ABOUT IEEE EMBEDDED PROJECT 2017-2018
Welcome to Real Time Project Center in Chennai, your gateway to the fascinating world of 2017-2018 IEEE Embedded projects. Our commitment to innovation and technology drives us to offer a diverse range of projects, providing students and professionals with opportunities to explore and excel in the dynamic field of embedded systems.
Embedded systems are the backbone of modern technology, powering a wide range of devices and applications. At Real Time Project Center, we harness the full potential of IEEE Embedded projects to create opportunities for participants that are both academically enriching and practically relevant. Our projects offer participants a deep dive into the exciting world of embedded technology.
Our extensive portfolio of 2017-2018 IEEE Embedded projects spans various domains, including IoT (Internet of Things), robotics, automotive, and more. Each project adheres to IEEE standards and is meticulously guided by experts with extensive experience in embedded systems. Whether you are a student fulfilling academic requirements or a professional looking to enhance your skills, our projects cater to diverse needs.
At Real Time Project Center, we believe in experiential learning. Our IEEE Embedded projects provide participants with a hands-on experience, allowing them to design, build, and program embedded systems for real-world applications. We provide state-of-the-art infrastructure and expert guidance to ensure participants gain a deep understanding of embedded technology and its practical applications.
Our team of experienced instructors and mentors is dedicated to your success. When you choose our 2017-2018 IEEE Embedded projects, you gain access to expert guidance and support throughout your project journey. Whether you need assistance with project selection, hardware integration, or software development, our experts are here to assist you at every step.
Join us at Real Time Project Center in Chennai and embark on a transformative journey toward embedded excellence. Our 2017-2018 IEEE Embedded projects open doors to exciting opportunities in the world of embedded systems and technology. Explore our project offerings, enroll today, and take the first step toward a promising career in embedded system-based project development. Unleash your potential with us now!
IEEE EMBEDDED PROJECTS LIST 2017-2018
| SNO | Projects List |
|---|---|
| 1 | A Visual Chaotic System Simulation in Arduino Platform Controlled by Android App |
| 2 | Smartphone Application to Evaluate the individual possibilities for the Application of Electric Vehicles |
| 3 | Face recognition System for Smartphones based on LBP |
| 4 | Motion Analysis in Vocalized Surprise Expressions and Motion Generation in Android Robots |
| 5 | Coexistence of ZigBee-Based WBAN and WiFi for Health Telemonitoring Systems |
| 7 | Access Control Schemes for Implantable Medical Devices: A Survey |
| 8 | A Wireless Health Monitoring System Using Mobile Phone Accessories |
| 9 | Access Control Schemes for Implantable Medical Devices: A Survey |
| 10 | An Arduino-based subsystem for controlling UAVs through GSM |
| 11 | Anti-theft protection of vehicle by GSM & GPS with fingerprint verification |
| 12 | Arduino-based subsystem for controlling UAVs through GSM |
| 13 | Design and implementation of real time transformer health monitoring system using GSM technology |
| 14 | Design and implementation of real time transformer health monitoring system using GSM technology |
| 15 | IOT Localization for Bistatic Passive UHF RFID Systems with 3D Radiation Pattern |
| 16 | Defense against Impersonating Attackers: An Efficient RFID Mutual Authentication Protocol Based on Standard |
| 17 | Embedded Home Surveillance System |
| 18 | Enabling Cloud Storage Auditing with Key-Exposure Resistance |
| 19 | Optical self-excitation and detection for inertial MEMS Sensors |
| 20 | Monolithic Multi-Sensor Design With Resonator-Based MEMS Structures |
| 21 | Environmental Monitoring in Grain Granary Based on Embedded System |
| 22 | Dynamic Routing for Data Integrity and Delay Differentiated Services in Wireless Sensor Networks |
| 23 | An SDR Based Channel Sounding Technique for Embedded Systems |
| 24 | Towards Real-Time Object Detection on Embedded Systems |
| 25 | Embedded Control System for Smart Walking Assistance Device |
| 26 | Secure and Efficient Protocol for Route Optimization in PMIPv6-based Smart Home IOT Networks |
| 27 | Home automation and personalization through individual location determination |
| 28 | Direct and indirect sensing two-axis solar tracking system |
| 29 | Quality of Service Management for Home Networks Using Online Service Response Prediction |
| 30 | Embedded Control System for Smart Walking Assistance Device |
| 31 | Efficient Visual Obstacle Avoidance for Robotic Mower |
| 32 | Modeling and Simulation of a Moving Robotic Arm Mounted on Wheelchair |
| 33 | Closed-Chain Manipulation of Large Objects by Multi-Arm Robotic Systems |
| 34 | Bioinspired Ciliary Force Sensor for Robotic Platforms |
| 35 | Robotic Assistant for Mobility-Impaired Patients |
| 36 | Signal Processing in Cyber-Physical MEMS Sensors: Inertial Measurement and Navigation Systems |
| 37 | Based on MEMS sensors man-machine interface for mechatronic objects control |
| 38 | Current Challenges for Visible Light Communications Usage in Vehicle Applications: A Survey |
| 39 | Optical self-excitation and detection for inertial MEMS Sensors |
