M. Brindha

Work place: Department of ECE, M. V.J College of Engineering, Bangalore-560067, India

E-mail: brindha_mo47@yahoo.com


Research Interests: Computer systems and computational processes, Embedded System, Systems Architecture, Process Control System, Data Structures and Algorithms


M.Brindha completed Bachelor in Engineering in Electronics and Communication in 2004, Master of Engineering in Electrical Drives and Embedded Control from Anna University, Chennai (2007). She is currently an Associate Professor in the Department of ECE, M.V.J. College of Engineering, Bangalore, India. She has published many journals and attended many Conferences in National and International Level. Her research areas are Embedded Systems, Control system, Networking, FPGA Implementation and Algorithms. Email: Brindha_mo47@yahoo.com.

Author Articles
Networked Control System – A Survey

By M. Brindha J K Mendiratta

DOI: https://doi.org/10.5815/ijmecs.2013.06.06, Pub. Date: 8 Jun. 2013

Networked Control System (NCS) is a synthetic application which combines control science, computer science and network technology. It is a kind of feedback control systems wherein the control loops are closed through real time control network. NCS technology is applied in industry control system because of its simple structure, easy maintenance and high reliability. Networked control systems (NCSs) have been gaining popularity with their high potential in widespread applications and becoming realizable with the rapid developments in computer, communication and control technologies. This paper reviews the development history of the NCS, and point out the field of further researches.

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An Analogous Computation of Different Techniques for The Digital Implementation of Inverter and NAND Logic Gates

By I.Hameem Shanavas M. Brindha V.Nallusamy

DOI: https://doi.org/10.5815/ijieeb.2012.04.05, Pub. Date: 8 Aug. 2012

Feature size reduction in microelectronic circuits has been an important contributing factor to the dramatic increase in the processing power of computer arithmetic circuits. However, it is generally accepted that MOS based circuits cannot be reduced further in feature size due to fundamental physical restrictions. Therefore, several emerging technologies are currently being investigated. Nano devices offer greater scaling potential than MOS as well as ultra low power consumption. Nano devices display a switching behaviour that differs from traditional MOS devices. This provides new possibilities and challenges for implementing digital circuits using different techniques like CNTFET,SET, FinFET etc. In this work the design of Inverter and Nand gate using CNT, SET and FinFET has been analyzed elaborately with its own advantageous of the mentioned techniques.

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