Smart fisheries, which rely on advanced information technology and intelligent equipment, represent the fusion of modern technology and aquaculture. They signify a new direction in the modernization of the fishing industry. Compared to traditional aquaculture, smart fisheries offer distinct advantages: by providing a more precise farming environment at high efficiency and low cost, they significantly reduce farming risks. Smart fisheries are built upon modern information technologies such as the Internet of Things and artificial intelligence, with data at their core. Through advanced sensing devices equipped with intelligent detection and control capabilities, they enable automated environmental monitoring in aquaculture, integrate both strong- and weak-current electrical systems, facilitate device control, support specialized AI models tailored to specific production fields, and provide online expert services for fisheries. These products deliver smart, personalized services to aquaculture farmers, integrating into a single platform tasks such as equipment operation, water quality testing, environmental monitoring, and pond management at freshwater aquaculture sites. As a result, users need only a smartphone to monitor the real-time conditions of their fish ponds anytime and anywhere, achieving the goals of cost reduction, efficiency improvement, and scientific aquaculture practices.

The smart terminal controller connected to the Smart Fisheries Cloud Platform is an IoT control system specifically designed for the production segment within the smart fisheries sector. Its primary function is to collect, monitor, and automatically control environmental data within aquaculture facilities. This device features low individual costs, simple configuration, and easy deployment and installation, enabling fish farmers to enhance production efficiency, reduce labor costs, and ultimately boost economic benefits. Meanwhile, the full-scale implementation of the Smart Fisheries Cloud Platform holds significant positive implications and far-reaching impacts for the development of China’s “Internet Valley.” At that time, the platform will become a national hub for the collection and exchange of aquaculture information. Moreover, its robust database will provide the fisheries sector with crucial decision-making support and serve as an effective channel for policy dissemination.

 

Smart Fisheries Cloud Platform Product Features:

With the continuous advancement of technology, smart fishery farming systems are gradually coming into our view. As a new stage in the modernization of the fisheries industry, smart fisheries—conceptually speaking—are built on modern information technologies such as the Internet of Things and artificial intelligence, with data at their core. Through advanced sensing devices equipped with intelligent detection and control capabilities, smart fisheries enable automated environmental monitoring in aquaculture, integrate both strong- and weak-current equipment, achieve device control, support specialized AI models tailored to specific production fields, and provide online services from fisheries experts. These products offer aquaculture farmers intelligent, personalized services that consolidate into one platform tasks such as equipment operation, water quality testing, environmental monitoring, and pond management within freshwater aquaculture facilities. With just a smartphone, users can monitor the real-time conditions of their fish ponds anytime, anywhere, thereby achieving the goals of cost reduction, efficiency improvement, and scientific aquaculture practices.

1. Intelligence: Smart fisheries leverage intelligent technologies, sensing devices and equipment, online monitoring, big data analytics, and other features to achieve real-time monitoring and intelligent control of aquaculture environments, significantly enhancing the level of intelligence in the fisheries industry.
2. Efficiency: By adopting precise, science-based aquaculture models and intelligent management systems, smart fisheries will significantly enhance aquaculture efficiency and yields, thereby reducing farming costs.
3. Technological Nature: Smart fisheries rely on advanced information technology and intelligent equipment, representing the integration of modern technology with aquaculture. They embody a new trend in the modernization of the fishing industry.
4. Advantages: Smart fisheries have clear advantages over traditional aquaculture. By providing a more precise farming environment with high efficiency and low costs, smart fisheries can reduce farming risks.

Smart Fisheries Cloud Platform Product Performance:

Ø High protection rating: IP54 enclosure design ensures the device’s durability in harsh environments.

Ø Wide operating temperature range: Suitable for ambient temperatures from -20°C to +70°C, making it adaptable to various climatic conditions.

Ø Modular design: Hardware is modular, making maintenance and replacement convenient.

Ø Smart monitoring: Real-time current monitoring, supports multiple sensor connections, and features automatic calibration to ensure data accuracy.

Ø Stable communication: Supports 4G networks and triple-network communication, ensuring stable and reliable data transmission.

Ø Safety Performance: Equipped with safety measures such as lightning protection and grounding to ensure the safety of personnel and equipment.

Ø Port configuration: Supports 380V/220V AC power input and output.

Ø Rated power: The rated power of a single channel shall not exceed 3 kW, and the total rated power shall not exceed 7 kW.

Ø Monitoring function: Monitors total current, branch circuit current, and current of critical equipment; supports data transmission and storage; and more.

According to processing and analysis.

Ø Communication capability: Supports 4G networks and is compatible with the 4G mobile communication standards of China Telecom, China Mobile, and China Unicom.

Ø Buttons and indicator lights: Includes power, network, and operating status indicator lights, as well as an emergency stop button and power output.

Control buttons.

Ø Technical Performance: High reliability, with a mean time between failures of no less than 5,000 hours and a service life of over 3 years.

The smart fishery cloud platform used by aquaculture farmers comes with a device terminal controller and a配套 WeChat mini-program. Through the mini-program, users can easily remotely control the on/off status of various devices, meeting the remote-control needs of multiple equipment types at aquaculture farms. At the same time, users can also view water quality monitoring data and environmental changes within the farm, as well as monitor the operational status of the equipment. The smart fishery cloud platform is equipped with a variety of AI models for fish growth. By integrating these models with environmental data collected by terminal sensors, the platform provides tailored production recommendations to guide aquaculture practices. Moreover, it leverages diverse communication methods—such as text, images, voice messages, and real-time video—over the internet to promptly address issues arising in fish farming production.

 

Based on future trends in the fisheries industry, Wuhan Shui Jingling Aquatic Equipment Co., Ltd. is focusing on the research and development of a new “internet-based industry” model for aquatic product management—namely, the “Modern Freshwater Aquaculture Smart Platform: Fishery Internet” (hereafter referred to as the Smart Fishery Cloud Platform). This initiative aims to lead the way toward smart freshwater aquaculture and provide users with comprehensive, one-stop solutions. The so-called smart freshwater aquaculture industry leverages modern information technologies—including the internet, big data, artificial intelligence, satellite remote sensing, and the Internet of Things—to deeply explore and utilize information resources in the freshwater aquaculture sector, thereby comprehensively enhancing the overall productivity and operational efficiency of freshwater aquaculture enterprises. The smart controller terminals connected to the Smart Fishery Cloud Platform represent an IoT control system specifically designed for the production segment within smart fisheries. Their primary function is to enable the collection, monitoring, and automated control of environmental data within aquaculture bases. These devices feature low individual costs, simple configurations, and easy deployment and installation, helping fish farmers improve production efficiency, reduce labor costs, and ultimately enhance economic benefits. Meanwhile, the full-scale implementation of the Smart Fishery Cloud Platform will have positive and far-reaching implications for the construction of China’s “Internet Valley.” At that time, the platform will become the nation’s central hub for collecting and exchanging information on fishery aquaculture. Moreover, its robust database will provide the fisheries sector with crucial decision-making references and serve as an effective channel for policy dissemination.

The IoT smart controller is an IoT control system designed for enterprises, specifically targeting the production segment within smart agriculture. Its primary functions include collecting and monitoring environmental data within aquaculture bases, enabling automated control, providing expert services, and offering guidance through intelligent models.

1. Technical Indicators and Key Technologies

1. Product features and technical specifications

Network Support: 4G All-Network Compatibility

LTE Voice Solution: None Roaming LTE Voice Solution: None

LTE frequency bands: LTE-FDD B1/B3/B5/B8, LTE-TDD B34/B38/B39/B40/B41 (140 MHz);

Application processor: Model STM32F103VC, main frequency 72 MHz

Operating System: HUAWEI LiteOS

Memory: RAM: 48K, ROM: 256K, Flash Memory: 8M

Extended memory: None Camera: None

FM: Not supported Bluetooth: Not supported

Headphone jack: Not supported NFC: Not supported

WAPI/WIFI: None C+W Unified Authentication Function: (Supported or Not)

Device model	Route 8	Route 4
Port parameters	Line 1: Corresponds to a 380V input (3-phase 3-wire system, 3-phase 4-wire system) Channel 8: 380V output (supports up to 3kW output) (3-phase 3-wire system, 3-phase 4-wire system) Channel 2: RS485 sensor input (supports up to 8 sensors connected in parallel) (power supply not exceeding 500mA)	Line 1: Corresponds to a 380V input (3-phase 3-wire system, 3-phase 4-wire system) Channel 4: 380V output (supports up to 3kW output) (3-phase 3-wire system, 3-phase 4-wire system) Channel 2: RS485 sensor input (supports up to 8 sensors connected in parallel) (power supply not exceeding 500mA)
Load power of each channel	3 kW (380 V)	3 kW (380 V)
Current monitoring	Supports current monitoring for each channel (monitoring for phase loss, overload, etc.)	Supports current monitoring for each channel (monitoring for phase loss, overload, etc.)
Voltage monitoring	Supports total voltage monitoring and total power consumption statistics.	Supports total voltage monitoring and total power consumption statistics.
Physical button light	Supports a separate physical button and signal light for emergency shutdown on each channel.	Supports a separate physical button and signal light for each channel, as well as an emergency physical shutdown button (which disconnects the 380V output).
Communication method	Supports 4G communication on three networks.	Supports 4G communication on three networks.
Software interface Interconnection capability	Capable of interfacing with switch control protocols. Has the capability to interface with sensor data. Equipped with the capability to interface with current monitoring data. Equipped with CCID card number and signal strength interface connectivity.	Capable of interfacing with switch control protocols. Has the capability to interface with sensor data. Equipped with the capability to interface with current monitoring data. Equipped with CCID card number and signal strength interface connectivity.

 

 

2. Technical Performance

1) Ensure high reliability, with a mean time between failures (MTBF) of no less than 5,000 hours and a service life of at least 3 years.

2) The hardware features a modular, standardized, plug-in architecture, making individual circuit boards easy to maintain and replace: If any component—except the output relay—is damaged, it will not cause a false trip.

3) Equipment response time: The time from when the device receives a command to when the switching circuit actuates shall not exceed 500 ms. The time from when the device receives a query command to when it returns sensor data shall not exceed 1 second.

4) Electrostatic discharge immunity: The device shall be able to withstand the electrostatic discharge immunity level specified in GB/T 17626.2-2018 “Electromagnetic compatibility — Testing and measurement techniques — Electrostatic discharge immunity test.”

5) The radio frequency electromagnetic field radiation immunity device can withstand the radio frequency electromagnetic field radiation immunity levels specified in GB/T 17626.3-2016 “Electromagnetic Compatibility — Testing and Measurement Techniques — Radio Frequency Electromagnetic Field Radiation Immunity Test.”

6) Insulation Performance: Under normal test atmospheric conditions, the insulation resistance of the device, as measured by a testing instrument with a DC voltage of 500V, shall be no less than 100 MΩ between each independent circuit and any exposed conductive parts, as well as between each independently electrically isolated circuit.

7) All exposed metal components other than non-ferrous metal parts, galvanized steel parts, and mechanically finished surfaces shall first undergo rust removal treatment and then be immediately coated with a primer. Apply one coat of primer to the surface of the metal parts to form a dry film with a thickness ranging from 0.04 mm to 0.1 mm. Following this, apply two coats of exterior finish topcoat to achieve a dry film thickness of between 0.127 mm and 0.178 mm. Both the primer and the topcoat should be manufactured by the same supplier.

8) The grounding system provides safe grounding to meet requirements for equipment safety, electromagnetic compatibility, and other related standards; the equipment can withstand vibration response and vibration endurance tests.

9) With regard to continuous power-on capability, the device shall adopt necessary measures to resist electrical interference. The device’s metal enclosure shall be electrically interconnected and equipped with a reliable grounding point. The device’s enclosure shall feature a fanless design to meet the heat dissipation requirements of its发热 components.

10) The rated voltage for internal wiring is 380V. The wiring shall use cross-linked polyethylene-insulated copper stranded conductors that are moisture-proof, heat-insulated, and fire-resistant, with a minimum cross-sectional area of no less than 1.0 mm². However, for PT circuits, the minimum cross-sectional area shall be no less than 1.5 mm², and for CT circuits, it shall be no less than 2.5 mm². b) When connecting components to terminals or terminal to terminal using multi-strand insulated wires, cold-pressed terminals shall be used. The cold-pressed connections must be secure and ensure good electrical contact. Wires shall be free from scratches and damage. Wiring troughs shall be provided to facilitate cable fixing and to enable cables to be connected to terminal blocks.

 

3. Application Scenarios

The product provides smart services for aquaculture farmers, integrating equipment control, water quality monitoring, environmental surveillance, and pond management within freshwater aquaculture farms. With just a single mobile phone, farmers can keep track of real-time conditions in their fish ponds anytime, anywhere, thereby achieving the goals of cost reduction, efficiency improvement, and scientific aquaculture practices.

 

4. Remotely control production equipment

The IoT smart controller comes with a WeChat mini-program that allows users to remotely control device on/off functions via the WeChat mini-program. This mini-program meets the remote control needs of various devices within the production bases of agricultural and aquacultural enterprises.

 

 

5. Environmental data collection and monitoring

The IoT smart controller can collect environmental data, view and monitor it through a mini-program, and also provides real-time monitoring of the operating status and generated data of production equipment.

 

 

With the continuous advancement of technology, smart fishery farming systems are gradually coming into our view. As a new stage in the modernization of the fisheries industry, smart fisheries—conceptually speaking—are built on modern information technologies such as the Internet of Things and artificial intelligence, with data at their core. Through advanced sensing devices equipped with intelligent detection and control capabilities, smart fisheries enable automated environmental monitoring in aquaculture, integrate both strong- and weak-current equipment, achieve device control, support specialized AI models tailored to specific production fields, and provide online services from fisheries experts. These products offer aquaculture farmers intelligent, personalized services that consolidate into one platform tasks such as equipment operation, water quality testing, environmental monitoring, and pond management within freshwater aquaculture facilities. With just a smartphone, users can monitor the real-time conditions of their fish ponds anytime, anywhere, thereby achieving the goals of cost reduction, efficiency improvement, and scientific aquaculture practices.

Features of the Smart Cloud Platform:

1) Intelligence: Smart fisheries leverage intelligent technologies, sensing devices and equipment, online monitoring, big data analytics, and other features to achieve real-time monitoring and intelligent control of the aquaculture environment, significantly enhancing the level of intelligence in the fisheries industry.

2) Efficiency: By adopting precise, science-based aquaculture models and intelligent management systems, smart fisheries will significantly enhance aquaculture efficiency and yields, thereby reducing farming costs.

3) Technological Nature: Smart fisheries rely on advanced information technology and intelligent equipment, representing the integration of modern technology with aquaculture. They embody a new direction in the modernization of the fishing industry.

4) Advantages: Smart fisheries have clear advantages over traditional aquaculture. By providing a more precise farming environment with high efficiency and low costs, smart fisheries can reduce farming risks.

5) Performance: High protection rating—IP54 enclosure design ensures the device’s durability even in harsh environments.

Wide operating temperature range: Suitable for ambient temperatures from -20°C to +70°C, making it adaptable to various climatic conditions.

Modular design: Hardware is modular, making maintenance and replacement convenient.

Ø Smart monitoring: Real-time current monitoring, supports multiple sensor connections, and features automatic calibration to ensure data accuracy.

Ø Stable communication: Supports 4G networks and triple-network communication, ensuring stable and reliable data transmission.

Ø Safety Performance: Equipped with safety measures such as lightning protection and grounding to ensure the safety of personnel and equipment.

Ø Port configuration: Supports 380V/220V AC power input and output.

Ø Rated power: The rated power of a single channel shall not exceed 3 kW, and the total rated power shall not exceed 7 kW.

Ø Monitoring function: Monitors total current, branch circuit current, and current of critical equipment; supports data transmission and storage; and more.

According to processing and analysis.

Ø Communication capability: Supports 4G networks and is compatible with the 4G mobile communication standards of China Telecom, China Mobile, and China Unicom.

Ø Buttons and indicator lights: Includes power, network, and operating status indicator lights, as well as an emergency stop button and power output.

Control buttons.

Ø Technical Performance: High reliability, with a mean time between failures of no less than 5,000 hours and a service life of over 3 years.

The smart fishery cloud platform used by aquaculture farmers comes with a device terminal controller and a配套 WeChat mini-program. Through the mini-program, users can easily remotely control the on/off status of various devices, meeting the remote-control needs of multiple equipment types at aquaculture farms. At the same time, users can also view water quality monitoring data and environmental changes within the farm, as well as monitor the operational status of the equipment. The smart fishery cloud platform is equipped with a variety of AI models for fish growth. By integrating these models with environmental data collected by terminal sensors, the platform provides tailored production recommendations to guide aquaculture practices. Moreover, it leverages diverse communication methods—such as text, images, voice messages, and real-time video—over the internet to promptly address issues arising in fish farming production.

 

1) AI Models & Expert Services

The smart fishery cloud platform is equipped with a variety of AI models for fish growth. By integrating these models with environmental data collected by terminal sensors, the platform provides tailored production recommendations to guide aquaculture practices. Through various channels—including text, images, voice messages, and real-time video—farmers can gain insights into the fish’s growing environment and quality via the internet.

 

 

 

2. Real-time online monitoring via mobile phone

By using a mobile app to monitor dissolved oxygen levels in ponds in real time, you can simultaneously control multiple ponds. When the dissolved oxygen level drops below a preset threshold, the app will automatically activate an alarm and turn on the aeration equipment, effectively preventing losses caused by oxygen depletion in fish ponds. Additionally, you can view fishery information in real time, stay updated on daily fish market prices, and track the daily power consumption of the aeration machines—enabling a more scientifically managed aquaculture operation.

1) AI Models & Expert Services

The smart fishery cloud platform is equipped with a variety of AI models for fish growth. By integrating these models with environmental data collected by terminal sensors, the platform provides tailored production recommendations to guide aquaculture practices. Through various channels—including text, images, voice messages, and real-time video—farmers can gain insights into the fish’s growing environment and quality via the internet.

 

 

 

2. Real-time online monitoring via mobile phone

By using a mobile app to monitor dissolved oxygen levels in ponds in real time, you can simultaneously control multiple ponds. When the dissolved oxygen level drops below a preset threshold, the app will automatically activate an alarm and turn on the aeration equipment, effectively preventing losses caused by oxygen depletion in fish ponds. Additionally, you can view fishery information in real time, stay updated on daily fish market prices, and track the daily power consumption of the aeration machines—enabling a more scientifically managed aquaculture operation.

(1) Industry History, Prospects Analysis, and Forecast

With today’s continuously growing population and the increasing consumer emphasis on nutritious and healthy foods, coupled with the impact of marine pollution and the discharge of nuclear wastewater into the sea, freshwater aquaculture is entering a golden era of development. Demand in the freshwater product market is steadily rising, and the future consumption outlook is highly promising. Meanwhile, the national agricultural policies are steadily expanding their support for the aquaculture industry, making it a major pillar industry driving rural revitalization. Freshwater aquaculture products boast controllable quality, rich nutrition, and timely traceability. As aquaculture technologies continue to mature, environmental protection, energy efficiency, cost reduction, and productivity enhancement have become the key drivers behind technological innovation in aquaculture equipment. How can we significantly boost fishery farming efficiency while simultaneously promoting the recycling of water resources? How can we make our equipment more ecological and intelligent, wholeheartedly safeguarding the sustainable aquatic environment and laying a solid foundation for safe production, energy conservation, and emission reduction? By pioneering and leading the way in aquaculture equipment development, we aim to turn rural areas into our ultimate paradise—preserving the poetic charm of our countryside while enabling more people to live and work happily in their hometowns. This is the grand vision that Wuhan Shui Jingling has been tirelessly striving to achieve!

 

(2) Market Overview Analysis and Forecast

The smart fisheries cloud platform enables close integration between agricultural aquaculture at the production end, smart fisheries, and other key elements, further enhancing production efficiency and adding value to products while reducing aquaculture costs and labor intensity. Intelligent fishery production is undoubtedly the general trend, with a bright and promising future ahead. In addition to the regular sale of aquaculture equipment, we also charge an annual cloud-platform service fee equal to 10% of the equipment cost per unit per year. As we gradually expand our market, driven by the enormous market scale, both our product sales and additional service fees are poised for substantial growth. The demand for platform-based services is on the rise; as internet infrastructure continues to improve, the trend toward platform-based service delivery will only intensify. Businesses and individuals increasingly rely on platforms for service consultation, interaction, and management, and platform-based services will assume an ever-more critical role across various markets. Particularly, with the advancement of government digitalization policies, collaborative service management among governments, businesses, and individuals will emerge as a huge market opportunity.

 

 

 

(3) Market Positioning and Future Benefits

Smart fisheries represent a comprehensive ecological system for modern aquaculture, built on the foundation of cutting-edge information technologies such as the Internet of Things and artificial intelligence, with data at its core. It leverages advanced sensing devices and equipment featuring intelligent detection and perceptual control, and employs precision aquaculture, visual management, and intelligent decision-making as its key approaches. The ultimate goal is to achieve intelligent, automated, intensive, and sustainable development in the fisheries sector.

After the company’s smart fisheries cloud platform is officially put into operation, it will take a leading position in the industry and provide the company with new growth opportunities for sales. Service fees will increase year by year along with the expansion of product sales. Relying on its massive big data platform, the platform will offer users personalized online services, ultimately achieving a balanced development between profits from aquatic equipment sales and revenue from network service fees. As a benefit of equipment digitalization, the smart fisheries cloud platform is expected in the long term to generate service fees that account for 50% of equipment revenues, and the profit from service fees will significantly exceed the profit from equipment sales. The annual service fees generated from providing smart cloud services to 100,000 pieces of equipment are estimated at around 10 million yuan. Over the next decade, the platform’s service fee revenue alone is projected to surpass 100 million yuan. Thanks to its technological advantages, the smart fisheries cloud platform will secure a long-term and stable source of income. At the same time, it brings us greater controllability and intelligence. By delivering efficient services and an excellent user experience, the platform will gradually build brand recognition in the government, enterprise, and individual markets, enhancing user stickiness and loyalty, and further solidifying its market-leading position.

1. Controllability, making aquaculture easier.

The biggest shift in smart fisheries compared to traditional aquaculture lies in four key areas: data, online monitoring, intelligent control, and precision water-management systems. Leveraging internet technologies such as smart sensing, wireless transmission, and remote and automated control, smart fisheries enable long-term, real-time, and comprehensive monitoring and collection of various critical environmental parameters that affect aquatic organism growth—such as water temperature, dissolved oxygen levels, and water pH. This allows aquaculture operators to grasp real-time information about the water quality environment, promptly receive alerts for anomalies, and quickly identify potential problems during the farming process, thereby making aquaculture more controllable.

2. Intelligent automation, freeing up labor resources.

Labor costs in the aquaculture industry are extremely high, and some farms require a large workforce to operate effectively. However, this also brings with it significant challenges in personnel management. Only by replacing manual labor with technology can large-scale aquaculture enterprises reduce potential risks during their expansion phase. By centralizing the management of aquaculture support equipment through remote control—for example, remotely turning on oxygen pumps and feeders on-site—farmers can ensure that oxygen levels remain within optimal ranges. When dissolved oxygen levels exceed or fall below preset upper and lower limits, the oxygenation equipment will automatically turn on or off. This approach not only enhances safety but also saves energy and reduces labor costs, enabling scientifically sound and efficient aquaculture practices while decreasing reliance on human labor and freeing up manpower.

3. Leading aquaculture into a new era of smart farming.

In the past, aquaculture farmers relied entirely on experience when raising fish—deciding when and how much to feed, and assessing water quality—all based on guesswork. If their estimates were inaccurate, it could negatively affect fish growth. To shift away from this traditional, experience-based farming model toward a more scientific and intelligent approach, farmers now use real-time monitoring of indicators such as dissolved oxygen levels, pH, and water temperature in ponds. The collected data is then transmitted to a cloud-based big data platform, which provides value-added services including daily water quality analysis reports, equipment operation status updates, and early warnings for potential aquaculture risks. By collecting and analyzing aquaculture big data, farmers can gain better control over various dynamic factors in their ponds, thereby increasing fish yields and effectively preventing and controlling diseases.

4. The disruptive transformation and innovation of smart fisheries in the aquaculture industry

Smart fisheries represent both an opportunity and a challenge for the aquaculture industry. To seize this opportunity, we need to "arm" our minds with data-driven thinking, harness the power of data as a crucial tool, and complement it with intelligent devices. By meeting the practical needs of aquaculture production, we can provide stable and user-friendly equipment that will usher aquaculture into a new era of smart farming.

5. Core Applications of Aquaculture Big Data

The core application of big data in aquaculture is to provide intelligent decision-making analytics and build smart systems, significantly enhancing the informatization, automation, and intelligence levels of aquaculture farms. This, in turn, reduces production costs, boosts labor productivity, improves resource utilization and management efficiency, and elevates the quality grade and market competitiveness of agricultural products.

The smart fisheries cloud platform enables close integration between agricultural aquaculture at the production end, smart fisheries, and other key elements, further enhancing production efficiency and adding value to products while reducing aquaculture costs and labor intensity. Intelligent fishery production is undoubtedly the general trend, with a bright future ahead. Demand for platform-based services will grow strongly: As internet infrastructure continues to improve, the trend toward service platformization will only intensify. Driven by government digitalization policies, collaborative management of services among governments, enterprises, and individuals will become a significant market opportunity. The smart fisheries cloud platform can also serve as an important medium for information exchange between governments and fish farmers, facilitating both upward and downward communication as well as rapid feedback on market trends and policy updates. If companies can seize the initiative by launching their platforms early, gradually iterating and upgrading them, and refining their online services, coupled with the explosive growth in data volume, the smart fisheries cloud platform—supported by its massive market scale—will enable substantial growth in both product sales and ancillary service fees.

 

Product Development and Production Strategy

In 2024, Wuhan Shuijingling and Dahua Intelligent’s Wuhan branch successfully collaborated to develop a cloud-based control system for “smart fisheries.” Behind its high level of integration lies supercomputing power connected to the cloud. All user data will be exchanged in the cloud, forming larger-scale data models that will guide the R&D of digitally equipped fishery machinery. At its research base, Shujingling will build a cloud-based visualized command and control system. Whenever any terminal device experiences abnormal changes in feeding or oxygen supply, the smart system will promptly issue alerts and make optimal adjustments.

The company will invest funds to lead R&D and cover subsequent maintenance costs. In the first year, the investment will be no less than 2 million yuan; in subsequent years, system update and maintenance expenses will be no less than 500,000 yuan annually, depending on specific circumstances. The specific strategy is as follows: the company will be responsible for manufacturing the physical aquaculture equipment, while the smart fisheries cloud platform’s network services will be supported technically by our partner—Dahua Intelligent Wuhan Branch.

 

1. Product Development Strategy

(1) Technology Integration and Innovation

Core technology application: Integrating advanced technologies such as IoT, big data, and cloud computing to achieve real-time monitoring of aquaculture environments, data analysis, intelligent decision-making, and remote control.

Smart Hardware R&D: Develop hardware devices such as smart sensors and smart controllers for the precise collection of water quality, meteorological, and other parameters, as well as for controlling equipment like oxygenation systems and feeding devices.

Software Platform Development: Build a cloud-based management platform that offers features such as data processing, real-time monitoring, remote control, and intelligent analysis, and supports multi-platform access (e.g., desktop, WeChat mini-program, etc.).

(2) Customized Services

For different scenarios: We offer customized solutions tailored to various aquaculture settings, including indoor ponds, outdoor ponds, and large outdoor water bodies.

Personalized Services: We provide tailored services—including equipment selection, system configuration, and operational training—based on the specific needs of livestock farmers.

(3) User Experience Optimization

User-friendly interface: An intuitive and easy-to-use interface that reduces the learning curve for users.

Real-time feedback: Provides real-time data feedback and intelligent alerting features to help farmers promptly identify issues and take corrective measures.

Remote Control: Supports remote control of devices, enabling convenient and efficient aquaculture management.

 

2. Production Strategy

(1) Standardized production

Establish standards: Develop production standards for smart hardware and software platforms, and strictly adhere to the production processes to ensure product quality and stability.

Strict quality inspection: Implement rigorous quality control procedures to ensure that every stage meets the standards.

2. Supply Chain Management

Preferred Supplier: Choose suppliers with high quality and high efficiency to ensure the quality of raw materials and components.

Inventory Management: Implement scientific inventory management strategies to reduce inventory buildup and waste.