Performance evaluation of a water level sensor under various turbidity levels in lowland crop production systems

Pereira, Gamiello S.; Ramirez, R C; Agulto, E S; Ella, Victor B.

doi:10.1088/1755-1315/1038/1/012033

Cited by 3 publications

(2 citation statements)

References 29 publications

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“…The technology shows good potential to reduce fertilizer use and nutrient loss in Philippine banana plantations. Finally,Pereira et al (2022) developed and tested submersible water level sensors for measuring ood height in lowland rice elds under alternate wetting and drying irrigation regimes. They found that sensor accuracy was signi cantly affected by water turbidity.…”

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confidence: 99%

Transforming Philippine Agriculture Through Data-driven Innovation: A Quantitative Landscape Assessment to Prioritize Technological Solutions

Taer,

Taer

2024

Preprint

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This systematic review analyzed agricultural innovations in the Philippines over 2018–2023 to provide comprehensive categorization, adoption trend analysis, and recommendations for optimizing research priorities. Methodical literature search, screening, and quantitative analysis facilitated organized investigation across innovation types, contributors, applications, and geographical contexts. Results revealed image analysis followed by the sustainable farming system had the highest segment (26% and 23%, respectively) of the innovation categories displaying cutting-edge techniques as well as environmental stewardship. Rice-centric innovations dominate (33.33%) showcasing the underrepresentation of high-value crops, livestock, and remote farming sectors. However, innovations have skewed geographical representation with 69.23% of studies concentrating only on Luzon regions, chiefly central and northern areas. Agricultural potential also exists across Visayas and Mindanao warranting increased emphasis. Additionally, most research contributors represent less than 5% share each, indicating a fragmentation in efforts lacking cross-institutional partnerships. Findings exposed critical gaps in innovation prioritization and adoption levels directed at sustainable practices, precision technologies, non-cereal commodities, and geographically disadvantaged communities. Significant institutional support is imperative to address disparities through modernization policies and localized capacity-building programs aided by industry-academia partnerships. Unified innovation transfer conduits can accelerate the transition of solutions from proofs-of-concept to farmer-ready tools catering to regional needs.

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confidence: 99%

Transforming Philippine Agriculture Through Data-driven Innovation: A Quantitative Landscape Assessment to Prioritize Technological Solutions

Taer,

Taer

2024

Preprint

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“…Nano fertilizers, such as FertiGroTM tested by Augustus and Domingo[32] on banana plants, demonstrated signi cantly improved plant growth with the slow-release property making it suitable for direct soil application, potentially reducing fertilizer use and nutrient loss. Pereira et al[31] contributed to the landscape by developing submersible water level sensors for measuring ood height in lowland rice elds, offering improved regulation of water usage in water-scarce regions and enhancing irrigation e ciency under alternate wetting and drying regimes.…”

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confidence: 99%

Cultivating Tomorrow: A Comprehensive Review of Agricultural Innovations in the Philippines (2018-2023)

Taer,

Taer

2024

Preprint

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This systematic review undertook an examination of agricultural innovations in the Philippines spanning from 2018 to 2023. The objective was to provide a comprehensive categorization, analyze adoption trends, and offer recommendations to optimize research priorities. A methodical approach involving literature search, screening, and quantitative analysis facilitated an organized investigation into various innovation types, contributors, applications, and geographical contexts. The findings indicated that image analysis and sustainable farming systems held the highest shares within the innovation categories, comprising 26% and 23%, respectively. These segments showcased cutting-edge techniques along with a commitment to environmental stewardship. Notably, rice-centric innovations dominated at 33.33%, underscoring the underrepresentation of high-value crops, livestock, and remote farming sectors. However, a geographical bias was evident, with 69.23% of studies concentrating solely on Luzon regions, particularly in central and northern areas. This revealed a need to acknowledge the agricultural potential present in Visayas and Mindanao, emphasizing the necessity for increased research emphasis in these regions. Furthermore, the study unveiled a fragmented landscape in research contributions, with the majority of contributors representing less than a 5% share each. This fragmentation suggests a lack of cross-institutional partnerships, hindering a holistic and collaborative approach to agricultural innovation. Critical gaps in innovation prioritization and adoption levels were identified, particularly in sustainable practices, precision technologies, non-cereal commodities, and geographically disadvantaged communities. Addressing these gaps requires significant institutional support through modernization policies and localized capacity-building programs, ideally facilitated by industry-academia partnerships. In conclusion, the establishment of unified innovation transfer conduits is essential to expedite the transition of solutions from proofs-of-concept to farmer-ready tools, ensuring a targeted approach that caters to regional needs.

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An Evaluation of Integrating Ubiquitous Computing and Sustainable Practices for Malaysia’s Flood Prevention System

Sing,

Vasudavan,

Jabbar

2023

2023 IEEE 21st Student Conference on Research and Development (SCOReD)

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Performance evaluation of a water level sensor under various turbidity levels in lowland crop production systems

Cited by 3 publications

References 29 publications

Transforming Philippine Agriculture Through Data-driven Innovation: A Quantitative Landscape Assessment to Prioritize Technological Solutions

Transforming Philippine Agriculture Through Data-driven Innovation: A Quantitative Landscape Assessment to Prioritize Technological Solutions

Cultivating Tomorrow: A Comprehensive Review of Agricultural Innovations in the Philippines (2018-2023)

An Evaluation of Integrating Ubiquitous Computing and Sustainable Practices for Malaysia’s Flood Prevention System

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