- π Electronics & Communication Engineering student
- π§ Interested in Embedded Systems, IoT, and Telemetry Systems
- π‘ Currently building sensor-based embedded projects using ESP32
- π§ Learning Embedded System Architecture and RTOS
- π― Goal: Become a professional Embedded Systems Engineer
Simulates a spacecraft telemetry system using sensors and ESP32 to monitor environmental and system parameters.
Features
- Real-time sensor data acquisition
- Telemetry data transmission
- Fault detection simulation
- Python-based data visualization
An embedded system that automatically controls electrical appliances based on room occupancy using motion sensors and a microcontroller.
Features
- Detects human presence using PIR motion sensor
- Automatically turns appliances ON/OFF based on occupancy
- Reduces unnecessary energy consumption
- Real-time embedded control system
- Low-power microcontroller-based implementation
A microcontroller-based system that reads environmental sensor data and transmits it for monitoring and analysis.
Features
- Temperature and pressure monitoring
- Real-time data streaming
- Serial communication interface
Reads accelerometer and gyroscope data to estimate orientation and motion parameters.
Features
- Pitch and roll calculation
- Real-time motion tracking
- Embedded sensor data processing
- Embedded System Architecture
- Real-Time Operating Systems (RTOS)
- Communication Protocols
- Embedded Linux
β I enjoy experimenting with microcontrollers, sensors, and embedded systems to build practical engineering solutions.