Adi Shankara Institute of Engineering and Technology,
Vidya Bharathi Nagar, Mattoor, Kalady, Ernakulam District, Kerala, India.
In association with
A2Z EduScaleUp India Pvt Limited
HYBRID MODE
Online:Zoom Platform
Offline: ASIET Campus
4th & 5th April 2025
Time: 9:30 AM - 4.00 PM
The proposal for the conference titled "International Conference on Innovations in Mechanical Robotics Computing and Biomedical Engineering" set to take place on April 4-5, 2025, at the Adi Shankara Institute of Engineering and Technology, aims to bring together leading minds from academia, research, and industry. This event will focus on the latest developments in biomedical engineering, robotics, computer science, artificial intelligence and mechanical engineering, providing a platform for the exchange of innovative ideas and research. The conference will feature multiple tracks covering key areas such as biomedical imaging, neuroengineering, biomaterials, nanotechnology, robotics, computing,artificial intelligence and control systems. With a structured submission and peer-review process, the event promises to showcase high-quality research and discussions. The budget and financial planning have been meticulously detailed, with substantial support expected from the college, ensuring the smooth execution of the event. Additionally, the conference will include a preconference workshop on medical device testing and calibration, further enriching the participants' experience.
Dr. Vijay Vaidyanathan
Dr. Vijay Vaidyanathan is a Professor and the Founding Chair of the Department of Biomedical Engineering at the University of North Texas (UNT). He earned his Ph.D. in Biomedical Engineering from Texas A&M University in 1998, with a dissertation titled "A study of 5-ALA induced fluorescence in the canine oral cavity." He also holds an M.S. in Biomedical Engineering from Texas A&M University and dual bachelor's degrees in Electronics Instrumentation and Physics from the University of Bombay, India.
Dr. Vaidyanathan's research interests include biomedical instrumentation, exoskeletons for the elderly, and biomedical optics, particularly in the detection of cancer. Under his leadership, the Department of Biomedical Engineering at UNT has experienced significant growth since its inception in 2014. Within three years, the department expanded to over 230 students, with a notably diverse undergraduate body comprising over 42% female students—the highest in the College of Engineering. In June 2019, the department moved into a new building featuring dedicated research and teaching laboratories.
Dr. Vaidyanathan is recognized for his commitment to student understanding of both the informational and ethical foundations of biomedical engineering. Students have described him as a "fantastic professor" who emphasizes comprehensive understanding in the field.
Design and Manufacturing
Dynamics and Control Systems
Fluid Mechanics and Micro fluids
Material science and Engineering
Field Robotics and Autonomous Vehicles
Robotics and Artificial Intelligence
Medical Rehabilitation and Assistive Robotics
Biomedical Imaging and Signal Processing
Biomaterials and Tissue engineering
Biomedical Sensors
Devices and Instrumentations
Machine Learning and Deep Learning
Data science and Predictive Models
AI and Its Applications
Business Data Analytics
Block Chain and Cloud Technologies
High Performance Computing
Cyber Security and Forensics