Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach
Context: In the dynamic and constantly evolving world of agriculture, promoting innovation and ensuring sustainable growth are crucial. A planned division of tasks and responsibilities within agricultural systems, known as efficient role allocation, is necessary to make this vision a reality. Climat...
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| Format: | Article |
| Language: | English |
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KeAi Communications Co., Ltd.
2025-06-01
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| Series: | Advanced Agrochem |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S277323712400056X |
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| author | Sonia Bisht Ranjana Swapnila Roy |
| author_facet | Sonia Bisht Ranjana Swapnila Roy |
| author_sort | Sonia Bisht |
| collection | DOAJ |
| description | Context: In the dynamic and constantly evolving world of agriculture, promoting innovation and ensuring sustainable growth are crucial. A planned division of tasks and responsibilities within agricultural systems, known as efficient role allocation, is necessary to make this vision a reality. Climate-smart agriculture (CSA) movement enjoys widespread support from the research and development community because it seeks to improve livelihoods in response to climate change. Objective: This study explores an innovative approach to optimizing role assignment within agricultural frameworks to effectively scale AI-driven innovations. By leveraging advanced algorithms and machine learning techniques, the research aims to streamline the allocation of tasks and responsibilities among various stakeholders, including farmers, agronomists, technicians, and AI systems. Methods: The methodology involves the development of a dynamic role assignment model that considers factors such as expertise, resource availability, and real-time environmental data. This model is tested in various agricultural scenarios to evaluate its impact on operational efficiency and innovation scalability. The findings demonstrate that optimized role assignment not only enhances the performance of AI applications but also fosters a collaborative ecosystem that is adaptable to changing agricultural demands. Results: & Discussion:This research finds a number of elements that affect how well duties are distributed within agricultural frameworks, including organizational frameworks, leadership, resource accessibility, and cooperative efforts through AI. In addition to advocating for its comprehensive integration into the sector's culture, this paper offers a collection of best practices and techniques for optimizing role allocation in agriculture. Additionally, the study gives a thorough overview, summary, and analysis of a few papers that are specifically concerned with scaling innovation in the field of agricultural research for development. Significance: Furthermore, the study highlights the potential of AI to transform traditional farming practices, reduce labor-intensive processes, and improve decision-making accuracy. The proposed approach serves as a blueprint for agricultural enterprises aiming to adopt AI technologies while ensuring optimal utilization of human and technological resources. By addressing the challenges of role ambiguity and resource allocation, this research contributes to the broader goal of achieving sustainable and resilient agricultural systems through technological innovation. |
| format | Article |
| id | doaj-art-88ae6da938c849b39b5e49c9342673d3 |
| institution | DOAJ |
| issn | 2773-2371 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | KeAi Communications Co., Ltd. |
| record_format | Article |
| series | Advanced Agrochem |
| spelling | doaj-art-88ae6da938c849b39b5e49c9342673d32025-08-20T03:20:22ZengKeAi Communications Co., Ltd.Advanced Agrochem2773-23712025-06-014210611310.1016/j.aac.2024.07.004Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approachSonia Bisht0 Ranjana1Swapnila Roy2School of Basic and Applied Sciences, Lingaya's Vidyapeeth (A Deemed-to-be–University), Faridabad, 121002, IndiaSchool of Basic and Applied Sciences, Lingaya's Vidyapeeth (A Deemed-to-be–University), Faridabad, 121002, IndiaCorresponding author.; School of Basic and Applied Sciences, Lingaya's Vidyapeeth (A Deemed-to-be–University), Faridabad, 121002, IndiaContext: In the dynamic and constantly evolving world of agriculture, promoting innovation and ensuring sustainable growth are crucial. A planned division of tasks and responsibilities within agricultural systems, known as efficient role allocation, is necessary to make this vision a reality. Climate-smart agriculture (CSA) movement enjoys widespread support from the research and development community because it seeks to improve livelihoods in response to climate change. Objective: This study explores an innovative approach to optimizing role assignment within agricultural frameworks to effectively scale AI-driven innovations. By leveraging advanced algorithms and machine learning techniques, the research aims to streamline the allocation of tasks and responsibilities among various stakeholders, including farmers, agronomists, technicians, and AI systems. Methods: The methodology involves the development of a dynamic role assignment model that considers factors such as expertise, resource availability, and real-time environmental data. This model is tested in various agricultural scenarios to evaluate its impact on operational efficiency and innovation scalability. The findings demonstrate that optimized role assignment not only enhances the performance of AI applications but also fosters a collaborative ecosystem that is adaptable to changing agricultural demands. Results: & Discussion:This research finds a number of elements that affect how well duties are distributed within agricultural frameworks, including organizational frameworks, leadership, resource accessibility, and cooperative efforts through AI. In addition to advocating for its comprehensive integration into the sector's culture, this paper offers a collection of best practices and techniques for optimizing role allocation in agriculture. Additionally, the study gives a thorough overview, summary, and analysis of a few papers that are specifically concerned with scaling innovation in the field of agricultural research for development. Significance: Furthermore, the study highlights the potential of AI to transform traditional farming practices, reduce labor-intensive processes, and improve decision-making accuracy. The proposed approach serves as a blueprint for agricultural enterprises aiming to adopt AI technologies while ensuring optimal utilization of human and technological resources. By addressing the challenges of role ambiguity and resource allocation, this research contributes to the broader goal of achieving sustainable and resilient agricultural systems through technological innovation.http://www.sciencedirect.com/science/article/pii/S277323712400056XAgricultural frameworkAIIrrigation systemsScaling innovationsClimate-smart agriculture (CSA)Sustainable development |
| spellingShingle | Sonia Bisht Ranjana Swapnila Roy Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach Advanced Agrochem Agricultural framework AI Irrigation systems Scaling innovations Climate-smart agriculture (CSA) Sustainable development |
| title | Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach |
| title_full | Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach |
| title_fullStr | Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach |
| title_full_unstemmed | Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach |
| title_short | Optimizing role assignment for scaling innovations through AI in agricultural frameworks: An effective approach |
| title_sort | optimizing role assignment for scaling innovations through ai in agricultural frameworks an effective approach |
| topic | Agricultural framework AI Irrigation systems Scaling innovations Climate-smart agriculture (CSA) Sustainable development |
| url | http://www.sciencedirect.com/science/article/pii/S277323712400056X |
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