Multithreading design for an embedded irrigation system running on solar power

Technologies of irrigation systems are developed with a focus on intelligent water management, advanced features and remote control of solar photovoltaic watering systems (SPVWSs). The new generation of inexpensive microcontrollers comes with high level of computation capability and provides low-cos...

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Bibliographic Details
Published in2018 4th International Conference on Optimization and Applications (ICOA) pp. 1 - 5
Main Authors Selmani, A., Outanoute, M., Alaoui, M. Amini, El Khayat, M., Guerbaoui, M., Ed-dahhak, A., Lachhab, A., Bouchikhi, B.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.04.2018
Subjects
Control systems
embedded system
Green products
greenhouse
Irrigation
java platform
Multithreading
multithreading design
solar irrigation
Task analysis
Temperature sensors
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Summary:Technologies of irrigation systems are developed with a focus on intelligent water management, advanced features and remote control of solar photovoltaic watering systems (SPVWSs). The new generation of inexpensive microcontrollers comes with high level of computation capability and provides low-cost solutions. In this direction, this paper presents a new multithreading design and implementation of an embedded irrigation system running on solar power. The design combines the advanced concepts of concurrency programming, namely multithreading and virtual timers, with the embedded computing resources of smart devices. According to the design and test results through an experimental greenhouse, this device provides an accuracy real-time management of all activities of the SPVWS with eventually a low power consumption.
DOI:10.1109/ICOA.2018.8370519