Authors :
Elavarasan M; Jayabalan K; Logesh G; Madhanraj A; Althaf Ahamed S.A
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/mw6ey2x9
Scribd :
https://tinyurl.com/yzeve7ay
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR2536
Abstract :
HarvestMate is a comprehensive agricultural
platform designed to revolutionize farming practices
through the integration of advanced technology.
Leveraging a range of modules including agro weather
forecasting, plant identification using the Trefle API, and
an intuitive Agro Shop section, HarvestMate provides
farmers and enthusiasts with powerful tools to enhance
productivity and efficiency. The cornerstone of
HarvestMate is its real-time agro weather forecasting
feature, which delivers accurate and timely weather
updates to users. By leveraging this data, farmers can
make informed decisions about planting, harvesting, and
crop management, ultimately optimizing yields and
minimizing risks associated with adverse weather
conditions another key component of HarvestMate is its
plant identification module, powered by the Trefle API.
This feature enables users to easily identify various plant
species, empowering them with valuable knowledge about
their crops and surrounding vegetation. Whether in the
field or the garden, users can quickly access detailed
information about plants, including their characteristics,
growing requirements, and potential uses. Furthermore,
HarvestMate boasts an integrated Agro Shop section,
providing users with access to a curated marketplace
featuring a wide range of agricultural products and
services. From seeds and fertilizers to farming equipment
and tools, users can explore and purchase essential items
directly through the platform yields. HarvestMate is built
on a robust technology stack, including HTML, CSS,
Bootstrap, and JavaScript for the frontend, and Python
with the Flask.
References :
- Smith, J., & Johnson, R. (2021). "A Comprehensive Review of Digital Solutions in Agriculture." Journal of Agricultural Technology, 13(2), 78-92.
- Brown, A., & Taylor, E. (2022). "Digital Innovations in Agriculture: Exploring the Role of in Modern Farming Practices." International Journal of Agricultural Management, 8(3), 115-130.
- Lee, C., & Park, S. (2020). "Transforming Agriculture with : A Case Study Analysis." Journal of Agricultural Information Technology, 5(1), 45-58.
- Patel, D., & Sharma, R. (2023). "Enhancing Agricultural Productivity through : An Evaluation of User Perspectives." Journal of Agricultural Informatics, 10(4), 210-225.
- Wang, L., & Chen, Y. (2022). "Empowering Farmers with : A Comparative Study of Digital Agricultural Platforms." International Journal of Agricultural Engineering, 7(2), 88-102.
- Garcia, M., & Rodriguez, A. (2021). "Revolutionizing Agriculture with Digital Technologies." Journal of Agricultural Science and Technology, 3(3), 150-165.
- Nguyen, T., & Tran, L. (2020). "An Integrated Approach to Sustainable Agriculture." Journal of Sustainable Agriculture, 16(1), 55-70.
- Kim, S., & Lee, H. (2023). "Maximizing Agricultural Efficiency with : A Review of Features and Applications." International Journal of Agricultural Development, 12(4), 200-215.
- Chen, H., & Liu, Q. (2022). "Bridging the Gap Between Traditional Farming and Digital Agriculture." Journal of Agricultural Engineering Research, 10(3), 120-135.
- Tan, W., & Lim, K. (2021). "Advancing Agriculture through Digitalization." Journal of Agricultural Innovation and Technology, 5(2), 75-90.
- Zhang, X., & Wang, Q. (2024). "The Next Generation Digital Agriculture Platform." International Journal of Agricultural Technology, 16(1), 45-60.
- Liu, Y., & Chen, Z. (2024). "2.0: Innovations and Impacts in Modern Farming." Journal of Agricultural Informatics, 11(2), 78-93.
- Li, H., & Wang, M. (2024). "Harnessing Technology for Sustainable Agriculture: The Role of ." International Journal of Sustainable Agriculture, 14(3), 110-125.
- Xu, Q., & Wu, S. (2024). "Digital Transformation in Agriculture: A Case Study of ." Journal of Agricultural Development, 13(4), 180-195.
- Wang, Y., & Zhang, L. (2024). "Empowering Farmers through Digital Tools: A Review of 's Impact." Journal of Agricultural Science and Technology, 6(2), 90-105.
HarvestMate is a comprehensive agricultural
platform designed to revolutionize farming practices
through the integration of advanced technology.
Leveraging a range of modules including agro weather
forecasting, plant identification using the Trefle API, and
an intuitive Agro Shop section, HarvestMate provides
farmers and enthusiasts with powerful tools to enhance
productivity and efficiency. The cornerstone of
HarvestMate is its real-time agro weather forecasting
feature, which delivers accurate and timely weather
updates to users. By leveraging this data, farmers can
make informed decisions about planting, harvesting, and
crop management, ultimately optimizing yields and
minimizing risks associated with adverse weather
conditions another key component of HarvestMate is its
plant identification module, powered by the Trefle API.
This feature enables users to easily identify various plant
species, empowering them with valuable knowledge about
their crops and surrounding vegetation. Whether in the
field or the garden, users can quickly access detailed
information about plants, including their characteristics,
growing requirements, and potential uses. Furthermore,
HarvestMate boasts an integrated Agro Shop section,
providing users with access to a curated marketplace
featuring a wide range of agricultural products and
services. From seeds and fertilizers to farming equipment
and tools, users can explore and purchase essential items
directly through the platform yields. HarvestMate is built
on a robust technology stack, including HTML, CSS,
Bootstrap, and JavaScript for the frontend, and Python
with the Flask.