B.E-Electronics and Communication Engineering
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- B.E-Electronics and Communication Engineering
About The Department
The Department was started with the sanctioned intake of 60 in the year 2005. The annual sanctioned intake was increased to 90 in the academic year 2007-2008. The Department started its P.G. program M.E. (Applied Electronics) in the year 2011 – 2013 with the sanctioned intake of 18 and M.E. (VLSI Design) in the year 2014 – 2015 with the sanctioned intake of 18. The U.G. Program of the Department was accredited by National Assessment and Accreditation Council (NAAC) first in the year 2015 for 5 years. The accreditation was renewed in the year 2020 for 5 years. The department has highly qualified and well experienced faculty and skilled technical staff.
The Department has been consistently achieving academic excellence in terms of University Results and with 2 University Ranks in UG and 1 University Ranks since the establishment of the Department. The Department has a dedicated team of faculty members who contribute towards achieving academic excellence with a well proven teaching and learning methodology, Mentoring system for students and with innovative teaching techniques as required. The fields of the specialization of the faculty members cover VLSI Design, Telecommunications, IoT, Digital Signal Processing, Embedded Systems, Microprocessor, MEMS, Bio Signal processing and Medical Image Processing.
Laboratory
Lab Facilities and Areas of Specialization : The Department aims at providing value based training and skills needed for the students in the Electronics and Communication industry. The Department has well equipped laboratory facilities in the areas of Electronics System Design Laboratory
1. Advanced Communication Laboratory
2. Embedded Laboratory
3. VLSI Design Laboratory
4. Microprocessor and Microcontroller Laboratory
5. Communication Networks Laboratory
6. Communication Systems Laboratory
7. Digital Signal Processing Laboratory
8. Linear Integrated Circuits Laboratory
9. Circuits Design and Simulation Laboratory
10. Analog and Digital Circuits Laboratory
11. Circuits and Devices Laboratory
12. Data Structures Laboratory
13. IoT Laboratory
Vision & Mission
Vision
- To contribute to the society through quality technical education in order to create competent and capable engineers in the field of Electronics and Communication Engineering.
Mission
- Providing a learning experience by integrating theoretical and practical aspects through quality resources.
- Encouraging research activities to explore new ideas and technologies to meet industry requirements
- Enhancing the competencies of Engineers through personal and professional skill development.
HOD & Faculty
HOD
Mrs.S.Kokila
Head of Department
Department of Electronics and Communication Engineering
- S.Kokila Assistant Professor and Head, Department of Electronic and Communication Engineering, Gojan school of business and technology. She obtained his B.E degree in Electronics and Instrumentation Engineering from Anna university , Chennai in the year of 2004, M.Tech in VLSI and Embedded Sysems from Dr.M.G.R.Educational and Research Institute, Maduravoyal, Chennai in the year 2010. She has been in teaching Profession for the past 15 years She has published 3 Scopus paper organized Symposium & National Conference. She received Janakiammal Women Empowerment Award in the year 2023 and Exceptional Career Achievement Award in the year 2023
Department Faculties
| S.NO | Name | Academic Designation |
|---|---|---|
|
1 |
Mrs. Kokila S |
Assistant Professor/HOD |
|
2 |
Dr. Selvakumar C |
Professor/Principal |
|
3 |
Dr. Lakshminarayanan S |
Professor |
|
4 |
Dr. Arunsankar G |
Professor/ Director Academic Affairs |
|
5 |
Mr. Ramadhurai R |
Associate Professor/ Director Student Affairs |
|
6 |
Mr. Prabu K |
Assistant Professor/ Placement Officer |
|
7 |
Mrs. Ilavarasi D |
Assistant Professor |
|
8 |
Mrs. Leelavathi U |
Assistant Professor |
|
9 |
Mrs. Sandhiya R |
Assistant Professor |
|
10 |
Mrs. Hemalatha K H |
Assistant Professor |
|
11 |
Mrs. Nishanthi U |
Assistant Professor |
|
12 |
Mr. Maniyarasan S |
Assistant Professor |
|
13 |
Mr. Mahendran C |
Assistant Professor |
|
14 |
Mr. Jeyamohan V
|
Assistant Professor |
|
15 |
Ms. Lakshmi V |
Assistant Professor |
|
16 |
Mrs. Saranya V |
Assistant Professor |
PEOs, PSOs,POs
Program Educational Objectives (PEOs)
- Graduates will develop the ability to identify, formulate and solve challenging problems in the field of Electronics and Communication Engineering
- Graduates will be able to exhibit and demonstrate leadership skills with ethical values in their profession.
- Graduates will excel as socially responsible engineers researchers or entrepreneurs.
Program Specific Outcomes (PSOs)
- Apply the fundamentals concepts of Electronics and Communication Engineering to design a variety of components and systems for applications including signal processing, image processing, communication, networking, embedded systems, and VLSI Design.
- Adapt to emerging technologies to provide feasible solutions, using software and hardware to solve complex problems.
Program Outcomes (POs)
- 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 lifelong learning in the broadest context of technological change.
course Outcomes
Third Semester
III SEM R-2017
| Course Code | Course Name | Course Outcome(CO) Students will be able to | Knowledge Level |
|---|---|---|---|
|
EC8391 |
Control System
Engineering |
CO1: Describe the concepts and techniques
involved in designing control schemes for
dynamic systems |
K2
|
|
CO2: Analyze closed-loop control systems for
stability and steady-state performance |
K4
|
||
|
CO3: Design PD,PI and PID controllers for
given control system model using MATLAB |
K5 |
||
|
CO4: Design Lead, Lag, Lead-Lag systems in
control systems |
K3 |
||
|
CO5: Compute stability of linear systems
using the Routh array test and use this to
generate control design constraints |
K2 |
||
|
CO6: Compute gain and phase margins from
Bode diagrams and Nyquist plots in terms of
stability |
K2 |
||
|
CO7: Illustrate the state space model of a
physical system and discuss the concepts of
sampled data control system |
K2 |
||
|
CO8: Design various transfer functions of
digital control system using state variable
models |
K3 |
III SEM R-2017
|
COURSE OUTCOMES
|
|||
|
COURSE CODE/ NAME : MA8451 / PROBABILITY AND RANDOM PROCESS |
|||
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
The fundamental knowledge of the concepts of probability and have
knowledge of standard distributions which can describe real life
phenomenon. |
K4 |
|
CO 2 |
The basic concepts of one and two dimensional random variables and
apply in engineering applications. |
K3 |
|
CO 3 |
Apply the concept random processes in engineering disciplines. |
K3 |
|
CO 4 |
Apply the concept of correlation and spectral densities. |
K3 |
|
CO 5 |
The students will have an exposure of various distribution functions and
help in acquiring skills in handling situations involving more than one
variable. Able to analyze the response of random inputs to linear time
invariant systems |
K4 |
COURSE CODE/ NAME: EC8451 Electromagnetic Fields
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Define and recognize different co-ordinate systems |
K1 |
|
CO 2 |
Estimation of electric fields on various material |
K3 |
|
CO 3 |
Estimation of magnetic fields on various aterial |
K3 |
|
CO 4 |
Apply and Analyze Maxwell’s equations in point and
intergal form |
K3 |
|
CO 5 |
Analysis the nature of electromagnetic wave propagation
in various medium |
K2 |
|
CO 6 |
Boundary in conductor and dielectric in plane wave |
K3 |
COURSE CODE/ NAME: EC8452 ELECTRONICS CIRCUITS II
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Design and Analysis of feed back amplifier |
K3 |
|
CO 2 |
Design of LC Oscillator circuit & Design of
RC Oscillator circuit |
K3 |
|
CO 3 |
Analysis the performance of tuned Amplifier |
K2 |
|
CO 4 |
Design of Multi-vibrator circuits |
K2 |
|
CO 5 |
Analysis of Wave shaping circuits |
K3 |
|
CO 6 |
Design of Power Amplifier and DC
Converter |
K3 |
COURSE CODE/ NAME: EC8453 Linear Integrated Circuits
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Design
linear &
non-linear
application
of
operational
amplifier |
K2 |
|
CO 2 |
Design
application
of Analog
Multiplier
& PLL |
K2 |
|
CO 3 |
Design of
Analog to
Digital
Converter
using
operational
amplifier |
K2 |
|
CO 4 |
Design of
Digital to
Analog
Converter
using
operational
amplifier |
K3 |
|
CO 5 |
Generate
waveform
using
operational
amplifier |
K3 |
|
CO 6 |
Analysis
of Special
function
IC’s |
K2 |
| Course Code | Course Name | Course Outcome(CO) Students will be able to | Knowledge Level |
|---|---|---|---|
|
EC8491 |
Communicati
on Theory.
|
CO1:Design various Amplitude
Modulation Communication
Systems.
|
K2
|
|
CO2:Design the different types Angle
Modulated Communication
Systems |
K4
|
||
|
CO3: Apply the Concepts of Random
Process to design the various
Communication Systems.
|
K3 |
||
|
CO4: Analyze the noise performance
of AM and FM systems |
K4 |
||
|
CO5:Analyze the Fundamental Signal
processing operations such as
Sampling and Quantization |
K2 |
||
|
CO6:Need of sampling and different
sampling techniques. |
K2 |
V SEM R-2017
| Course Code | Course Name | Course Outcome(CO) Students will be able to | Knowledge Level |
|---|---|---|---|
|
EC8491 |
Communicati
on Theory.
|
CO1:Design various Amplitude
Modulation Communication
Systems.
|
K3
|
|
CO2:Design the different types Angle
Modulated Communication
Systems |
K2
|
||
|
CO3: Apply the Concepts of Random
Process to design the various
Communication Systems.
|
K2 |
||
|
CO4: Analyze the noise performance
of AM and FM systems |
K3 |
||
|
CO5:Analyze the Fundamental Signal
processing operations such as
Sampling and Quantization |
K3 |
||
|
CO6:Need of sampling and different
sampling techniques. |
K3 |
||
|
CO7: Discuss about Fixed point and floating
point number representations |
K2 |
||
|
CO8: Illustrate the finite word length effects on
filters |
K2 |
||
|
CO9: Explain the fundamentals of multirate
signal processing techniques |
K2 |
||
|
CO10: Apply Adaptive Filters to equalization |
K2 |
VI SEM R-2017
|
COURSE OUTCOMES
|
|||
|
COURSE CODE/ NAME: EC8651 Transmission Line And RF System |
|||
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Discuss the fundamental concepts of wave propagation in Transmission
Lines and losses |
K3 |
|
CO 2 |
Analyze signal propagation at radio frequencies |
K4 |
|
CO 3 |
Apply smith chart for line parameter and impedance calculations |
K4 |
|
CO 4 |
Analyze the characteristics of TE and TM waves in wave guide |
K3 |
|
CO 5 |
Design a RF transceiver system for wireless communication |
K4 |
|
CO 6 |
Analyze of various gain in RF system |
K3
|
COURSE CODE/ NAME: EC8691 Microprocessor and Microcontroller
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Discuss bout the basics of Micro/ nano electromechanical systems
including their Applications and advantages
|
K2 |
|
CO 2 |
Study about the different materials used in micro fabrication methods |
K2 |
|
CO 3 |
Study about the different types of MEMS sensors and its applications |
K2 |
|
CO 4 |
Study about the different types of MEMS actuators and its applications |
K2 |
|
CO 5 |
Knowledge of theoretical foundations of quantum mechanics and
Nano systems
|
K3 |
COURSE CODE/ NAME: EC8095 VLSI DESIGN
| COs | Students Will Able To | Knowledge Level |
|---|---|---|
|
CO 1 |
Discuss about CMOS fabrication flow and technology scaling |
K2 |
|
CO 2 |
Design MOSFET based logic circuit |
K4 |
|
CO 3 |
Demonstrate layout of a given logic circuit |
K4 |
|
CO 4 |
Realize logic circuits with different design styles |
K3 |
|
CO 5 |
Develop an understanding of working principle of operation of different
types of memories |
K2 |
|
CO 6 |
Describe the of working principles of clocking, power reduction and
distribution |
K2
|
EC8652 Wireless Communication
| Course Code | Course Name | Course Outcome(CO) Students will be able to | Knowledge Level |
|---|---|---|---|
|
EC8652 |
Wireless
Communication
|
CO1:Characterize a wireless channel and evolve
the system design specifications. |
K3
|
|
CO2:Discuss a cellular system based on resource
availability and traffic demands |
K2
|
||
|
CO3: Discuss about digital signaling used in
cellular system
|
K2 |
||
|
CO4: Identify suitable signaling and multipath
mitigation techniques for the wireless
channel and system under consideration.
|
K3 |
||
|
CO5:Illustrate a process and its functions of
transmit/receive diversity and MIMO
systems.
|
K2 |
||
|
CO6: Understand emerging technologies required
for fourth generation mobile system such as
MIMO. |
K1 |
EC3354 SIGNALS AND SYSTEMS
|
COs |
Course Out comes |
|
CO1 |
Describe and understand fundamental concepts related to signals and
systems, including time-domain and frequency-domain representations. |
|
CO2 |
Have knowledge of the concepts needed to test the logic of a program |
|
CO3 |
Understand the concept for the analysis of Linear Time InvariantContinuous Time Systems for time and frequency domains |
|
CO4 |
Understand the concept to Analyze the Discrete Time Signals |
|
CO5 |
Understand the concept for the analysis of Linear Time InvariantDiscrete Time Systems for time and frequency domains
|
Fourth Semester
EC3451 Linear Integrated Circuits
|
COs |
Course Out comes |
|
CO1 |
Ability to Understand the basics and Characteristics of OP-AMP |
|
CO2 |
Ability to Apply the concept of OP-AMP to design linear and nonlinear
application |
|
CO3 |
Ability to Apply the concept of OP-AMP to study multiplier IC, PLL and its
application. |
|
CO4 |
Ability to Apply the concept of OP-AMP to design ADC and DAC |
|
CO5 |
Ability to Apply the concept of OP-AMP to design waveform generators.
|
|
CO6 |
Ability to Analyze the special function ICs
|
EC 3401 NETWORK SECURITY
|
COs |
Course Out comes |
|
CO1 |
Understanding various protocols using OSI ,TCP and ,wireless Lan network
models. |
|
CO2 |
Applying and classify the routing protocols, IP addressing in network protocols. |
|
CO3 |
Explore the methods of transport layer protocols in various congestion control. |
|
CO4 |
Analyzing the network security mechanisms by using the RSA algorithm,secure
hash functions. |
|
CO5 |
Design and implement the various hardware security attacks and counter
measures. |
|
CO6 |
Discuss the various attacks in hardware security in technologies. |
EC 3452 Subject : Electromagnetic Fields
|
COs |
Course Out comes |
|
CO1 |
Analyze field potentials due to static charges and static magnetic fields. |
|
CO2 |
Understand the fundamental electromagnetic laws and concepts. |
|
CO3 |
Write Maxwell’s equations in integral, differential and phasor forms and
explain their physical significance. |
|
CO4 |
Understand the principles of electromagnetic wave propagation in lossy
and in lossless media.
|
|
CO5 |
Solve simple problems requiring estimation of electric and magnetic
quantities based on these concepts and laws |
|
CO6 |
Analyze transmission line problems and understand the application of
Electromagnetic waves in real world problems. |
EC3492 Digital Signal Processing
|
COs |
Course Out comes |
|
CO1 |
Apply DFT for the analysis of digital signals and systems |
|
CO2 |
Design IIR and FIR filters |
|
CO3 |
Analyze finite Word length effect on filter |
|
CO4 |
Design the Multi rate Filters |
|
CO5 |
Apply Adaptive Filters to equalization |
|
CO6 |
Analyze and apply suitable DSP algorithm for specific application |
Fifth Semester
EC3552 VLSI AND CHIP DESIGN
|
COs |
Course Out comes |
|
CO1 |
Understand the Mos Transistor Principles to learn the
characteristics and IC technology |
|
CO2 |
Understand the concept of Mos transistor to learn the
combinational circuits. |
|
CO3 |
Understand the principles of Mos transistor to learn the sequential logic
circuits and clocking strategies. |
|
CO4 |
Apply the basics of combinational and sequential logic to learn the
memory architecture |
|
CO5 |
Apply the coding techniques to learn ASIC design and testing |
CEC366 IMAGE PROCESSING
|
COs |
Course Out comes |
|
CO1 |
Understand the basics and fundamentals of digital image processing to
learn its digitization, sampling, quantization, and 2D-transforms. |
|
CO2 |
Apply the Spatial and Frequency domain techniques of smoothing,
sharpening to learn the Image enhancement process. |
|
CO3 |
Apply the filtering techniques to learn the restoration concepts. |
|
CO4 |
Apply the basics of segmentation, features extraction, compression and
recognition methods to learn the color models. |
|
CO5 |
Apply the coding techniques to learn image compression concepts. |
|
CO6 |
Apply the concepts of image processing in Biometrics applications. |
CEC352 : SATELITE COMMUNICATION
|
COs |
Course Out comes |
|
CO1 |
Describe Satellite parameters and launching procedures of satellite systems |
|
CO2 |
llustrate the satellite space segment and components |
|
CO3 |
Compute link budget for satellites to calculate received power |
|
CO4 |
Apply the different accessing schemes for satellite communication systems
|
|
CO5 |
Apply encryption techniques to access satellite communication |
|
CO6 |
Discuss the satellite systems with different applications |
CBM370 Wearable Devices
|
COs |
Course Out comes |
|
CO1 |
Understand the need for wireless health system to learn the application of
wearable systems. |
|
CO2 |
Understand the concept of energy harvestings techniques to learn its methods
and signal acquisition for wearable devices. |
|
CO3 |
Understand the design of wireless body area networks in health care. |
|
CO4 |
Understand the concept of smart textile to learn the fabric techniques for
monitoring the various biological parameters. . |
|
CO5 |
Apply to design the healthcare system to learn the wearable devices in patient
monitoring |
|
CO6 |
Apply the concept of wearable system to learn the wearable devices in field of
medicines |
Sixth Semester
EC8652 WIRELESS COMMUNICATION
|
COs |
Course Out comes |
|
CO1 |
Understand the Characteristics of wireless channels to learn propagation path
loss |
|
CO2 |
Understand the fundamentals of Cellular Architecture students will able to
learn hand off , capacity improvement |
|
CO3 |
Apply various digital signaling schemes for wireless communication channels
which will able to solve error performance. |
|
CO4 |
Apply the different accessing schemes for satellite communication systems
|
|
CO5 |
Apply multiple antenna techniques to learn transmit and receive diversity. |
|
CO6 |
Apply the various techniques of Wireless Communication systems. |
EC8691 MICROPROCESSOR AND MICROCONTROLLER
|
COs |
Course Out comes |
|
CO1 |
Design and implement the architecture of 8086 microprocessor based
systems |
|
CO2 |
Examine the 8086 signals, bus structure and I/O programming |
|
CO3 |
Analyse various I/O interfacing mechanisms with 8086 microprocessor |
|
CO4 |
Examine various programming and application case studies based on
8086 microprocessor |
|
CO5 |
Design and implement the architecture of 8051 microcontroller and
various interfacing mechanisms |
|
CO6 |
Examine various programming and application case studies based on 8051
microcontroller |
EC8691 Subject: VLSI DESIGN
|
COs |
Course Out comes |
|
CO1 |
Discuss about CMOS fabrication flow and technology scaling |
|
CO2 |
Design MOSFET based logic circuit |
|
CO3 |
Demonstrate layout of a given logic circuit |
|
CO4 |
Realize logic circuits with different design styles
|
|
CO5 |
Develop an understanding of working principle of operation of different
types of memories
|
|
CO6 |
Describe the of working principles of clocking, power reduction
and distribution |
Seventh semester
EC8751 Optical Communication
|
COs |
Course Out comes |
|
CO1 |
Understand the basic principles of optical fiber communication to learn
its basic elements in optical fibers, different modes and configurations. |
|
CO2 |
Understand the different kinds of signal degradation factors in optical
fiber Communication to learn the transmission characteristics associated
with dispersion and polarization techniques. |
|
CO3 |
Apply the principles of optical fiber communication to learn the
design of optical sources and detectors. |
|
CO4 |
Apply the principles of optical fiber communication to learn the
design of fiber optic receiver systems, measurements and coupling
techniques.
|
|
CO5 |
Apply the design of optical fiber communication systems to learn its
Optical interfaces. |
|
CO6 |
Apply the design of Optical Interfaces to learn the Silicon Photonic
Circuits |
OIC751 Transducer Engineering
|
COs |
Course Out comes |
|
CO1 |
Understand the different types of units and standards and to learn the
measurement system and error analysis |
|
CO2 |
Apply the static and dynamic characteristics of transducer and to study
the different responses of the measuring systems
|
|
CO3 |
Understand about construction ,operation resistive transducers used for
measuring various parameters like temperature , humidity |
|
CO4 |
Understand about construction ,operation variable inductance and
capacitive transducers and to learn its real time applications |
|
CO5 |
Understand the various transducers and to learn its recent applications |
|
CO6 |
Understand the design of RF MEMS switch |
EC8791 EMBEDDED AND REAL TIME SYSTEMS
|
COs |
Course Out comes |
|
CO1 |
Understand about embedded system process and to learn design
example and programming |
|
CO2 |
Understand about the ARM architecture and to learn the different types
of ARM architectures |
|
CO3 |
Understand the embedded progragraming and to learn the program
levels and performance analysis |
|
CO4 |
Understand the real time operating systems and learn the methods of
evaluating operating system performance |
|
CO5 |
Understand the MPSoCs and learn the Shared memory Multiprocessors |
|
CO6 |
Understand the Attribute the modern real time embedded system
concepts and learn the various application |
EC8702 Ad hoc and Wireless Sensor Networks
|
COs |
Course Out comes |
|
CO1 |
Understand the concepts of ad hoc wireless networks to learn its issues
and routing protocol |
|
CO2 |
Understand the architecture of Wireless sensor networks to learn its
fundamentals and technologies. |
|
CO3 |
Apply the knowledge of Wireless Sensor Networking to learn the
physical and MAC layer protocols. .. |
|
CO4 |
Understand the Sensor Network Security to learn the different attacks
and transport layer in WSN |
|
CO5 |
Apply the various Sensor Network platforms and tools to learn its basic
modules. |
|
CO6 |
Apply the concept of Wireless Sensor Network to learn its OS and
programming |
Department Advisory Committee (DAC)
A Department Advisory Committee (DAC) for the Department of Medical Electronics Engineering is a group of individuals typically composed of experts, professionals, and
stakeholders who provide guidance, insights, and advice to the department. The committee plays a crucial role in ensuring the quality and relevance of the department’s academic programs, research activities, and overall strategic direction.
Roles And Responsibilities Of The Departmental Advisory Committee (DAC)
1.Contribute to the development and review of the department’s strategic plan.
2. Provide insights on long-term goals and objectives that align with industry trends and societal needs.
3. Review and evaluate the department’s academic programs to ensure they meet current industry standards and are aligned with technological advancements.
4. Provide recommendations for program improvement and development.
5. Advise on the design and modification of academic curricula to ensure they remain relevant and responsive to industry needs.
6. Identify opportunities for internships and industry partnerships.
7. Advise on strategies to enhance the employability of graduates and provide recommendations for incorporating practical, hands-on experiences into the curriculum.
8. Provide feedback on accreditation processes and quality improvement initiatives.
9. Support initiatives for faculty and staff professional development and Offer guidance on training and certifications relevant to industry needs.
10. Periodically evaluate the effectiveness of the DAC in fulfilling its responsibilities.
11. Prepare reports summarizing recommendations and outcomes of DAC meetings.
12. Foster open communication between the DAC, department faculty, students, and other stakeholders.
Following are the members of the DAC:
| S.NO | NAME OF FACULTY | ROLE AND DESIGNATION |
|---|---|---|
|
1 |
Dr.C.Selvakumar |
PRINCIPAL |
|
2 |
Dr.G.Arunsankar |
DIRECTOR -Academic Affairs |
|
3 |
Mr.R.Ramadhurai |
DIRECTOR – Student Affairs |
|
4 |
Mr.L.Suresh Raj |
IQAC HEAD |
|
5 |
Mrs.S.Kokila |
HOD |
Board of Studies
The Board Of Studies (BOS) for medical electronics engineering is a critical body responsible for overseeing and ensuring the quality, relevance, and currency of academic programs in medical electronics engineering. The BOS typically consists of academic experts, professionals from the industry, and other stakeholders.
COMPOSITION OF BOARD OF STUDIES:
- The Head of the Department as Chairman.
- All Professor / Associate Professor / Assistant Professor of the Department.
- One senior professor to be co-opted by the BoS from other department nominated by the Director in consultation with Head of Department (If necessary).
- One subject expert (ACADEMIC) nominated by the Director on the recommendation of the Head of concerned Department.
- One subject expert (R&D / INDUSTRY) nominated by the Director on the recommendation of the Head of concerned Department.
- In addition to the above members, One Senior Alumni (ACADEMIC / R&D / INDUSTRY) to be co-opted by the BoS nominated by the Director in consultation
with Head of the Department. (If necessary).
Constitution And Functions Of Board Of Studies:
1.The BoS shall be constituted by the department for a period of THREE years.
2. The meetings of the BoS shall be arranged at least ONCE IN A YEAR.
3. The members of the BoS will be nominated by the Director from the list recommended by the Head of the department
4. In the absence of the Chairman (BoS), the senior member of the BoS will act as Chairman with the director’s approval.
5. The BoS shall co-opt experts in a particular field as a member of BoS with prior approval of the Director
6. The Board of Studies shall have a power
Events and Activities
| Date | Time | Title | Venue | Resourse Person Name |
|---|---|---|---|---|
|
1 |
11.00-1.00 Pm |
Workshop
On
VLSI Design
|
VLSI Lab |
Dr.Yuvaraj S
Assistant Professor
Srm Institute Of
Science And
Technology
Chennai
|
Journals and Publications
Dr. S.Lakshmi Narayanan
Professor – ECE
1. PN Renjith, R Bharati, TM Thiyagu, RR Vallabhuni, B Mouleswararao, “Smart filtering for user discovery and availing balance storage space continuity with faster big data service”, Measurement: Sensors 26, 100707 (2023)
2. S Lakshmi Narayanan, K Ignatia, BS Alfurhood, N Bhat , “Image classification using gaussian curvature based local tetra pattern descriptor with enhanced feature selection technique”, Journal of Intelligent & Fuzzy Systems 44 (3), 3717-3731 (2023)
3. SS Salunkhe, A Tandon, M Arun, N Shaik, S Nandikolla, D Ramkumar, “An incremental learning on cloud computed decentralised IoT devices”, International Journal of Engineering Systems Modelling and Simulation 14 (2022)
4. S Markkandan, Sivasubramanian, J Mulerikkal, N Shaik, B Jackson, S L Narayanan, “Massive MIMO codebook design using gaussian mixture model based clustering Intelligent Automation & Soft Computing” 32 (1), 361-375 – 2022
5. C Karthikeyan, TVS Vivek, SL Narayanan, S Markkandan, DV Babu, S L Narayanan “Deep learning-based video coding optimisation of H.26”5, International Journal of Engineering Systems Modelling and Simulation 14 (2022)
6. PN Renjith, R Bharati, TM Thiyagu, RR Vallabhuni, B Mouleswararao, S L Narayanan, “Smart filtering for user discovery and availing balance storage space continuity with faster big data service”, Measurement: Sensors 26, 100707 (2023)
7. S Lakshmi Narayanan, K Ignatia, BS Alfurhood, N Bhat, “ Image classification using gaussian curvature based local tetra pattern descriptor with enhanced feature selection technique”, Journal of Intelligent & Fuzzy Systems 44 (3), 3717-3731 (2023)
8. SS Salunkhe, A Tandon, M Arun, N Shaik, S Nandikolla, D Ramkumar, S L Narayanan , “An incremental learning on cloud computed decentralised IoT devices” , International Journal of Engineering Systems Modelling and Simulation 14 (2022)
Mrs.S.Kokila
HOD/ECE
1. S.Kokila, R. Ramadhurai, “VHDL multiplier Implementation of fast 32X32 using Vedic mathematics”, International Journal of Advanced Trends in Computer Applications Vol. 2 ,Pages : 46-50, 2012
2. S.Kokila, R. Ramadhurai, “Modified design of poly-phase Comb filter using power efficient clock/data distribution technique”, The International Conference on Micro-Electronics Electromagnetics and Telecommunications Vol. 3 ,Pages : 164-167, 2012
3. S.Kokila, M.Pandiyarajan, “Implementation of Haar transformation for face detection & recognition using Beagle Board”, International Journal of Advanced Trends in Computer Applications Vol.3,Pages : 164-167, 2013
4. S.Kokila, M.Pandiyarajan, “Implementation of Background Subtraction Using Fuzzy Color for Surveillance”, International Journal of Advanced Trends in Computer Applications Vol.3,Pages : 164-167, 2013
Mr.K.Prabu
Assistant Professor-ECE
1. K.Prabu , “Design of Reversible BCD counters”, International Journal of Information and Electronics Engineering Vol. 3 , 2013
2. K.Prabu , “FPGA Implementation for Monitoring CAN bus traffic using multiple sensor network”, Transaction on Engineering and Science Vol-2Issue2Pg 93-99, 2014
3. K.Prabu , “Debris and Eutrophication Control for Industrial Environmental Monitor in Pan to Control Shut the Industries”, Transaction on Engineering and Science Vol.5, Issue 4, Pp 5363-5369, 2016
Mr.R.Ramadhurai
Assistant Professor-ECE
1. S.Kokila, R. Ramadhurai, “VHDL Implementation of fast 32X32 multiplier using Vedic mathematics”, International Journal of Advanced Trends in Computer Applications Vol. 2 ,Pages : 46-50, 2012
2. S.Kokila, R. Ramadhurai, “Modified design of poly-phase Comb filter using power efficient clock/data distribution technique”, The International Conference on Micro-Electronics Electromagnetics and Telecommunications Vol. 3 ,Pages : 164-167, 2012
3. R.Ramadhurai, “Sparse Multipath channel Estimation using compressed sensing”, The International Conference on Micro-Electronics Electromagnetics and Telecommunications Pages : 495-499, 2012
Mr.J.Edward Paul raj
Assistant Professor-ECE
1. Edward Paul raj , “Hybrid Networked Energy Consumption DAQ System for Industries Using CAN ,Zigbee and Ethernet”, International Journal of Scientific Engineering and Technology (ISSN: 2277 1581) Volume 2 Issue 3, 2013
2. Edward Paul raj , R. Theepa, JeyaAnusuya “Audio-visual emotion recognition using 3DCNN and DBN techniques”, International journal of advance research, ideas and innovations in technology (ISSN:2454 132X) volume 4, Issue 2, 2018
3. E. Seethalakshmi , Meenakshi Shunmugam, R. Pavaiyarkarasi, Sneha Joseph, EdwardPaulraj,“ An Automated irrigation system for optimized green house using IoT”, International journal at Elsevier materials today proceedings on 2020.
Achievements
Faculty Achievement - NPTEL CERTIFICATION :
| DURATION | NAME | SUBJECT/CERTIFICATION |
|---|---|---|
|
Jan-Apr 2022 |
Mr.S. Venkat ASP/ECE |
Prinicple of Communication-1 /Elite +Silver Certified |
|
Jan-Apr 2022 |
Dr.S.Sathya ASP/ECE |
Prinicple of Communication-1/ Elite Certified |
|
Jan-Apr 2022 |
Mr.K.Nandhakumar AP/ECE |
Prinicple of Communication-1 /Certified |
|
Jan-Apr 2022 |
Mrs.P.Meenakshi AP/ECE |
Prinicple of Communication-1 /Certified |
|
Jul-Oct 2022 |
Mr.S. Venkat ASP/ECE |
Basic Electric Circuits /Elite Certified |
|
Jul-Oct 2022 |
Dr.S.Sathya ASP/ECE |
Basic Electric Circuits /Elite Certified |
|
Jan-Mar 2023 |
Mr Pradeep G AP/ECE |
Analog Circuits / Certified |
|
Jan-Apr 2023 |
Mrs Kavitha V AP/ECE |
Principles Of Communications /Certified |
Student Achievement - NPTEL Certification
| DURATION | NAME | YEAR | SUBJECT | CERTIFICATION |
|---|---|---|---|---|
|
Jan-Apr 2023 |
Nisha G |
III |
Principles Of Communication-1 |
Certified
(Elite With Silver) |
|
Jan-Apr 2023 |
Gokul M |
III |
Principles Of Communication-1 |
Certified
(Elite) |
|
Jan-Apr 2023 |
Hidhaya MA |
II |
Principles Of Communication-1 |
Certified
(Elite With Silver) |
|
Jan-Apr 2023 |
Nandhini MA |
II |
Principles Of Communication-1 |
Certified
(Elite With Silver) |
Department Toppers
II Year Electronics And Communication Engineering Students Participated In One Day Workshop On Unlock The World Of IOT With Esp 32 Chennai Institute Of Technology, Chennai On 17.11.2023
Awards
Janakiammal Women Empowerment Award in the year 2023
Exceptional Career Achievement Award in the year 2023