About Us

The Department of ECE was started in the year 2007. The Department offers two year PG programme in VLSI Design with highly qualified Faculty members in the areas of Applied electronics, Signals Processing, Communication systems, VLSI and Embedded systems. The Department is recognized as Research Centre by Anna University, Chennai, Tamilnadu. The department has excellent computing facilities and fully equipped with latest equipments for DSP, electronic system design with latest software's like MATLAB, ORCAD, LABVIEW, NS2.The Department provides the knowledge with which the students can get into core companies. The Department helping students for improving their technical skills in various domain by conducting various workshops, seminars and Guest Lectures.

Programmes offered

UG Programme
  • B.E-Electronics and Communication Engineering- 4 Years

PG Programme
  • M.E- VLSI Design- 2 years

Ph.D Programme
  • Electronics & Communication Engineering (Full Time / Part Time)

Vision & Mission

Vision :

To produce globally competent Electronics and Communication Engineers with strong focus on research social and ethical values

Mission :
  • M1. To foster conducive environment to enable and empower the students in the realm of Electronics and Communication Engineering to meet industry standards.
  • M2. To enhance the students employability through various skill based activities
  • M3. To promote research activities with a strong focus on excellence and innovation to meet the challenges faced by industry and to pursue higher studies
  • M4. To inculcate a sense of ethical and social value among the students.

PEOs,PSOs and POs


The graduates of Electronics and Communication Engineering will be able to :

  • Excel in professional career by applying the knowledge to meet the real time challenges.
  • Apply Electronics and Communication expertise and research to solve interdisciplinary issues.
  • Exhibit soft skills, professional ethics and an ability for life-long learning to resolve societal causes.


The Graduates shall be able to :

  • Understand and apply core domain knowledge of electronics engineering to analyze and solve complex engineering problems of Circuits, Embedded systems and Wireless Communication.
  • Exhibit their innovations in Industrial Internet of things (IIoT) to communicate and share intelligence with external environment for facing the real life challenges.

Programme Outcomes (POs)

Engineering Graduates will be able to :

  • Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  • Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
  • Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
  • Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
  • Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
  • The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
  • Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
  • Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  • Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  • Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
  • Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.



This Laboratory is designed to provide students with fundamental concept and analysis of Electronic circuits as Amplifiers.

Major Equipment
  • Cathode Ray Oscilloscope
  • Digital Function Generator
  • Single Power Supply
  • Dual Power Supply
  • Digital Multimeter
  • Decade Inductance Box
  • Decade Resistance Box
  • Decade Capacitance Box
  • Rheostat
  • Orcad capture with PSPICE

  • Characteristics of basic Electronic Devices
  • Verification of circuit theorems
  • Design of Amplifiers using Transistors
  • Study of Frequency Response of Amplifiers
  • Design of Power Supplies
  • AC to DC Converters
  • Feedback Amplifiers
  • Amplifier Biasing
  • Design of Tuned Amplifiers
  • Design of Oscillators
  • Design of  Various Amplifiers using Simulation software

  • Circuits and Devices Laboratory for First Year ECE Students
  • Circuits and Simulation Laboratory for Second Year ECE Students
  • Circuits and IC Laboratory for Second Year BME Students
  • Engineering Practices Laboratory for all Branch Students

Laboratory In-charge:
  • Ms. J. Banupriya
  • Mr. P. Navaraja


This Laboratory helps the undergraduate students to learn the fundamental techniques of digital electronic circuits of both combinational and sequential circuits. It is also equipped with software simulation.

Major Equipment
  • Digital IC Tester
  • Power Supply
  • Digital Multimeter
  • IC Trainer
  • Computer with HDL Software
  • Consumable components ( IC’s )

  • Study of Logic gates
  • Design and implementation of code converters
  • Design and implementation of Adder/Sutractor
  • Design and implementation of Multiplexer and De-Multiplexer
  • Construction and verification of Counters
  • Implementation of SISO, SIPO, PISO and PIPO shift registers
  • Implementation encoder and decoder

  • Analog and Digital Circuits Laboratory for Second Year ECE Students
  • Circuits and IC Laboratory for Second Year BME Students

Laboratory In-charge:
  • Mr. S. Ramesh
  • Mr. V. Nagaraj


This laboratory enable the students to simulate the experiment with digital signals and systems and to implement digital signal processing algorithms using different computational platforms and DSP tools which enhance the practical exposure in signal processing.

Major Equipment
  • PC’s with Fixed/Floating Point DSP Processor starter kit
  • TMS320C5x
  • Cathode Ray Oscilloscope
  • Function Generator
  • Matlab Software

  • Generation of Sequences & Correlation
  • Implementation of Linear and Circular Convolutions
  • Spectrum Analysis using DFT
  • Design of FIR and IIR Filter
  • Design of Multirate Filters
  • Implementation of Equalization
  • Study of architecture of Digital Signal Processor
  • MAC operation using various addressing modes
  • Implementation of FFT
  • Waveform generation
  • Finite Word Length Effect

  • Digital Signal Processing Laboratory for Third Year ECE Students
  • Digital Signal Processing for Third Year BME Students

Laboratory In-charge:
  • Mr. S. Dineshkumar
  • MR. G. Sasikumar


This Laboratory demonstrate the students in base band signaling schemes through implementation of various shift keying and also demonstrate the capabilities towards the improvement of noise performance of communication system.

Major Equipment
  • Amplitude Modulation Transmitter Kit
  • Amplitude Demodulation Receiver Kit
  • Frequency Modulation and Demodulation Kit
  • PAM/PWM/PPM Modulation and Demodulation Kit
  • PCM Modulation and Demodulation Kit
  • Delta Modulation and Demodulation Kit
  • Data Condition & Carrier Modulation Kit
  • Data Condition & Carrier Demodulation Kit
  • Digital Storage Oscilloscope
  • Matlab with Communication toolbox

  • Signal Sampling and reconstruction
  • Time Division Multiplexing
  • AM Modulator and Demodulator
  • FM Modulator and Demodulator
  • Pulse Code Modulation and Demodulation
  • Delta Modulation and Demodulation
  • FSK, PSK and DPSK schemes
  • Simulation of BPSK, QPSK and QAM
  • Simulation of Zero Forcing and LMS Algorithms
  • Simulation of Communication link schemes

  • Communication systems Laboratory for Third Year ECE Students

Laboratory In-charge:
  • Mrs. S. Sunitha
  • Ms. M. Dharani


This Laboratory demonstrates the students in the introduction of Arithmetic and Logical Concepts of 8086 and 8051 and also interfacing various boards with Microprocessor.

Major Equipment
  • 8086 Microprocessor Kit
  • 8051 Microcontroller Kit
  • 8255, 8279 & 8259 Interface card
  • 8251 & 8253 Interface with RS232 cable
  • ADC & DAC Interface card
  • Stepper motor Interface card
  • DC Motor Interfacing
  • Traffic light Controller Interface card
  • ARM Evaluation Board
  • Digital clock Interface Board
  • Printer Status Interface Board
  • 8085 Microprocessor Kit
  • MASM Software

  • Arithmetic and Logical opertions of 8086
  • Implementation of Code Conversion and Matrix operations
  • Verification of Floating point operations
  • Sorting and Searching of numbers
  • Program for Password checking
  • Program for Counters and Time Delay
  • Implementation of various Interface board with 8086
  • Arithmetic and Logical operations of 8051

  • Microprocessor and Microcontroller Laboratory for Second Year CSE Students
  • Microprocessor and Microcontroller Laboratory for Third Year ECE Students
  • Microprocessor and Microcontroller Laboratory for Third Year BME Students
  • Electronics and Microprocessor Laboratory for Second Year AME Students

Laboratory In-charge:
  • Mrs. V. Annapoorani
  • Mrs. J. Amali


This Laboratory is intend to meet the curriculum needs by experimenting with Operational amplifiers, Multivibrators, Schmitt trigger, Instrumentation Amplifier, Filters, PLL applications and Oscillators. The experiments are designed and analyzed using Operational Amplifiers, Timer IC and simulated using PSPICE software.

Major Equipment
  • Power supply
  • CRO
  • Digital multi-meter
  • Function generator/Signal Generator
  • Analog IC tester
  • Computer with spice installed

  • Inverting, Non inverting and differential amplifiers.
  • Integrator and Differentiator.
  • Instrumentation amplifier
  • Active low-pass, High-pass and band-pass filters.
  • Astable & Monostable multivibrators and Schmitt Trigger using op-amp.
  • Phase shift and Wien bridge oscillators using op-amp.A
  • Astable and monostable multivibrators using NE555 Timer.
  • PLL characteristics and its use as Frequency Multiplier.
  • DC power supply using LM317 and LM723.
  • Simulation of  Active low-pass, High-pass and band-pass filters.
  • Simulation of Astable & Monostable multivibrators and Schmitt Trigger using op-amp.
  • Simulation of  Phase shift and Wien bridge oscillators using op-amp.A
  • Simulation of  Astable and monostable multivibrators using NE555 Timer.
  • Simulation of  D/A and A/D converters (Successive approximation)
  • Simulation of  Analog multiplier
  • Simulation of  CMOS Inverter, NAND and NOR

  • Linear Integrated Circuits Laboratory for Second Year ECE Students

Laboratory In-charge:
  • Ms. G. Nirmala
  • Mr. S. Karthik


This Laboratory make the students to understand the working principle of optical sources, detector, fibers and microwave components and also develop the understanding of simple optical communication link

Major Equipment
  • Optical Trainer kit
  • LED Module
  • LD Module
  • PIN diode characteristics,
  • Optical power meter.
  • Microwave test Bench at X band
  • Reflex klystron with power supply
  • Gunn diode with power supply

Optical Lab

  • Learn DC Characteristics of LED and PIN Photo diode
  • Study Mode Characteristics of Fibers
  • Measure  connector and bending losses  in optical fiber
  • Establish  Fiber optic Analog and Digital Link- frequency response(analog) and eye diagram (digital)
  • Determine  Numerical Aperture for Fibers
  • Calculate the Attenuation Measurement in Fibers
Microwave Lab
  • Study Reflex klystron or Gunn diode characteristics
  • Measure the and basic microwave parameter measurement such as VSWR, frequency, wavelength.
  • Determine the Directional Coupler Characteristics.
  • Measure the Radiation Pattern of Horn Antenna.
  • Measure S-parameter of the following microwave components (Isolator, Circulator, E plane Tee, H Plane Tee, Magic Tee)
  • Calculate Attenuation and Power

  • Optical and Microwave Laboratory for Final Year ECE Students

Laboratory In-charge:
  • Mr. N. Kannan
  • Mr. S. Senthilraj


This Laboratory evaluate the students by importing logic modules into FPGA Boards and also it provides knowledge about synthesize, Route and extract the layouts of Analog IC Blocks using EDA tools.

Major Equipment
  • FPGA Kit (Spartan 3E)
  • HDL software
  • Computer with Xilinx and Cadence installed
  • Mentor Graphics(Front & Back End)

  • Characteristics of basic Digital Circuits
  • Verification of Truth Table of Combinational & Sequential Circuits
  • Design of Combinational Circuits using Logic Gates
  • Design of Sequential Circuits using Flip-Flops
  • Synthesis, P&R and post P&R simulation of the Circuits
  • Hardware fusing and testing of each of the blocks in  counters, state machines, adders (min 8 bit) and multipliers (4 bit min)
  • Design and simulation of a differential amplifier
  • Layout generation, parasitic extraction of counters, state machines, adders and multipliers

  • VLSI Design Laboratory for Third Year ECE Students

Laboratory In-charge:
  • Mr. M. Sathishkumar
  • Mr. V. Soundappan


This Laboratory provide knowledge about the concepts of Building Blocks of Embedded Systems with the the characteristics of Real Time Systems and also to interface memory, I/Os with processor

Major Equipment
  • Dual Storage Oscilloscope
  • Embedded trainer kits with ARM board
  • FPGA kit (Spartan 6E)
  • LED Module
  • Stepper Motor
  • ZIGBEE Transmitter & Receiver

  • Interfacing ADC and DAC.
  • Interfacing LED and PWM.
  • Interfacing real time clock and serial port.
  • Interfacing keyboard and LCD.
  • Interfacing EPROM and interrupt.
  • Interrupt performance characteristics of ARM and FPGA.
  • Flashing of LEDS.
  • Interfacing stepper motor and temperature sensor.
  • Implementing zigbee protocol with ARM.

  • Embedded Laboratory for Final Year ECE Students

Laboratory In-charge:
  • Mrs. M. Sangeetha
  • Mr. B. Reuben


S.No. Name of the Faculty Qualification Designation
1 Dr.S.Prabu M.E.,Ph.D., Associate Professor & Head
2 Dr.S.D Umarani M.E.,Ph.D., Professor
3 Dr .S.Ponlatha M.E.,Ph.D., Associate Professor
4 Mrs.V.Annapoorani M.E Assistant Professor
5 Mr.M.Sathishkumar M.E Assistant Professor
6 Ms.G.Nirmala M.E Assistant Professor
7 Mr.S.Ramesh M.E Assistant Professor
8 Mr.P.Navaraja M.E Assistant Professor
9 Mrs.J.Banupriya M.E Assistant Professor
10 Mr.V.Soundappan M.E Assistant Professor
11 Mr. S. Karthik M.E Assistant Professor
12 Mr. N. Kannan M.E Assistant Professor
13 Mr.S.Dineshkumar M.E Assistant Professor
14 Mr.V.Nagaraj M.E Assistant Professor
15 Mrs.M.Dharani M.E Assistant Professor
16 Ms.M.Sangeetha M.E Assistant Professor
17 Mr.G.Sasikumar M.E Assistant Professor
18 Mr.S.Senthilraj M.E Assistant Professor
19 Mr.K.Sankar M.E Assistant Professor
20 Mr.B.Reuben M.E Assistant Professor
21 Mrs.J.Amali M.E Assistant Professor
22 Mrs.S.Sunitha M.E Assistant Professor


S.No. Name of the Faculty Publication
1 Dr.S.PRABU 18
2 Ms.G.Nirmala 10
3 Mrs.V.Annapoorani 05
4 Mr.M.Sathishkumar 07
5 Mr.V.Soundappan 03
6 Mr.P.Navaraja 02
7 Mr.J.Banupriya 04
8 Mr.S.Ramesh 01
9 Mr.S.Karthik 12
10 Mr.S.Dineshkumar 04
11 Mr.N.Kannan 04
12 Mrs.Dharani 02
13 Mr.V.Nagaraj 01
14 Mr.B.Reuben 01


S.No. Name of the Faculty Qualification Position
1 Mr. C.Prabhu DECE Lab Assistant
2 Mr.S.Srinivasan DAE Lab Assistant


  • Department is recognized as Research Centre by Anna University, Chennai
  • 4 faculties are pursuing Ph.D
  • Faculty members have published 4 Text Books and many Technical Papers in the last three academic years 2014-15, 2015-16 and 2016-17
  • Our Students have undergone Internship in various reputed Private Industries / Organizations.
  • All the students are undergoing skill development programmes like soft skills, communication skills, aptitude and logical reasoning, group discussions and technical interview skills.

Centre of Excellence

Three Centers of Excellence, namely Intel Intelligent Laboratory, Wipro Mission 10x Laboratory and Texas Instruments Analog IC Design Laboratory have been established in last three years.

Short term Courses

S.No Name of Short Term Course /  Value added Course No of Students Benefited
2 Embedded System 30
3 C, C++, JAVA 80
4 IIT Bombay - Spoken Tutorial Project 30
5 Internet Of Things (IoT)”For Emerging Engineering Applications 70
6 Training based on Solar System 40
7 Circuit Design using PSPICE Software 60


Events Organized in the Academic Year 2017-2018

S. No. Events Date Events Name Resource Person
1 Workshop 28.08.2017 & 29.08.2017 Printed Circuit Board  Design Mr.P.Rajasekar Paiva
Managing Director,Evansys Technologies, Chennai
2 Workshop 07.08.2017 & 08.08.2017 Two Days Workshops on Internet Of Things (IoT) Mr.A.Athif shah,
Managing Director,
ABE Semiconductor Designs, Chennai.
3 Guest Lecture 21.09.2017 Digital Signal Processing and its Applications Mrs.M.Samila
Associate Professor, Alpha engineering college
4 Faculty Development Program 04.07.2017 Internet Of Things (IoT)”For Emerging Engineering Applications Mr.A.Athif shah
Managing Director,
ABE Semiconductor Designs, Chennai.
5 One Day Funded Seminar 26.09.2017 Wearable Technology Mr.A.Athif Shah
Managing  Director, ABE Semiconductor Designs, Chennai
6 Project Expo 22.03.2018 Mini Project Expo MITANIAN-2K18 Mr.T.Somasundaram,
HOD/ECE,Mahendra Institute of    Technology, Namakkal(Dt)
Dr.M.Prabu,HOD/BME, Mahendra Institute of Ttechnology,Namakkal(Dt)
7 Symposium 14.09.2017 MITRECKO’17 G.Suresh kumar
Founder,CEO-Mac App Studio
8 Workshop 15.03.2018 &
Robotics- Hand on training on Electronics and Arduino Mr.T.Mohanraj
R&D Team Leader,
FLINTRONZ Education Lab,Karur.

Events Organized in the Academic Year 2016-2017

1 Technical seminar 24-08-2016 Electronic devices Mr.M.Parthiban,
Caliber E-School, Salem.
2 Guest Lecture 06.09.2016 Wireless Mobile  communication Dr.M.Lakshmanan,
Associate Professor, School of Electronics, VIT University, Vellore.
3 Symposium 08.09.2016 MITRECKO’16 Mr.A.Athifsha
Managing Director,
ABE Semiconductor Designs, Chennai.
4 MOU 01.06.2016 MOU Signing Mr.A.Athifsha
Managing Director,
ABE Semiconductor Designs, Chennai.
5 Seminar 28-09-2016 Gate Exam- awareness program Mr.M.Nagaraj, AP/ECE
Mahendra Institute of technology
6 Workshop 09.1.2017 -12.01.2017 Workshop on IOT Mr.A.Athifsha
Managing Director,
ABE Semiconductor Designs, Chennai.
7 Guest lecture 09-01-2017 Embedded systems Digital shark technology , Bangalore
8 Seminar 20.01.2017 How to excel in interview Mr.N.Rajasekar paiva, Managing Director,
Evansys Technologies, Chennai.
9 Workshop 08.03.2017 CMOS mixed signal VLSI Design Mr.S.Navaneethan, Technical Manager,
Boffintech, Salem
10 One day seminar 21.03.2017 Convergence of IOT & Cloud computing Mr.M.Senthilkumar, Research engineer,
Qualcomm Inc , Bangalore.
11 Career guidance 24.02.2017 Career development program M.R..Sachithanandam
IT Analyst,
TCS, Bangalore,
12 MOU 22.02.2017 UTL Technologies UTL Technologies, Bangalore.
13 Project Exhibition 20.03.2017 Project expo’17 Mr P.Pragadeshkumar, and   Mr.V.Nagaraj, AP/ECE  Mahendra Institute of  technology

Events Organized in the Academic Year 2015-2016

1 National level symposium 24.08.2015 MITRECKO’15 Dr.S.Sathiyamoorthy,
Sr.Consultant, Insilicogen inc, south korea,.
2 Mini Project Exhibition-Intra college 24.08.2015 MITRECKO’15 Mrs.V.Renugadevi, AP/ECE
Mr.P.Navaraja , AP/ECE
3 Career guidance 24.08.2015 Recent Trends in Software and Hardware Resource person Ms.S.Harishangare, Associate engineer, Wipro limited, chennai,
4 Workshop
Solar photovoltaic Design, Installation and Maintenance M/s Transun, chennai
5 Career guidance 10.09.2015 Effective method of resume writing-opening in government sector Mr.J.prabakar, process associate , First American pvt ltd, salem,

Events Organized in the Academic Year 2014-2015

1 Symposium 30.08.2014 MITRECKO’14 Dr.Venkatavaradan, Former Director of Nehru Planetarium, Mumbai.
2 Workshop 06.09.2014 Embedded systems - ARM Mr.Vijaya Babu, Application Engineer from Digital Shark Technology
3 MITRECKO 10.09.2014 MITRECKO’14 Mr.V.Anbalagan, SDE CRM Salem

Events Organized in the Academic Year 2013-2014

1 Workshop 06.06.2013 Hand on training on Aurdino Dr.EM.Asok Krishnan
Uniso solution Pvt Ltd.salem
2 Workshop 02.09.2013 Low power in VLSI Design Mr.S.Navaneethan, Tech.Manager,
Boffintech, Salem.
3 Conference 14.03.2014 National Level Conference Mr.Er.M.Krishnan, Chief Guest Executive Manager, SAIL


Department of Electronics and Communication Engineering was approved as a Research Centre by Anna University, Chennai (Code: 4750007) to carryout research activities in various domains.

List of Faculty Members Pursuing Ph.D
S.No. Name of the Faculty Specialization University
1 Ms.G.Nirmala Image Processing Anna University
2 Mr.S.Karthik Image Processing Anna University
3 Mr.V.Nagaraj Smart Grid Anna University
4 Mr.S.Dinesh Embedded Systems Anna University
  • S.Prabu and Dr.E.Logashanmugam, “Analysis of SDR based OFDM in FPGA”, International Journal of Engineering Science and Research(ISSN:2230-8504), vol.4, issue 2,pp-859-863, April 2013.
  • S.Prabu and Dr.E.Logashanmugam, “Design and Implementation of various modulation Techniques in OFDM with Software Defined Radio”, European Journal of Scientific Research (ISSN:1450-216X), vol.102, issue 2,pp-219-226, May 2013.
  • S.Prabu and Dr.E.Logashanmugam, “Design of a novel 8-point modified R2MDC with pipelined Technique for High speed OFDM applications”, Research Journal of Applied Sciences, Engineering & Technology (ISSN:2040-7459), vol.7, issue 23, pp-5021-5025,  June 2014.
  • S.Prabu and Dr.E.Logashanmugam, “Incorporation of Radix-22 Feedforward FFT and Adaptive viterbi decoder into OFDM for wireless applications”, International Journal of Applied Engineering Research (ISSN:0973-4562), vol.9, issue 20, pp-6929-6940, 2014.
  • S.Prabu “Performance analysis of Radix-22 feedforward FFT with wavepipelined technique using cadence tool”, accepted in “International Journal of Engineering Research Science and Technology” (IJERST) in special issue(March 2015) with ISBN number 978-93-84884-2-8.
  • V.Nagaraj , Dr.T.R.Sumithira and S.Prabu,  “Development of Communication Technologies and Networks for Smart Grid”, International Journal of MC Square Scientific Research Vol.8, No.1 Nov 2016.
  • S.Prabu & D.Durgadevi  “sparse channel estimation and channel capacity maximization  using Multi hop MIMO OFDM systems”  , imperial journal of interdisciplinary research (IJIR), vol.No.3,issue 4, 2017, pp 899-904.
  • S.Prabu , “Unfolded pipelining FFT based multipath delay commutator for MIMO OFDM systems”, International journal of printing packaging and allied sciences, Vol. 4, No. 6,, 2016, pp-4232-4241.
  •  Dr.S.Prabu, Dr.S.R.Aarthi, B.S.Suresh , “ Acoustic Echo Cancellation with Aid of IVSS-NLMS Based Filtering and Classification Technique”, Journal of Web Engineering, Vol. 17, No.6 (2018) 2167-2176.
  • G.Nirmala and V.Soundappan “Study of development in Xilinx system generator tool implementation of Real time 2D Images ” , International Journal of Innovative Research in Electronics & Communication (IJRECE) Vol.No4, Issue 4, 2016.
  • V.Annapoorani “Study of recent development in Medical Image processing using computer visualization based method”, International Journal of Innovative Research in Electronics & Communication (IJIREC), Vol. 3,issue 5,2016.
  • Annapoorani  V, “Review on new approach to crosstalk reduction in pcb by area routing algorithm” , International Journal for Innovative Research in Science , Engineering and Technology Vol. 1,issue 1,2017.
  • S.Karthik and V.Annapoorani “Implementation of arithmetic coder used in SPIHT algorithm”,South Asian Journal Engineering & Technology (SAJET) Vol.2,issue .18,2016.
  • S.Karthik “Study on image matching methodologies in image processing applications ”, International Journal for Innovative Research in Science , Engineering and Technology , vol.1, issue.1, 2017.
  • S.Karthik “The Overview of Avionics Full-Duplex Switched Ethernet”,International Journal of Advanced Engineering Research and Science (IJAERS)“ Volume 3,Issue 11 ,November 2016.
  • S.Karthik “Post layout signal integrity test on verigy tester PCB“,  International Journal of Advanced Research in Electronics & Communication Engineering (IJARECE),Vol.5,issue 2,2016.
  • S.Karthik “Advanced RISC machine based multimedia extension processor focused for advanced information appliances“, International Journal for Technology Research in Engineering (IJTRE),Vol.3,issue 6,2016.
  • S.Karthik and J.Banupriya  “Various sonar image analysis techniques for under water object detection“,International Journal For Technological Research in Engineering (IJTRE),Vol.4,issue 3,2016.
  • S.Karthik,S.Dineshkumar and P.Navaraj “study of efficient image processing algorithm for side scan sonar images”, International Journal of Engineering Research and General Science (IJERGS)“ Volume 4,Issue 6 2016. 
  • S.Karthik,M.Sathishkumar and N.Kannan  “Study of Implementation of Image Analysis with Hardware and Software Co-design on the Xilinx Platform”,  International Journal of Innovative Research in Electronics & Communication “(IJIREC) “ Volume 3,Issue 5, 2016. 


Memorandum of Understanding signed during last three academic years 2015-16, 2016-2017 & 2017-2018

S.No Organization Domain/Area Contribution Activities and Outcomes
1 ABE Semiconductor Designs Embedded Internet of Things Technical Training *Students were trained on Embedded Systems with IOT based Applications.
*Organizing the Faculty Development Programme, Workshops and Internship.
*Providing Placement Opportunities.
2 Evansys Technologies Electronic Hardware design Technical Training *Students were trained on PCB Design.
3 STEPS Knowledge Services Pvt Ltd Analog Integrated circuits Technical Training *Students were trained on Analog Integrated circuits and its various applications. 
*Conducting National level technical Contest.
4 Transun Energy systems Solar Energy Technical Training *Guest Lecture, Internship, Workshop, In Plant Training and Placement opportunities.


Department of Electronics and communication engineering
Mahendra Institute of Technology
Salem- Thiruchengode Highway,
Phone: 04288-325777
E-Mail id: hodece@mahendratech.org