Embedded System based Project
- Robotics Projects (ECE)
- Eco Friendly Projects
- CAN / FLEXRAY ARM based projects for ECEstudents
- Wireless (Bluetooth / Zigbee)
- Embedded GSM/GPRS/GPS Projects
- Internet Of Things (IoT) projects for ece and cse
- Raspberry PI Projects
- Arduino Projects
- Automotive Projects
- Bio-medical Projects-Bio-medical engineering projects for Final year
- Biometric Projects
- Security Projects
Embedded Systems Projects Topics
Electrical and electronics engineering students can choose from a variety of ECE project options. ECE students have a variety of options for their senior projects, including embedded, communication, solar, and general electronics. Embedded systems, electrical, robotics, communication, microcontroller-based (DTMF, GSM, IoT), solar, sensor and power electronics, general electronics, RF-based, or RFID-based projects are just a few of the categories in which ECE Project students study. By doing this, you will not only create original theses but also acquire useful abilities necessary for a prosperous career in electrical engineering's foundational fields. Enthusiastic electrical engineering students will develop the skill set needed for a rewarding career in core technologies with the aid of well-executed final projects.
Embedded systems applications
To receive their engineering certificate, each engineering student must successfully finish their project in their final year.
- POS Systems
- Multi Function Printers
- Storage Appliances
- Medical Imaging Systems
- Industrial PCs
- Geo-Imaging Devices
- RFID Readers
- In-Flight Entertainment Systems
- Electronic Voting Systems
- Security Systems
- Parking Meters
- Lottery/Gaming Systems
- Intelligent Power Module
- Routers & Switches
- Network Management Systems
- Radar Systems
- Factory Automation Systems
- Smart Meters
- Video Conferencing Systems
- Video Streaming Systems
- Voice Messaging Systems
Embedded systems typically have attributes that make them quite different from desktop applications:
- Their functions are fixed at the factory; they are dedicated, not general purpose. Their workload is predictable.
- They use custom hardware (sensors and actuators).
- They are carefully optimized in multiple dimensions to use the least computational resources that will meet requirements.
- They do not tolerate malfunction. Usually, an embedded system cannot be fixed after it is deployed.
- With few resources, special purpose hardware, and high demand for correct operation on day one, they are hard to develop software for.