KR102239830B1 - Apparatus and method for updating marine environment data - Google Patents

Abstract

The present invention utilizes a ship as a marine observation buoy, obtains the height, period, and direction of the wave through the motion values of the ship's 6 degrees of freedom, and updates the wave statistics stored in a time series into marine environment data, which occurs in the navigation route of the ship. The present invention relates to an apparatus and method for updating marine environment data that can accurately simulate a marine environment.
According to an embodiment of the present invention, there is provided an apparatus for updating marine environment data according to a route of a ship, comprising: a measurement unit measuring motion of the ship with 6 degrees of freedom; And the height and period of the wave using the Heave motion value among the 6 degrees of freedom motion values measured by the measurement unit, and the direction of the wave using the surge motion value and the sway motion value. An apparatus for updating marine environment data is provided, including a motion analyzer for updating wave statistics obtained by storing the obtained wave height, period, and wave direction in time series with marine environment data received by the ship.

Description

Marine environment data update device and method {APPARATUS AND METHOD FOR UPDATING MARINE ENVIRONMENT DATA}

The present invention relates to an apparatus and method for updating marine environment data, and more particularly, to an apparatus and method for updating environment data only when a ship operates along a route.

In the design of ships or offshore structures, the marine environment is the design criterion.

In the case of ships, more than 30% of fuel consumption is determined by the environment and is the most important factor in maritime accidents. In defining the marine environment, conventionally, the marine environment in a specific observation area is statistically processed and defined as a representative value.

However, if it is based on a case outside the observation area or a case where the range of the observation area is too large, the statistically processed representative value may not match the actual ship operating environment.

In particular, existing ships or offshore structures use statistical data of marine environment in the UK offshore (North Sea) region. This marine environment statistical data cannot accurately simulate the marine environment occurring in the ship's navigation route.

In order to update the marine environment according to the ship's operating route, approximately 8000 or more buoys are required, and a number of buoys run at 1 km intervals, resulting in a period of more than 5 years and excessive costs.

Accordingly, there is a need for a device capable of accurately replicating the marine environment occurring in the navigation route of the ship and updating it to the exact environment directly experienced by the ship.

Republic of Korea Patent Publication No. 2016-0105065 (2016.09.06) "System and method for providing real-time marine environment observation data through a drift buoy"

An object of the present invention is to obtain the height, period, and direction of the wave through the motion values of the 6 degrees of freedom of the ship by utilizing the ship as a marine observation buoy, and update the wave statistics stored in a time series into marine environment data, It is to provide an apparatus and method for updating marine environment data that can accurately simulate a marine environment occurring in a route.

According to an embodiment of the present invention for achieving the above object, there is provided an apparatus for updating marine environment data according to a route of a vessel, comprising: a measurement unit measuring motion of the vessel with 6 degrees of freedom; And the height and period of the wave using the Heave motion value among the 6 degrees of freedom motion values measured by the measurement unit, and the direction of the wave using the surge motion value and the sway motion value. An apparatus for updating marine environment data is provided, including a motion analyzer for updating wave statistics obtained by storing the obtained wave height, period, and wave direction in time series with marine environment data received by the ship.

The motion analyzer can correct surge, sway, and heave motion values using roll, pitch, and yaw motion values among the six degrees of freedom motion values. have.

The measurement unit may include a motion sensor and a GPS.

The motion analyzer may count the number of times the vessel repeatedly operates a specific route and update an average wave statistics obtained by averaging the wave statistics for each counted number of sailing times into marine environment data received by the vessel.

The height of the wave may be obtained by using the Heave motion value and an inverse function of a motion response function obtained through a model test or motion analysis.

According to another embodiment of the present invention, a method for updating marine environment data according to a route of a ship, comprising: receiving a motion value of 6 degrees of freedom of a corresponding ship measured through a measurement unit installed on the ship; Obtaining a height and a period of a wave using a Heave motion value among the received 6 DOF motion values, and obtaining a direction of the wave using a surge motion value and a sway motion value; And updating wave statistics in which the height and period of the wave obtained through the obtaining step and the direction of the wave are stored in a time series with the marine environment data received by the ship.

In the marine environment data update method according to another embodiment of the present invention, after the obtaining step, a surge using the roll, pitch, and yaw motion values among the six degrees of freedom motion values. , Compensating the Sway and Heave motion values may be further included.

The updating may include counting the number of times the vessel repeatedly operates a specific route; And updating an average wave statistics obtained by averaging the wave statistics for each number of times of operation, with marine environment data received by the ship.

In the obtaining step, the height of the wave may be obtained by using the Heave motion value and an inverse function of a motion response function obtained through a model test or motion analysis.

According to an embodiment of the present invention, the ship is used as a marine observation buoy to obtain the height, period, and direction of the wave through the motion value of 6 degrees of freedom of the ship, and the wave statistics stored in a time series are updated to the marine environment data. There is an effect that can accurately simulate the marine environment occurring in the navigation route.

1 is a schematic configuration diagram illustrating an apparatus for updating marine environment data according to an embodiment of the present invention.
2 is a flowchart illustrating a method of updating marine environment data according to another embodiment of the present invention.
3 is a graph showing statistics of waves.

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

1 is a schematic configuration diagram illustrating an apparatus for updating marine environment data according to an embodiment of the present invention.

Referring to Figure 1, the marine environment data update apparatus according to an embodiment of the present invention includes a motion sensor 11 for measuring the motion value of 6 degrees of freedom of a ship, and a GPS 13 for measuring the speed of the ship. And a motion analyzer 20 that updates the wave statistics obtained by using the six degrees of freedom motion value of the ship measured through the measurement unit 10 and the marine environment data received by the ship. At this time, the ship is a ship that operates along the navigation route, and as it is updated with accurate marine environment data directly experienced by the ship, it is generated in the ship's navigation route without the need for more than 8000 buoys, a period of more than 5 years, and excessive costs. It can accurately simulate a marine environment

The motion sensor 11 is a motion reference unit, which is a motion value of 6 degrees of freedom of a ship, that is, a surge motion value, a swatch motion value, a heave motion value, a roll motion value, and a pitch. The (Pitch) motion value and the yaw motion value are measured.

The motion value of the six degrees of freedom of the ship measured by the motion sensor 11 is transmitted to the motion analyzer 20.

The location information received from the GPS 13 is sent to the motion analyzer 20 to calculate the speed of the ship that affects the motion of the ship.

The motion analyzer 20 uses a Heave motion value that is easy to obtain the height of the wave because the amplitude of the wave is large among the six degrees of freedom motion values measured through the motion sensor 11 of the measurement unit 10. Find the height and period.

The height of the wave is obtained by Equation 1 below.

Here, Heave Motion is a Heave motion value measured by the motion sensor 11, and Heave Impulse Response Funcion ^-1 is an inverse function of the Heave motion response function obtained through model test or motion analysis.

The motion analyzer 20 combines a surge motion value and a sway motion value among 6 degrees of freedom motion values measured through the motion sensor 11 of the measurement unit 10 to obtain the direction of the incident angle of the wave.

The angle of incidence of the wave is obtained by Equation 2 below.

Here, Sway Motion is a sway motion value measured through the motion sensor 11, and Surge Motion is a surge motion value measured through the motion sensor 11.

The motion analyzer 20 updates the wave statistics obtained by storing or converting the wave height, period, and direction of incidence angle obtained by Equation 1 and Equation 2 as a time series with marine environment data received by the ship in operation. Accordingly, by updating the marine environment data to the exact environment that the ship directly experiences in the ship's navigation route, it is possible to accurately simulate the marine environment occurring in the ship's navigation route.

Based on the marine environment data updated as described above, the motion analyzer 20 may inform that it is necessary to change the navigation route of the ship in the case of a marine environment with high fuel consumption or a risk of a marine accident. Accordingly, it is possible to inform the change of the navigation route toward the marine environment with less fuel consumption or toward the marine environment with less risk of a marine accident.

Further, the motion analyzer 20 may count the number of times the vessel repeatedly operates a specific route and update an average wave statistics obtained by averaging the wave statistics for each counted number of sailing times into marine environment data. In particular, as the number of repetitive operations increases, the accuracy of the wave statistics is further improved.

Meanwhile, the motion analyzer 30 may correct surge, sway, and heave motion values using roll, pitch, and yaw motion values among the six degrees of freedom motion values. More specifically, the motion analyzer 30 corrects the height of the wave to a small value by comparing the height of the wave obtained using the heave motion value and the height of the wave obtained as the roll motion value and the pitch motion value, and corrects the surge and sway motion. The incident angle of the wave obtained using the value is compared with the incident angle of the wave obtained as the yaw motion value, and the incident angle of the wave is corrected with a small value.

An apparatus for updating marine environment data having such a configuration will be described with reference to FIG. 2 as follows.

2 is a flowchart illustrating a method of updating marine environment data according to another embodiment of the present invention.

Referring to FIG. 2, the motion analyzer 20 of the marine environment data update device of the present invention receives the motion value of the six degrees of freedom of the vessel measured through the measurement unit 10 installed on the vessel operating in the navigation route (S11). . The 6 DOF motion values of the ship are Surge motion values, Sway motion values, Heave motion values, Roll motion values, Pitch motion values, and Yaw motion values. As a value, it is measured through the motion sensor 11 of the measurement unit 10.

Next, the motion analyzer 20 obtains the height and period of the wave by applying the Heave motion value among the received motion values of the six degrees of freedom of the ship to Equation 1 (S13).

Next, the motion analyzer 20 applies the surge motion value and the sway motion value among the received motion values of the six degrees of freedom of the ship to Equation 2 to obtain the angle of incidence of the wave, which is the direction of the wave ( S15).

The above-described step S13 and the above-described step S15 can be implemented by obtaining the height and period of the wave, and the angle of incidence of the wave only before step S17, which will be described later, without limiting the procedure of the present invention.

Next, the motion analyzer 20 updates the wave statistics as shown in FIG. 3 by storing or converting the height, period, and angle of incidence of the wave as a time series into marine environment data (S17). Accordingly, it is possible to accurately simulate the marine environment directly experienced by the ship in the operating route. As the marine environment directly experienced by ships in operation can be simulated in this way, in the case of a marine environment that consumes a lot of fuel, a change of the route of operation can be considered, and even if there is a risk of a maritime accident, the risk is notified and an immediate response plan Can be prepared.

In addition, when the vessel repeatedly operates a specific route, the motion analyzer 20 may count the number of repeated operations and update the average wave statistics obtained by averaging the counted wave statistics for each number of operations to the marine environment data received by the ship. . As the number of repetitive sailing increases, the accuracy of the wave statistics improves, so it is possible to more accurately simulate the marine environment directly experienced by the ship.

The present invention is not limited by the above-described embodiments, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention defined in the appended claims.

10: measurement unit 11: motion sensor
13: GPS 20: Motion Analyzer

Claims (9)

As a device for updating marine environment data according to the ship's route,
Measurement unit for measuring the movement of the six degrees of freedom of the ship; And
Among the 6 degrees of freedom motion values measured by the measuring unit, the height and period of the wave is obtained using the Heave motion value, and the direction of the wave is obtained using the surge motion value and the sway motion value. A motion analyzer for updating wave statistics in which the obtained wave height, period, and wave direction are stored in a time series with marine environment data received by the ship;
The measurement unit includes a motion sensor and a GPS, and sends the location information received from the GPS to a motion analyzer to calculate the speed of the ship that affects the motion of the ship;
The motion analyzer updates the marine environment data with the environment directly experienced by the ship in the navigation route, counts the number of times the vessel repeatedly operates a specific route, and averages the wave statistics for each counted number of operations. Updating statistics with marine environment data received by the ship;
Based on the updated marine environment data, the motion analyzer can inform that it is necessary to change the navigation route of the ship in the case of a marine environment with high fuel consumption or a risk of a maritime accident. Device. The method according to claim 1,
The motion analyzer corrects surge, sway, and heave motion values using roll, pitch, and yaw motion values among the six degrees of freedom motion values, Marine environment data update device. delete delete The method according to claim 1,
The height of the wave is obtained by using the Heave motion value and an inverse function of a motion response function obtained through a model test or motion analysis. As a method for updating marine environment data according to a ship's route,
Receiving a motion value of 6 degrees of freedom of the vessel measured through a measurement unit including a motion sensor and GPS installed on the vessel;
Obtaining a height and a period of a wave using a Heave motion value among the received 6 DOF motion values, and obtaining a direction of the wave using a surge motion value and a sway motion value; And
And updating wave statistics obtained by storing the wave height, period, and wave direction obtained through the obtaining step in a time series into marine environment data received by the ship;
The updating step,
Updating the marine environment data to the environment directly experienced by the ship in the navigation route, and counting the number of times the vessel repeatedly operates a specific route;
Updating an average wave statistics obtained by averaging the wave statistics according to the counted number of sailing times into marine environment data received by the ship; And
Based on the updated marine environment data, the motion analyzer comprises the step of notifying that it is necessary to change the navigation route of the ship in the case of a marine environment with high fuel consumption or a marine environment with a risk of a marine accident. How to update the data. The method of claim 6,
After the above obtaining step,
Compensating the surge, sway, and heave motion values using the roll, pitch, and yaw motion values among the six degrees of freedom motion values. , How to update marine environment data. delete The method of claim 6,
The obtaining step is to obtain the height of the wave by using the Heave motion value and an inverse function of a motion response function obtained through a model test or motion analysis.

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