IoT-Based Mortar Calibration System

An embedded system for real-time mortar calibration using smart sensors and algorithmic targeting.

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The Challenge

Enable accurate and efficient calibration of military mortars in the field. The system had to deliver precise angle and distance calculations in real time while remaining resilient to harsh environmental conditions and limited connectivity. Speed, reliability, and seamless field integration were critical.

Overview

Industry
Defense / IoT
Duration
6 months
Total project hours
1100
Technology
C++, Node.js, MQTT, Embedded Linux
Integrations
Sensor arrays

The Solution

We engineered a robust IoT-based calibration platform combining custom firmware, embedded sensors, and a real-time computation engine. Field devices communicate over a mesh network, ensuring uninterrupted data flow even in unstable environments.

The calibration logic processes sensor input to calculate optimal firing angles and expected ranges with high accuracy. We built the firmware to operate autonomously with minimal user input, reducing human error and streamlining deployment. All components were tested for latency, energy efficiency, and synchronization to guarantee mission-readiness under demanding conditions.