Design and Control System Monitoring of Water Quality on Tilapia Cultivation Farm based Internet of Things (IoT) with NodeMCU
Dublin Core
Title
Design and Control System Monitoring of Water Quality on Tilapia Cultivation Farm based Internet of Things (IoT) with NodeMCU
Subject
System Monitoring, Cayene Application, NodeMCU, IoT Technology
Description
Fish cultivation has a high potential to improve the welfare of the community. One of the
important factors influencing the success of fish cultivation is the aspect of water quality in
the pond which is illustrated by several physical parameters such as temperature, degree of
acidity (pH) and turbidity of the water. The use of water for cultivation must always be
maintained at turbidity level, the impact of turbid water causes disruption to the physical
growth of the fish and even death. Due to the limitations of humans who cannot monitor
ponds 24 hours, a system is created that can monitor and control water quality in real time. To
get good water quality for cultivation, the authors make this system using a turbidity sensor to
detect water turbidity, a pH sensor to detect the acidity of the water and a temperature sensor
to detect the temperature of the water on the pond. While processing and control using a
microcontroller, namely NodeMCU. Periodically the sensor will send the measurement results
to the Cayenne application in real time which can be viewed via a smartphone / PC. The
control system is also made with two modes, namely automatic and manual modes to fill and
drain water on the pond. Based on the results of system testing, turbidity, pH and temperature
sensors are very good in detecting any changes in pond water conditions. Cayenne application
with IoT technology is able to provide action on the water pump in the process of draining and
filling water in ponds with manual mode. NodeMCU is able to send data with a good internet
connection.
important factors influencing the success of fish cultivation is the aspect of water quality in
the pond which is illustrated by several physical parameters such as temperature, degree of
acidity (pH) and turbidity of the water. The use of water for cultivation must always be
maintained at turbidity level, the impact of turbid water causes disruption to the physical
growth of the fish and even death. Due to the limitations of humans who cannot monitor
ponds 24 hours, a system is created that can monitor and control water quality in real time. To
get good water quality for cultivation, the authors make this system using a turbidity sensor to
detect water turbidity, a pH sensor to detect the acidity of the water and a temperature sensor
to detect the temperature of the water on the pond. While processing and control using a
microcontroller, namely NodeMCU. Periodically the sensor will send the measurement results
to the Cayenne application in real time which can be viewed via a smartphone / PC. The
control system is also made with two modes, namely automatic and manual modes to fill and
drain water on the pond. Based on the results of system testing, turbidity, pH and temperature
sensors are very good in detecting any changes in pond water conditions. Cayenne application
with IoT technology is able to provide action on the water pump in the process of draining and
filling water in ponds with manual mode. NodeMCU is able to send data with a good internet
connection.
Creator
Fathimah Nur Afifah, Emy Haryatmi
Publisher
Perpustakaan Horizon Karawang
Date
2019
Contributor
Fajar Bagus W
Format
PDF
Language
Indonesia
Type
Text
Files
Collection
Citation
Fathimah Nur Afifah, Emy Haryatmi, “Design and Control System Monitoring of Water Quality on Tilapia Cultivation Farm based Internet of Things (IoT) with NodeMCU,” Repository Horizon University Indonesia, accessed November 22, 2024, https://repository.horizon.ac.id/items/show/3246.