Chatting with Plants (Orchids) in Automated Smart Farming using IoT, Fuzzy Logic and Chatbot

Wiangsamut, Samruan; Chomphuwiset, Phatthanaphong; Khummanee, Suchart

doi:10.25046/aj040522

Cited by 8 publications

(7 citation statements)

References 14 publications

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“…Precision agriculture has been used for years and now researchers are considering the use of variable rate technologies [70], sensor monitoring [16], and management systems to ensure better crop health [27], improved productivity [28], and better quality [71] of the produce. Sensor-and drone-assisted quality monitoring of horticultural crops [21], yield predicting sensors [72] on harvesters of various agronomic crops [73] (Figure 4), and use of the internet and real time data simulators [74] are receiving attention day by day, particularly for their use in large scale crop production. Various environmental components are considered, and their impact on crop production have been evaluated using modern techniques.…”

Section: Yield Prediction In Smart Agriculturementioning

confidence: 99%

Application of Smart Techniques, Internet of Things and Data Mining for Resource Use Efficient and Sustainable Crop Production

et al. 2023

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Technological advancements have led to an increased use of the internet of things (IoT) to enhance the resource use efficiency, productivity, and cost-effectiveness of agricultural production systems, particularly under the current scenario of climate change. Increasing world population, climate variations, and propelling demand for the food are the hot discussions these days. Keeping in view the importance of the abovementioned issues, this manuscript summarizes the modern approaches of IoT and smart techniques to aid sustainable crop production. The study also demonstrates the benefits of using modern IoT approaches and smart techniques in the establishment of smart- and resource-use-efficient farming systems. Modern technology not only aids in sustaining productivity under limited resources, but also can help in observing climatic variations, monitoring soil nutrients, water dynamics, supporting data management in farming systems, and assisting in insect, pest, and disease management. Various type of sensors and computer tools can be utilized in data recording and management of cropping systems, which ensure an opportunity for timely decisions. Digital tools and camera-assisted cropping systems can aid producers to monitor their crops remotely. IoT and smart farming techniques can help to simulate and predict the yield production under forecasted climatic conditions, and thus assist in decision making for various crop management practices, including irrigation, fertilizer, insecticide, and weedicide applications. We found that various neural networks and simulation models could aid in yield prediction for better decision support with an average simulation accuracy of up to 92%. Different numerical models and smart irrigation tools help to save energy use by reducing it up to 8%, whereas advanced irrigation helped in reducing the cost by 25.34% as compared to soil-moisture-based irrigation system. Several leaf diseases on various crops can be managed by using image processing techniques using a genetic algorithm with 90% precision accuracy. Establishment of indoor vertical farming systems worldwide, especially in the countries either lacking the supply of sufficient water for the crops or suffering an intense urbanization, is ultimately helping to increase yield as well as enhancing the metabolite profile of the plants. Hence, employing the advanced tools, a modern and smart agricultural farming system could be used to stabilize and enhance crop productivity by improving resource use efficiency of applied resources i.e., irrigation water and fertilizers.

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Section: Yield Prediction In Smart Agriculturementioning

confidence: 99%

Application of Smart Techniques, Internet of Things and Data Mining for Resource Use Efficient and Sustainable Crop Production

et al. 2023

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“…There are several factors that contribute to the prediction of a plant's or crop's overall yield, including soil properties, weather, seasonal fluctuations, seed quality, harvesting techniques, pest and disease monitoring, nutrient deficiencies, managing water requirements, and managing pest and disease problems. Since precision agriculture has been used for decades, researchers are now considering using sensor monitoring systems [22] and management systems so that crops can be kept healthy [15], productivity can be increased [16], and product quality can be improved in Figure 2 [23] .There has been an increased amount of attention devoted to sensors and drones used to monitor the quality of horticultural crops [24,25] and sensors that predict yields in various agronomic crops [26,27] and can be placed on harvesters for various crops [28], as well as the use of real-time data simulators [29]; moreover, the use of the Internet and real-time data simulators in crop production are gaining increasing attention. A number of studies have been conducted in the past that have shed light on the benefits of the Internet of Things in agriculture.…”

Section: A Smart Agriculture Approach To Predicting Yieldsmentioning

confidence: 99%

“…Since precision agriculture has been used for decades, researchers are now considering using sensor monitoring systems [22] and management systems so that crops can be kept healthy [15], productivity can be increased [16], and product quality can be improved in Figure 2 [23]. There has been an increased amount of attention devoted to sensors and drones used to monitor the quality of horticultural crops [24,25] and sensors that predict yields in various agronomic crops [26,27] and can be placed on harvesters for various crops [28], as well as the use of real-time data simulators [29]; moreover, the use of the Internet and real-time data simulators in crop production are gaining increasing attention.…”

Section: A Smart Agriculture Approach To Predicting Yieldsmentioning

confidence: 99%

Smart Farming Revolution: Farmer’s Perception and Adoption of Smart IoT Technologies for Crop Health Monitoring and Yield Prediction in Jizan, Saudi Arabia

Jabbari,

Humayed,

Reegu

et al. 2023

Sustainability

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This study examines the perception and adoption of IoT technologies for crop monitoring among farmers in Jizan, Saudi Arabia. The research investigates the relationship between farmers’ awareness of IoT technologies, their perception of benefits, and willingness to adopt them. It also explores the influence of factors like access to information, training, and the perception of government support on adoption behavior. A structured questionnaire was distributed to 550 farmers, with a response rate of 90.91%. The analysis reveals a significant association between farmers’ awareness of IoT technologies and their perception of benefits. The perceived benefits show a moderate positive relationship with farmers’ willingness to adopt IoT technologies. Access to information, training, and the perception of government support also have a positive influence on adoption. The findings highlight the importance of increasing farmers’ awareness and providing access to information and training on IoT technologies. The study emphasizes the need for government support in facilitating adoption. Recommendations include exploring additional factors, conducting longitudinal studies, and developing tailored training programs. Collaboration among stakeholders and financial support mechanisms is also crucial. This study contributes to the understanding of IoT technology adoption in agriculture, providing insights for policymakers, agricultural extension agencies, and technology providers. By embracing IoT technologies and implementing the recommended actions, farmers in Jizan can enhance their crop monitoring practices, improve productivity, and promote sustainable farming.

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“…In [6] the authors implement a chatbot integrated with an agricultural plant monitoring system. In their implementation they use fuzzy logic and Natural Language Processing (NLP) to interpret user inputs.…”

Section: State Of Artmentioning

confidence: 99%

Lysis chatbot: A virtual assistant for IoT platforms

Cossu¹,

Girau²,

Atzori³

2021

ITU-J FET

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The configuration and management of devices and applications in Internet of Things (IoT) platforms may be very complicated for a user, which may limit the usage of relevant functionalities and which does not allow its full potential to be exploited. To address this issue, in this paper we present a new chatbot which is intended to assist the user in interacting with an IoT platform and allow them to use and exploit its full potential. The requirements for a user-centric design of the chatbot are first analyzed, then a proper solution is designed which exploits a serverless approach and makes extensive use of Artificial Intelligence (AI) tools. The developed chatbot is integrated with Telegram to message between the user and the Lysis IoT platform. The performance of the developed chatbot is analyzed to assess its effectiveness when accessing the platform, set the main devices' parameters and request data of interest.

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Chatting with Plants (Orchids) in Automated Smart Farming using IoT, Fuzzy Logic and Chatbot

Cited by 8 publications

References 14 publications

Application of Smart Techniques, Internet of Things and Data Mining for Resource Use Efficient and Sustainable Crop Production

Application of Smart Techniques, Internet of Things and Data Mining for Resource Use Efficient and Sustainable Crop Production

Smart Farming Revolution: Farmer’s Perception and Adoption of Smart IoT Technologies for Crop Health Monitoring and Yield Prediction in Jizan, Saudi Arabia

Lysis chatbot: A virtual assistant for IoT platforms

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