Top-down macro schematic of Agri Robot chassis, showing clean wiring harnesses, green LED indicators on an Arduino UNO controller, and brass pump fittings under studio lighting.
Top-down macro schematic of Agri Robot chassis, showing clean wiring harnesses, green LED indicators on an Arduino UNO controller, and brass pump fittings under studio lighting.
System Dashboard
/ AGRI ROBOT V2

Solar-Backed Field Autonomy

An intelligent agricultural platform engineered for autonomous spraying, precision crop cutting, and real-time Bluetooth telemetry under harsh field conditions.

Low-angle heroic tracking shot of Agri Robot spraying a fine mist over dark soil, harsh outdoor daylight highlighting the brass nozzle spray pattern.
Low-angle heroic tracking shot of Agri Robot spraying a fine mist over dark soil, harsh outdoor daylight highlighting the brass nozzle spray pattern.
Macro close-up of Agri Robot's dual-motor crop cutting attachment, razor-sharp steel blades positioned over dry field weeds, high-contrast green rim lighting.
Macro close-up of Agri Robot's dual-motor crop cutting attachment, razor-sharp steel blades positioned over dry field weeds, high-contrast green rim lighting.
CORE FUNCTIONS

Dual-Action Field Utility

Automated Spray System

Equipped with a high-pressure 12V water pump and precision pipe network, the robot delivers targeted liquid distribution across crop rows with zero manual intervention.

Precision Crop Cutting

Powered by dedicated high-torque BO motors, the modular cutting mechanism maintains consistent height control to clear weeds and harvest low-lying crops efficiently.

TECHNICAL SPECS

Built for Rugged Autonomy

POWER SYSTEM
CONNECTIVITY
SAFETY FIRST

12-Hour Solar Autonomy

Bluetooth Telemetry

Low-Water Signal Alerts

Continuous field operations backed by an integrated solar charging system and high-capacity lithium batteries for uninterrupted day-to-night performance.

Real-time wireless control and operational feedback via a robust HC-05 module, enabling reliable mobile dashboard integration up to thirty meters.

Automatic diagnostic sensors trigger instant telemetry alerts when the spray container runs low, preventing pump damage and ensuring operational safety.

Meet the Team
PROJECT ORIGIN

Robokalam Academic Engineering

Developed by student innovators Manish and Advith Krishna, Agri Robot demonstrates the future of accessible, high-efficiency agricultural automation built on rugged microcontroller architecture.