Projects

Krishi Sheba (CropCare) — Smart Crop Management & Advisory System

Krishi Sheba (CropCare) — Smart Crop Management & Advisory System

In the CropCare: Advanced Crop Management System with Intelligent Advisory project (published via IEEE), our team developed an integrated solution for improving agricultural productivity through sensor-based monitoring, data analytics, and real-time advisory to farmers. IEEE Xplore As the Electrical Engineer, I was responsible for: Sensor & hardware integration: selecting and interfacing soil moisture, temperature, humidity, and other environmental sensors with the microcontroller and ensuring signal integrity under field conditions. Power management & circuit design: creating efficient power distribution circuits, voltage regulation, and protection mechanisms to support uninterrupted operation even in remote or unstable power environments. Embedded electronics & PCB design: designing the printed circuit boards for control and data acquisition modules, ensuring compact, reliable layouts for field deployment. System reliability & robustness: testing and mitigating noise, handling grounding, surge protection, and ensuring the hardware can survive environmental stresses (heat, humidity, fluctuations). Collaboration with software/algorithm teams: working closely with data and machine learning engineers to supply stable, accurate sensor data for analysis and advisory systems. This role deepened my expertise in electronics for IoT/agriculture, power-efficient system design, and real-world deployment in challenging environments. It also allowed me to contribute meaningfully to technology-driven agricultural service (Krishi Sheba) to support farmers through data-driven insights.

In the CropCare: Advanced Crop Management System with Intelligent Advisory project (published via IEEE), our team developed an integrated solution for improving agricultural productivity through sensor-based monitoring, data analytics, and real-time advisory to farmers. IEEE Xplore As the Electrical Engineer, I was responsible for: Sensor & hardware integration: selecting and interfacing soil moisture, temperature, humidity, and other environmental sensors with the microcontroller and ensuring signal integrity under field conditions. Power management & circuit design: creating efficient power distribution circuits, voltage regulation, and protection mechanisms to support uninterrupted operation even in remote or unstable power environments. Embedded electronics & PCB design: designing the printed circuit boards for control and data acquisition modules, ensuring compact, reliable layouts for field deployment. System reliability & robustness: testing and mitigating noise, handling grounding, surge protection, and ensuring the hardware can survive environmental stresses (heat, humidity, fluctuations). Collaboration with software/algorithm teams: working closely with data and machine learning engineers to supply stable, accurate sensor data for analysis and advisory systems. This role deepened my expertise in electronics for IoT/agriculture, power-efficient system design, and real-world deployment in challenging environments. It also allowed me to contribute meaningfully to technology-driven agricultural service (Krishi Sheba) to support farmers through data-driven insights.

Category

May 15, 2024

Agriculture

Agriculture

Services

May 15, 2024

Engineering Solutions

Engineering Solutions

Client

May 15, 2024

United International University

United International University

Year

May 15, 2024

2024

2024

In the CropCare: Advanced Crop Management System with Intelligent Advisory project (published via IEEE), our team developed an integrated solution for improving agricultural productivity through sensor-based monitoring, data analytics, and real-time advisory to farmers. IEEE Xplore

As the Electrical Engineer, I was responsible for:

  • Sensor & hardware integration: selecting and interfacing soil moisture, temperature, humidity, and other environmental sensors with the microcontroller and ensuring signal integrity under field conditions.

  • Power management & circuit design: creating efficient power distribution circuits, voltage regulation, and protection mechanisms to support uninterrupted operation even in remote or unstable power environments.

  • Embedded electronics & PCB design: designing the printed circuit boards for control and data acquisition modules, ensuring compact, reliable layouts for field deployment.

  • System reliability & robustness: testing and mitigating noise, handling grounding, surge protection, and ensuring the hardware can survive environmental stresses (heat, humidity, fluctuations).

  • Collaboration with software/algorithm teams: working closely with data and machine learning engineers to supply stable, accurate sensor data for analysis and advisory systems.

This role deepened my expertise in electronics for IoT/agriculture, power-efficient system design, and real-world deployment in challenging environments. It also allowed me to contribute meaningfully to technology-driven agricultural service (Krishi Sheba) to support farmers through data-driven insights.

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