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Main Authors: Narvekar, Saail, Atar, Soofiyan, Gupta, Vishal, Penubaku, Lohit, Arya, Kavi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.09079
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author Narvekar, Saail
Atar, Soofiyan
Gupta, Vishal
Penubaku, Lohit
Arya, Kavi
author_facet Narvekar, Saail
Atar, Soofiyan
Gupta, Vishal
Penubaku, Lohit
Arya, Kavi
contents The growing demand for innovation in agriculture is essential for food security worldwide and more implicit in developing countries. With growing demand comes a reduction in rapid development time. Data collection and analysis are essential in agriculture. However, considering a given crop, its cycle comes once a year, and researchers must wait a few months before collecting more data for the given crop. To overcome this hurdle, researchers are venturing into digital twins for agriculture. Toward this effort, we present an agricultural framework(agriFrame). Here, we introduce a simulated greenhouse environment for testing and controlling a robot and remotely controlling/implementing the algorithms in the real-world greenhouse setup. This work showcases the importance/interdependence of network setup, remotely controllable rover, and messaging protocol. The sophisticated yet simple-to-use agriFrame has been optimized for the simulator on minimal laptop/desktop specifications.
format Preprint
id arxiv_https___arxiv_org_abs_2504_09079
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle agriFrame: Agricultural framework to remotely control a rover inside a greenhouse environment
Narvekar, Saail
Atar, Soofiyan
Gupta, Vishal
Penubaku, Lohit
Arya, Kavi
Robotics
The growing demand for innovation in agriculture is essential for food security worldwide and more implicit in developing countries. With growing demand comes a reduction in rapid development time. Data collection and analysis are essential in agriculture. However, considering a given crop, its cycle comes once a year, and researchers must wait a few months before collecting more data for the given crop. To overcome this hurdle, researchers are venturing into digital twins for agriculture. Toward this effort, we present an agricultural framework(agriFrame). Here, we introduce a simulated greenhouse environment for testing and controlling a robot and remotely controlling/implementing the algorithms in the real-world greenhouse setup. This work showcases the importance/interdependence of network setup, remotely controllable rover, and messaging protocol. The sophisticated yet simple-to-use agriFrame has been optimized for the simulator on minimal laptop/desktop specifications.
title agriFrame: Agricultural framework to remotely control a rover inside a greenhouse environment
topic Robotics
url https://arxiv.org/abs/2504.09079