KR102012879B1 - Automated accident detection kit and its system using that kit - Google Patents

Abstract

Disclosed is a maritime accident response control system capable of receiving location information from an automatic accident detection kit which is able to be removably mounted on a life vest. The maritime accident response control system includes: a database part storing current chart information, water temperature information, automatic accident detection kit information and mobile terminal information corresponding to an automatic accident detection kit; a manipulation part receiving the selection of a manager; a display part displaying monitoring information; and a server estimating and displaying the location of a survivor on the display part by applying location information received from the automatic accident detection kit to the current chart of the database part. According to an embodiment of the present invention, the system communicates with an automatic accident detection kit including a salinity sensor and a water temperature sensor through an M2M communication network, and recognizes the excess of a set sensor value as a maritime accident and estimates the location of a survivor through location information and location tracking by time.

Description

Automated accident detection kit and its system using that kit

The present invention relates to an automatic accident detection kit and a marine accident response control system using the same, and more particularly, to communicate with an automatic accident detection kit including a salinity sensor and a water temperature sensor through an M2M communication network, and when the set sensor value is exceeded, The present invention relates to an automatic accident detection kit for recognizing an accident and predicting the position of a displaced person's movement through location information and time-based tracking, and a disaster response response control system using the same.

Due to the development of information and communication technology, miniaturized broadband caller tracking device is used, and there are largely DGPS, PC, and mobile communication network.

The caller tracking device needs a calling device (mobile phone, location tracking transmitter) for generating an outgoing signal, and calculates the caller's position by using the difference in the strength of signals received by a plurality of mobile communication base stations.

To this end, the user has to carry or wear a separate transmitting device such as a mobile phone on his body at all times. This means that the user cannot carry the transmitting device such as the mobile phone in case of distress caused by a sudden accident and is also underwater In addition, there is a limit that can not be used efficiently because of the short life time of a power supply such as a battery.

In order to solve the above problems, there is disclosed a rescue signal automatic transmitting device using a positioning satellite receiver of the Republic of Korea Patent Publication No. 2000-7403, but also because the battery for supplying power is supplied only to the charged time In addition to the limitations of the efficiency, there is a problem that the loss of life due to the distress accident and enormous economic loss due to the lack of efficient structure.

Therefore, the rescue system of the distressed by the transmitting device conventionally implemented has some limitations in terms of overall efficiency, so that problems of reliability that are not properly implemented by passengers and crew members of ships or airplanes always fall. It is.

The technical problem to be achieved by the present invention is to solve the conventional problem, and communicates with the automatic accident detection kit having a salinity sensor and a water temperature sensor through the M2M communication network, and recognizes the position as a shipboard accident when the set sensor value is exceeded It is to provide an automatic accident detection kit that predicts the displaced person's movement position through information and time-based location tracking, and a disaster response control control system using the same.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problems, the automatic accident detection kit is a form that is not attached to the lifejacket (vest) in the form of detachable, users do not purchase additional lifejacket separately It is to provide an automatic accident detection kit that can be attached and detached to a new lifejacket by purchasing only a detection kit and a disaster response control system using the same.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problems, during safety (not distress) to operate only salinity sensor, water temperature sensor, vibration sensor and tilt sensor, etc., in case of accident (distress) It is to provide an automatic accident detection kit and a disaster response control system using the same sensor to stop the operation, and to operate the communication module and gps sensor to minimize the power consumption to transmit the position information of the distress for a long time.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problem, when the administrator changes the water temperature data set value of the control system automatically changes the set value applied to the automatic accident detection kit of the distress separate detection kit automatically To provide an automatic accident detection kit and marine accident response control system using the same does not need to manually change the set value.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problems, by adding an illuminance sensor to illuminate the light emitting LED at night to help the search for the distress, the daytime automatic help to search for distress using the mist It is to provide an accident detection kit and a marine accident response control system using the same.

In addition, the technical problem to be solved by the present invention is to solve the conventional problem, the recognition of a ship accident when the set sensor value is exceeded, the position information of the distress by sending the position information by matching the position information of the distress to the real-time current flow chart It is to provide an automatic accident detection kit that can be identified and predicted and a marine accident response control system using the same.

Disaster accident response control system using an automatic accident detection kit according to the characteristics of the present invention for solving this problem,

As a marine accident response control system that receives location information from an automatic accident detection kit that can be attached to a life jacket,

A database unit for storing current information, water temperature information, automatic accident detection kit information, and mobile terminal information corresponding to the automatic accident detection kit;

An operation unit to receive a selection of an administrator;

A display unit for displaying monitoring information;

It includes a server for estimating the position of the distress and display on the display unit by applying the position information received from the automatic accident detection kit to the current flow chart of the database unit.

The database unit,

Current flow chart information DB for storing the current flow;

A water temperature information DB for storing regional water temperature information;

Automatic accident detection kit information DB for storing the location of each automatic accident detection kit, unique number information, mobile terminal information corresponding to the automatic accident detection kit;

It includes the monitoring information DB for storing the monitoring information of the distress.

The server,

An information receiver for receiving location information from the automatic accident detection kit;

A position estimating unit for estimating the position of the distress by applying the received position information to the current map of the database unit;

When the location information is received, alarms for the occurrence of the distress, and includes a alarm unit for making a proximity alarm when the distress approaches a predetermined proximity.

If the location estimator determines that the distress is safe, the location estimator stops data communication with the automatic accident detection kit of the distress to reduce the communication fee.

The server is

It further comprises a remote control for remotely controlling the automatic accident detection kit.

The automatic accident detection kit,

A communication unit for communicating with the server;

A salinity sensor for measuring salinity;

A water temperature sensor for measuring water temperature;

A GPS unit for calculating and outputting its position;

A storage unit for storing reference values of salinity and water temperature determined to be in the water;

If the output value of the salinity sensor or the water temperature sensor is more than the reference value determined to fall into the water, and includes a control unit for periodically outputting the position information through the communication unit.

LED for emitting light;

It further comprises an illuminance sensor for measuring the illuminance,

The controller may emit light when the output value of the salinity sensor or the water temperature sensor is greater than or equal to the reference value determined to be in the water and the output value of the illuminance sensor is less than or equal to the standard illuminance determined to be night.

Vibration sensor for detecting the vibration;

Further comprising a tilt sensor for detecting the tilt,

The controller may determine whether the user's state is normal by using the output and the slope of the vibration sensor.

When the set reference value of the water temperature data is changed through the manipulation unit, the server transmits the changed set reference value to the automatic accident detection kit, and the controller updates and stores the received reference value in the storage unit and applies the change.

In an embodiment of the present invention, an automatic accident detection kit having a salinity sensor and a water temperature sensor is communicated through an M2M communication network, and when the set sensor value is exceeded, it is recognized as an onboard accident and the distress movement is performed through location information and time tracking. It is possible to provide an automatic accident detection kit predicting the position and a marine accident response control system using the same.

In addition, in the embodiment of the present invention, the automatic accident detection kit is not attached to the lifejacket (vest) in the form of a detachable form, users do not purchase additional lifejacket separately, only by purchasing the automatic detection kit detachable to a new lifejacket. It is possible to provide an automatic accident detection kit and a marine accident response control system using the same.

In addition, in the embodiment of the present invention, during safety (not distress), only salinity sensor, water temperature sensor, vibration sensor and tilt sensor and the like, in case of accident (distress) to stop the operation of the four sensors, communication module And by operating only the gps sensor can minimize the power consumption can provide an automatic accident detection kit that can transmit the position information of the distress for a long time and a marine accident response control system using the same.

In addition, in the embodiment of the present invention, when the administrator changes the water temperature data set value of the control system, the set value is automatically changed and applied to the automatic accident detection kit of the distress, so that the set value does not need to be changed manually in the auto detection kit. An automatic accident detection kit and a marine accident response control system using the same can be provided.

In addition, in the embodiment of the present invention, by adding an illuminance sensor to illuminate the light-emitting LED at night to help the search for the distress, and during the day to assist in the search for the distress by using the mist and the accident response control using the same A system can be provided.

In addition, in the embodiment of the present invention, the automatic accident detection kit that recognizes the shipboard accident when the set sensor value is exceeded, the location information of the distress to match the real-time current flow chart and send the location information to determine and predict the position of the distress and It can provide a disaster response control system using the same.

1 is a block diagram of a marine accident response control system using an automatic accident detection kit according to an embodiment of the present invention.
2 is a block diagram of an automatic accident detection kit according to an embodiment of the present invention.
3 is an operation flowchart of a marine accident response control system using an automatic accident detection kit according to an embodiment of the present invention.
4 and 5 is an example showing the position of the distress in the disaster response control system using the automatic accident detection kit according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, except to exclude other components unless otherwise stated. In addition, the terms “…… unit”, “…… unit”, “module”, etc. described in the specification mean a unit that processes at least one function or operation, which is implemented by hardware or software or a combination of hardware and software. Can be.

And the server described below may be implemented by a processor and a memory.

1 is a block diagram of a marine accident response control system using an automatic accident detection kit 300 according to an embodiment of the present invention.

Referring to Figure 1, marine accident response control system 100 using the automatic accident detection kit 300 according to an embodiment of the present invention,

As a marine accident response control system 100 for receiving position information from the automatic accident detection kit 300 detachable to the life jacket,

A database unit 120 for storing current flow chart information, water temperature information, automatic accident detection kit information, and mobile terminal information corresponding to the automatic accident detection kit 300;

An operation unit 130 for receiving a selection of a manager;

A display unit 140 for displaying monitoring information;

It includes a server 110 for applying the position information received from the automatic accident detection kit 300 to the current flow chart of the database unit 120 to estimate the position of the distress and to display on the display unit 140.

The server 110 may send a message to the mobile terminal 400 as necessary to confirm distress or safety.

 The manager may make a call to the mobile terminal 400 to confirm distress or safety check as necessary.

The database unit 120,

Ocean current diagram information DB 212 for storing the current flow;

A water temperature information DB 122 for storing region-specific temperature information and water temperature information;

Automatic accident detection kit information DB (123) for storing the location of each automatic accident detection kit, unique number information, mobile terminal information corresponding to the automatic accident detection kit 300;

And monitoring information DB 124 for storing monitoring information such as the location of the distress and the expected movement path.

The mobile terminal information stored in the automatic accident detection kit 300 information DB may be mobile terminal number information of the captain, and the same mobile terminal may be included in the automatic accident detection kit 300 information inserted into a plurality of life jackets owned by the captain. Number information is stored. Therefore, since the number of the individual who boards the ship is not exposed, privacy can be protected.

The server 110,

An information receiver 111 for receiving location information from the automatic accident detection kit 300;

A position estimating unit (112) for estimating the position of the distress by applying the received position information to the current map of the database unit (120);

When the location information is received, alarms for the occurrence of distress, and when the distress comes to a predetermined proximity distance includes an alarm unit 113 for making a proximity alarm.

The location estimator 112 stops data communication with the automatic accident detection kit 300 of the distress when the distress is determined to be safe, thereby reducing communication charges.

The server 110

It further comprises a remote control for remotely controlling the automatic accident detection kit 300.

When the set reference value of regional temperature or water temperature data is changed through the operation unit 130 of the automatic accident detection kit 300, the server 110 transmits the changed set reference value to the automatic accident detection kit and the controller receives the received reference value. The storage unit 360 updates and stores the changed information.

2 is a block diagram of an automatic accident detection kit 300 according to an embodiment of the present invention.

Automatic accident detection kit 300 according to an embodiment of the present invention,

A communication unit 350 for communicating with the server 110 in an M2M manner;

A salinity sensor 302 for measuring salinity;

A water temperature sensor 301 for measuring water temperature;

GPS unit 340 for calculating and outputting its position;

A storage unit 360 for storing reference values of salinity and water temperature that are determined to have fallen into the water;

When the output value of the salinity sensor 302 or the water temperature sensor 301 is more than the reference value determined to fall into the water, the control unit 330 for periodically outputting the position information through the communication unit.

LED 310 for emitting light;

A mist generator 320 for generating mist;

It further comprises an illuminance sensor 305 for measuring the illuminance,

When the output value of the salinity sensor 302 or the water temperature sensor 301 is greater than or equal to the reference value determined to be in the water, and the output value of the illuminance sensor 305 is less than or equal to the standard illuminance determined to be night, the LED Emit light,

In the daytime, the haze generator 320 is driven to generate haze so that the search for the distress is easy.

A vibration sensor 303 for detecting vibration;

Further comprising a tilt sensor 304 for detecting the tilt,

The controller 330 determines whether the user's state is normal by using the output of the vibration sensor 303 and the inclination of the inclination sensor 304.

The controller 330 may determine whether distress is caused by a difference in temperature received from the water temperature sensor 301. That is, the controller 330 determines whether distress is generated depending on whether the temperature currently received from the water temperature sensor 301 is close to or close to the water temperature of the corresponding region. For example, when the current water temperature is 20 degrees and the current temperature is 27 degrees, when the temperature detected by the water temperature sensor 301 is 21 degrees, it may be determined that the water is distressed.

Referring to the operation of the marine accident response control system using the automatic accident detection kit 300 according to an embodiment of the present invention having such a configuration as follows.

3 is an operation flowchart of a marine accident response control system using the automatic accident detection kit 300 according to an embodiment of the present invention, Figures 4 and 5 is an automatic accident detection kit 300 according to an embodiment of the present invention. This is an example showing the position of the distress in the disaster response control system used.

Referring to FIG. 3, first, the controller 330 determines that the output value of the salinity sensor 302 or the water temperature sensor 301 is greater than or equal to a reference value determined to be in water, and determines that the distress is through the communication unit 350. The unique information and location information of the periodically transmitted to the server (110).

At this time, if necessary, the control unit 330 cuts off the power of the salinity sensor 302 and the water temperature sensor 301 in order to save power, and operates only the GPS unit 340 to receive and periodically transmit location information.

 In addition, if necessary, the controller 330 emits the LED 310 when the output value of the illuminance sensor 305 is equal to or less than a standard illuminance determined to be night.

In addition, the controller 330 determines whether the user's state is normal by using the output and the slope of the vibration sensor 303, and transmits the determined state to the server 110. For example, when the change in vibration and tilt is received, it is determined that there is movement, and when only the vibration is received, it is determined that there is no movement and breathing only, and there is no movement and no breath if there is no vibration and no change in tilt. Judging by the case. In fact, even breathing causes vibrations caused by breathing.

The controller 330 may determine whether distress is caused by a difference in temperature received from the water temperature sensor 301. That is, the controller 330 determines whether distress is generated depending on whether the temperature currently received from the water temperature sensor 301 is close to or close to the water temperature of the corresponding region. For example, when the current water temperature is 20 degrees and the current temperature is 27 degrees, when the temperature detected by the water temperature sensor 301 is 21 degrees, it may be determined that the water is distressed.

If necessary, the control unit 330 also transmits the output value of the salinity sensor 302 or the water temperature sensor 301. Accordingly, when only one sensor exceeds the reference value, the server 110 or the manager may use the terminal 400 of the captain. You can also inquire about distress and safety.

When the unique number and location information and the movement information or the breathing information of the distress is transmitted from the control unit 330 as described above, the information receiving unit 111 receives it (S310).

Then, the alarm unit 113 informs the administrator that distress has occurred by a warning sound or a display method (S320).

In addition, the position estimating unit 112 displays the position of the distress by applying the received position information to the ocean current diagram of the database unit 120 (S330), and this example is illustrated in FIG.

Referring to FIG. 4, the controller 330 generates a movement path of the current distress from a position of the distress who is periodically received, generates a prediction path of the distress by applying a current direction and velocity of the current distress to the movement path, and then displays the display unit ( In step 140, a rescue point is generated therefrom, and the administrator may execute a quick distress rescue operation (S340). Here, the manager may be a manager of a maritime police or rescue team.

In addition, as shown in FIG. 5, the position estimator 112 may display the position of each distress on a map, and if necessary, display the movement information or the breathing information of the distress on the display unit 140. The structure priority may be determined (S350).

In addition, the position estimator 112 indicates that the salinity sensor 302 and the water temperature sensor 301 are normal or distress, and when only one of the sensors is determined to be distressed, the mobile phone number of the captain corresponding to the distress person. Is displayed on the display unit 140 so that the administrator can check the selected mobile terminal 400 by telephone.

On the other hand, when the distress comes close to a predetermined distance, the alarm unit 113 may give a proximity alarm. This allows managers to act quickly.

In addition, the location estimator 112 stops data communication with the automatic accident detection kit 300 of the distress when the distress is determined to be safe, thereby reducing the communication fee.

In addition, the remote controller 114 may remotely control the automatic accident detection kit 300. For example, the remote controller 114 of the server 110 to the automatic accident detection kit 300 when the reference value of the regional temperature or water temperature data is changed through the operation unit 130 of the automatic accident detection kit 300. The controller transmits the changed set reference value, and the controller 330 updates and stores the received reference value in the storage 360, and applies the changed reference value. In addition to water temperature or temperature data, other reference data can be updated.

In an embodiment of the present invention, an automatic detection kit (patent application) may automatically detect whether a passenger is in distress and transmit the position information of the distress, and determine and predict the position of the distress by matching the transmitted rainwater in real time.

In addition, during safety (not distress), the control unit 330 controls the power supply unit 370 to operate only the salinity sensor 302 / water temperature sensor 301 / vibration sensor 303 / tilt sensor, in case of an accident (distress 4) The above four sensors stop operation and operate only the communication unit and gps unit, minimizing the power consumption, and thus can receive the distress signal for a long time, thus compensating for the shortcomings of time in search.

The automatic accident detection kit has a merit that it can be attached and detached to the existing lifejacket by purchasing only the automatic detection kit without purchasing additional lifejackets separately. . For this purpose, a separate pocket for detachable automatic accident detection kit can be made at the front or the back of the life jacket, and it can be fixed with a Velcro type.

In an embodiment of the present invention, an automatic accident detection kit including a salinity sensor 302 and a water temperature sensor 301 is communicated through an M2M communication network, and when the sensor value is exceeded, a recognition is made as an onboard accident and the position information and time position Tracking can predict the location of the distress movement.

In addition, in the embodiment of the present invention, the automatic accident detection kit is not attached to the lifejacket (vest) in the form of a detachable form, users do not purchase additional lifejacket separately, only by purchasing the automatic detection kit detachable to a new lifejacket. can do.

In addition, in the embodiment of the present invention, only the salinity sensor 302, the water temperature sensor 301, the vibration sensor 303 and the tilt sensor, etc. are operated during safety (not distress), four accidents (in case of distress) The sensor can be stopped for a long time by activating only the communication module and the gps sensor to minimize the power consumption.

In addition, in the embodiment of the present invention, when the administrator changes the water temperature data setting value of the control system, the setting value is automatically applied to the automatic accident detection kit of the distress, so that the setting value does not need to be changed manually in the automatic detection kit. .

In addition, in the embodiment of the present invention, an illumination sensor may be added to illuminate the light emitting LED at night to help the search for the distress, and to assist in the search for the distress using the mist during the day.

In addition, in the embodiment of the present invention, when the set sensor value is exceeded, it is recognized as a shipboard accident, and the position information of the distress is matched with the real-time current flow chart to send the position information to determine and predict the position of the distress.

The embodiments of the present invention described above are not implemented only through the apparatus and the method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded. Implementation can be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are not limited thereto. It belongs to the scope of rights.

Claims (7)

As a marine accident response control system that receives location information from an automatic accident detection kit that can be attached to a life jacket,
A database unit for storing current information, water temperature information, automatic accident detection kit information, and mobile terminal information corresponding to the automatic accident detection kit;
An operation unit to receive a selection of an administrator;
A display unit for displaying monitoring information;
It includes a server for estimating the position of the distress and display on the display unit by applying the position information received from the automatic accident detection kit to the current flow chart of the database unit,
The database unit,
Current flow chart information DB for storing the current flow;
A water temperature information DB for storing regional water temperature information;
Automatic accident detection kit information DB for storing the location of each automatic accident detection kit, unique number information, mobile terminal information corresponding to the automatic accident detection kit;
Includes a monitoring information DB for storing the monitoring information of the distressed person,
The server,
An information receiver for receiving location information from the automatic accident detection kit;
A position estimating unit for estimating the position of the distress by applying the received position information to the current map of the database unit;
An alarm unit for alarming the occurrence of a distress when location information is received and for providing a proximity alarm when the distress approaches a predetermined distance;
A remote controller for remotely controlling the automatic accident detection kit,
The mobile terminal information stored in the automatic accident detection kit information DB is the mobile terminal number information of the captain, and the mobile terminal number information of the same captain is stored in the automatic accident detection kit information inserted into the plurality of life jackets owned by the captain. ,
When the set reference value of the regional temperature or water temperature data is changed through the operation unit, the server transmits the changed set reference value to the automatic accident detection kit, and the controller updates and stores the received reference value in the storage unit and applies the change. ,
The position estimating unit displays the position of the distress, movement information or breathing information of the distress on the display unit,
The position estimating unit indicates that the values of the salinity sensor and the water temperature sensor are normal or distress. If only one sensor is determined to be distressed, the position estimating unit displays the mobile phone number of the captain corresponding to the distress.
When the distress comes close to a predetermined distance, the alarm unit generates a proximity alarm,
If the location estimator determines that the distress is safe, the location estimation unit stops data communication with the automatic accident detection kit of the distress, thereby reducing the communication fee,
The automatic accident detection kit,
A communication unit for communicating with the server;
A salinity sensor for measuring salinity;
A water temperature sensor for measuring water temperature;
A GPS unit for calculating and outputting its position;
A storage unit for storing reference values of salinity and water temperature determined to be in the water;
When the output value of the salinity sensor or the water temperature sensor is more than the reference value determined to fall into the water, including a control unit for periodically outputting position information through the communication unit,
LED for emitting light;
A mist generator for generating mist;
It further comprises an illuminance sensor for measuring the illuminance,
The control unit emits the LED when the output value of the salinity sensor or the water temperature sensor is greater than or equal to the reference value determined to be in the water and the output value of the illuminance sensor is less than or equal to the standard illuminance determined to be night.
In the daytime, the mist generator is driven to generate mist.
Vibration sensor for detecting the vibration;
Further comprising a tilt sensor for detecting the tilt,
The control unit determines whether the user's state is normal by using the output and the slope of the vibration sensor,
The controller determines whether the user's state is normal by using the output and the slope of the vibration sensor, and transmits the determined state to the server.
The server determines that there is movement when the change of vibration and inclination is received, and when only vibration is received, judges that there is no movement and breathing only, and there is no vibration and no change of inclination and no movement and no breath if it is dangerous. Judging by
The control unit also transmits the output value of the salinity sensor or the water temperature sensor, and thus, if only one sensor exceeds the reference value, the server or administrator inquires whether distress and safety to the terminal of the captain,
The control unit controls the power supply in case of an accident, characterized in that to operate the communication unit and the GPS unit to reduce the power used
Marine accident response control system using automatic accident detection kit.
delete delete delete Communication unit for communicating with the server;
A salinity sensor for measuring salinity;
A water temperature sensor for measuring water temperature;
A GPS unit for calculating and outputting its position;
A storage unit for storing reference values of salinity and water temperature determined to be in the water;
When the output value of the salinity sensor or the water temperature sensor is more than the reference value determined to fall into the water, including a control unit for periodically outputting position information through the communication unit,
LED for emitting light;
A mist generator for generating mist;
It further comprises an illuminance sensor for measuring the illuminance,
The control unit emits the LED when the output value of the salinity sensor or the water temperature sensor is greater than or equal to the reference value determined to be in the water and the output value of the illuminance sensor is less than or equal to the standard illuminance determined to be night.
In the daytime, the mist generator is driven to generate mist.
Vibration sensor for detecting the vibration;
Further comprising a tilt sensor for detecting the tilt,
The control unit determines whether the user's state is normal by using the output and the slope of the vibration sensor,
The controller determines whether the user's state is normal by using the output and the slope of the vibration sensor, and transmits the determined state to the server.
The server determines that there is movement when the change of vibration and inclination is received, and when only vibration is received, judges that there is no movement and breathing only, and there is no vibration and no change of inclination and no movement and no breath if it is dangerous. Judging by
The control unit also transmits the output value of the salinity sensor or the water temperature sensor, and thus, if only one sensor exceeds the reference value, the server or administrator inquires whether distress and safety to the terminal of the captain,
The control unit controls the power supply in case of an accident, characterized in that to reduce the power consumption by operating only the communication unit and the GPS unit
Auto Incident Detection Kit.

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