Smart Water Wheel Monitoring Internet of Things
Abstract
This project integrates information and communication software and hardware technology to develop a system that can monitor water wheels at the same time. Operators can directly perform various operations through mobile phones and remote server hosts, including control parameter settings, device control, time viewing, and historical data query. The overall system includes a water quality monitoring module, a main controller, a server host, and a mobile monitoring. The main controller is the core of the system fixed-point monitoring, used to directly control all networked water wheel monitoring modules, and is controlled through buttons on the operation panel, mainly including single water wheel control, group control (based on a single pond, two or more water wheels), round-robin control, etc., to improve operating efficiency. Mobile phones and server hosts are remote monitors, used to perform system settings, data storage and management, data query, and system monitoring.
This project integrates information and communication software and hardware technology to develop a system that can monitor water wheels at the same time. Operators can directly perform various operations through mobile phones and remote server hosts, including control parameter settings, device control, time viewing, and historical data query. The overall system includes a water quality monitoring module, a main controller, a server host, and a mobile monitoring. The main controller is the core of the system fixed-point monitoring, used to directly control all networked water wheel monitoring modules, and is controlled through buttons on the operation panel, mainly including single water wheel control, group control (based on a single pond, two or more water wheels), round-robin control, etc., to improve operating efficiency. Mobile phones and server hosts are remote monitors, used to perform system settings, data storage and management, data query, and system monitoring.
Abstract
This project integrates information and communication software and hardware technology to develop a system that can monitor water wheels at the same time. Operators can directly perform various operations through mobile phones and remote server hosts, including control parameter settings, device control, time viewing, and historical data query. The overall system includes a water quality monitoring module, a main controller, a server host, and a mobile monitoring. The main controller is the core of the system fixed-point monitoring, used to directly control all networked water wheel monitoring modules, and is controlled through buttons on the operation panel, mainly including single water wheel control, group control (based on a single pond, two or more water wheels), round-robin control, etc., to improve operating efficiency. Mobile phones and server hosts are remote monitors, used to perform system settings, data storage and management, data query, and system monitoring.
This project integrates information and communication software and hardware technology to develop a system that can monitor water wheels at the same time. Operators can directly perform various operations through mobile phones and remote server hosts, including control parameter settings, device control, time viewing, and historical data query. The overall system includes a water quality monitoring module, a main controller, a server host, and a mobile monitoring. The main controller is the core of the system fixed-point monitoring, used to directly control all networked water wheel monitoring modules, and is controlled through buttons on the operation panel, mainly including single water wheel control, group control (based on a single pond, two or more water wheels), round-robin control, etc., to improve operating efficiency. Mobile phones and server hosts are remote monitors, used to perform system settings, data storage and management, data query, and system monitoring.
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