IoT based crop monitoring scheme using smart device with machine learning methodology

Shylaja, S L; Fairooz, Shaik; Venkatesh, J.; Sunitha, D.; Rao, Rama; Prabhu, Mihika

doi:10.1088/1742-6596/2027/1/012019

Cited by 6 publications

(2 citation statements)

References 2 publications

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“…With the correct setting and item, everything is possible. PF is a more exact and regulated alternative to traditional agricultural methods that eliminates labor-intensive, timeconsuming tasks like weeding and planting [19]. Precision agriculture include the use of satellite GPS and its applications to livestock.…”

Section: Machine Learning In Sa and Pfmentioning

confidence: 99%

Evaluation of Machine Learning Approaches for Precision Farming in Smart Agriculture System: A Comprehensive Review

Mohyuddin,

Khan,

Haseeb

et al. 2024

IEEE Access

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In the era of digital data proliferation, agriculture stands on the cusp of a transformative revolution driven by Machine Learning (ML). This study delves into the intricate interplay between Information and Communications Technology (ICT) and conventional agriculture, emphasizing the role of ML in reshaping farming practices. With the ongoing data tsunami impacting data-driven businesses, the fusion of smart farming and precision agriculture emerges as a beacon of innovation. ML algorithms, analyzing historical and real-time environmental data, soil conditioning, , predicts suitable crop for maximum yields, detect diseases, and optimize irrigation in smart farming, facilitating informed decision-making. Precision agriculture benefits from autonomous vehicles and drones, driven by ML, ensuring precision in planting, harvesting, and crop monitoring. Resource efficiency increases as ML optimizes energy consumption, manages fertilizer application, and promotes climate-resilient practices. This comprehensive assessment underscores ML's pivotal role in maximizing productivity, minimizing environmental impact, and navigating the complexities of modern agriculture.

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Section: Machine Learning In Sa and Pfmentioning

confidence: 99%

Evaluation of Machine Learning Approaches for Precision Farming in Smart Agriculture System: A Comprehensive Review

Mohyuddin,

Khan,

Haseeb

et al. 2024

IEEE Access

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“…In Shylaja et al’s ( 2021 ) study, an IoT-based smart device is proposed for crop monitoring using machine learning. Instead of using the classical learning schemes, it introduced a new scheme called Modified Learning based Field Analysis Strategy (MLFAS) that predicts the status of the crop in the field by analyzing the real-time input data acquired and reports this to improve the decision-making process.…”

Section: Introductionmentioning

confidence: 99%

Designing and modeling an IoT-based software system for land suitability assessment use case

Mohammad El-Basioni,

Abd El-Kader

2024

Environ Monit Assess

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Assessing the quality of land is a very important step that precedes the planning of land use and taking management decisions; for example, in the agricultural field, it can be used to evaluate the suitability of the land for planting crops, determine the suitable irrigation system type, or adjust the agricultural inputs such as fertilizers and pesticides according to the requirements of each zone in the land. The spatial–temporal dynamic nature of land characteristics entails also updated evaluation process and updated management plan. The present paper tries to exploit the advances in information and communication technologies to develop a conceptual design of a dynamic system that accommodates the spatial–temporal dynamics of the agricultural soil characteristics to realize a land suitability assessment (LSA) based on a factor analysis method. The proposed design combines IoT technologies, web development, database, and digital mapping and tries to consolidate the system with other functionalities useful for decision support and suitable for different cases. The paper conducted a survey and made comparisons to select the best technologies that fit the current use case implementation and presents its reproducible conceptual modeling by developing the static and dynamic views through schemas, diagrams, message sequence charts, IoT messaging topic tree, pseudocode, etc. The functionality of the design was validated with a simple implementation of the system model. To our knowledge, there is no previous significant contribution that has addressed a LSA IoT use case. The proposed design automates the LSA process for more accurate decision-making, saving cost, time, and effort consumed in repeated field trips. It is characterized by flexibility and centralization in its offered services of spatial analysis, detection, visualizations, and status monitoring. The design also allows for remote control of field machinery.

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Internet of Things Based Quality and Environmental Monitoring System for Cassava Value Chain

Karerangabo,

Armando,

Gatera

et al. 2023

2023 Ieee Africon

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IoT based crop monitoring scheme using smart device with machine learning methodology

Cited by 6 publications

References 2 publications

Evaluation of Machine Learning Approaches for Precision Farming in Smart Agriculture System: A Comprehensive Review

Evaluation of Machine Learning Approaches for Precision Farming in Smart Agriculture System: A Comprehensive Review

Designing and modeling an IoT-based software system for land suitability assessment use case

Internet of Things Based Quality and Environmental Monitoring System for Cassava Value Chain

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