KR20070045562A - Conning system of displaying wind direction and wind velocity - Google Patents

Abstract

A navigation integrated information system for effectively displaying wind direction / wind speed data is disclosed. The wind direction / wind data received by the wind vane or the like is generated as the wind direction / wind speed sensor image based on the Beaufort symbol along with the color code. Wind speed is displayed through the wing portion of the wind direction / windometer image, and the wind direction is indicated by the coordinates indicated by the straight line extending from the center of Beaufort image to the wing. In addition, the overall brightness and color of the displayed image is adjusted according to the brightness of the surrounding environment.

Description

Navigation system for displaying wind direction and wind speed data {Conning System of Displaying Wind Direction and Wind Velocity}

1 is a block diagram showing a navigation integrated system for displaying wind direction / wind speed data according to a preferred embodiment of the present invention.

Figure 2 is a table showing the Beaufort wind rank according to a preferred embodiment of the present invention.

3 is a block diagram illustrating the graphic generator 200 illustrated in FIG. 1 according to a preferred embodiment of the present invention.

4A and 4B are exemplary views illustrating wind direction / windometer images appearing on the display unit of FIG. 1 according to an exemplary embodiment of the present invention.

5 is a diagram illustrating a color control mode according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: data input unit 200: graphic generation unit

220: symbol processing unit 240: graphics module

300: display unit

The present invention relates to a sailing general information system of a ship, and more particularly to a sailing general information system for displaying wind direction / wind speed data.

In addition, the display of the wind direction / wind speed data of the navigation integrated information system disclosed in the present invention is Beaufort defined in the IEC61924 standard and DNV (Det Norske Veritas) international classification type approval (Norway, DNV: Det Norske Veritas) ) Based on wind rank table.

The navigational navigation information system for ships refers to a system for displaying the alarm information related to the navigational information required for sailing and anchoring, so that the driver can operate the vessel more easily.

The system should provide more effective monitoring of navigational information, which helps to prevent errors by the driver as much as possible.

Various methods of displaying wind direction / wind speed data are currently used. In general, currently used methods are various components or image loading methods.

However, the method developed using the existing components has a limit in expressing the Beaufort wind class because the functions supported by the components are limited. In addition, the image loading method has to load a large number of images to display the wind rank, which is a problem that takes a lot of load to load the image by receiving data from the navigation comprehensive information system.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide a navigation integrated system for displaying the wind direction / wind data measured effectively according to the surrounding environment, and displaying the wind direction / wind data satisfying the IEC61924 standard.

The present invention for achieving the above object, a data input unit for generating wind direction / wind speed data; A graphic generator for generating a wind direction / wind meter image based on Beaufort wind rank notation based on the wind direction / wind speed data or color code; And a display unit configured to display a Beaut symbol image generated by the graphic generator on a circular wind direction display unit and to adjust brightness and color of the displayed image according to the surrounding environment. Provide information systems.

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

Example

1 is a block diagram showing a navigation integrated system for displaying wind direction / wind speed data according to a preferred embodiment of the present invention.

Referring to FIG. 1, the navigation system includes a data input unit 100, a graphic generation unit 200, and a display unit 300.

The data input unit 100 includes an anemometer, generates wind direction / wind speed data, and transfers the generated wind direction / wind speed data to the graphic generator 200.

The graphic generator 200 generates an image displaying the wind direction / wind speed data based on the wind direction / wind speed data. The generated image is based on Beaufort wind class notation.

Figure 2 is a table showing the Beaufort wind rank according to a preferred embodiment of the present invention.

Referring to FIG. 2, the wind direction is indicated by a line with a wind blowing direction around a circle, and the wind speed is represented by the number and shape of feathers added based on the line.

An image generated based on the Beaufort wind rank notation shown in FIG. 2 is displayed on the display unit 300.

3 is a block diagram illustrating the graphic generator 200 illustrated in FIG. 1 according to a preferred embodiment of the present invention.

The graphic generator 200 has a symbol processor 220 and a graphics module 240.

The wind direction / wind speed data is input to the symbol processor 220. Preferably, a color code may be further input in addition to the wind direction / wind speed data. Wind direction / wind speed data is data representing the current wind strength and direction. In addition, the color code is data specifying the color and brightness of the image displayed for display suitable for the surrounding environment.

When the wind direction / wind speed data and the color code are input, the symbol processor 220 activates the graphic module 240 to receive a Beaut symbol image included in the graphic module 240. The graphic module 240 includes a plurality of Beaut symbol images according to wind speed and color codes.

In addition, the symbol processing unit 220 forms a wind direction / wind meter image based on the received wind direction / wind speed data and color codes. The wind direction / windometer image is composed of a Beaufort symbol suitable for the wind direction data and a wind direction display unit indicating the wind direction. In order to display the wind direction, an operation of rotating the central axis of the Beaufort symbol according to the angle is performed.

In addition, the symbol processing unit 220 may display the wind direction / wind speed data numerically.

4A and 4B are exemplary views illustrating wind direction / windometer images appearing on the display unit of FIG. 1 according to an exemplary embodiment of the present invention.

4A and 4B, the wind direction / wind speed image includes circular wind direction display units 400a and 400b and Beaut symbols 410a and 410b formed based on the central axis of the wind direction display units 400a and 400b.

The circular wind direction indicators 400a and 400b are drawn with a plurality of scales, and the scales shown indicate the wind direction. That is, it is possible to display from the wind direction of the angle 0 ° to the wind direction of the angle 360 °.

Further, the Beaufort symbols 410a and 410b formed based on the central axis of the wind direction indicators 400a and 400b indicate the wind speed through the shape of the feather. In addition, the wind direction may be indicated through a straight line extending from the circles of the Beaufort symbols 410a and 410b to the feathers. That is, the scales of the wind direction indicators 400a and 400b indicated by the straight lines of the Beaut symbols 410a and 410b become the wind direction.

In addition, the wind direction / wind speed meter image may numerically display wind direction / wind speed data. That is, the wind direction display units 420a and 420b and the wind speed display units 430a and 430b may be provided in predetermined regions of the image, and the actual and relative values of the data may be selectively displayed.

When adjusting the color and brightness according to the surrounding environment through the wind direction / anemometer image, the color control mode is determined by the color code input to the symbol processing unit 220 of FIG. 2 and displayed by the determined color control mode.

5 is a diagram illustrating a color control mode according to a preferred embodiment of the present invention.

Referring to FIG. 5, one of six color control modes is selected according to a color code.

Daylight mode indicates the environment is daytime. In the daylight mode, which is the daytime, the brightness and the color of the displayed screen are preferably set to the maximum.

Twilight mode indicates when the environment is sunset or dawn. In the Twilight mode, the brightness and color of the displayed screen is preferably set to be slightly darker than the Daylight mode.

Dusk mode shows the environment after sunset or just before dawn. In the Dusk mode, the brightness and the color of the displayed screen may be set slightly darker than the Twilight mode.

Night mode represents the night environment. In Night mode, the displayed screen brightness and color is preferably darker than Twilight mode.

Dusk Inverted mode indicates that only the characters are brightly represented in the Dusk mode, and Night Inverted mode indicates that only the characters are brightly represented in the Night mode.

Looking at this, it can be seen that when the surrounding environment is bright, the intensity of the brightness and color of the displayed item is stronger.

For example, in a daytime environment, a color code suitable for this is input, when the wind direction is 154.7 ° and the wind speed is 21.8 m / s, it is displayed as shown in FIG. That is, a Beaut symbol 410a suitable for the measured wind speed is displayed, and the straight portion of the symbol indicates the measured wind direction. In addition, the overall color and brightness of the screen is set to the brightest according to the Daylight mode.

In addition, when the surrounding environment is at dusk, the color control mode is selected as the Twilight mode, and when the wind direction is 5.0 ° and the wind speed is 3.1 m / s, it is displayed as shown in FIG. 4B. That is, a Beaut symbol 410b suitable for the measured wind speed is displayed, and the straight portion of the symbol indicates the measured wind direction. In addition, the overall color and brightness of the screen is set to Twilight mode, which is darker than Daylight mode.

According to the present invention as described above, it is synchronized to the brightness of the surrounding environment, it is possible to effectively display the measured wind direction / wind speed using the Beaufort symbol based on the wind direction / wind speed data.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

Claims (5)

A data input unit for generating wind direction / wind speed data; A graphic generator for generating a wind direction / wind meter image based on Beaufort wind rank notation based on the wind direction / wind speed data or color code; And Comprehensive navigation information for displaying the wind direction / wind speed data including a display unit for displaying the Beaufort symbol image generated by the graphic generator on the circular wind direction display unit, and adjusts the brightness and color of the displayed image according to the surrounding environment system. The method of claim 1, wherein the graphic generating unit, A symbol processor configured to generate the wind direction / wind speed sensor image based on the wind direction / wind speed data or a production code; And And a graphics module having a plurality of Beaut images corresponding to the Phong flavor / windometer data or color code. The wind direction display unit of claim 2, Wind speed is represented through the shape of the feather of the Beaufort symbol formed on the basis of the central axis, A navigation integrated information system for displaying wind direction / wind speed data characterized by indicating a wind direction through a straight line extending from a circle of a Beaufort symbol to a feather. The method of claim 3, wherein the display unit, A wind direction display unit for quantifying the wind direction data; And And a wind speed display unit for quantifying the wind speed data. The display apparatus of claim 3, wherein the display unit has six color control modes according to the color code, and the six color control modes include: The mode that applies during the day, Mode applied at sunset or dawn, Mode applied at sunset or around dawn, Mode applied at night, A mode for expressing only the characters brightly in the mode applied to the armed forces or after the sundown; Comprehensive navigation information system for displaying the wind direction / wind speed data, characterized in that configured in the mode that is applied only in the night mode brightly expressing.

Images