with
●Establishment of SCADA-based automatic control system for the first time in a fish farm
●Open architecture that is not dependent on specific products
●Building a database for AI implementation
●100% compatible with PLC, enabling implementation of a wide range of automatic control networks through PLC linkage.
Smart Aquaculture and automatic control
KLISGLOBAL has the largest number of smart automatic control performances in Korea.
We are a smart automatic control specialist company.
Korea's first SCADA-based aquaculture farm automatic control system
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Integration of factory automation technology based on SCADA, proven reliable in industrial sectors, into aquaculture farm automation and control
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The entire aquaculture process is subdivided by function, allowing modular installation based on on-site requirements
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Each module is linked to a central monitoring system through a standardized integrated process
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Numerical and video data generated throughout the process are stored in a format convertible to databases, facilitating easy integration with external programs for AI applications such as big data analysis, dataset development, and deep learning system implementation
Aquaculture monitoring
KLISGLOBAL was the first in Korea to introduce a SCADA-based monitoring system to a fish farm.
Successfully completed construction in multiple aquaculture sites.
SCADA is a facility monitoring method applied to factory automation, and is a technology with long-term stability and compatibility.
Automatic facility control system
Establish a communication network between measuring equipment and connect the control communication network for various facilities in the aquaculture farm.
Establishment of a centralized fault prediction, control, and monitoring system linked to a PLC or monitoring system.
Real-time automatic control reflecting real-time measurement values, and status monitoring through feedback after automatic control is implemented.
Facility-specific failure prediction monitoring (usage time, heat generation, vibration)
Supporting user decision-making through measurement trend views
Emergency notification/alarm system activated
Open architecture that can be linked with PLC, redundant control method to prepare for communication failure
산소자동공급 시스템
Stable operation of oxygen supply within the tank is the most important factor in closed-loop RAS.
Reliable system operation through various disaster preparedness systems
Korea's first dual data collection system
Simultaneous local/remote control, control duplication
Dual valve design to protect against valve failure
Dissolver oxygen supply control system, hyperoxia prevention device
Building an uninterruptible/non-stop supply system
Data collection and transformation
The most important thing for building an AI-based aquaculture system is data collection.
When data is directly entered from the field, human error occurs and the amount of data to be processed is extensive and large.
To solve the above problem, a solution is needed that allows users to easily manage and monitor big data collected in real time from numerous devices (PLC, Controller, IOT sensors, etc.) installed in various industrial sites.
Through this, big data can be collected stably and processed and operated in the format desired by the user (DB storage, CSV file storage, real-time server connection).
Efficient data collection for big data
OPC UA technology certification and built-in various communication protocols
Real-time tag value fluctuations and modeling
Support for Visual Studio, .Net, and JavaScript
Support for various SQL databases and integration with higher-level systems
Uninterrupted service