KR-20260067086-A - Flow-type fish farm monitoring system

Abstract

A flow-through fish farm monitoring system is disclosed. The flow-through fish farm monitoring system comprises: a video storage device that receives and stores CCTV video data for each fish farm from multiple CCTV cameras for each fish farm, transmits the received and stored CCTV video data for each fish farm in real time, and provides a video list of previously stored CCTV video data for each fish farm and selected CCTV video data to a user terminal or a manager terminal upon a request from a user or manager; a streaming server that receives the received and stored CCTV video data for each fish farm from the video storage device in real time upon a request from a user or manager and provides it to a user terminal or a manager terminal in real time; and a service server that receives fish farm environment data from multiple environmental sensors for each fish farm and stores it in a database, receives marine data surrounding the fish farm from an external server and stores it in a database, and provides a service to a user terminal or a manager terminal for real-time monitoring of environmental conditions affecting the rearing of farmed fish using the fish farm environment data and marine data surrounding the fish farm stored in the database.

Inventors

• 김정민
• 최한석
• 정종호
• 김찬진

Assignees

• 빛가람정보주식회사

Dates

Publication Date

20260512

Application Date

20241105

Claims (8)

1. In a flow-through fish farm monitoring system, Multiple CCTV cameras installed to film multiple tanks within the fish farm and acquiring CCTV video data for each tank; Multiple environmental sensors for each aquaculture farm that acquire aquaculture farm environmental data regarding multiple environmental conditions of the above aquaculture farm; A video storage device that receives and stores CCTV video data for each fish farm from a plurality of CCTV cameras for each fish farm, transmits the received and stored CCTV video data for each fish farm in real time, and, upon a request from a user or administrator, provides a video list of previously stored CCTV video data for each fish farm and selected CCTV video data to a user terminal or administrator terminal; A streaming server that receives CCTV video data for each fish farm, which is received and stored, from the video storage device in real time according to a request from the user or the manager, and provides it in real time to the user terminal or the manager terminal; and A flow-through fish farm monitoring system comprising a service server that receives fish farm environment data from a plurality of environmental sensors for each fish farm and stores it in a database, receives marine data surrounding the fish farm from an external server and stores it in the database, and provides a service to the user terminal or the administrator terminal for real-time monitoring of environmental conditions affecting the rearing of farmed fish using the fish farm environment data and marine data surrounding the fish farm stored in the database.
2. In paragraph 1, A flow-through aquaculture farm monitoring system characterized by the above-mentioned aquaculture farm environment data including dissolved oxygen (DO), water temperature, pH, salinity, and the operating status of a seawater pump.
3. In paragraph 1, A water-based fish farm monitoring system characterized by the above-mentioned video storage device encoding and storing the received CCTV video data for each fish farm in the H.265 format, which is a WebRTC method used in web services, using a preset encoding conversion program.
4. In paragraph 1, The aforementioned external servers are the servers of the Korea Meteorological Administration, Badanuri, and the National Institute of Fisheries Science, and A flow-through aquaculture farm monitoring system characterized by the above-mentioned marine data surrounding the aquaculture farm including weather information of the nearshore waters of the aquaculture farm, marine information including water temperature and salinity, jellyfish occurrence information, and red tide occurrence information.
5. In paragraph 1, A flow-through fish farm monitoring system characterized by the above-mentioned service server checking the data communication status with a plurality of environmental sensors for each fish farm and providing it to the above-mentioned user terminal and the above-mentioned administrator terminal.
6. In paragraph 1, A flow-through fish farm monitoring system characterized by the above service server providing the location, time, and value exceeding the safety range of the fish farm environment data that exceeds the safety range to the user terminal and the administrator terminal when the above fish farm environment data exceeds a preset safety range.
7. In paragraph 1, A flow-through fish farm monitoring system characterized by the above service server providing daily and monthly average data regarding the above fish farm environment data to the above user terminal and the above administrator terminal.
8. In paragraph 1, A water-flowing fish farm monitoring system characterized by the above service server providing a DID service to the above administrator terminal that simultaneously displays CCTV video data of all registered fish farms, fish farm environment data, data communication status with environment sensors, status of fish farm environment data, and daily and monthly average data of fish farm environment data.

Description

Flow-type fish farm monitoring system The present invention relates to a flow-through fish farm monitoring system. A fish farm is a place where fish are artificially raised. In a fish farm, artificial facilities and means are provided to suit the habits of the fish. Aquaculture methods vary depending on natural conditions such as the quantity, quality, temperature, and slope of the terrain of the place to be raised, as well as the type of fish (warm or cold water). They are broadly classified into pond aquaculture, flowing water aquaculture, recirculating filtration aquaculture, and cage aquaculture. When drawing in seawater to farm fish on land near the coast, the amount of light, water quality, and tank temperature are very important for farming. To this end, employees carried measuring instruments to each tank at specific times to check the temperature, but this had the disadvantage of being inconvenient to check the temperature of each tank individually and being unable to respond quickly to sudden changes in temperature and humidity. Therefore, the development of a new system capable of increasing the efficiency of aquaculture farm operations is required. FIG. 1 is a diagram schematically illustrating the configuration of a flow-through fish farm monitoring system according to an embodiment of the present invention. FIGS. 2 to 13 are drawings for explaining a flow-through fish farm monitoring system according to an embodiment of the present invention of FIG. 1. As used in this specification, singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, terms such as "composed" or "comprising" should not be interpreted as necessarily including all of the various components or steps described in the specification, and should be interpreted as meaning that some of the components or steps may be excluded, or that additional components or steps may be included. Furthermore, terms such as "...part," "module," etc., as used in the specification refer to a unit that processes at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software. Hereinafter, various embodiments of the present invention will be described in detail with reference to the attached drawings. FIG. 1 is a diagram schematically illustrating the configuration of a flow-through fish farm monitoring system according to an embodiment of the present invention, and FIGS. 2 to 13 are diagrams for explaining the flow-through fish farm monitoring system according to an embodiment of the present invention of FIG. 1. Hereinafter, a flow-through fish farm monitoring system according to an embodiment of the present invention will be described with reference to FIG. 1, and FIGS. 2 to 13. Referring to FIG. 1, a water-flow aquaculture farm monitoring system according to an embodiment of the present invention may be configured to include a plurality of CCTV cameras (100) for each aquaculture farm, a plurality of environmental sensors (200) for each aquaculture farm, an image storage device (300), a streaming server (400), a service server (500), a user terminal (600), and an administrator terminal (700). Multiple CCTV cameras (100) for each fish farm are installed to photograph multiple tanks within the fish farm (10), and CCTV video data for each tank is acquired. A plurality of environmental sensors (200) for each aquaculture farm acquire aquaculture farm environmental data regarding a plurality of environmental conditions of the aquaculture farm (10). For example, the aquaculture farm environmental data may include dissolved oxygen (DO), water temperature, pH, salinity, and the operating status of a seawater pump. The video storage device (300) receives and stores CCTV video data for each fish farm from multiple CCTV cameras (100) for each fish farm. For example, the video storage device (300) can encode and store the received CCTV video data for each fish farm in the H.265 format, which is a WebRTC method used in web services, using a preset encoding conversion program. And, the video storage device (300) transmits the CCTV video data for each fish farm that is received and stored to the streaming server (400) in real time, and provides the video list and selected CCTV video data for the previously stored CCTV video data for each fish farm and the user terminal (600) or the administrator terminal (700) according to the request of the user or administrator. The streaming server (400) provides CCTV video data for each fish farm, which is received and stored by the video storage device (300) in response to a request from a user or an administrator, to a user terminal (600) or an administrator terminal (700) in real time. For example, the streaming server (400) can provide encoded CCTV video data for each fish farm to a user terminal (600) or an administrator terminal (700) in real time through a video streaming solution. The service serv