RoboSoil: An Agrobot for Microbial Detection and Yield Enhancement | International Journal on Mechanical Engineering and Robotics

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Published: Dec 23, 2025

DOI: https://doi.org/10.65521/ijmer.v14i2.1699

Keywords:

CO₂ flux measurement, embedded systems, ESP32-S3, microbial biomass carbon (MBC), precision agriculture, soil respiration, soil health monitoring, sustainable farming, VOC detection, IoT Blynk

Ms. Sucheta Raut

Assistant professor, Electronics andTelecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Ms. Divya Kalamkar

Student, Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Mr. Anishk Satghare

Student, Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Ms. Falguni Bolakhe

Student, Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Ms. Maitree Pazare

Student, Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Ms. Anushka Ashtankar

Student, Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering and Management Nagpur, India

Abstract

The growing need for sustainable agriculture demands intelligent, field-deployable systems capable of rapid, on-site soil diagnostics. RoboSoil is an IoT-based automated soil collection and analysis system integrating multi-sensor data acquisition, embedded computation, and wireless reporting for real-time soil health monitoring. Powered by an ESP32-S3 microcontroller, it coordinates servo-driven sampling and analysis while acquiring data from SCD30 (CO₂, temperature, humidity), MQ135 (VOC detection), and capacitive moisture sensors. CO₂ flux measurements are used to compute soil respiration and microbial biomass carbon (MBC) using a calibrated empirical relation, enabling biological fertility assessment under open-field conditions. Results are transmitted to a Blynk IoT dashboard and an onboard web server, generating an instant soil health report with crop and fertilizer recommendations. Experimental outcomes confirm that RoboSoil bridges laboratory-grade soil microbial analysis with on-field automation, establishing a low-cost framework for precision soil management and sustainable farming.

How to Cite

Raut , M. S., Kalamkar, M. D., Satghare, M. A., Bolakhe, M. F., Pazare, M. M., & Ashtankar, M. A. (2025). RoboSoil: An Agrobot for Microbial Detection and Yield Enhancement. International Journal on Mechanical Engineering and Robotics, 14(2), 1–7. https://doi.org/10.65521/ijmer.v14i2.1699

Issue

Vol. 14 No. 2 (2025)

Section

Articles

Creative Commons License

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

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