Deployment of sensor nodes for aquaculture in western Godavari delta: results, challenges and issues

In this paper, design and development of a real-time water quality monitoring framework for aquaculture ponds has been presented. This wireless sensor network framework consists of sensor nodes to measure water pH, dissolved oxygen, water temperature, atmospheric temperature and pressure using senso...

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Veröffentlicht in:	Journal of reliable intelligent environments 2020-09, Vol.6 (3), p.153-167
Hauptverfasser:	Shareef, Zeenat, Reddy, S. R. N.
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Sprache:	eng
Schlagworte:	Applications programs Aquaculture Artificial Intelligence Atmospheric temperature Computer Science Data analysis Data storage Environmental monitoring Farms Health Informatics Mobile computing Nodes Original Article Parameters Performance and Reliability Ponds Sensors Simulation and Modeling Software Engineering/Programming and Operating Systems Statistical analysis User Interfaces and Human Computer Interaction Water quality Water temperature Wireless sensor networks
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creator	Shareef, Zeenat Reddy, S. R. N.
description	In this paper, design and development of a real-time water quality monitoring framework for aquaculture ponds has been presented. This wireless sensor network framework consists of sensor nodes to measure water pH, dissolved oxygen, water temperature, atmospheric temperature and pressure using sensors and transmit this information to the data storage and analysis module. Alerts on physico-chemical parameters of water are made available to the farmers through designed mobile application. The framework has been deployed in two testbeds, namely end-user shrimp farm and an institution pond, for the evaluation of system feasibility and robustness. Statistical analysis of the data collected through the system deployed in these testbeds was conducted, and it was observed that these physico-chemical parameters of water are within range, which depicts that the pond water is suitable for the growth of shrimp and fish. Feedback collected from the end-users (local aquaculture farmers) conveys acceptability of the system by them. Learnings and research challenges observed during system deployment have also been enumerated.
doi_str_mv	10.1007/s40860-020-00108-z
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R. N.</creatorcontrib><title>Deployment of sensor nodes for aquaculture in western Godavari delta: results, challenges and issues</title><title>Journal of reliable intelligent environments</title><addtitle>J Reliable Intell Environ</addtitle><description>In this paper, design and development of a real-time water quality monitoring framework for aquaculture ponds has been presented. This wireless sensor network framework consists of sensor nodes to measure water pH, dissolved oxygen, water temperature, atmospheric temperature and pressure using sensors and transmit this information to the data storage and analysis module. Alerts on physico-chemical parameters of water are made available to the farmers through designed mobile application. The framework has been deployed in two testbeds, namely end-user shrimp farm and an institution pond, for the evaluation of system feasibility and robustness. 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subjects	Applications programs Aquaculture Artificial Intelligence Atmospheric temperature Computer Science Data analysis Data storage Environmental monitoring Farms Health Informatics Mobile computing Nodes Original Article Parameters Performance and Reliability Ponds Sensors Simulation and Modeling Software Engineering/Programming and Operating Systems Statistical analysis User Interfaces and Human Computer Interaction Water quality Water temperature Wireless sensor networks
title	Deployment of sensor nodes for aquaculture in western Godavari delta: results, challenges and issues
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