Design and Implementation of a Smart Controller in Agriculture for Improved Productivity

Istanbul University - Journal of Electrical and Electronics Engineering Pub Date : 2018-02-23 DOI:10.5152/IUJEEE.2018.1808

V. Sravani, K. Santhosh, S. Bhargava, Verina D'Almeida

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引用次数: 2

Abstract

Agricultural produce significantly depends on many crop parameters such as humidity, pH, temperature, sunlight, microbial activity, soil ions, air quality, and water quality. A higher production of crop can be achieved via maintaining all these parameters in the desired range. A smart system was developed to control the environmental parameters in the desired range via incorporating a multisensor to measure the parameters such as humidity, temperature, and sunlight; in addition, also a suitable controller was designed to control these parameters in the desired range. Sensors were placed to continuously monitor the field parameters such as temperature, humidity, sunlight, and soil moisture. All these parameters were remotely acquired using ZigBee to PC through myRIO boards. Fuzzy-based controllers were designed to operate the actuators to maintain the set point. The designed system on implementation was tested on a real-life model. The results show that the proposed technique maintained the parameters at the desired state and reduced human intervention and labor.

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提高农业生产效率的智能控制器设计与实现

农业生产在很大程度上取决于许多作物参数，如湿度、pH值、温度、阳光、微生物活性、土壤离子、空气质量和水质。通过将所有这些参数保持在所需的范围内，可以实现更高的作物产量。开发了一个智能系统，通过集成多传感器来测量湿度、温度和阳光等参数，将环境参数控制在期望的范围内;此外，还设计了合适的控制器，将这些参数控制在期望的范围内。放置传感器连续监测现场参数，如温度、湿度、阳光和土壤湿度。所有这些参数都是通过myRIO板通过ZigBee远程采集到PC机的。设计了基于模糊的控制器来控制执行机构以保持设定点。设计的系统在实际模型上进行了测试。结果表明，该方法能使参数保持在理想状态，减少了人工干预和劳动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Istanbul University - Journal of Electrical and Electronics Engineering

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