Digital Map-Based Site-Specific Granular Fertilizer Application System

Chandel, Narendra Singh; Mehta, C.R.; Tewari, V.K.; Nare, Brajesh

doi:10.18520/cs/v111/i7/1208-1213

Cited by 19 publications

(11 citation statements)

References 9 publications

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“…Recent advances in precision agriculture, whereby the inputs into a cropping system are calculated based on localscale variations in input requirements, may help address these deficiencies (Qamar uz and Schumann 2006; Jaramillo-Jaramillo 2016). Although it is limited by high equipment costs, precision agriculture like this can have significant benefits to crop production (Chandel et al 2016).…”

Section: Soil Nutrition and Irrigationmentioning

confidence: 99%

Biological, environmental and socioeconomic threats to citrus lime production

et al. 2018

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Limes as a fruit crop are of great economic importance, key to Asian and South American cuisines and cultivated in nearly all tropical and subtropical regions of the world. Demand for limes is increasing, driven by World Health Organization recommendations. Pests and pathogens have significantly reduced global productivity, while changes in agronomic techniques aim to alleviate this stress. We present here a holistic examination of the major biotic (pests and pathogens) and abiotic (environment and socioeconomic) factors that presently limit global production of lime. The major producers of limes are India, China and Mexico, while loss of lime production in the United States from 2006 has led many countries in the Western Hemisphere (Mexico, Costa Rica and Brazil) to export primarily to the USA. The most widespread invertebrate pests of lime are Toxoptera citricida and Scirtothrips citri. Another insect, Diaphorina citri, vectors both Huanglongbing (HLB) and Witches Broom of Lime, which are particularly destructive diseases. Developing agronomic techniques focus on production of resistant and pathogen-free planting materials and control of insect vectors. HLB infects citrus in nearly all growing regions, and has been particularly devastating in Asian citrus. Meanwhile, Citrus tristeza virus has infected over 100 million citrus trees, mainly in the Americas and Mediterranean. Currently, Witches Broom Disease of Lime is localised to the Middle East, but recently it has been detected in South America. The range of its vectors (D. citri and Hishimonus phycitis) further raises concerns about the potential spread of this disease. Abiotic threats to lime production are also a significant concern; key areas of lime production such as Mexico, India and the Middle East suffer from increasing water stress and high soil salinity, which combined with invasive pests and pathogens, may eliminate lime production in these areas. To ensure future security in lime production, policy makers, researchers and growers will need to examine the potential of more resistant lime cultivars and establish novel areas of cultivation.

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Section: Soil Nutrition and Irrigationmentioning

confidence: 99%

Biological, environmental and socioeconomic threats to citrus lime production

et al. 2018

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“…Recent developments in the domain of automated systems include mechatronics, robotics and decision support systems which ensure utmost precision in polyhouse operations like weeding, spraying, harvesting, and so on (Chakraborty et al, 2023; Mehta et al, 2020). Polyhouse cultivation is an integral part of precision horticulture which envisages precise control of climate, water, fertilizer, and so on (Reddy, 2016), by technological interventions such as automatic climate control (Jat, Rajwade, et al, 2020), Internet‐of‐Things‐based irrigation, wireless data transfer using ZigBee (Jonnala & Sathyanarayana, 2015), site‐specific input management (Chandel et al, 2016, 2021). The proven benefits of these technologies include offseason cultivation, higher input use efficiency, higher production and productivity, better quality of the agricultural produce; all these lead to an improved livelihood compared to open field cultivation (Bisbis et al, 2018; Chakraborty et al, 2022; Pachiyappan et al, 2022; Rao et al, 2022; Spehia, 2021).…”

Section: Introductionmentioning

confidence: 99%

Development of an automated mobile robotic sprayer to prevent workers' exposure of agro‐chemicals inside polyhouse

Jat

Dubey

Potdar

et al. 2023

Journal of Field Robotics

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Automated spraying practices are inevitable for modern polyhouse management to attain a broader objective of minimizing human exposure to agrochemicals. In the present study, an automated mobile robotic sprayer (AMRS) was developed to combat the increased human intervention and safeguard agricultural workers from potential health hazards. The system mainly comprises embedded sensors (ultrasonic, proximity, XBee) and controllers (Arduino, PLC). The controller drives the system on a piping track between the rows as well as on the head space achieving end-to-end automation for spraying operations. The system performance was evaluated on the tomato crop with respect to the physiological traits, yield and economics. Additionally, the study leveraged response surface methodology to optimize forward speed, spray distance, and working pressure of AMRS on the responses, droplet density, coverage, volume mean diameter (VMD) and application rate. Optimization of forward speed (0.79 km/h), spray distance (250 mm) and working pressure (0.40 MPa) resulted in 90.7 droplets/cm 2 droplet density, 47.1% coverage, 170.2 μm VMD and 86.0 mL/m 2 of application rate. Ergonomic aspects of AMRS were assessed by the parameters, human exposure, discomfort and postural assessment with respect to knapsack sprayer. The working heart rate of 103 beats/ min, work pulse of 12 beats/min, oxygen consumption rate of 916 mL/min and energy expenditure rate of 18.7 kJ/min recorded during the ergonomic evaluation of the AMRS were 25%, 75%, 42%, and 41% lower compared to manual spraying, respectively. Moreover, three-six times higher work pulse, cardiac cost, body part discomfort score and overall discomfort rating were observed which indicated more drudgery involved in manual spraying. State-of-the-art system developed for polyhouses would minimize the drudgery and health hazards, significantly. The system's resilience and effectiveness pave the way for its wider deployment where the use of agrochemicals are prevalent, particularly in small-size polyhouses.

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“…Leedy et al [11] designed a fertiliser distribution device for a sprinkler irrigation system to realise the integrated irrigation of water and fertiliser. Colaco and Molin [12] and Chandel et al [13] equipped the fertiliser applicator with a PDA and a vehicle-mounted computer, respectively, combined with technologies such as sensors, cameras and GIS positioning, to achieve accurate measurement and control of orchard fertilisation decision-making information. Sarangapani et al [14] used two-line decoding technology and cloud computing to realise the intelligent irrigation of the water and fertiliser integrated delivery machine.…”

Section: Introductionmentioning

confidence: 99%

Research on the application of PLC technology in electrical automation engineering

2022

Applied Mathematics and Nonlinear Sciences

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With the development of modern science and technology, the development of electrical automation engineering has also become widespread. In the traditional sense, the wiring of the electrical automation control system is complex, the cost is high, the maintenance is difficult and failures may easily occur, and these factors seriously affect the system efficiency. The application of PLC technology in the field of electrical automation greatly simplifies the installation and operation process, and improves the work efficiency. Therefore, PLC technology has come to play an increasingly important role in the efficient and stable operation of electrical automation engineering. This paper analyses and explores the principle and practical application of PLC in the field of electrical automation engineering, and optimises the automatic control system based on PLC.

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Digital Map-Based Site-Specific Granular Fertilizer Application System

Cited by 19 publications

References 9 publications

Biological, environmental and socioeconomic threats to citrus lime production

Biological, environmental and socioeconomic threats to citrus lime production

Development of an automated mobile robotic sprayer to prevent workers' exposure of agro‐chemicals inside polyhouse

Research on the application of PLC technology in electrical automation engineering

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