CN212807029U - High-precision marine environment observation and application platform - Google Patents

Abstract

The utility model relates to a marine environment of high accuracy is surveyd and application platform, including platform and monitoring buoy, the different positions in monitoring buoy below are fixed with hydrological sensor, meteorological sensor and water quality sensor respectively, the different position in monitoring buoy top is fixed with satellite signal transmitter and radio signal transmitter, different positions are fixed with radio signal receiver, satellite signal receiver, wireless data resolver, satellite data resolver, analytic data fusion ware, matter accuse platform, model arithmetic ware and attention device respectively on the platform, the matter accuse platform with the model arithmetic ware links to each other and respectively passes a data through the double link, carries out the analysis on each resolver, fuses through the analytic data to the double link, reduces the data anomaly that data leads to because of communication link or resolver's problem.

Description

High-precision marine environment observation and application platform

Technical Field

The utility model relates to an environmental monitoring technical field specifically is a marine environment of high accuracy is surveyd and application platform.

Background

As is well known, an existing high-precision marine environment observation and application platform is an auxiliary device for environmental monitoring, and is widely applied in the field of environmental monitoring.

For example, the patent publication "CN 109269481A" is named as: the invention discloses a communication module applied to an Argo ocean observation platform and a data validation process thereof, and relates to the field of equipment for ocean observation and investigation, the communication module comprises a hardware part and a software part, the hardware part comprises an Argo buoy body, the software part comprises an Argo buoy main system, a processor, a power management system, a Beidou short message RDSS circuit and a satellite antenna, the data validation process comprises starting the Argo buoy main system, transmitting the Argo buoy main system to the processor, decoding, processing, repacking, sending to the Beidou short message RDSS circuit, sending to the satellite antenna again to finish a single sending process, communicating with a satellite, sending a response and validation data to the processor to prove that the data has been sent out to the satellite, the invention uses the Beidou communication technology with independent property rights in China, the signal transmission and storage processes are controlled within the range of China, the whole service system is not influenced by other people, and the data safety is ensured.

The existing communication module applied to the Argo ocean observation platform and the data verification process thereof find that the communication module only has a single information input source when in use, the obtained measurement result is inaccurate when data loss occurs in information transmission, the anti-interference capability of a monitoring buoy is poor, and the data analysis capability is poor, so that the practicability is poor.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a marine environment of high accuracy is surveyd and is applied platform.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a high-precision marine environment observation and application platform comprises a platform and a monitoring buoy, wherein hydrological sensors, meteorological sensors and water quality sensors are respectively fixed at different positions below the monitoring buoy, a satellite signal transmitter and a wireless signal transmitter are respectively fixed at different positions above the monitoring buoy, the satellite signal transmitter is matched with a satellite and is matched with a signal tower, a wireless signal receiver, a satellite signal receiver, a wireless data analyzer, a satellite data analyzer, an analyzed data harmonizing device, a quality control platform, a model arithmetic unit and a warning device are respectively fixed at different positions on the platform, the satellite signal receiver is matched with the satellite, the wireless signal receiver is matched with the signal tower, the satellite signal receiver is connected with the satellite data analyzer, and the wireless signal receiver is connected with the wireless data analyzer, the satellite data analyzer and the wireless data analyzer are connected with an analysis data consistency device, a data comparator, a signal feedback device and a data output device are fixed at different positions of the analysis data consistency device, the quality control console is connected with the analysis data consistency device, and the quality control console is connected with the model arithmetic unit.

And the monitoring buoy is required to feed back the excessive missing information again, the data comparator is connected with the signal feedback device and the data output device, and the signal feedback device is connected with the monitoring buoy.

In order to position the monitoring buoy, a positioner is fixed at the center below the monitoring buoy.

In order to warn the monitoring buoy out of range and remind the environment information condition, an alarm is further fixed on the platform and matched with the positioner, and the alarm is connected with the quality control console.

In order to realize the utilization of renewable energy, a solar panel is fixed on the monitoring buoy, a storage battery is fixed in the monitoring buoy, and the solar panel is connected with the storage battery.

In order to adjust and stabilize the position of the monitoring buoy, thrusters are fixed on the surface of the monitoring buoy and are uniformly arranged on the periphery of the monitoring buoy.

(III) advantageous effects

Compared with the prior art, the utility model provides a marine environment of high accuracy is surveyd and is applied platform possesses following beneficial effect: the data are transmitted through the double links respectively and analyzed on the analyzers, the monitoring buoy is required to be monitored to measure again by comparing the data with more missing information through data analysis and data, the analyzed data of the double links are fused, the data abnormity caused by the problems of the communication links or the analyzers of the data is reduced, the system effectively utilizes renewable energy, and meanwhile, the propeller on the monitoring buoy is favorable for detecting the position of the buoy to be adjusted.

Drawings

FIG. 1 is a schematic diagram of the transmission of the structural software of the present invention;

FIG. 2 is a schematic diagram of the structural software feedback of the present invention;

fig. 3 is a partial schematic view of the structure of the present invention.

In the drawings, the reference numbers: 1. monitoring the buoy; 2. a hydrological sensor; 3. a positioner; 4. a meteorological sensor; 5. a water quality sensor; 6. a satellite signal transmitter; 7. a wireless signal transmitter; 8. a satellite; 9. a signal tower; 10. a satellite signal receiver; 11. a wireless signal receiver; 12. a platform; 13. a wireless data parser; 14. a satellite data analyzer; 15. analyzing a data harmonious device; 16. a quality control console; 17. a model operator; 18. an alarm; 19. a data comparator; 20. a signal feedback device; 21. a data outputter; 22. a solar panel; 23. a storage battery; 24. a propeller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a high-precision marine environment observation and application platform includes a platform 12 and a monitoring buoy 1, and is characterized in that: a hydrological sensor 2, a meteorological sensor 4 and a water quality sensor 5 are respectively fixed at different positions below the monitoring buoy 1, a satellite signal transmitter 6 and a wireless signal transmitter 7 are fixed at different positions above the monitoring buoy 1, the satellite signal transmitter 6 is matched with a satellite 8, the wireless signal transmitter 7 is matched with a signal tower 9, a wireless signal receiver 11, a satellite signal receiver 10, a wireless data analyzer 13, a satellite data analyzer 14, an analysis data harmonizer 15, a quality control platform 16, a model arithmetic unit 17 and an alarm 18 are respectively fixed at different positions on the platform 12, the satellite signal receiver 10 is matched with the satellite 8, the wireless signal receiver 11 is matched with the signal tower 9, the satellite signal receiver 10 is connected with the satellite data analyzer 14, and the wireless signal receiver 11 is connected with the wireless data analyzer 13, the satellite data analyzer 14 and the wireless data analyzer 13 are connected with an analysis data consistency device 15, a data comparator 19, a signal feedback device 20 and a data output device 21 are fixed at different positions of the analysis data consistency device 15, the quality control platform 16 is connected with the analysis data consistency device 15, and the quality control platform 16 is connected with the model arithmetic device 17.

The data comparator 19 is connected with the signal feedback device 20 and the data output device 21, the signal feedback device 20 is connected with the monitoring buoy 1, and the monitoring buoy 1 is required to feed back excessive missing information.

And a positioner 3 is fixed at the center below the monitoring buoy 1 and used for positioning the monitoring buoy 1.

An alarm 18 is further fixed on the platform 12, the alarm 18 is matched with the locator 3, and the alarm 18 is connected with the quality control console 16 and used for alarming when the monitoring buoy 1 goes out of bounds and reminding the environment information condition.

The solar monitoring buoy is characterized in that a solar panel 22 is fixed on the monitoring buoy 1, a storage battery 23 is fixed in the monitoring buoy 1, and the solar panel 22 is connected with the storage battery 23 so as to realize the utilization of renewable energy.

The monitoring buoy 1 is fixed with thrusters 24 on the surface, and the thrusters 24 are uniformly arranged on the periphery of the monitoring buoy 1 for adjusting and stabilizing the position of the monitoring buoy.

In conclusion, when the high-precision marine environment observation and application platform is used, the hydrological sensor 2, the positioner 3, the meteorological sensor 4, the water quality sensor 5, the satellite signal transmitter 6, the wireless signal transmitter 7 and other devices are installed on the monitoring buoy 1, the solar panel 22 fixed on the upper surface of the monitoring buoy 1 supplies energy to the sensors, the platform 12 alarm 18 sends out an out-of-range alarm when the monitoring buoy 1 is out of range, the propeller 24 on the periphery of the monitoring buoy 1 moves the monitoring buoy 1 to a specified position through rotation, the satellite signal transmitter 6 and the wireless signal transmitter 7 transmit sensor information to the satellite signal receiver 10 and the wireless signal receiver 11 on the platform 12 through the satellite 8 and the signal tower 9 respectively, and the received information is transmitted to the corresponding satellite data analyzer 14 and the wireless data analyzer 13 respectively for data analysis, the analyzed data are transmitted to an analyzed data consistency device 15, a data comparator 19 in the analyzed data consistency device 15 compares the data of the analyzed data and the data of the analyzed data, signals are transmitted to a signal feedback device 20 to feed back when the difference is too large, the monitoring buoy 1 is enabled to input again, the data are output to a quality control console 16 by a data output device 21 after the data are consistent when the difference is not too large, the quality control console 16 carries out effective data correction and inspection and carries out automatic data revision, the data are transmitted to a model arithmetic device 17 to operate and display results on a platform 12, and the quality control console 16 can also carry out data early warning indication and warn through a warning device 18.

The elements presented in this example are conventional in the environmental monitoring arts.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a marine environment observation and application platform of high accuracy, includes platform (12), satellite (8) and monitoring buoy (1), its characterized in that: different positions below the monitoring buoy (1) are respectively fixed with a hydrological sensor (2), a meteorological sensor (4) and a water quality sensor (5), different positions above the monitoring buoy (1) are fixed with a satellite signal transmitter (6) and a wireless signal transmitter (7), the satellite signal transmitter (6) is matched with a satellite (8), the wireless signal transmitter (7) is matched with a signal tower (9), different positions on the platform (12) are respectively fixed with a wireless signal receiver (11), a satellite signal receiver (10), a wireless data analyzer (13), a satellite data analyzer (14), an analysis data harmonization device (15), a quality control platform (16), a model arithmetic unit (17) and a warning device (18), the satellite signal receiver (10) is matched with the satellite (8), the wireless signal receiver (11) is matched with the signal tower (9), the satellite signal receiver (10) is connected with the satellite data analyzer (14), the wireless signal receiver (11) is connected with the wireless data analyzer (13), the satellite data analyzer (14) and the wireless data analyzer (13) are connected with the analysis data consistency device (15), data comparators (19), a signal feedback device (20) and a data output device (21) are fixed at different positions of the analysis data consistency device (15), the quality control console (16) is connected with the analysis data consistency device (15), and the quality control console (16) is connected with the model arithmetic device (17).

2. A high accuracy platform for marine environmental observation and application according to claim 1, wherein: the data comparator (19) is connected with the signal feedback device (20) and the data output device (21), and the signal feedback device (20) is connected with the monitoring buoy (1).

3. A high accuracy platform for marine environmental observation and application according to claim 1, wherein: and a positioner (3) is fixed at the center below the monitoring buoy (1).

4. A high accuracy platform for marine environmental observation and application according to claim 1, wherein: still be fixed with alarm (18) on platform (12), alarm (18) and locator (3) phase-match, alarm (18) with quality control platform (16) are connected.

5. A high accuracy platform for marine environmental observation and application according to claim 1, wherein: be fixed with solar panel (22) on monitoring buoy (1), monitoring buoy (1) internal fixation has battery (23), solar panel (22) with battery (23) link to each other.

6. A high accuracy platform for marine environmental observation and application according to claim 5, wherein: the monitoring buoy (1) is fixed with thrusters (24) on the surface, and the thrusters (24) are uniformly arranged on the periphery of the monitoring buoy (1).

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