CN111412942A - Novel ocean wireless remote monitoring system for sea cucumber culture ice area environment - Google Patents

Abstract

The invention belongs to the technical field of holothurian culture, and particularly relates to a novel marine wireless remote monitoring system for an ice area environment of holothurian culture, which comprises: monitoring devices, artificial intelligence module, remote terminal, mobile terminal and alarm module, through marine environment detector and camera detection marine environment's real-time data to through communication module, look over on remote terminal and the mobile terminal is transmitted through artificial intelligence module, remote terminal and mobile terminal make corresponding detection report, and artificial intelligence module can be according to the result update study of report, thereby automatic processing marine data reduces personnel's work burden. This novel wireless remote monitering system in ocean of holothurian culture ice space environment can make artificial intelligence can automatic monitoring marine environment data and submit corresponding report through artificial intelligence's learning ability, reduces staff's burden, has also avoided handling untimely risk.

Description

Novel ocean wireless remote monitoring system for sea cucumber culture ice area environment

Technical Field

The invention belongs to the field of holothurian culture, and particularly relates to a novel marine wireless remote monitoring system for an ice area environment of holothurian culture.

Background

Sea cucumber belongs to invertebrates, echinodermata and holothurians. There are more than 900 in the world, and about 140 in our country. Wherein the seal ocean and the western Pacific ocean are the areas with the most varieties of sea cucumbers and the most resource quantity in the world. Sea cucumber is distinguished as "eight delicacies" in the sea tastes of various mountain delicacies and also has the tonifying and health preserving functions of various traditional Chinese medicines. The study of more than 40 chemical components of sea cucumber by scholars at home and abroad for about half a century shows that the sea cucumber not only contains more than 50 nutrient components needed by human body such as amino acid, vitamin and chemical element, but also contains various bioactive substances such as acidic mucopolysaccharide, saponin and collagen, and the pharmacological activity of the active substances of the sea cucumber is very wide. The mode of mariculture is often taken in the breed of sea cucumber, and the sea cucumber quality of breed is higher, but the environment of mariculture often is unstable, often changes, needs to monitor the marine environment, but current monitoring devices often need the long-time observation of special messenger, and is very big to staff's burden, also produces easily and handles untimely risk.

Disclosure of Invention

The invention aims to provide a novel marine wireless remote monitoring system for the environment of an ice area of holothurian culture, which can enable artificial intelligence to automatically monitor marine environment data and submit corresponding reports through the learning capability of the artificial intelligence, reduce the burden of workers and avoid the risk of untimely processing.

In order to achieve the purpose, the invention adopts the technical scheme that:

a novel wireless remote monitoring system in ocean of sea cucumber culture ice zone environment, it includes: monitoring devices, artificial intelligence module, remote terminal, mobile terminal and alarm module, monitoring devices signal connection has artificial intelligence module, artificial intelligence module electric connection has storage module, artificial intelligence module signal connection has remote terminal and mobile terminal, all be provided with alarm module on remote terminal and the mobile terminal.

As an optimal scheme of the novel marine wireless remote monitoring system for the environment of the sea cucumber culture ice area, the system comprises the following components: the monitoring device comprises a shell, a connecting rod, an air bag, a fixing column, a marine environment detector, a controller, a camera, a storage battery and a communication module, wherein a solar cell panel is fixedly mounted at the top end of the shell, six connecting rods are fixedly connected to the outer side wall of the shell in an equidistant manner, the air bag is fixedly connected to one ends of the six connecting rods, the fixing column is fixedly connected to the middle of the bottom end of the shell, a water inlet hole is formed in the fixing column, the marine environment detector is fixedly mounted inside the fixing column, the detection end of the marine environment detector is located inside the water inlet hole, the controller, the camera, the storage battery and the communication module are fixedly mounted in the shell, the solar cell panel is electrically connected with the storage battery, the storage battery is electrically connected with the marine environment detector, the controller and the camera, and, the controller electric connection has communication module, communication module signal connection has artificial intelligence module.

As an optimal scheme of the novel marine wireless remote monitoring system for the environment of the sea cucumber culture ice area, the system comprises the following components: the inside fixed mounting of casing has the buffer layer, the buffer layer is made for sponge material.

As an optimal scheme of the novel marine wireless remote monitoring system for the environment of the sea cucumber culture ice area, the system comprises the following components: the water inlet structure is characterized in that filter screens are fixedly mounted on two sides of the inner portion of the water inlet, a water pump is fixedly mounted at the bottom end of the fixing column, an injection head is fixedly mounted at the top end of the water pump, and the injection head is located inside the water inlet.

As an optimal scheme of the novel marine wireless remote monitoring system for the environment of the sea cucumber culture ice area, the system comprises the following components: the remote terminal is characterized in that a display screen and a control panel are fixedly mounted on one side of the outside of the remote terminal, support columns and four wheels are fixedly mounted at four corners of the bottom of the remote terminal, and the wheels are fixedly connected to the bottom of the support columns.

As an optimal scheme of the novel marine wireless remote monitoring system for the environment of the sea cucumber culture ice area, the system comprises the following components: the application of the artificial intelligence module comprises the following control modes:

the monitoring module detects real-time data of the marine environment and transmits the real-time data to the remote terminal and the mobile terminal for checking, the remote terminal and the mobile terminal make corresponding detection reports, and the artificial intelligence module guides the detection reports into the storage module for storage;

the monitoring module detects real-time data of the marine environment, the artificial intelligence module compares the data with the data in the storage module, and if the comparison result is not coincident, the remote terminal and the mobile terminal continue to make corresponding detection reports;

the monitoring module detects real-time data of marine environment, the artificial intelligence module compares the data with data in the storage module, and when the comparison results coincide, according to the result of the detection report, the artificial intelligence module automatically calls a corresponding report to send to the remote terminal and the mobile terminal, or opens the alarm module to send out an alarm.

The invention has the beneficial effects that: through marine environment detector and camera detection marine environment's real-time data, and through communication module, look over on remote terminal and the mobile terminal is transmitted to through artificial intelligence module, remote terminal and mobile terminal make corresponding detection report, artificial intelligence module can be according to the result update study of report, thereby automatic processing marine data, reduce personnel's work burden, this novel wireless remote monitoring system in ocean of sea cucumber aquaculture ice space environment, can be through artificial intelligence's learning ability, make artificial intelligence can automatic monitoring marine environment data and submit corresponding report, reduce staff's burden, the untimely risk of handling has also been avoided.

Drawings

FIG. 1 is a cross-sectional view of a monitoring device of the present invention;

FIG. 2 is a block diagram of the system of the present invention;

fig. 3 is a front view of a remote terminal of the present invention.

In the figure: 100 monitoring devices, 110 shells, 110 buffer layers, 120 solar panels, 120 connecting rods, 130 airbags, 140 fixing columns, 141 water inlet holes, 142 filter screens, 143 water pumps, 144 spray heads, 150 marine environment detectors, 160 controllers, 170 cameras, 180 storage batteries, 190 communication modules, 200 artificial intelligence modules, 210 storage modules, 300 remote terminals, 310 display screens, 320 control panels, 330 supporting columns, 331 wheels, 400 mobile terminals and 500 alarm modules.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the invention provides a novel marine wireless remote monitoring system for sea cucumber culture ice area environment, which can enable artificial intelligence to automatically monitor marine environment data and submit corresponding reports through the learning ability of the artificial intelligence, reduce the burden of workers and avoid the risk of untimely processing, and please refer to fig. 1, fig. 2 and fig. 3, and the system comprises the following components: the system comprises a monitoring device 100, an artificial intelligence module 200, a remote terminal 300, a mobile terminal 400 and an alarm module 500;

referring to fig. 1, 2 and 3 again, the monitoring device 100 is in signal connection with an artificial intelligence module 200, the artificial intelligence module 200 is in electrical connection with a storage module 210, the artificial intelligence module 200 is in signal connection with a remote terminal 300 and a mobile terminal 400, the remote terminal 300 and the mobile terminal 400 are both provided with an alarm module 500, specifically, the monitoring device 100 is in signal output connection with the artificial intelligence module 200, the artificial intelligence module 200 is in electrical output connection with the storage module 210, the artificial intelligence module 200 is in signal output connection with the remote terminal 300 and the mobile terminal 400, the remote terminal 300 and the mobile terminal 400 are both provided with the alarm module 500, the monitoring device 100 is used for monitoring marine environmental data near a sea cucumber culture area, the artificial intelligence module 200 is used for providing a control function, the storage module 210 is used for storing information, and the remote terminal 300 and the mobile terminal 400 are both used for viewing the marine environmental data, and a corresponding report is made, and the alarm module 500 is used for sending out a prompt to remind a worker;

referring to fig. 1 and 2 again, the monitoring device 100 includes a housing 110, a solar panel 112, a connecting rod 120, an airbag 130, a fixing column 140, a marine environment detector 150, a controller 160, a camera 170, a storage battery 180, and a communication module 190, the solar panel 112 is fixedly mounted at the top end of the housing 110, six connecting rods 120 are fixedly connected to the outer side wall of the housing 110 at equal intervals, one ends of the six connecting rods 120 are fixedly connected to the airbag 130, the fixing column 140 is fixedly connected to the middle of the bottom end of the housing 110, a water inlet 141 is formed in the fixing column 140, the marine environment detector 150 is fixedly mounted inside the fixing column 140, the detection end of the marine environment detector 150 is located inside the water inlet 141, the controller 160, the camera 170, the storage battery 180, and the communication module 190 are fixedly mounted in the housing 110, the solar panel 112 is electrically connected to the storage battery 180, the monitoring device 100 comprises a shell 110, a connecting rod 120, an air bag 130, a fixing column 140, the marine environment detector 150, the controller 160, the camera 170, the storage battery 180 and the communication module 190, wherein the top end of the shell 110 is connected with a solar cell panel 112 through a bolt thread, the outer side wall of the shell 110 is equidistantly connected with six connecting rods 120 through a bolt thread, one ends of the six connecting rods 120 are connected with the air bag 130 through a bolt thread, the middle of the bottom end of the shell 110 is connected with the fixing column 140 through a bolt thread, and the fixing column 140 is provided with a water inlet hole 141, the inside of the fixed column 140 is connected with a marine environment detector 150 through a bolt thread, the detection end of the marine environment detector 150 is positioned inside the water inlet 141, the inside of the shell 110 is connected with a controller 160, a camera 170, a storage battery 180 and a communication module 190 through a bolt thread, the electric output of the solar cell panel 112 is connected with the storage battery 180, the electric output of the storage battery 180 is connected with the marine environment detector 150, the controller 160 and the camera 170, the electric output of the marine environment detector 150 and the camera 170 is connected with the controller 160, the electric output of the controller 160 is connected with the communication module 190, the signal output of the communication module 190 is connected with an artificial intelligence module 200, the shell 110 is used for accommodating internal devices, the solar cell panel 112 is used for converting solar energy into electric energy, the connecting rod 120 is used for connecting the shell 110 and the air bag 130, and the air bag 130 is used for, the device is not prone to tilting, the fixing column 140 is used for fixing an internal device, the water inlet 141 is used for passing seawater, the marine environment detector 150 is used for detecting seawater so as to obtain marine environment data, the controller 160 is used for controlling other devices to work, the camera 170 is used for shooting video images, the storage battery 180 is used for storing electric power, and the communication module 190 is used for sending information to the artificial intelligence module 200;

referring to fig. 1 again, a buffer layer 111 is fixedly installed inside the housing 110, the buffer layer 111 is made of a sponge material, specifically, the buffer layer 111 is filled inside the housing 110, the buffer layer 111 is made of a sponge material, and the buffer layer 111 is used for protecting devices inside the housing 110 from being damaged by vibration;

referring to fig. 1 again, filter screens 142 are fixedly mounted on both sides of the inside of the water inlet 141, a water pump 143 is fixedly mounted at the bottom end of the fixed column 140, an injector head 144 is fixedly mounted at the top end of the water pump 143, the injector head 144 is located inside the water inlet 141, specifically, the filter screens 142 are embedded and connected on both sides of the inside of the water inlet 141, the water pump 143 is embedded and connected at the bottom end of the fixed column 140, the injector head 144 is communicated with the top end of the water pump 143 through a pipeline, the injector head 144 is located inside the water inlet 141, the filter screens 142 are used for preventing marine floating objects from entering the water inlet 141, the water pump 143 is used for conveying water flow, and the injector head 144 is used for spraying water;

referring to fig. 3 again, a display screen 310 and a control panel 320 are fixedly mounted on one side of the outside of the remote terminal 300, support columns 330 are fixedly mounted at four corners of the bottom of the remote terminal 300, wheels 331 are fixedly connected to the bottom ends of the four support columns 330, specifically, the display screen 310 and the control panel 320 are connected to one side of the outside of the remote terminal 300 through bolt threads, the support columns 330 are connected to four corners of the bottom of the remote terminal 300 through bolt threads, wheels 331 are connected to the bottom ends of the four support columns 330 through shaft fasteners, the display screen 310 is used for displaying data information, the control panel 320 is used for sending a control instruction, the support columns 330 are used for connecting the remote terminal 300 and the wheels 331, and the wheels 331 are used for enabling the device to move;

the first embodiment is as follows:

the real-time data of the marine environment is detected by the marine environment detector 150 and the camera 170, and is transmitted to the remote terminal 300 and the mobile terminal 400 through the artificial intelligence module 200 through the communication module 190 for viewing, the remote terminal 300 and the mobile terminal 400 make corresponding detection reports, and the artificial intelligence module 200 guides the data of the marine environment and the detection reports into the storage module 210 for storage;

example two:

the real-time data of the marine environment is detected through the marine environment detector 150 and the camera 170, the artificial intelligence module 200 compares the data with the data in the storage module 210 through the communication module 190 and the artificial intelligence module 200, if the comparison result is not coincident, the remote terminal 300 and the mobile terminal 400 continue to make a corresponding detection report, and the data of the marine environment and the detection report are led into the storage module 210 through the artificial intelligence module 200 for storage;

example three: through marine environment detector 150 and camera 170 detection marine environment's real-time data to through communication module 190, through artificial intelligence module 200, artificial intelligence module 200 compares data with data in the storage module 210, if the comparison result coincidence, according to data, artificial intelligence module 200 calls corresponding report by oneself and sends remote terminal 300 and mobile terminal 400 on, or when the report result is comparatively abominable, opens alarm module 500 and sends out the police dispatch newspaper.

Claims (6)

1. A novel marine wireless remote monitoring system for an ice area environment of holothurian culture, which is characterized by comprising: monitoring devices (100), artificial intelligence module (200), remote terminal (300), mobile terminal (400) and alarm module (500), monitoring devices (100) signal connection has artificial intelligence module (200), artificial intelligence module (200) electric connection has storage module (210), artificial intelligence module (200) signal connection has remote terminal (300) and mobile terminal (400), all be provided with alarm module (500) on remote terminal (300) and mobile terminal (400).

2. The novel marine wireless remote monitoring system for the environment of the ice area of the holothurian culture according to claim 1, wherein the monitoring device (100) comprises a shell (110), a connecting rod (120), air bags (130), fixing columns (140), a marine environment detector (150), a controller (160), a camera (170), a storage battery (180) and a communication module (190), a solar cell panel (112) is fixedly installed at the top end of the shell (110), six connecting rods (120) are fixedly connected to the outer side wall of the shell (110) at equal intervals, the air bags (130) are fixedly connected to one ends of the six connecting rods (120), a fixing column (140) is fixedly connected to the middle of the bottom end of the shell (110), a water inlet hole (141) is formed in the fixing column (140), and the marine environment detector (150) is fixedly installed inside the fixing column (140), the marine environment detector (150) is characterized in that the detection end is located inside the water inlet (141), a controller (160), a camera (170), a storage battery (180) and a communication module (190) are fixedly mounted in the shell (110), the solar panel (112) is electrically connected with the storage battery (180), the storage battery (180) is electrically connected with the marine environment detector (150), the controller (160) and the camera (170), the marine environment detector (150) is electrically connected with the controller (160) through the camera (170), the controller (160) is electrically connected with the communication module (190), and the communication module (190) is in signal connection with the artificial intelligence module (200).

3. The novel marine wireless remote monitoring system for the ice area environment of holothurian culture according to claim 2, characterized in that a buffer layer (111) is fixedly installed inside the shell (110), and the buffer layer (111) is made of sponge material.

4. The novel marine wireless remote monitoring system for the environment of the ice area of the holothurian culture according to claim 2, wherein filter screens (142) are fixedly installed on two sides of the interior of the water inlet hole (141), a water pump (143) is fixedly installed at the bottom end of the fixed column (140), an injection head (144) is fixedly installed at the top end of the water pump (143), and the injection head (144) is located inside the water inlet hole (141).

5. The novel marine wireless remote monitoring system for the ice area environment of holothurian culture according to claim 1, characterized in that a display screen (310) and a control panel (320) are fixedly installed on one side of the outside of the remote terminal (300), support columns (330) are fixedly installed on four corners of the bottom end of the remote terminal (300), and wheels (331) are fixedly connected to the bottom ends of the four support columns (330).

6. The novel marine wireless remote monitoring system for the ice area environment of holothurian culture according to claim 1, characterized in that: the application of the artificial intelligence module (200) comprises the following control modes:

the monitoring module detects real-time data of marine environment and transmits the real-time data to the remote terminal (300) and the mobile terminal (400) for viewing, the remote terminal (300) and the mobile terminal (400) make corresponding detection reports, and the artificial intelligence module (200) guides the detection reports into the storage module (210) for storage;

the monitoring module detects real-time data of the marine environment, the artificial intelligence module (200) compares the data with the data in the storage module (210), if the comparison result is not coincident, the remote terminal (300) and the mobile terminal (400) continue to make corresponding detection reports;

the monitoring module detects real-time data of marine environment, the artificial intelligence module (200) compares the data with the data in the storage module (210), and when the comparison results coincide, according to the result of the detection report, the artificial intelligence module (200) automatically calls a corresponding report to send to the remote terminal (300) and the mobile terminal (400), or opens the alarm module (500) to send out an alarm.

Images