Ulaganathan J is an Assistant Professor with an experience of 10years and Research Scholar at Ballari Institute of Technology and Management. He holds a B.E. in Electronics and Communication Engineering from BITM and an M.Tech in VLSI System Design from St. John College of Engineering and Technology, Yemmiganur, affiliated with JNTUA. His research interests include VLSI, Microelectronics, Artificial Intelligence, and Digital Communication. The author has attended many national and international conferences and has written research papers on these fields.
EDUCATION
B.E, M.Tech(VLSI System Design)
RESEARCH, TEACHING, or OTHER INTERESTS
Electrical and Electronic Engineering, Artificial Intelligence, Management Information Systems
Efficient Fault Diagnosis of Squirrel Cage Induction Motors in Industrial Applications Using an CNN-LSTM Approach Ulaganathan Jayapal, Sadyojatha Kalapur Mutt Journal Europeen Des Systemes Automatises, 2025 This paper presents a Convolution Neural Network-Long Short Term Memory (CNN-LSTM) network architecture technique for defect diagnosis of squirrel cage induction motors.The CNN-LSTM strategy uses LSTM's ability to represent sequential data and CNN's ability to extract spatial features.The process involves gathering and preprocessing motor sensor data, processing it as 1D representations, and extracting spatial characteristics.CNN layers identify patterns in the data, while an LSTM network captures dependencies temporarily within feature sequences.The CNN-LSTM model classifies motor condition into fault categories or normal functioning.Extensive experimentation is conducted for assessing effectiveness of the CNN-LSTM technique, with the accuracy highest of 90.6% compared with technique existing.This method provides a reliable and effective method for defect diagnosis in industrial applications.
Paradoxical monitoring of urban areas & mailbags tracking system using RFID & GPS P. S. Abdul Lateef Haroon, U. Eranna, I. Raymond Irudayaraj, J. Ulaganathan, R. Harish International Conference on Electrical Electronics Communication Computer Technologies and Optimization Techniques Iceeccot 2017, 2017 Everybody wants to build Smart Cities but what is needed to make them come true. Which city pain points are hindering Smart City development and how can they be best overcome. The big cities in India are normally crowded and the city's existing infrastructure falls short to satisfy the growing needs. This problem is also combined with the inefficient use of parking space and uneven distribution of traffic which leads to congestion in vehicular traffic. This paper proposes a design approach for a smart car parking system based on controllers. By detecting the vehicle movement on highways and switching on the block of street light ahead of it and simultaneously switching off the trailing lights is something which can save huge amount of power consumption in National highways. In the aviation industry, have been looking for the opportunity to adopt RFID in baggage handling for a long time. RFID tags were found to be far more accurate than bar codes. Developments in logistics have been changing the world faster than ever. Radio frequency identification (RFID) is an emerging technology that is increasingly being used in business and industry. RFID tags are chips embedded in items which store and transmit information about these items. Most RFID tags store data that identifies a specific item. RFID readers are radio frequency transmitters and receivers that communicate with the tags. Readers, using an attached antenna, receive data from the tag and then pass it to a computer system for processing. The computer system receives the data from the RFID reader through a cable or wireless connection for storage, interpretation and action.
Analysis of various full-adder circuits in cadence Manjunath K M, Abdul Lateef Haroon P S, Amarappa Pagi, Ulaganathan J 2015 International Conference on Emerging Research in Electronics Computer Science and Technology Icerect 2015, 2016 The Adder is the important part in any processor/controller design. Till date there are a plenty of 1-bit full-adder circuits which have been proposed and designed. In this paper we have a analytic and comparative description of various full adder circuits, considering various constraints like power consumption, speed of operation and area. The circuits are designed in the virtuoso platform, using cadence tool with the available GPDK - 45nm kit. The Fulladder circuits with the most 28 transistor to the one with only 6 transistors are successfully designed, simulated and compared for various parameters like power consumption, speed of operation(delay) and area (transistor count), and finally concluded the best designs, that suite for the particular specifications.
