JP4921048B2 - Ocean wave measurement system and ocean wave measurement method - Google Patents

Description

  The present invention relates to an ocean wave measurement system and an ocean wave measurement method, and more particularly to a technique for detecting the wave height and wavelength of an ocean wave.

As a technique for measuring the state of ocean waves on the sea surface, generally, Japanese Patent Application Laid-Open No. 2005-083998 “GPS type ocean wave measurement method” of Patent Document 1 and Japanese Patent Application Laid-Open No. 05-034154 of “Patent Document 2” A method of reading the wave height and wavelength by using a wave height meter that detects the vertical movement of the sea surface using a buoy or an ultrasonic wave mounted on a GPS receiver is used, as in a “sonic wave height meter”. In Patent Document 1, a single GPS receiver is mounted on a buoy dropped on the sea surface, and the buoy motion of the buoy is grasped as a GPS signal, thereby obtaining the period, wavelength, wave speed, and wave height of the ocean wave. Moreover, in the said patent document 2, the height of a sea surface is based on the time until it receives the reflected sound wave from the sea surface after emitting an ultrasonic wave in the sea surface direction with an appropriate period from the ultrasonic transducer installed in the seabed. (Top level)
Japanese Patent Laying-Open No. 2005-083998 (page 5-6) JP 05-034154 A (page 3)

  However, the conventional technique is generally a method of obtaining the wave height and wavelength from the peak of the ocean wave, and does not consider the composite wave generated at the intersection of the sea surface swells. It is well known that when the sea surface undulation is taken into account, the wave height increases due to the overlapping of waves near the intersection of the swell and swell. However, with the conventional technology, it has been impossible to accurately measure the wave height and wavelength of the ocean wave in a form that eliminates the influence of the composite wave in the vicinity of the intersection of the swell and swell. This composite wave has a relatively large impact force especially for a ship or the like sailing on the ocean. Here, the composite wave is defined as a wave generated as a result of a combination of a plurality of undulations in the vicinity of the intersection of the undulations.

  Accordingly, an object of the present invention is to provide an ocean wave measurement system and an ocean wave measurement method capable of accurately measuring the wave height and wavelength of an ocean wave by removing the influence of noise and composite waves.

  In order to solve the aforementioned problems, the ocean wave measurement system and the ocean wave measurement method according to the present invention employ the following characteristic configuration.

(1) Sea level detection means for detecting sea level, filter means for removing noise components from the detected sea level, peak detection means for detecting sea level peaks from which noise components have been removed, detected peaks and bottoms Wave height detection means for detecting the wave height of the ocean wave from the wavelength, wavelength detection means for detecting the wavelength from the wave height of the detected ocean wave, and composite wave processing for processing the composite wave according to the ratio of the wave heights of two consecutive ocean waves detected An ocean wave measurement system comprising at least a means.
(2) The ocean wave measurement system according to (1), further including means for recalculating the wave height and wavelength of the ocean wave from the result of processing the complex wave by the complex wave processing unit.
(3) The ocean wave measurement system according to (1) or (2), wherein the wave height of the ocean wave detected by the wave height detection means is calculated based on a difference between a bottom and a top of the sea level.
(4) The composite wave processed by the composite wave processing means is the ocean according to any one of the above (1) to (3), which is detected based on a ratio of wave heights of the composite waves being equal to or less than a predetermined threshold. Wave measurement system.
(5) A sea level detection step for detecting a sea level, a filtering step for removing a noise component from the detected sea level, a peak detection step for detecting a sea level peak from which the noise component has been removed, and a detected peak and bottom Wave height detection step for detecting the wave height of the ocean wave from the wave, wavelength detection step for detecting the wavelength from the wave height of the detected ocean wave, and composite wave processing for processing the complex wave by the ratio of the wave heights of the two detected ocean waves And an ocean wave measurement method comprising at least a step.
(6) The ocean wave measuring method according to (5), comprising means for recalculating the wave height and wavelength of the ocean wave from the result of processing the complex wave in the complex wave processing step.
(7) The ocean wave measurement method according to (5) or (6), wherein the wave height of the ocean wave detected by the wave height detection step is calculated based on a difference between a bottom and a top of the sea level.
(8) The composite wave processed by the composite wave processing step is detected based on a ratio of wave heights of the composite waves being equal to or less than a predetermined threshold value. Wave measurement method.

  According to the ocean wave measurement system and the ocean wave measurement method of the present invention, noise and composite waves can be processed, so that the substantial wave height and wavelength of ocean waves can be measured more accurately.

  Hereinafter, preferred embodiments of an ocean wave measurement system and an ocean wave measurement method according to the present invention will be described with reference to the accompanying drawings. FIG. 1 is a system configuration diagram showing an example of an ocean wave measurement system according to the present invention.

  As illustrated in the system configuration diagram of FIG. 1, an ocean wave measurement system according to the present invention includes a sea level detector 1, a filter 2, a peak detector 3, a wave height detector 4, a wavelength detector 5, and a composite wave processor. 6 and at least a maximum value / representative value detector 7.

  In FIG. 1, a sea level detector 1 detects a change in sea level in real time. The filter 2 removes noise components from changes in the sea level detected by the sea level detector 1. The peak detector 3 detects the position (both top and bottom peaks) forming a peak from the change in the sea level from which the noise component has been removed by the filter 2. The wave height detector 4 has a peak due to a substantial ocean wave such as a wave or swell on the sea surface from among the sea level peaks detected by the peak detector 3. The difference between the peak values (that is, the difference between the top and the bottom) is detected in real time as the wave height of the wave or swell.

  The wavelength detector 5 detects the wavelength of waves and undulations from the repetition period of waves and undulation peaks on the sea surface detected by the wave height detector 4. That is, in the wave height detector 4 and the wavelength detector 5, the measurement data of the wave height and the wavelength of the sea surface are deleted below the threshold value, and only the main ocean wave component is extracted.

The composite wave processor 6 processes a composite wave generated in the vicinity of the intersection of swell and swell, and recognizes a single large wave when two swells are combined. If the ratio of the wave heights of two waves combined is equal to or less than a predetermined threshold value, it is determined to be a composite wave and processed. The maximum value / representative value detector 7 recalculates the actual wave height and wavelength of the ocean wave as the maximum value / representative value from the sea level fluctuation after the composite wave is removed by the composite wave processor 6 And output.

  As described above, the wave height of the sea surface detected by the wave height detector 4 indicates the result of calculating the real-time wave height value in the current measurement sea area, and the sea surface output from the maximum value / representative value detector 7. The wave height indicates a wave height value after correction that has processed the influence of the composite wave.

(Operation of the embodiment)
Next, an operation example of the ocean wave measurement system shown in FIG. 1 will be described using the flowchart of FIG. FIG. 2 is a flowchart for explaining an example of the operation of the ocean wave measurement system according to the present invention.

  In FIG. 2, the sea level detector 1 detects a change in the sea level at every predetermined measurement cycle (step S1). Here, as a means for detecting a change in the sea level, a buoy dropped on the sea surface may be used, an image obtained by photographing the sea surface with a camera, ultrasonic waves, Water pressure may be used, and any means may be used as long as the sea level can be detected in real time. Next, the filter 2 removes high-frequency components from the sea level fluctuation detected by the sea level detector 1, thereby removing noise components included in the sea level fluctuation (step S2).

  Next, the peak detector 3 tracks the sea level fluctuation from which the noise component has been removed by the filter 2, and detects the position where the sea level forms a peak (step S3). Next, in the wave height detector 4, the wave height value is obtained from the difference between the peak and the bottom detected by the peak detector 3, and those below the preset threshold value are deleted, and the peak value of the main ocean wave component Are extracted and detected as wave or wave heights (step S4). Here, the wave height detected by the wave height detector 4 is calculated based on the difference between the bottom and the top of the sea level.

  Thereafter, the wavelength detector 5 detects the wavelength of the main ocean wave component wave and swell from the distance between the peak and the bottom detected by the wave height detector 4 (step S5). Further, the composite wave processor 6 detects and processes a composite wave such as an intersection of swells from the wave height and wavelength detected by the wave height detector 4 and the wavelength detector 5 (step S6). Based on the sea level fluctuation data processed by the composite wave, the wave height and wavelength are recalculated again and output as the maximum value / representative value (step S7).

  Thus, in the present invention, the wave height and wavelength of a substantial ocean wave can be measured more accurately by processing the composite wave.

  The configuration of the preferred embodiment of the present invention has been described above. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention.

1 is a system configuration diagram showing an example of an ocean wave measurement system according to the present invention. It is a flowchart for demonstrating an example of operation | movement of the ocean wave measurement system which concerns on this invention.

Explanation of symbols

1 sea level detector 2 filter 3 peak detector 4 wave height detector 5 wavelength detector 6 composite wave processor 7 maximum / representative value detector

Claims (6)

Sea level detecting means for detecting the sea level;
Filter means for removing noise components from the detected sea level;
Peak detection means for detecting sea level peaks from which noise components have been removed;
A wave height detection means for detecting the most prominent peak as a wave height or wave wave on the sea surface from the detected peaks,
Wavelength detection means for detecting the wavelength of the wave or undulation from the repetition period of the wave or undulation peak,
A composite wave processing means for detecting an intersection of undulations from the wave height and wavelength of a wave or undulation, and detecting and removing the composite wave when the ratio of the wave heights when the two undulations are combined is equal to or less than a predetermined threshold; ,
An ocean wave measurement system comprising at least recalculating means for recalculating the sea level wave height and wavelength after removing the composite wave data from the sea level data . The ocean wave measurement system according to claim 1 , wherein the wave height of the ocean wave detected by the wave height detection unit is calculated based on a difference between a bottom and a top at a sea level. The ocean wave measurement system according to claim 1 or 2, wherein the sea level detection means detects the sea level in real time. A sea level detection step for detecting the sea level;
A filtering step to remove noise components from the detected sea level;
A peak detection step for detecting sea level peaks from which noise components have been removed;
A wave height detection step for detecting the most prominent peak as a wave height or a wave wave on the sea surface from the detected peaks,
A wavelength detection step for detecting the wavelength of the wave or undulation from the repetition period of the wave or undulation peak ;
A composite wave processing step for detecting an intersection of undulations from the wave height and wavelength of waves and undulations, and detecting and removing the composite wave when the ratio of the wave heights when the two undulations are combined is equal to or less than a predetermined threshold ; The
An ocean wave measurement method comprising at least a recalculation step of recalculating the sea level wave height and wavelength after removing the composite wave data from the sea level data . The ocean wave measurement method according to claim 4 , wherein the wave height of the ocean wave detected in the wave height detection step is calculated based on a difference between a bottom and a top of the sea level. 6. The ocean wave measuring method according to claim 4, wherein in the sea level detection step, the sea level is detected in real time.

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