of the recovery resource. For example, the state of the recovery resource is turned off (first state), the state of the recovery resource is turned on and there is no position change (second state), the state in which the recovery resource is approaching the damage area ), And a state in which the corresponding recovery resource is leaving from the damage occurrence area (fourth state).

5 is a diagram illustrating a logging screen of sensor information built in a mobile terminal in a system for establishing an SOC facility damage recovery execution plan according to an exemplary embodiment of the present invention.

Referring to FIG. 5, an operator can visually confirm information that can be confirmed through an accelerometer, a gyroscope, a GPS, and a geomagnetic sensor through the mobile terminal 200.

After the step of determining whether to move the recovery resource (S180) is performed, the allocated recovery resource is moved to the damaged area and is quickly used in the recovery method so that the recovery operation can be performed (S190).

After the step of determining whether to move the recovery resource (S180) is performed, information on whether or not the recovery resource is moved is received at the reception confirmation unit 150 (see FIG. 1). 1), the restoration resource change state determination unit 160 (see FIG. 1) determines whether or not the restoration execution plan is established based on the restoration resource movement determination information received through the reception confirmation unit 150 (see FIG. 1) 1), or make decisions and make decisions to change and modify the disaster recovery plan.

Prior to the step of determining whether or not the recovery resource is moved (S180), the unexpected state input unit 240 (see FIG. 1) may be further configured to receive the unexpected state information of the requested recovery resource.

The unexpected situation information of the restoration resource inputted through the unexpected state input unit 240 (see FIG. 1) may be transmitted to the reception confirmation unit 150 (see FIG. 1). The recovery resource change situation determination unit 160 (see FIG. 1) reallocates the recovery resource to the damage recovery execution plan setting unit 130 (see FIG. 1) and uses the damage information You can request a change in the Recovery Execution Plan.

6 is an exemplary view of an unexpected situation report screen in the SOC facility damage recovery execution plan establishment system according to an embodiment of the present invention.

Referring to FIG. 6, an unexpected situation can be reported through the mobile terminal 200 mounted on the recovery resource. When the unexpected situation report window is exposed on the display, It can be easily checked in the check box 202 for the inaccessibility of the local area, and finally, the push button 203 can be pressed to report an unexpected situation. However, such a display form is not necessarily limited to the illustrated form, but may be modified in other forms.

As described above, according to the structure and function of the present invention, there is an advantageous technical effect that a recovery execution plan can be established so as to be promptly restored when damage to the SOC facility occurs due to natural disasters such as typhoons and heavy rain.

Particularly, it is determined whether or not the restoration equipment (eg excavator, bulldozer, dump truck, etc.) is available, and the recovery resource is allocated. After the request for the recovery resource is requested, the candidate resource is reassigned or restored can do.

Accordingly, it is possible to create, modify, and supplement the disaster recovery execution plan reflecting the situation of the site.

As a concrete example, it is determined whether or not the movement to the damaged area is possible by using the moving speed and immersion prediction simulation according to the restoration equipment, and the restoration equipment is selected. The position information, acceleration information, angular velocity information (Eg, start-off, start-up, no change in position, access to the damaged area, departure from the damaged area, etc.) based on the direction information and the map information so as to perform the recovery operation or reallocate the candidate resources , It is possible to establish, revise, and supplement the disaster recovery implementation plan that reflects the situation at the site.

Furthermore, since the candidate resource is available and the request for the support is made considering the movement of the restoration resource according to the restoration method, there is an advantage that the reassignment of the restoration equipment and the change of the restoration execution plan can be facilitated.

Generally, in case of disaster emergency recovery should be performed within the golden time, so it is important to perform quick recovery work. However, in the past, it was difficult to apply the recovery recovery plan without considering the situation of recovery resources. According to the present invention, there is an advantageous technical effect of solving such a conventional problem and establishing, correcting and supplementing a damage recovery execution plan that can be practically applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed exemplary embodiments. It is obvious that a transformation can be made. Although the embodiments of the present invention have been described in detail above, the effects of the present invention are not explicitly described and described, but it is needless to say that the effects that can be predicted by the configurations should also be recognized.

100: SOC facility damage recovery execution planning system
110: Damaged facilities and situation input unit
120: Disaster Recovery Method
130: Disaster Recovery Execution Planning Section
140:
150:
160: Recovery Resource Change Situation Determination Unit
200: mobile terminal
210: Move command receiver
221: GPS
222: Three-axis accelerometer
223: Gyroscope
224: Geomagnetic sensor
230:
240:

Claims (18)

Damage facilities and situation input unit for inputting SOC facilities and damage conditions caused by a disaster; A damage restoration method selecting the damage restoration method based on the inputted damage facilities and the damage situation; A disaster recovery execution plan establishing unit for allocating a restoration resource and deriving a disaster recovery execution plan to perform the selected disaster recovery scheme; An information transfer unit for requesting disaster recovery support to the mobile terminal mounted on the allocated restoration resource; A movement determination unit for determining whether the recovery resource is moved using the current position information, the acceleration information, the angular velocity information, and the orientation information of the restoration resource requested to support the damage recovery in the mobile terminal mounted on the allocated restoration resource, ; A reception confirmation unit for receiving information on whether or not the allocated recovery resource is moved from the movement determination unit; A recovery resource allocating unit that allocates a recovery resource to the recovery recovery execution plan determining unit based on the determination information on whether or not the recovery resource has been moved through the reception confirmation unit, And a change status determination unit,
The damage recovery method selection unit selects a damage recovery method according to the damage type, the damage scale, and the emergency recovery construction standard of the damage facilities inputted from the damage facilities and the situation input unit, and the damage recovery execution plan establishment unit selects an operation recovery resource Deriving a candidate resource including at least one recovery resource capable of performing the predetermined damage recovery method from the stored recovery resource database with respect to the at least one recovery resource, A movement speed of each of the at least one recovery resource included in the derived candidate resource, a disaster occurrence time, and information on the disaster occurrence area, And only the movable recovery resources are selected. And then,
Further comprising an unexpected condition input unit for inputting the unexpected condition information of the recovery resource in the mobile terminal mounted on the allocated recovery resource, wherein the unexpected condition information of the recovery resource input from the unexpected condition input unit is transmitted to the reception confirmation unit And the restoration resource change situation determination unit determines whether or not the restoration execution plan is reallocated to the restoration execution plan establishment unit based on the unexpected situation information of the restoration resource received through the reception confirmation unit In addition,
A GPS receiving the current position information of the allocated restoration resource to determine whether the restoration resource is moved in the movement determination unit, a three-axis accelerometer detecting acceleration information of the allocated restoration resource, A gyroscope for detecting angular velocity information of a restoration resource, and a geomagnetism sensor for receiving direction information of the restoration resource, wherein the current position information of the restoration resource received by the GPS, The acceleration information of the restoration resource, the angular velocity information of the restoration resource detected by the gyroscope and the direction information of the restoration resource received by the geomagnetism sensor are transmitted to the movement determination unit, The map information, the map information, the current position information, the acceleration information, the angular velocity Wherein the state of the recovery resource is determined based on at least one of a start-off state of the recovery resource, a state in which the start-up of the recovery resource is turned on and a position is not changed, The system is classified into one of a state in which the system is being accessed to the damage area and a state in which the recovery resource is leaving the damage area.
delete delete The method according to claim 1,
Receiving a request for a disaster recovery support request from the information delivery unit using wireless communication with the information delivery unit in a mobile terminal mounted on the allocated recovery resource, A movement command reception unit for instructing the movement determination unit to determine whether or not to move;
The system for disaster recovery implementation planning includes the SOC facilities.
delete delete delete delete delete As a method for establishing a disaster recovery plan for SOC facilities using the system for establishing the disaster recovery plan for SOC facilities according to paragraph 1 or 4,
(a) inputting, at the damage facilities and the situation inputting unit, the SOC facilities and the damage situation in which the damage occurred due to the disaster;
(b) selecting, in the damage recovery method selection unit, a damage recovery method based on the input damage facilities and damage conditions;
(c) allocating a recovery resource to perform the selected damage recovery method and deriving a damage recovery execution plan from the damage recovery execution plan establishment unit;
(d) requesting disaster recovery support from the information transfer unit to a mobile terminal mounted on the allocated recovery resource;
(e) determining whether the recovery resource is moved using the current location information, the acceleration information, the angular velocity information, and the direction information of the recovery resource requested by the movement determination unit;
(f) receiving, at the reception confirmation unit, information on whether or not the allocated recovery resource is moved from the movement determination unit; And
(g) determining, by the recovery resource change situation determination unit, whether or not the recovery resource is reallocated in the failure recovery execution plan configuration unit and the derived damage recovery Determining and determining whether the execution plan has been changed,
In the step (b), the damage recovery method selection unit selects the damage recovery method according to the damage type, the damage scale, and the emergency recovery construction standard inputted from the damage facilities and the situation input unit,
Wherein the step (c) comprises the steps of: (c-1) deriving a candidate resource including at least one recovery resource capable of performing the selected damage recovery method from a stored recovery resource database with respect to the operational recovery resource; (c-2) determining a current placement position of at least one recovery resource included in the derived candidate resource; And (c-3) a recovery operation is required from the current placement position to the disaster occurrence area using the information on the movement speed of each at least one recovery resource included in the derived candidate resource, the disaster occurrence time and the disaster occurrence area Determining whether or not it is possible to move within a predetermined period of time;
Further comprising: receiving, in the unexpected state input unit, the unexpected state information of the recovery resource requested to be supported by the unexpected state before the step (e), wherein the unexpected state of the recovery resource input from the unexpected state input unit The information is transferred to the reception confirmation unit in the step (f), and in the step (g), the recovery resource change situation determination unit determines the recovery resource change status based on the unexpected situation information of the recovery resource received through the reception confirmation unit The reallocation of the restoration resources and the change of the restoration execution plan to the establishment unit,
A GPS receiving the current position information of the allocated restoration resource in the step (e), a three-axis accelerometer detecting acceleration information of the allocated restoration resource, a gyroscope detecting angular velocity information of the allocated restoration resource, Wherein the movement determining unit determines whether or not the restoration resource is moved using the geomagnetism sensor and the geomagnetism sensor that receives the direction information of the allocated restoration resource, And determining whether the recovery resource is moved using the map information and the current position information, acceleration information, angular velocity information, and direction information of the recovery resource, A start-up off state, a state in which the start-up of the recovery resource is turned on and no change in position, a state in which the recovery resource is approaching the damage area, Recovery Resources damage any of the conditions established method SOC facility restoration action plan are classified as a state of being detached from the generation area.
delete delete 11. The method of claim 10,
In the step (d)
The movement command receiving unit receives the requested damage recovery support request signal from the information transmission unit, and the movement command receiver instructs the movement determination unit to determine whether the recovery resource requested to be supported for damage recovery is moved
How to plan for disaster recovery implementation of SOC facilities.
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