Portfolio
Hi! I am Farhan, a full-time Software Developer. I am eager to contribute in cutting-edge research and product development. I am proficient in C/C++, Python, and data analytics and experienced in robotics and IoT projects.
Research Experiences
Undergraduate Thesis
Design and Implementation of IoT based Patient Monitoring System Integrating Cloud Platform
Designed an affordable cloud-based patient monitoring system for remote monitoring of heart rate and temperature in resource-limited settings which improves patient care and reduces workload for medical professionals.
Technologies: Internet of Things (IoT), Cloud Computing, Networking, SQL, C++, Arduino IDE, Git, OpenSSL.
Hardware: ESP 32, ECG Sensor, Temperature Sensor, Control circuits, Powerbank.
Contribution: Conducted independent research under the guidance of Dr. Md. Faruque Hossain and the thesis was submitted to fulfill the partial requirement for the BSc. Degree in Electronics and Communication Engineering.
Publications
S. S. Alam, M. S. Islam, M. M. F. Chowdhury, T. Ahmed, “An IoT Based Health Monitoring System to Tackle COVID-19 in a Contagious Ward of Hospital ,” International Journal of Advanced Medical Sciences and Technology, Vol. 1, No. 4, August 2021. https://doi.org/10.35940/ijamst.C3022.081421.
To minimize healthcare worker exposure to COVID-19, a smart bot was developed that autonomously measures vital signs of patients in isolation wards, allowing staff to focus on non-COVID patients and regular checkups.
Keywords: Autonomous robot, Covid-19, RFID, RPPG
Contribution: Made significant contributions to the conception, design, and development of algorithms for the robot’s functionalities and collaborated with other authors to write the paper.
S. S. Alam, T. Ahmed, M. S. Islam, M. M. F. Chowdhury, “A Smart Approach for Human Rescue and Environment Monitoring Autonomous Robot,” International Journal of Mechanical Engineering and Robotics Research, Vol. 10, No. 4, pp. 209-215, April 2021. https://doi.org/10.18178/ijmerr.10.4.209-215.
To address inaccessibility during natural disasters, a robot was developed that utilizes sensors to avoid obstacles and monitor the environment, while a camera facilitates visual detection for efficient rescue efforts.
Keywords: Four-wheeled robot, rescue, ssh terminal, sensor, wireless
Contribution: Proposed the initial concept and collaborated on developing and testing key functionalities for the robot and made significant contributions to the research paper.