KR102111636B1 - System for providing marine situation information and method for providing marine situation information in using same - Google Patents

Abstract

The present invention relates to a system for providing marine conditions information and a method for providing the marine conditions information using the same. The system for providing the marine conditions information according to the present invention comprises: a prediction information receiving unit receiving marine prediction information; a marine conditions forecast information generating unit generating marine conditions forecast information, which is forecast information for marine conditions, based on the marine conditions forecast information; a marine conditions forecast map generating unit generating a marine conditions forecast map, which is a forecast map for the marine conditions, based on the marine conditions forecast information; and a marine conditions forecast map displaying unit displaying the marine conditions forecast map.

Description

System for providing maritime information and method for providing maritime information using the same {SYSTEM FOR PROVIDING MARINE SITUATION INFORMATION AND METHOD FOR PROVIDING MARINE SITUATION INFORMATION IN USING SAME}

Embodiments of the present invention relates to a system for providing sea condition information and a method for providing sea condition information using the same.

Currently, meteorological and marine research institutes manage various types of meteorological and marine real-time observation data, or manage prediction data based on this.

These research institutes are constructing systems that individually provide observation and predicted data, separate satellite data, model calculation information, etc., and they do not consider mutual utilization, and thus inefficient marine information management is being performed.

Conventionally, marine industry experts or general users have had difficulty understanding sea information by relying on foreign marine, weather forecast information, and forecast booklets for sailing, fishing, and leisure activities. There was a hassle to browse through the media published by various research institutes in order to collect them.

Republic of Korea Patent Publication No. 10-2005-0056538 (2005.06.16.)

The present invention has been invented in order to solve the above-described problems, and provides a user with a situation report that expresses a variety of sea conditions forecasts in symbols and colors to provide a user with a system for providing sea conditions information that can be easily understood by anyone. And to provide a method for providing sea condition information using the same.

In addition, the present invention provides a situation information provided by the user to provide information on the situation of sea conditions, and provides a situation information system that can solve the hassle of users having to browse various media in order to collect various types of situation information. It aims to provide a method.

In addition, the present invention provides marine experiences, marine activities, and decision-making information by providing daily, tomorrow, and day-to-day sea conditions in Korea and the major coastal regions of Korea through daily forecasts. It is an object of the present invention to provide a supply system and a method for providing sea condition information using the same.

A system for providing marine conditions information according to the present invention for achieving the above object includes a prediction information receiving unit for receiving marine prediction information; A sea condition forecast information generating unit for generating sea condition forecast information, which is forecast information for the marine situation, based on the marine prediction information; A sea state forecasting unit generating a sea state forecasting map which is a forecast map for the marine situation based on the sea state forecasting information; And it characterized in that it comprises a; sea forecast forecast display unit for displaying the sea forecast forecast.

In addition, the prediction information receiving unit, at least one of seawater circulation prediction information, wave prediction information, tide prediction information, tidal prediction information, moonrise prediction information, high tide prediction information, coastal low water temperature prediction information, and typhoon prediction information as the marine prediction information You can receive one.

In addition, the sea condition forecast information generating unit extracts spatial seawater information by extracting seawater flow information, which is spatial flow velocity and directed information about the ocean surface layer, and spatial water temperature information, which is spatial water temperature distribution information about the ocean surface layer, from the ocean prediction information, respectively. A spatial seawater information generating module to generate; A point seawater information generating module that extracts point seawater information, which is surface water temperature information for each specific point of the ocean, and point wave height information, which is wave height information for each specific point, from the marine prediction information to generate point seawater information, respectively; And a water flow algae information generation module that extracts algae information for each specific water channel of the ocean from the marine prediction information to generate water flow algae information.

In addition, the sea condition forecast information generating unit, the regional tidal information generation module for generating the local tidal information by extracting the phase change information and tidal change information of each month of a specific region from the ocean prediction information; A local moon information generation module that extracts information about the time of appearance of a month by month from the ocean prediction information and generates local moon information; A regional immersion information generation module that extracts immersion caution information for a specific region from the ocean prediction information and generates regional immersion information; A point water temperature information generation module for extracting low water temperature generating caution information for each specific point of the sea from the ocean prediction information and generating point water temperature information; And a typhoon progress information generation module for extracting typhoon occurrence information from the ocean prediction information and generating typhoon progress information.

In addition, the sea condition forecast generation unit, the spatial seawater information, branch seawater information, waterway tide information, local tidal information, local January information, local inundation information, branch low temperature information, and typhoon progress information generated by the sea conditions forecast information generation unit Sea condition forecast information selection module for selecting at least one of the; And at least one of the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local tidal current information, local inundation information, branch water temperature information, and typhoon progress information selected in the seawater forecast information selection module to a corresponding location on the map. It may include a display module for generating a sea forecast to display the sea forecast forecast.

In addition, the seawater forecast information that stores the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, local inundation information, branch low water temperature information, and typhoon progress information respectively generated by the seaweed forecast information generating unit, respectively. Storage unit; And a sea condition forecast storage unit for storing the sea condition forecast diagram generated by the sea condition forecast diagram generating unit, and the sea condition forecast storage unit may classify and store the sea condition forecast map by country and specific region.

In addition, the sea forecast forecast display unit, a region selection module for displaying a region selection key for selecting a specific region on the map; A forecast map display module for extracting a sea forecast map for a specific region selected through the area selection module from the sea forecast map storage unit and displaying it to a user; And a forecast map download module for extracting a forecast map of the sea conditions for a specific region selected through the region selection module from the storage map of the sea conditions and transmitting the map to the user.

In addition, the forecast map display module may enlarge and display the sea forecast map for a specific region selected by the user through a separate window.

In addition, the method for providing marine information using the marine information providing system according to the present invention includes a prediction information receiving step in which the prediction information receiving unit receives at least one marine prediction information; A sea sulfur forecast information generating step of generating a sea sulfur forecast information, which is forecast information for a marine situation, based on the marine forecast information generating unit based on the marine forecast information; A sea state forecast information storage step in which the sea state forecast information storage unit stores the sea state forecast information generated by the sea state forecast information generation unit; A sea sulfur forecast diagram generating step of generating a sea sulfur forecast map, which is a forecast map for the marine situation, based on the sea sulfur forecast information stored in the sea sulfur forecast information storage unit; A sea sulfur forecast diagram storage step in which the sea sulfur forecast diagram storage unit stores the sea sulfur forecast diagram generated by the sea sulfur forecast diagram generator; And a sea state forecast degree display step of displaying the sea state forecast figure stored in the sea state forecast figure storage unit in the sea state forecast figure display unit.

In addition, in the generating of the sea condition forecast information, the spatial seawater information generation module receives seawater flow information, which is spatial flow velocity and directed information about the ocean surface layer, and spatial water temperature information, which is spatial water temperature distribution information about the ocean surface layer, from the marine prediction information. A spatial seawater information generating process for extracting each and generating spatial seawater information; The point seawater information generation module generates point seawater information for generating point seawater information by extracting the point water temperature information, which is surface water temperature information for each specific point of the ocean, and the point wave height information, which is wave height information for each specific point, from the marine prediction information. fair; A water flow algae information generation process in which a water flow algae information generation module extracts algae information for each specific water channel from the ocean prediction information to generate water flow algae information; A regional tidal information generation process in which a regional tidal information generation module extracts phase change information and tidal change information for each specific region from the ocean prediction information to generate regional tidal information; A local moon monthly information generation process in which a local moon monthly information generation module extracts monthly sundown time information for each specific region from the ocean prediction information to generate local moon monthly information; A regional immersion information generation process in which a regional immersion information generation module extracts immersion caution information for a specific region from the marine prediction information to generate regional immersion information; A branch water temperature information generation process in which the branch water temperature information generation module extracts information on the occurrence of low water temperature for each specific point in the ocean from the ocean prediction information and generates branch water temperature information; And a typhoon progress information generation process in which the typhoon progress information generation module extracts typhoon occurrence information from the marine prediction information to generate typhoon progress information.

In addition, in the step of generating the sea state forecast, the sea state forecast information selection module is the sea state forecast information stored in the sea state forecast information storage unit, such as spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, and local flooding. A sea condition forecast information selection process for selecting at least one of information, branch water temperature information, and typhoon progress information; And at least one of the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local daily information, regional flooding information, branch low water temperature information, and typhoon progress information selected by the seaweed forecast information generation module selected from the seaweed forecast information selection module. It may include; a process for generating a sea condition forecast diagram to generate the sea condition forecast diagram by displaying on a corresponding location on the map.

In addition, the step of displaying the sea condition forecast includes: a region selection process in which a region selection module displays a region selection key for selecting a specific region on the map; A forecast diagram display process in which a forecast map display module extracts a sea forecast map for a specific region selected through the region selection module from the sea forecast map storage unit and displays it to the user; And a forecast diagram download process in which the forecast map download module extracts the sea forecast map for a specific region selected through the region selection module from the chart of the sea forecast map and transmits it to the user.

As described above, according to the system for providing sea information according to the present invention and a method for providing sea information using the same, it is possible to easily understand the sea information by generating and providing the user with a forecast report of the situation in various symbols and colors. It has the effect.

In addition, the present invention can provide a single piece of sea forecast information to solve the hassle of users having to browse multiple media, thereby revitalizing the marine leisure industry, and further contributing to safety navigation of offshore and offshore vessels. It has the effect.

In addition, the present invention has the effect of supporting marine experiences, marine activities, and decision-making by providing daily, tomorrow, and day-to-day sea conditions in Korea and the major coastal regions of Korea through daily forecasts. have.

1 is a block diagram of a marine information providing system according to the present invention.
2 is a block diagram of a sea condition forecast information generating unit according to the present invention.
3 is a symbol and color representing spatial seawater information according to the present invention.
4 is a symbol and color representing point seawater information according to the present invention.
5 is a symbol and color representing waterway algae information according to the present invention.
6 is a symbol and color representing regional tidal information according to the present invention.
7 is a symbol and color representing local moon information according to the present invention.
8 is a symbol and color representing local flooding information according to the present invention.
9 is a symbol and color indicating the point low water temperature information according to the present invention.
10 is a symbol and color indicating typhoon progress information according to the present invention.
11 is a configuration diagram of a forecasting unit generating a sea condition according to the present invention.
12 is a configuration diagram of a sea condition forecast display unit according to the present invention.
FIG. 13 shows an example in which the region selection module according to the present invention displays a region selection key, the forecast map display module displays the sea state forecast map, and displays a preview selection key, and the forecast map download module displays a download selection key. It is shown.
14 is a diagram illustrating an example of a forecast condition of a sea condition displayed through a separate window when a preview selection key is clicked according to the present invention.
15 is a view showing an example of a sea condition forecast transmitted to a user when a download selection key is clicked according to the present invention.
16 is a block diagram of a method for providing sea condition information according to the present invention.
17 is a block diagram of a step of generating sea forecast information according to the present invention.
18 is a block diagram of a step of generating a sea sulfur forecast according to the present invention.
19 is a block diagram of a sea state forecast diagram display step according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts in the drawings indicate the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations will be omitted so as not to obscure the subject matter of the present invention.

1 is a block diagram of a marine information providing system according to the present invention.

As shown in FIG. 1, the system for providing information about the sea condition according to the present invention includes the prediction information receiving unit 100, the sea condition forecast information generating unit 200, the sea condition forecast information storage unit 300, and the sea condition forecast diagram generating unit 400. , Sea state forecasting unit 500, and sea state forecasting unit 600.

The prediction information receiving unit 100 may receive marine prediction information. The prediction information receiving unit 100 is the marine prediction information, and seawater circulation prediction information, wave prediction information, tidal current prediction information, tidal prediction information from an external institution. , It is possible to receive at least one of the moon (Sunday) appearance prediction information, high tide prediction information, coastal low temperature prediction information, and typhoon prediction information.

Specifically, the prediction information receiving unit 100 may receive the seawater circulation prediction information through the seawater circulation prediction model operated by the National Oceanographic Research Institute, and the wave prediction model operated by the National Oceanographic Research Institute and the wave prediction model operated by the National Weather Service. Through this, the blue prediction information may be received.

In addition, the prediction information receiving unit 100 may receive the tide prediction information through a tide table issued by the National Maritime Research Institute, and may receive the tide prediction information through a tide table issued by the National Oceanographic Research Institute, and Korean astronomy. It is possible to receive the forecast information of the monthly appearance through the monthly timetable (including male and female) issued by the researcher.

In addition, the prediction information receiving unit 100 may receive the high-rise prediction information through a four-step high-rise information table issued by the National Oceanic Research Institute, and receive the coastal low-temperature prediction information through the coastal low-temperature table issued by the National Oceanographic Research Institute. The typhoon prediction information may be received through a typhoon notification issued by the Korea Meteorological Administration.

The sea condition forecast information generating unit 200 may generate the sea condition forecast information, which is forecast information about the marine situation, based on the marine prediction information.

2 is a block diagram of a sea condition forecast information generating unit according to the present invention.

Specifically, the sea condition forecast information generating unit 200, as shown in Figure 2, spatial seawater information generation module 210, branch seawater information generation module 220, waterway algae information generation module 230, regional tidal It may include an information generation module 240, a local monthly information generation module 250, a local inundation information generation module 260, a branch low water temperature information generation module 270, and a typhoon progress information generation module 280.

The spatial seawater information generation module 210 extracts spatial seawater information by extracting seawater flow information, which is spatial flow velocity and directed information on the ocean surface layer, and spatial water temperature information, which is spatial water temperature distribution information on the ocean surface layer, from the ocean prediction information, respectively. The spatial seawater information generation module 210 may generate spatial seawater information using the seawater circulation prediction information and wave prediction information as marine prediction information.

3 is a symbol and color representing spatial seawater information according to the present invention.

Specifically, as shown in FIG. 3, the spatial seawater information generation module 210 displays the spatial flow velocity of seawater in the size of an arrow in relation to seawater flow information among the spatial seawater information, and the spatial direction of the corresponding seawater in the direction of the arrow The seawater vector denoted by can be expressed as an equally spaced distribution.

In addition, the spatial seawater information generation module 210 may display the spatial water temperature distribution of seawater as an isotherm in relation to the spatial water temperature information among the spatial seawater information. It can be represented as a spatial distribution in the range of -5 to 35 ° C with reference to the temperature value.

The point seawater information generation module 220 may generate point seawater information by extracting the point water temperature information, which is surface water temperature information for each specific point, and the point wave height information, which is the wave height information for each specific point, from the ocean prediction information. However, the point seawater information generation module 220 may generate point seawater information using the seawater circulation prediction information and wave prediction information as marine prediction information.

4 is a symbol and color representing point seawater information according to the present invention.

Specifically, as illustrated in FIG. 4, the branch seawater information generation module 220 may display the surface water temperature as a thermometer symbol on the sea in relation to the branch water temperature information among the branch seawater information, and also the branch wave height of the branch seawater information. In relation to information, the wave height can be displayed as a wave symbol.

Here, in the case of point water temperature information, it is a major reference indicator for leisure activities such as skin scuba and sea bathing, and fishing practitioners can be usefully used to detect target fish groups, and in the case of point wave information, as the biggest cause of marine accidents As a major reference for marine-related industries and leisure activities, bathing control can be implemented at the beach if the wave height is high for safety reasons and ship control regulations.

The waterway algae information generation module 230 may extract algae information for each specific channel of the ocean from the marine prediction information to generate waterway algae information. Waterway algae information can be generated using the prediction information.

5 is a symbol and color representing waterway algae information according to the present invention.

Specifically, as shown in FIG. 5, the waterway algae information generation module 230 expresses a current time of a specific waterway, for example, Seokmo waterway in the upper left, and the strongest flow rate time in the upper right as shown in FIG. 5. Expressed, the flow velocity and direction at the strongest flow time can be symbolized as a vector and displayed at the bottom.

Here, the corresponding water flow algae information can be improved by displaying cm / s as a standard flow rate notation, thereby improving the readability of the flow rate, and can be displayed as a symbol implying a knot for marine workers.

The regional tidal information generation module 240 may extract the phase change information and the tidal change information of the moon for a specific region from the ocean prediction information, respectively, and generate regional tidal information. Local tidal information may be generated by using the tidal prediction information and the monthly sundown prediction information as prediction information.

6 is a symbol and color representing regional tidal information according to the present invention.

Specifically, as shown in FIG. 6, the regional tidal information generation module 240 may generate regional tidal information through a circular tidal map, and the local tidal information generating module 240 circularly changes the phase of the moon. It can be expressed in the center of the tidal flat, and the height and low tide of each region are represented in red and blue, respectively, and the height, tide time, height and height of each region can be represented by circular drawings, respectively.

Here, the local tidal information generation module 240 can infer the time when the user asks by providing visual information using the lunar and lunar dates and the size symbol of the full moon, as shown in FIGS. 14 and 15 to be described later. It can be made, but when it is watered, it is classified by the gravity of the moon, so even in the full moon and then, there is a big sari, and even in the top and bottom, a little bit occurs, and as mentioned above, a specific area, for example, By expressing the height and low tide times of major ports, it is possible to grasp the approximate depth of each port, which can help safe ship operation.

The regional moon information generation module 250 may extract the monthly moon time information for each specific region from the ocean prediction information to generate regional moon information, and the local moon information generation module 250 is the ocean forecast information. Local tidal information can be generated using the prediction information.

7 is a symbol and color representing local moon information according to the present invention.

Specifically, as illustrated in FIG. 7, the regional moon information generation module 250 expresses the sun and moon's appearance time and midnight time, respectively, in relation to local moon information for a specific region, and is useful for ship operation. By providing and separating and symbolizing the year and month, readability can be secured.

The regional immersion information generation module 260 may extract immersion caution information for a specific region from marine prediction information to generate regional immersion information. The regional immersion information generation module 260 predicts the algae as marine prediction information. Local tidal information may be generated using information, tidal prediction information, high tide prediction information, and typhoon prediction information.

8 is a symbol and color representing local flooding information according to the present invention.

Specifically, as illustrated in FIG. 8, the regional immersion information generation module 260 may be an abnormal level of attention among high-level 4 levels of high-level information, or prediction of flooding due to typhoons and high tides, as illustrated in FIG. 8. Where possible, the appearance of the house being flooded along with the expected time of flooding can be symbolized and displayed.

The branch water temperature information generation module 270 may generate branch water temperature information by extracting information on the occurrence of low water temperature for each specific point in the ocean from the ocean prediction information. It is possible to generate branch water temperature information using coastal water temperature prediction information.

9 is a symbol and color indicating the point low water temperature information according to the present invention.

Specifically, the point water temperature information generation module 270 may signify and display that a specific point has a lower water temperature than the surrounding waters, as shown in FIG. 9 in relation to the point water temperature information for a specific point.

Here, the coastal low water temperature is a phenomenon in which an underground cold water layer rises due to the influence of wind and current and shows a rapid temperature difference of 5 degrees or more than the surrounding waters.The coastal low water temperature is a factor influencing leisure activities such as skin scuba and sea bathing. In the case of aquaculture, it is a major factor that can cause economic loss if it is outside the range of possible water temperature of the target variety.

The typhoon progress information generation module 280 may generate typhoon progress information by extracting typhoon occurrence information from the ocean prediction information. The typhoon progress information generation module 280 uses typhoon prediction information as marine prediction information. Progress information can be generated.

10 is a symbol and color indicating typhoon progress information according to the present invention.

Specifically, when the typhoon progress information generation module 280 is related to typhoon progress information, when a typhoon invasion is expected, as illustrated in FIG. 10, the Meteorological Agency notification standard reference time and expected location can be displayed as symbols. In addition, the symbol can be generated considering the rotational direction of the typhoon invading the Republic of Korea, and this typhoon information is one of the major disaster factors that have a great influence on the land and sea fields. Can act as an indicator.

The sea condition forecast information storage unit 300 includes the spatial seawater information, branch seawater information, waterway tide information, local tidal information, local January information, local flooding information, branch low temperature information, and typhoon progress generated by the seaweed forecast information generation unit Each information can be saved.

Specifically, the sea condition forecast information storage unit 300 is provided with a plurality of forecast information storage modules, and each seam information storage module generates spatial seawater information, branch seawater information, waterway algae information, and regions generated by the seaweed forecast information generation unit. The tidal information, local monthly information, local flooding information, branch water temperature information, and typhoon progress information can be classified and stored, respectively.

The sea condition forecast generation unit 400 may generate a sea condition forecast map, which is a forecast map for the marine situation, based on the sea condition forecast information.

11 is a configuration diagram of a forecasting unit generating a sea condition according to the present invention.

Specifically, as shown in FIG. 11, the sea condition forecast generation unit 400 may include a sea condition forecast information selection module 410 and a sea condition forecast diagram generation module 420.

The seawater forecast information selection module 410 is the spatial seawater information, branch seawater information, waterway tide information, local tidal information, local January information, local flooding information, branch low temperature information, and typhoon progress generated by the seaweed forecast information generating unit At least one of the information can be selected.

More specifically, the sea condition forecast information selection module 410 is spatial seawater information, branch seawater information, waterway algae information, regional tidal information, local tidal information, area stored in a plurality of storage modules of the seaweed forecast information storage unit 300 At least one of inundation information, branch low water temperature information, and typhoon progress information may be selected to provide the sea condition forecast to the generation module 420.

The seawater forecast map generation module 420 includes the spatial seawater information, branch seawater information, waterway tide information, local tidal information, local January information, local flooding information, branch low water temperature information, and typhoon progress information selected in the seaweed forecast information selection module. At least one of them may be displayed on a corresponding location on the map to generate the sea condition forecast map.

Specifically, the sea state forecast map generation module 420 is a base map for generating the sea state forecast map, and an electronic chart reference coastline is displayed, and an administrative division line and a sea area division line are displayed. , And Dokdo on the map, respectively, by displaying at least one of the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, local flooding information, branch water temperature information, and typhoon progress information. It is possible to generate a sea forecast map displaying sea forecast information.

Here, spatial seawater information, branch seawater information, waterway algae information, local inundation information, branch water temperature information, and typhoon progress information include location information matching each of the information, and each corresponding location on a map corresponding to the location information. It can be displayed, and also, the local tidal information and the local moon information can be displayed on an arbitrary location on a map, for example, Japanese territory.

The forecasting module 420 for generating the forecasting status of the coastal state of Korea and the main coastal areas of Korea, for example, Incheon, Gunsan, Mokpo, Jeju, Yeosu, Tongyeong, Busan, Pohang, Sokcho, today, tomorrow May be generated based on a specific time, for example, 09 o'clock and 16 o'clock.

The sea sulfur forecast map storage unit 500 may store the sea sulfur forecast diagram generated by the sea sulfur forecast map generating unit, and the sea sulfur forecast map storage unit may classify and store the sea sulfur forecast map by country and specific region.

Specifically, the sea state forecast map storage unit 500 is provided with a plurality of forecast map storage modules to classify the sea state forecast maps for the whole country and a specific region generated by the sea state forecast information generator in each forecast map storage module. Each forecast map storage module can store today's, tomorrow's, and day's weather forecasts for a specific region at a specific time.

The sea state forecast map display unit 600 may display the sea state forecast map to the user.

12 is a configuration diagram of a sea condition forecast display unit according to the present invention.

Specifically, as shown in FIG. 12, the sea condition forecast map display unit 600 may include a region selection module 610, a forecast map display module 620, and a forecast map download module 630.

The region selection module 610 may display a region selection key for selecting a specific region on the map.

FIG. 13 shows an example in which the region selection module according to the present invention displays a region selection key, the forecast map display module displays the sea state forecast map, and displays a preview selection key, and the forecast map download module displays a download selection key. It is shown.

Specifically, as illustrated in FIG. 13, the region selection module 610 is a region selection key for selecting a specific region on the map, nationwide, Incheon, Gunsan, Mokpo, Jeju, Yeosu, Tongyeong, Busan, Pohang, It is possible to display an area selection key in which Sokcho is described. The region selection module 610 may additionally display an area selection key in which other regions are described in addition to the region.

The forecast map display module 620 may extract a sea forecast map for a specific area selected through the area selection module from the storage map of the sea forecast map and display it to the user.

14 is a diagram illustrating an example of a forecast condition of a sea condition displayed through a separate window when a preview selection key is clicked according to the present invention.

Specifically, the forecast map display module 620 has a region selection key selected through the region selection module, for example, as shown in FIG. 13, while the region is nationwide, the date is 2019.10.02. (Wed) 09 o'clock In this case, a forecast selection key may be displayed at the bottom of the map while extracting the sea forecast map corresponding to the corresponding region and date from the storage map of the sea forecast map on the right side of the map.

When the user clicks the preview selection key, the forecast map display module 620 may display a sea forecast map that can be enlarged and reduced through a separate window, as shown in FIG. You can use wheel scrolls to zoom in and out on a specific point on the forecast chart.

The forecast map download module 630 may extract a sea forecast map for a specific region selected through the area selection module from the storage map of the sea forecast map and transmit it to the user.

15 is a view showing an example of a sea condition forecast transmitted to a user when a download selection key is clicked according to the present invention.

Specifically, in the forecast map download module 630, when the region selection key selected through the region selection module is as described above, the region is nationwide, and the date is 2019.10.02. (Wed) 09 o'clock, as shown in FIG. Likewise, a download selection key may be displayed at the bottom of the sea condition forecast diagram displayed through the forecast diagram display module 620.

When the user clicks the download selection key, the forecast map download module 630 extracts the sea forecast map corresponding to the corresponding region and date from the sea forecast map storage unit and transmits it to the user, as shown in FIG. 15. have.

Hereinafter, a method for providing sea condition information according to the present invention will be described.

16 is a block diagram of a method for providing sea condition information according to the present invention.

As shown in FIG. 16, the method for providing marine information according to the present invention includes a prediction information receiving step (S10), a marine situation forecast information generating step (S20), a marine situation forecast information storing step (S30), and a marine situation forecast diagram generating step (S40). ), A sea level forecasting step (S50), and a sea state forecasting level display step (S60).

The prediction information receiving step (S10) is a step in which the prediction information receiving unit 100 receives at least one marine prediction information.

In the receiving of the prediction information (S10), among the marine prediction information, among the seawater circulation prediction information, wave prediction information, tidal current prediction information, tidal prediction information, moonrise prediction information, high tide prediction information, coastal low water temperature prediction information, and typhoon prediction information At least one can be received.

In the step of generating the sea condition forecast information (S20), the sea condition forecast information generating unit 200 generates the sea condition forecast information, which is forecast information for the marine situation, based on the marine prediction information.

17 is a block diagram of a step of generating sea forecast information according to the present invention.

Specifically, as shown in FIG. 17, the seawater forecast information generation step (S20) includes: spatial seawater information generation process (S21), branch seawater information generation process (S22), waterway algae information generation process (S23), and local tidal information. It may include a generating process (S24), a local monthly information generating process (S25), a local flooding information generating process (S26), a branch low water temperature information generating process (S27), and a typhoon progress information generating process (S28).

In the spatial seawater information generation process (S21), the spatial seawater information generation module 210 is seawater flow information that is spatial flow velocity and directed information about the ocean surface layer from the ocean prediction information, and space that is spatial water temperature distribution information about the ocean surface layer. It is a process of extracting water temperature information and generating spatial seawater information.

In the point seawater information generation process (S22), the point seawater information generation module 220 receives point water temperature information, which is surface water temperature information for each specific point, and point wave height information, which is wave height information for each specific point, from the marine prediction information. This is the process of extracting each and generating point seawater information.

The waterway algae information generation process (S23) is a process in which the waterway algae information generation module 230 extracts algae information for each specific channel of the ocean from the marine prediction information to generate waterway algae information.

The local tidal information generation process (S24) is a process in which the local tidal information generation module 240 extracts phase change information and tidal change information for each specific region from the ocean prediction information to generate regional tidal information.

The local moon information generation process (S25) is a process in which the local moon information generation module 250 extracts the information of the monthly sundown time for each specific region from the ocean prediction information to generate local moon information.

The regional inundation information generation process (S26) is a process in which the regional inundation information generation module 260 extracts information of a immersion state for a specific region from the marine prediction information and generates regional inundation information.

The point water temperature information generation process (S27) is a process in which the point water temperature information generation module 270 extracts information about the low temperature generation caution for each specific point of the ocean from the ocean prediction information and generates point water temperature information.

The typhoon progress information generation process (S28) is a process in which the typhoon progress information generation module 280 extracts typhoon occurrence information from the marine prediction information to generate typhoon progress information.

In the step (S30) of storing the sea condition forecast information, the sea condition forecast information storage unit 300 stores the sea condition forecast information generated by the sea condition forecast information generating unit.

In the step of generating the sea sulfur forecast map (S40), the sea sulfur forecast map generating unit 400 generates a sea sulfur forecast map which is a forecast map for the marine situation based on the sea sulfur forecast information stored in the sea sulfur forecast information storage unit.

18 is a block diagram of a step of generating a sea sulfur forecast according to the present invention.

Specifically, as shown in FIG. 18, the sea sulfur forecast generation step (S40) may include a sea sulfur forecast information selection process (S41) and a sea sulfur forecast diagram generation process (S42).

In the sea condition forecast information selection process (S41), the sea condition forecast information selection module 410 is the sea condition forecast information stored in the situation condition information storage unit, spatial seawater information, branch seawater information, waterway algae information, local tidal information, and local tidal information. , It is a process to select at least one of regional inundation information, branch water temperature information, and typhoon progress information.

In the process of generating the sea condition forecast map (S42), the sea water forecast map generation module 420 selects spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, and local flooding information selected by the seaweed forecast information selection module. , It is a process of generating at least one of point low temperature information and typhoon progress information on a corresponding location on a map to generate the sea condition forecast map.

In the step of storing the sea sulfur forecast diagram (S50), the sea sulfur forecast diagram storage unit 500 stores the sea sulfur forecast diagram generated by the sea sulfur forecast diagram generating unit.

In the step of storing the sea state forecast map (S50), the sea state forecast map may be classified and stored for each country and region.

In the step (S60) of displaying the forecast condition of the sea condition, the forecasting condition of the sea condition forecasting unit 600 is a step of displaying the forecast condition of the sea condition stored in the storage condition of the forecast condition.

19 is a block diagram of a sea state forecast diagram display step according to the present invention.

Specifically, as shown in FIG. 19, the sea condition forecasting display step (S60) may include a region selection process (S61), a forecasting display process (S62), and a forecasting map downloading process (S63).

The region selection process S61 is a process in which the region selection module 610 displays a region selection key for selecting a specific region on the map.

The forecast map display process (S62) is a process in which the forecast map display module 620 extracts the sea forecast map for a specific region selected through the area selection module from the storage map of the sea forecast map and displays it to the user.

In the process of displaying the forecast map (S62), the forecast map of the sea condition for a specific region selected by the user may be enlarged and displayed through a separate window.

The forecast map download process (S63) is a process in which the forecast map download module 630 extracts the sea forecast map for a specific region selected through the region selection module from the storage map of the sea forecast map and transmits it to the user.

According to the present invention, as described above, by generating and providing the user with a forecast of the situation of various types of sea forecast information in symbols and colors, it is possible for anyone to easily understand the situation information, and the situation forecast information is also one sheet. By providing it, users can solve the hassle of having to browse through various media to collect various sea conditions forecast information, and through the forecast of sea conditions, the current, tomorrow, and day conditions of the day after day in Korea and major coastal regions can be resolved. Provided on a daily basis, you can support marine experiences, marine activities, and decision making.

As described above, with reference to the drawings illustrating the system for providing marine information according to the present invention and a method for providing marine information using the same, the present invention is not limited by the embodiments and drawings disclosed in the present specification. Of course, various modifications can be made by those skilled in the art within the scope of the technical idea.

100: prediction information receiving unit 200: sea conditions forecast information generating unit
210: spatial seawater information generating module 220: branch seawater information generating module
230: waterway algae information generation module 240: regional tidal information generation module
250: regional monthly information generation module 260: regional flooding information generation module
270: Branch low water temperature information generation module 280: Typhoon progress information generation module
300: sea conditions forecast information storage unit 400: sea conditions forecast map generation unit
410: sea forecast information selection module 420: sea forecast forecast generation module
500: sea state forecast map storage unit 600: sea state forecast map display unit
610: area selection module 620: forecast display module
630: Forecast download module
S10: Prediction information reception step S20: Sea conditions forecast information generation step
S21: Spatial seawater information generation process S22: Branch seawater information generation process
S23: Water flow algae information generation process S24: Local tide information generation process
S25: Local monthly information generation process S26: Regional flooding information generation process
S27: Branch low temperature information generation process S28: Typhoon progress information generation process
S30: Saving step of sea forecast data S40: Creating a forecast chart of sea conditions
S41: Selection process for sea forecast information S42: Process for generating forecast forecasts for sea conditions
S50: Save the sea forecast map S60: Display the sea forecast map
S61: Area selection process S62: Forecast display process
S63: Forecast download process

Claims (12)

Prediction information receiving unit for receiving the marine prediction information;
A sea condition forecast information generating unit for generating sea condition forecast information, which is forecast information for the marine situation, based on the marine prediction information;
A sea state forecasting unit generating a sea state forecasting map which is a forecast map for the marine situation based on the sea state forecasting information; And
Includes a; sea forecast forecast display unit for displaying the sea forecast forecast;
The sea condition forecast information generating unit,
A spatial seawater information generating module that extracts spatial flow velocity and directed information of the ocean surface from the ocean prediction information and spatial water temperature information that is spatial water temperature distribution information of the ocean surface layer, respectively, to generate spatial seawater information;
A point seawater information generating module that extracts point seawater information, which is surface water temperature information for each specific point of the ocean, and point wave height information, which is wave height information for each specific point, from the marine prediction information to generate point seawater information, respectively;
A water flow algae information generation module that extracts algae information for each specific water channel from the ocean prediction information to generate water flow algae information;
A regional tidal information generation module that extracts phase change information and tidal change information for each specific region from the ocean prediction information to generate regional tidal information;
A local moon information generation module that extracts information about the time of appearance of a month by month from the ocean prediction information and generates local moon information;
A regional immersion information generation module that extracts immersion caution information for a specific region from the ocean prediction information and generates regional immersion information;
A point water temperature information generation module for extracting low water temperature generating caution information for each specific point of the sea from the ocean prediction information and generating point water temperature information; And
Includes a typhoon progress information generation module for generating typhoon progress information by extracting typhoon occurrence information from the marine prediction information;
The channel algae information generation module,
The current time of a specific channel is displayed on the upper left, the strongest flow time is displayed on the upper right, and the flow rate and direction at the strongest flow time is symbolized as a vector to generate waterway algae information displayed at the bottom,
The regional tidal information generation module,
Regional tidal currents in which the phase changes of the moon are displayed in the center of the circular tidal map, and the high and low tides in each region are displayed in different colors, and the high tide time, low tide time, high tide height, and low tide height for each region are shown in a circular drawing. Sea information providing system characterized in that it generates information.
According to claim 1,
The prediction information receiving unit,
Providing sea condition information characterized by receiving seawater circulation prediction information, wave prediction information, tidal current prediction information, tidal prediction information, moon tide prediction information, high tide prediction information, coastal low water temperature prediction information, and typhoon prediction information as the marine prediction information system.
delete delete According to claim 2,
The sea condition forecast generation unit,
Seawater forecast information for selecting at least one of the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, local inundation information, branch low water temperature information, and typhoon progress information generated by the sea sulfur forecast information generating unit. Selection module; And
Display at least one of the spatial seawater information, branch seawater information, waterway tide information, local tidal information, local tidal current information, local flooding information, branch water temperature information, and typhoon progress information selected in the seawater forecast information selection module on a corresponding location on the map Sea state information providing system, characterized in that it comprises a; sea forecast forecast generation module for generating the sea forecast forecast.
The method of claim 5,
Seawater forecast information storage unit that stores spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, local inundation information, branch low water temperature information, and typhoon progress information generated by the seawater forecast information generating unit, respectively. ; And
Further comprising; a sea state forecast map storage unit for storing the sea state forecast diagram generated by the sea state forecast generation unit;
The sea condition forecast information storage unit,
A plurality of forecast information storage modules are provided, and each of the forecast information storage modules has spatial seawater information, branch seawater information, waterway algae information, local tidal information, local January information, local flooding information, and branches generated by the seaweed forecast information generating unit. Low water temperature information and typhoon progress information are classified and stored respectively.
The sea state forecast storage unit,
A plurality of forecast map storage modules are provided, and each forecast map storage module classifies and stores the sea forecast maps for the whole country and a specific region generated by the sea forecast data generation unit,
Each forecast map storage module stores the current, tomorrow, and day of the week forecasts for a specific region of the sea state information providing system, characterized in that for each specific time.
The method of claim 6,
Said sea forecast forecast display unit,
A region selection module displaying a region selection key for selecting a specific region on the map;
A forecast map display module for extracting a sea forecast map for a specific region selected through the area selection module from the sea forecast map storage unit and displaying it to a user; And
And a forecast map download module for extracting a forecast map of the sea conditions for a specific region selected through the region selection module from the storage map of the sea conditions and transmitting the map to the user.
The method of claim 7,
The forecast map display module,
A system for providing sea information, characterized in that it is possible to enlarge and display the sea condition forecast map for a specific region selected by the user through a separate window.
In the method for providing marine information using the marine information providing system according to any one of claims 1, 2, 5 to 8,
A prediction information receiving step in which the prediction information receiving unit receives at least one ocean prediction information;
A sea sulfur forecast information generating step of generating a sea sulfur forecast information, which is forecast information for a marine situation, based on the marine forecast information generating unit based on the marine forecast information;
A sea state forecast information storage step in which the sea state forecast information storage unit stores the sea state forecast information generated by the sea state forecast information generation unit;
A sea sulfur forecast diagram generating step of generating a sea sulfur forecast map, which is a forecast map for the marine situation, based on the sea sulfur forecast information stored in the sea sulfur forecast information storage unit;
A sea sulfur forecast diagram storage step in which the sea sulfur forecast diagram storage unit stores the sea sulfur forecast diagram generated by the sea sulfur forecast diagram generator; And
Sea sulfur forecast map display unit for displaying the sea sulfur forecast map stored in the sea sulfur forecast map storage unit; a sea sulfur information providing method using the marine situation information providing system comprising a.
The method of claim 9,
The sea condition forecast information generating step,
Spatial seawater information generation module extracts spatial flow velocity and directed information about sea surface flow from the ocean prediction information and spatial water temperature information, which is spatial water temperature distribution information on the ocean surface layer, to generate spatial seawater information. Seawater information generation process;
The point seawater information generation module generates point seawater information for generating point seawater information by extracting the point water temperature information, which is surface water temperature information for each specific point of the ocean, and the point wave height information, which is wave height information for each specific point, from the marine prediction information. fair;
A water flow algae information generation process in which a water flow algae information generation module extracts algae information for each specific water channel from the ocean prediction information to generate water flow algae information;
A regional tidal information generation process in which a regional tidal information generation module extracts phase change information and tidal change information for each specific region from the ocean prediction information to generate regional tidal information;
A local moon monthly information generation process in which a local moon monthly information generation module extracts monthly sundown time information for each specific region from the ocean prediction information to generate local moon monthly information;
A regional immersion information generation process in which a regional immersion information generation module extracts immersion caution information for a specific region from the marine prediction information to generate regional immersion information;
A branch water temperature information generation process in which the branch water temperature information generation module extracts information on the occurrence of low water temperature for each specific point in the ocean from the ocean prediction information and generates branch water temperature information; And
Typhoon progress information generating module extracts typhoon generation information from the ocean prediction information to generate typhoon progress information; a typhoon progress information generation process; characterized in that it comprises a sea state information providing method using the sea state information providing system.
The method of claim 10,
In the step of generating the sea condition forecast,
The sea condition forecast information selection module is the sea condition forecast information stored in the sea condition forecast information storage unit, such as spatial seawater information, branch seawater information, waterway tide information, local tidal information, local January information, local flooding information, branch low temperature information, and typhoon progress information Sea condition forecast information selection process for selecting at least one of the; And
At least one of the spatial seawater information, branch seawater information, waterway algae information, local tidal information, local daily information, local flooding information, branch low water temperature information, and typhoon progress information selected by the sea sulfur forecast map generation module is selected from the sea sulfur forecast information selection module. A sea state information providing method using the sea state information providing system, characterized in that it comprises; a process for generating a sea state forecast map by displaying the corresponding position on a map.
The method of claim 11,
In the step of displaying the sea condition forecast,
A region selection process in which a region selection module displays a region selection key for selecting a specific region on the map;
A forecast diagram display process in which a forecast map display module extracts a sea forecast map for a specific region selected through the region selection module from the sea forecast map storage unit and displays it to the user; And
The forecast map download module extracts the sea forecast map for a specific region selected through the region selection module from the map of the sea forecast map and transmits it to the user. Method of providing sea condition information.

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