Smart irrigation and crop security in agriculture using IoT

Sugamya, Katta; Ramatenki, Sangita; Sammeta, Harika

doi:10.1016/b978-0-12-823694-9.00019-0

Cited by 11 publications

(2 citation statements)

References 2 publications

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“…This system can be fully autonomous and adapt with large agricultural fields by adding a solar panel. Katta et al [30] proposed an IoT-based agricultural field monitoring system that uses the soil moisture sensor to automatically irrigate farmland, an infrared motion detector and a Raspberry Pi camera to monitor plant health. This system can be optimized in terms of electrical energy by using the ESP32 which consumes less electrical energy than the Raspberry Pi.…”

Section: Related Workmentioning

confidence: 99%

Intelligent agriculture system using low energy and based on the use of the internet of things

Elhattab,

Abouelmehdi

2024

Bulletin EEI

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The field of smart agriculture is ranked among the top areas that uses the internet of things (IoT), whose goal is to increase the quantity and quality of agricultural productivity. The aim of this work is to realize a new device that will be cost-effective, reliable, and autonomous using a solar panel to provide electricity in large-scale agricultural fields, ESP32 to interconnect IoT sensors and the long range (LoRa) data transmission protocol to guarantee connectivity in places where there is no internet, whose objective is to monitor and irrigate agricultural fields only when there is a need for water. The data received by the sensors is sent to mobile app users via the Blynk cloud. The performance of our new approach is measured in terms of energy savings. This new model of irrigation and smart monitoring will improve the efficiency of farming techniques.

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Section: Related Workmentioning

confidence: 99%

Intelligent agriculture system using low energy and based on the use of the internet of things

Elhattab,

Abouelmehdi

2024

Bulletin EEI

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“…The latter include watching over or controlling irrigation and water quality [17], soil [18], weather, farm, pests, and diseases [19]. The subsequent sections highlight the use of DigAg in smart irrigation [20] and intelligent machinery [21], discussing some of the threats that malicious actors could exploit.…”

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confidence: 99%

Cyber-Security Threats and Side-Channel Attacks for Digital Agriculture

Alahmadi

Rehman

Alhazmi

et al. 2022

Sensors

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The invention of smart low-power devices and ubiquitous Internet connectivity have facilitated the shift of many labour-intensive jobs into the digital domain. The shortage of skilled workforce and the growing food demand have led the agriculture sector to adapt to the digital transformation. Smart sensors and systems are used to monitor crops, plants, the environment, water, soil moisture, and diseases. The transformation to digital agriculture would improve the quality and quantity of food for the ever-increasing human population. This paper discusses the security threats and vulnerabilities to digital agriculture, which are overlooked in other published articles. It also provides a comprehensive review of the side-channel attacks (SCA) specific to digital agriculture, which have not been explored previously. The paper also discusses the open research challenges and future directions.

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