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State the Vision and Mission of the Department and Institute
Vision and Mission of the Institute
VISION
To become a globally recognized Institution in Engineering Education, Research and
Entrepreneurship.
MISSION
Accomplish quality education through improved teaching learning process.
Enrich technical skills with state of the art laboratories and facilities.
Enhance research and entrepreneurship activities to meet the industrial and societal
needs.
Vision and Mission statements of the Department
VISION
To produce globally competitive Electronics and Communication Engineers and
Entrepreneurs with ethical values.
MISSION
Impart quality education through student centric teaching and learning process.
Equip students with Industry driven skills by providing excellent Infrastructure and
continuous interaction with academia and Industry.
Empower students towards research, entrepreneurship and lifelong learning to meet
societal needs.
State the Program Educational Objectives (PEOs)
PEOs of ECE Department
PEO Keywords Description
PEO 1 Core
Competency
Graduates will have strong foundation in Engineering,
Science and Technology for a successful career in Electronics
and Communication Engineering.
PEO 2 Professionalism
Graduates will have effective communication skills,
interpersonal skills and ethical values to exhibit
professionalism in multidisciplinary environment.
PEO 3
Higher studies
and
Entrepreneurship
Graduates will pursue professional development through
higher studies and have entrepreneurial attitude to address
technological changes and societal needs.
Program Specific Outcomes (PSO)
PSO1: Embedded system design: Graduates will be able to analyze, design, construct and test
electronic and embedded systems for desired specification.
PSO2 : Simulation Tools: Graduates will be able to solve emerging real world problems using
suitable hardware and software tools.
Program Outcome for Electronics and Communication Engineering PO 1: Engineering Knowledge: Apply knowledge of mathematics, science and engineering principles to solve problems in the domain of Electronics and Communication Engineering. PO 2: 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.
PO 3: 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.
PO 4: 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. PO 5: 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. PO 6: 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.
PO 7: Environment and sustainability: Understand the impact of the professional engineering
solutions in societal and environmental contexts, and demonstrate the knowledge and need for
sustainable development. PO 8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and
norms of the engineering practice. PO 9: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
PO 10: 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.
PO 11: 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.
PO 12: 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.
ABOUT THE DEPARTMENT
The Department of Electronics and Communication with its cohesive team of faculty
members, offers a sound programme at the UG level. Through curriculum, projects, forum
and various clubs we meet the growing demands and the changing trends of the software
industry and research laboratories.
The department of ECE is equipped with the best of resources to enrich the bloodline
of the department ensuring high quality education to the students. The department has
spacious laboratories, class rooms, staff rooms, and well stacked department library. The
department has more than 120 computers with the state of the art facilities. All the
computers are installed with latest software supporting the recent advancements in the real
time applications. The list of software includes MATLAB, Xilinx, Microwind, NetSim, NS2,
OPNET, ModelSim, Multisim etc. The laboratories are fully equipped with latest equipment.
All the faculty and students are encouraged and sponsored to attend Winter /
Summer programmes to upgrade & update the current trends in technological
advancements.
KSR INSTITUTE FOR ENGINEERING AND TECHNOLOGY
MESSAGE FROM PRINCIPAL
A desire can change nothing, a decision can change something but a determination
can change everything".
The motivating environment in KSRIET for knowledge assimilation, generation and
dissemination with a sense of social responsibility, human values and concern for social
commitment has carved a niche for itself among the best technical institutes. This
environment supports students and faculty members to participate in both technical and non
technical events. The magazine ECE CHRONICLES is a collection of technical and non
technical aspects of professors, faculty members and students. I extend my pleasure to the
editorial board of the magazine.
Dr.M.Venkatesan, M.E.,Ph.D.,
Principal
KSR INSTITUTE FOR ENGINEERING AND TECHNOLOGY
MESSAGE FROM HOD
The Department of Electronics & Communication Engineering (ECE) has consistently
maintained an exemplary academic record. The greatest asset of the department is its highly
motivated and learned faculty. The available diversity of expertise of the faculty with the
support of the other staff prepares the students to work in global multicultural environment.
The graduates of the Electronics & Communication Stream have been selected by some of the
world’s leading corporations & as well as by most of the leading Indian counter parts. We
hope that we will continue to deliver our best to serve the society and mankind. It is also
expected that our students will continue to pass-on the skills which they have developed
during their stay at this department to whole of the world for a better society.
“I Love Teaching Profession and My Students”
Dr.R. Nandakumar M.E.,Ph.D.,
Head of the Department/ECE
INSPIRATION OF THE CENTURY
SUNDAR PICHAI
Pichai worked in engineering and product management at Applied Materials and
in management consulting at McKinsey & Company. Pichai joined Google in 2004, where he
led the product management and innovation efforts for a suite of Google's client software
products, including Google Chrome and Chrome OS, as well as being largely responsible
for Google Drive. He went on to oversee the development of different applications such
as Gmail and Google Maps. On November 19, 2009, Pichai gave a demonstration of Chrome
OS; the Chromebook was released for trial and testing in 2011, and released to the public in
2012. On May 20, 2010, he announced the open-sourcing of the new video codec VP8 by
Google and introduced the new video format, WebM.
On March 13, 2013, Pichai added Android to the list of Google products that he
oversees. Android was formerly managed by Andy Rubin. He was a director of Jive
Software from April 2011 to July 30, 2013. Pichai was selected to become the next CEO of
Google on August 10, 2015 after previously being appointed Product Chief by CEO, Larry
Page. On October 24, 2015 he stepped into the new position at the completion of the
formation of Alphabet Inc., the new holding company for the Google company family.
Pichai had been suggested as a contender for Microsoft's CEO in 2014, a position that was
eventually given to Satya Nadella.
In August 2017, Pichai drew publicity for firing a Google employee who wrote a ten-
page manifesto criticizing the company's diversity policies and arguing that "distribution of
preferences and abilities of men and women differ in part due to biological causes and ...
these differences may explain why we don't see equal representation of women in tech and
leadership". While noting that the manifesto raised a number of issues that are open to
debate, Pichai said in a memo to Google employees that "to suggest a group of our colleagues
have traits that make them less biologically suited to that work is offensive and not OK".
In December 2017, Pichai was a speaker at the World Internet Conference in China,
where he stated that "a lot of work Google does is to help Chinese companies. There are
many small and medium-sized businesses in China who take advantage of Google to get
their products to many other countries outside of China.
TECHNOLOGY EXPERTISE ZONE
OLED Technology
OLED stands for "organic light-emitting diode" and is a relatively new technology
part of recent innovations in display monitors, lighting, and more. OLED technology as the
name suggests is a next-generation advancement upon regular LED or light-emitting diode
technology, and LCD or liquid crystal display technology.
The closely related LED displays were first introduced to the consumer in 2009. LED
television sets were much thinner and brighter than their predecessors: plasmas, LCD
HDTVs, and of course the humongous and now outdated CRT or cathode-ray displays.
OLED displays were introduced commercially a year later and will allow for even thinner
and brighter displays. With OLED technology, screens that are completely flexible and can
fold or roll up are possible.
OLED lighting is an exciting and viable new innovation. Most of what you see being
developed today looks like light panels (large area diffuse lighting), however, the technology
lends itself to lighting devices with the ability to change shape, colors, and transparency.
Other benefits of OLED lighting are that it is very energy efficient, and contains no poisonous
mercury.
In the simplest of terms, OLEDs are made from organic semiconductor materials that
emit light when an electrical current is applied.
According to Philips, OLEDs works by passing electricity through one or more
incredibly thin layers of organic semiconductors. These layers are sandwiched between two
electrodes – one positively charged and one negatively. The “sandwich” is placed on a sheet
of glass or other transparent material which, in technical terms, is called a “substrate”. When
current is applied to the electrodes, they emit positive and negatively charged holes and
electrons. These combine in the middle layer of the sandwich and create a brief, high-energy
state called “excitation”. As this layer returns to its original, stable,“non-excited” state, the
energy flows evenly through the organic film, causing it to emit light.
TECHNOLOGY EXPERTISE ZONE
Bluetooth Technology
Bluetooth is a standard wire-replacement communications protocol primarily
designed for low power consumption, with a short range based on low-
cost transceiver microchips in each device. Because the devices use a radio
(broadcast) communications system, they do not have to be in visual line of sight of
each other; however, a quasi optical wireless path must be viable. Range is power-
class-dependent, but effective ranges vary in practice. See the table "Ranges of
Bluetooth devices by class".
Officially Class 3 radios have a range of up to 1 metre (3 ft), Class 2, most commonly
found in mobile devices, 10 metres (33 ft), and Class 1, primarily for industrial use
cases,100 metres (300 ft). Bluetooth Marketing qualifies that Class 1 range is in most
cases 20–30 metres (66–98 ft), and Class 2 range 5–10 metres (16–33 ft). The actual
range achieved by a given link will depend on the qualities of the devices at both
ends of the link, as well as the air conditions in between, and other factors.
The Bluetooth Core Specification mandates a range of not less than 10 metres (33 ft),
but there is no upper limit on actual range. Manufacturers' implementations can be
tuned to provide the range needed for each case.
TECHNOLOGY EXPERTISE ZONE
Radio-frequency IDENTIFICATION
Radio-frequency identification (RFID) uses electromagnetic fields to
automatically identify and track tags attached to objects. The tags contain
electronically-stored information. Passive tags collect energy from a nearby RFID
reader's interrogating radio waves. Active tags have a local power source (such as a
battery) and may operate hundreds of meters from the RFID reader. Unlike
a barcode, the tag need not be within the line of sight of the reader, so it may be
embedded in the tracked object. RFID is one method for Automatic Identification and
Data Capture (AIDC).[1]
RFID tags are used in many industries, for example, an RFID tag attached to
an automobile during production can be used to track its progress through the
assembly line; RFID-tagged pharmaceuticals can be tracked through warehouses;
and implanting RFID microchips in livestock and pets allows for positive
identification of animals.
Since RFID tags can be attached to cash, clothing, and possessions, or
implanted in animals and people, the possibility of reading personally-linked
information without consent has raised serious privacy concerns.[2] These concerns
resulted in standard specifications development addressing privacy and security
issues. ISO/IEC 18000 and ISO/IEC 29167 use on-chip cryptography methods for
untraceability, tag and reader authentication, and over-the-air privacy. ISO/IEC
20248 specifies a digital signature data structure for RFID and barcodes providing
data, source and read method authenticity. This work is done within ISO/IEC JTC
1/SC 31 Automatic identification and data capture techniques. Tags can also be used
in shops to expedite checkout, and to prevent theft by customers and employees.
TECHNOLOGY EXPERTISE ZONE
WIRELESS POWER TRANSMISSION TECHNOLOGY
Wireless power transmission technology is not a new technology. In 1980, it was
demonstrated by Nikola Telsa. There are three main systems used for wireless electricity
transmission: solar cells, microwaves and resonance. In an electrical device, microwaves are
used to transmit electromagnetic radiation from a source to a receiver. The name wireless
power transmission states the transfer of electrical power from a source to an electrical
device without the help of wires. Basically, it involves two coils: a transmitter and a receiver
coil. The transmitter coil is powered by an Ac current to produce a magnetic field, which in
turn induces a voltage in the receiver coil.
The basics of WPT involve the inductive energy transmission from a transmitter to a
receiver through an oscillating magnetic field. To get this DC current, that is supplied by a
power source, it is converted into high -frequency AC current by the specially designed
electronics built into the transmitter.
In the transmitter section, the AC current boosts a copper wire, which generates a
magnetic field. Once a receiver coil is placed within the close vicinity of the magnetic field,
the field can induce an AC current in the receiving coil. The electrons in the receiving device,
then converts the AC current back into DC current, which becomes utilizable power.
TECHNOLOGY EXPERTISE ZONE
FACE BIOMETRIC ANTISPOOFING
In an increasingly digital world, protecting confidential information from hackers and
unauthorized individuals is becoming more difficult and the need for robust security is
paramount. As a result, Biometric spoofing is a growing concern as biometric traits are
vulnerable to attacks. Biometric spoofing is the ability to fool a biometric system into
recognizing a fake user as a genuine user by means of presenting a synthetic forged version
of the original biometric trait to the sensor. Specific countermeasures that allow biometric
system to detect fake artefacts and to reject them need to be developed. This paper‟s main
goal is to provide an overview of different antispoofing techniques used in the now
emerging field of antispoofing with special attention to face modality.
Biometrics is the specialized term for body estimations and counts. It alludes to
measurements identified with human attributes. Biometrics validation (or sensible
confirmation) is utilized as a part of software engineering as a type of recognizable proof and
access control. Biometric verification is any method by which a man can be interestingly
recognized by assessing at least one recognizing organic attributes.
Interesting identifiers incorporate fingerprints, hand geometry, ear cartilage
geometry, retina and iris designs, voice waves, DNA, and face. The most established type of
biometric confirmation is fingerprinting. Biometric check has progressed extensively with the
appearance of modernized databases and the digitization of simple information, considering
relatively momentary individual distinguishing proof. Iris and reti
na-design validation techniques are, as of now utilized in some bank programmed
teller machines.
TECHNOLOGY EXPERTISE ZONE
HIGH-SPEED NON-VOLATILE OPTICAL MEMORY
The first important application of the high-speed memory is chip-to-chip
interconnection [2,3]. Its purpose is to transfer data from one silicon chip to another in the
shortest possible time. In a silicon chip electrical memory, like Dynamic random-access
memory (DRAM), Static random-access memory (SRAM), Phase-change memory (PRAM),
Flash, Resistive random-access memory (ReRAM) [4] and Magnetoresistive random-access
memory (MRAM) [5] , is dense, but electrical memory has a relatively moderate operational
speed. The moderate speed for the data transfer inside the chip is acceptable and it does not
limit a high speed of the total data transfer inside a chip. This is because, inside the chip,
there is a large number of connection lines and the data transfer happens in parallel. Even
though the transfer speed of each line is moderate, the overall transfer speed is fast. The case
of a chip-to-chip interconnection is different, because the number of connection lines between
chips is limited. It is important to transfer data through each line at a substantially faster
speed. Optical interconnections between chips are used [2,3] in order to achieve a high-speed
data transfer. A high-speed optical buffer memory is required to efficiently utilize the high-
speed capabilities of the optical data links.
The purpose the buffer memory is to match the in-parallel data transfer inside a chip
with the in-serial data transfer between chips. The buffer memory does not need to be dense,
but it must be very fast. Another important application of the proposed high-speed optical
memory is a buffer memory for an optical network router. It is worth noting that even
though high-speed optical fiber links are widely installed worldwide, only a small fraction of
their high-speed capacity is used.
Since the availability of the second channel is basically unknown, non-volatile memory
has to be used in the router.
TECHNOLOGY EXPERTISE ZONE
SOLAR MOBILE CHARGER
It works on the principle that when light falls on the solar cell, electron -hole pairs are
created in the n-type emitter and in the p-type base.The generated electrons (from the base)
and holes (from the emitter) then diffuse to the junction and are swept away by the electric
field, thus producing. Certain modules are selected and worked out to suitable specifications.
The development of solar charger goes from the fundamental level like soldering
lamination and making the panel etc. The developed charger is planned for 6 Volts with ma
capacity at bright sunlight and step down to 5Volts using regulator.In the report, the detailed
experimental characteristics of mobile charger are noted.
Solar energy is the energy produced directly by the sun and collected elsewhere,
normally the Earth. The sun creates its energy through a thermonuclear process . The process
creates heat and electromagnetic radiation. Only a very small fraction of the total radiation
produced reaches the Earth. The radiation that does reaches the Earth is the indirect source of
nearly every type of energy used today .The radiation that does reach the Earth is the indirect
source of nearly every type of energy used today. The exceptions are geothermal energy, and
nuclear fission and fusion. Even fossil fuels owe their origins to the sun; they were once
living plants and animals whose life was dependent upon the sun. Much of the world's
required energy can be supplied directly by solar power. More still can be provided
indirectly. The practicality of doing so will be examined, as well as the benefits and
drawbacks. In addition, the uses solar energy is currently applied to will be noted.
Due to the nature of solar energy, two components are required to have a functional
solar energy generator. These two components are a collector and a storage unit. The
collector simply collects the radiation that falls on it and converts a fraction of it to other
forms of energy (either electricity and heat or heat alone). The storage unit is required
because of the non-constant nature of solar energy; at certain times only a very small amount
of radiation will be received.
At night or during heavy cloudcover, for example, the amount of energy produced by
the collector will be quite small. The storage unit can hold the excess energy produced
during the periods of maximum productivity, and release it when the productivity drops. In
practice, a backup power supply is usually added, too, for the situations when the amount of
energy required is greater than both what is being produced and what is stored in the
container
TECHNOLOGY EXPERTISE ZONE
DATA LOGGERS
A data logger (also data logger or data recorder) is an electronic device that records
data over time or in relation to location either with a built in instruments or sensors or via
external instruments and sensors. Increasingly, but not entirely, they are based on a digital
processor (or computer). They generally are small, battery powered, portable, and equipped
with a microprocessor, internal memory for data storage, and sensors.
Some data loggers interface with a personal computer and utilize software to activate
the data logger and view and analyze the collected data, while others have a local interface
device (keypad, LCD) and can be used as a stand-alone device. Data loggers vary between
general purpose types for a range of measurement applications to very specific devices for
measuring in one environment or application type only.
It is common for general purpose types to be programmable; however, many remain
as static machines with only a limited number or no changeable parameters. Electronic data
loggers have replaced chart recorders in many applications. One of the primary benefits of
using data loggers is the ability to automatically collect data on a 24-hour basis. Upon
activation, data loggers are typically deployed and left unattended to measure and record
information for the duration of the monitoring period. This allows for a comprehensive,
accurate picture of the environmental conditions being monitored, such as air temperature
and relative humidity.
TECHNOLOGY EXPERTISE ZONE
MULTIPURPOSE ROBOT
In the world that has an enormous potential for conflict, militaries
around the world are taking Patton‟s words very seriously. Right from the ancient
times, the foot soldiers has fought and won the battle for the victor.
However, over the past decade or so, the infantry‟s role has changed - the
emergence of smart munitions and precision aerial bombardment has resulted in the
infantryman entering tough urban combat situations to mop up any remaining
resistance. Tomorrow‟s heroic soldier isn‟t going to jump into the battle with just a
ballot-proof Kevlar vest, a backpack sized field radio and a commando knife clutched
between his teeth[7]. Our system is the first of several such programs that are looking
at revamping the infantry soldier‟s gear. Our system basically has two modes.
One mode is the automatic mode and the other mode is user control mode.
The automatic mode uses face recognition technique to combat intruders. In certain
unavoidable circumstances the control comes to user who can control the operations
of the robot from remote location using a computer. One of the main advantages of
our system is that the mode switching can be done very fast with out any delay. It
also helps to provide medical aid for needy. Our system can also be used to detect
and defuse the bombs. Thus our aim is to provide a robotic system that can combat in
wars and other military purposes.
Traditionally, software development started when the hardware arrived, but
not any more: software designers are using virtual prototypes to get their projects
started in time to meet the deadlines. But there are also operating systems, which
manage this growing complexity.
TECHNOLOGY EXPERTISE ZONE
AUDIO SPOTLIGHTING
Audio spot lighting is a very recent technology that creates focused beams of
sound similar to light beams coming out of a flashlight. By „shining‟ sound to one
location, specific listeners can be targeted with sound without others nearby hearing
it. It uses a combination of non-linear acoustics and some fancy mathematics. But it is
real and is fine to knock the socks of any conventional loud speaker.
This acoustic device comprises a speaker that fires inaudible ultrasound pulses
with very small wavelength which act in a manner very similar to that of a narrow
column.
The ultra sound beam acts as an airborne speaker and as the beam moves
through the air gradual distortion takes place in a predictable way due to the
property of non-linearity of air. This gives rise to audible components that can be
accurately predicted and precisely controlled. Joseph Pompei‟s Holosonic Research
Labs invented the Audio Spotlight that is made of a sound processor, an amplifier
and the transducer. The American Technology Corporation developed the Hyper
Sonic Sound-based Directed Audio Sound System. Both use ultrasound based
solutions to beam sound into a focused beam. Audio spotlight can be either directed
at a particular listener or to a point where it is reflected
-*
TECHNOLOGY EXPERTISE ZONE
IBOC TECHNOLOGY
The engineering world has been working on the development and evaluation
of IBOC transmission for some time. The NRSC began evaluation proceedings of
general DAB systems in 1995. After the proponents merged into one, Ibiquity was left
in the running for potential adoption.
In the fall of 2001,the NRSC issued a report on Ibiquity's FM IBOC. This
comprehensive report runs 62 pages of engineering material plus 13 appendices. All
of the system with its blend-to analog operation as signal levels changes. The
application of the FM IBOC has been studied by the NRSC and appears to be
understood and accepted by radio engineers.
AM IBOC has recently been studied by an NRSC working group as prelude to
its adoption for general broadcast use .Its was presented during the NAB convention
in April. The FM report covers eight areas of vital performance concerns to the
broadcaster and listener alike .If all of these concerns can be met as successfully by
AM IBOC, and the receiver manufactures rally to develop and produce the necessary
receiving equipment. The evaluated FM concerns were audio quality, service area,
acquisition performance, durability, auxiliary data capacity, and behavior as signal
degrades, stereo separation and flexibility.
The FM report paid strong attention to the use of SCA services on FM IBOC.
About half of all the operating FM stations employ one or more SCAs for reading for
the blind or similar services. Before going to the description of FM IBOC system, it is
important to discuss the basic principles of digital radio, and IBOC technology. In the
foregoing sections we see the above-mentioned topics
-*
IMPORTANT WEBSITES
http://www.engineering.com/
http://www.efunda.com/home.cfm
http://www.engineeringtoolbox.com/
http://www.howstuffworks.com/
http://www.eng-tips.com/
http://www.discoverengineering.org/
http://www.fun-engineering.net/
http://www.manufacturingiscool.com/
http://pbskids.org/designsquad/
http://www.futuresinengineering.com/
http://www.engineeryourlife.org/
https://www.indiabix.com/
www.knowafest.com
http://www.ece.org/
http://www.mathworks.in/products/matlab/
http://www.opencircuitdesign.com
http://www.nptel.iitm.ac.in
http://www.engineering.carrers360
TECHNOLOGY EXPERTISE ZONE
COMPANIES FOR EC ENGINEERS
ISRO -Indian Space Research Organization
BEL -Bharat Electronics Limited
ECIL -Electronics Corporation India Limited
DRDO -Defense Research and Development Organization
BSNL JTO -Bharat Sanchar Nigam Limited Junior Telecom Officers
SAIL -Steel Authority of India Limited
GAIL -Gas Authority of India Limited
HAL -Hindustan Aeronautics Limited
NTPC -National Thermal Power Corporation
ONGC -Oil and Natural gas Commission Limited
Bharat Sanchar Nigam Ltd (BSNL)
CMC Ltd
Amara Raja Batteries Ltd
Bartronics India Ltd
Cranes Software International Ltd
Datamatics Global Services
Dell India Private Ltd
Delta Energy Systems (India) Pvt Ltd
Educomp Solutions Ltd
EMC India
Eveready
Bharthi Airtel Ltd
Industries India Ltd
Exide Industries Ltd
Bharthi Teletech
List of Entrepreneurs
S.No. Name of the Students Name of the Company Type of Industry
1 Kaviyarasn J ULive Technologies Home Automations
2 Madhan Kumar V P ULive Technologies Home Automations
3 Surendar J Smart Mobiles Mobile Sales / Service
Activities of Professional Societies in the Year 2016-2017
S.No Type Of
Program
Title Of The
Program Date
Supportin
g Bodies
Guest/
Resource
Person
Level
1 Motivational
Talk
Ignite to
Elevate 14.9.16 ISTE
Alumini
Students of
KSR College of
Tech
Institute
2 Seminar
Teaching
and
Learning
Process
05-10-16 ISTE
Dr.B.Ilango,
Former Vice
Chancellor
Bharathiar
University,
Coimbatore.
Institute
3 Seminar Decide Your
Destiny 19-10-16 ISTE
Dr.Kavidasan,
Director
Roots
Industries
India Ltd
Institute
4 Campus
Lecture
AAA By
Mathematic
al
Operations,
IT Trends
and
employabilit
y, Role of
Engineering
23-08-16 PALS
Dr. Natarajan,
Dr.Soundaraja
n,
Mr.S.Subraman
ian
Nation
al
in Supply
Chain
5 Competition
ICTACT Youth
Present –
Preliminary
24.08.2016 ICT
Academy
ICT Academy of
Tamil Nadu National
6 Competition
ICTACT
TALK –
Preliminary
11.09.2015 ICT
Academy
ICT Academy of
Tamil Nadu National
7 Competition
ICTACT Youth
Talk –
Regional Final
15.09.2015 ICT
Academy
ICT Academy of
Tamilnadu National
8 Competition
ICTACT Youth
Present –
Preliminary
11.09.2015 ICT
Academy
ICT Academy of
Tamilnadu National
Events Organized at Institute in the Year 2016-2017
S.No Type Of
Program
Title Of The
Program Date
Guest/
Resource Person Level
1 Workshop
Project Based
Learning in
8051
Microcontroller
Using Keil
14.07.16
Mr.A.Prabakaran,
AP/ECE, KSRIET National
2 Workshop
Entrepreneurshi
p Awareness
Camp
20.07.16
to
22.07.16
Sathyaseelan. K
AP/IT, K.S.R
College Of
Technology,
National
3 Guest
Lecture
Two days Guest
lecture
Transmission
and wave
guides
26.07.16
&
18.08.16
Mr.S.Logesh
Kumar,
Sri Ramanathan
Institute for
Engineering and
Technology
Institute
4 Inauguratio
n Dept Library 29.7.16
Mr.M.Venkatesan
Principal, KSRIET Institute
5 Inauguratio
n
AURA
Association 13.08.16
Mr.A.Athif Shah,
CEO, ABE
Semiconductors
National
6 Guest
Lecture
Internet of
Things 13.08.16
Mr.A.Athif Shah,
CEO, ABE
Semiconductors
Institute
7 Guest
Lecture
Three days
Guest Lecturer
on Electronics
Circuits –I
24.08.16
&
09.09.16
Prof.Muthuraman
Ramasamy,
EQUIP Foundation
Institute
8
Value
Added
Course
Batch – II
Networks &
Security
10.08.16
to
19.10.16
Mr.P.K.Amarnath,
Operation Head &
Consultant, Avatar
Academy
Institute
9
Value
Added
Course
Batch – III
Networks &
Security
All
saturda
ys from
Aug'16
to
Nov'16
Mr.P.K.Amarnath,
Operation Head &
Consultant, Avatar
Academy
Institute
10
Value
Added
Course
Programming
in MSP430
16.09.16
to
20.09.16
Mr.A.Prabakaran,
AP/ECE, KSRIET
Institute
11 Workshop
Two Days
Workshop on
Network
Security
22.09.16
&
23.09.16
Mr.P.K.Amarnath,
Operation Head &
Consultant, Avatar
Academy
National
Figure Motivational Talk by HOD
Paper /Poster presentation by students within the state
PAPER PRESENTATION
S.No Name Of The
Student Year/Sem
Name Of The
Event Date Organised By
1. Sankari M III / V Paper
Presentation 12.08.16
ACRUX‟16,
Dept of ECE,
Mahendra
Engineering
College
2. Poongodi S III/V Paper
Presentation 12.08.16
ACRUX‟16,
Dept of ECE,
Mahendra
Engineering
College
3. Nivedhan Raj C II / III Paper
Presentation 24.08.16
Dept of ECE,
Gnanamani
College of
Technology
4. Ranjith Raja M II / III Paper
Presentation 24.08.16
Dept of ECE,
Gnanamani
College of
Technology
5. K.V.Gokul Prasad
IV/VII
Paper
Presentation 1/10/2016
ECE/Jaysriram
College Of
Engineering
6. S.Arul Prakash IV/VII Paper
Presentation 1/10/2016
ECE/Jaysriram
College Of
Engineering
Workshop Attended by students Within the State
WORKSHOP
S.No Name Of The
Students Year/Sem
Name Of The
Event Date Organised By
1. Janani R III / V
Workshop &
Inplant
Training
10.08.16
&
11.08.16
Dept of ECE,
2. Elizabeth N J III/V
Workshop &
Inplant
Training
10.08.16
&
11.08.16
Dept of ECE,
3. Ravi Varma B III / V Workshop 11.08.16,
12.08.16
SANUS‟16,
Dept of ECE, SNS
College of
Engineering
4. Sathish Kumar S III/V Workshop 11.08.16,
12.08.16
SANUS‟16,
Dept of ECE, SNS
College of
Engineering
5. Sivaprakash D III / V Workshop 11.08.16,
12.08.16
SANUS‟16,
Dept of ECE, SNS
College of
Engineering
6. Priya R III/V Workshop 11.08.16,
12.08.16
SANUS‟16,
Dept of ECE, SNS
College of
Engineering
7. Sasitha M III/V Workshop 11.08.16,
12.08.16
SANUS‟16,
Dept of ECE, SNS
College of
Engineering
8. Selvarakesh Kumar
C II / III Workshop 27.08.16
Coimbatore
Institute of
Technology
9. Prabhu B II / III Workshop 27.08.16
Coimbatore
Institute of
Technology
10. Pavithra P II / III
One Day
Hands-on
Training for
“Integration of
30.08.16
Dept of ECE, Anna
University
Regional Centre,
Coimbatore
Keil and
Proteus”
11. Ramya B II / III
One Day
Hands-on
Training for
“Integration of
Keil and
Proteus”
30.08.16
Dept of ECE, Anna
University
Regional Centre,
Coimbatore
12. Naveen T S II / III
One Day
Hands-on
Training for
“Integration of
Keil and
Proteus
30.08.16
Dept of ECE, Anna
University
Regional Centre,
Coimbatore
13. Saravanakumar S II / III
One Day
Hands-on
Training for
“Integration of
Keil and
Proteus”
30.08.16
Dept of ECE, Anna
University
Regional Centre,
Coimbatore
14. Alex Raj A II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
15. Anbarasan S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
16. Gangatharan S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
17. Giritharan L II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
18. Bhuvaneshwaran S
M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
19. Chandra Bose S II / III Kaashiv Infotech
Workshop on
Ethical
Hacking
21.08.16
& KSR Wikitechy
Microsoft Research
Community
20. Ram Kumar L II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
21. Karthikeyan S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
22. Kavi Preethi V II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
23. Gokila T II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
24. Jayabharathi S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
25. Gayathri R II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
26. Ishwarya P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
27. Hemalatha T II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
28. Karthika D II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
29. Kokila R II / III
Workshop on
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Ethical
Hacking
Microsoft Research
Community
30. Bhuvaneswari R II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
31. Ezhil M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
32. Kowsalya C II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
33. Harini T II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
34. Gowri P II / III Workshop on
Ethical Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
35. Harshini Devi P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
36. Kathiravan M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
37. Prabhu B II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
38. Praveeen Kumar V II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
39. Ranjith Raja M II / III
Workshop on
Ethical
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Hacking Community
40. Sakthivel K II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
41. Nivedhan Raj C II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
42. Naveeen T S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
43. Naveen Kannan S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
44. Pradip R R II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
45. Thangaraj K II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
46. Vinoth Kumar M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
47. Yogesh V II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
48. Muthu Kumar P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
49. Pavithra P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
50. Uma Maheshwari
M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
51. Tharunya S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
52. Tamilarasi J II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
53. Suganthi S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
54. Priyadharshini S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
55. Kathiresh S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
56. Karthikeyan G M II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
57. Deepan Kumar S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
58. Jayashree S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
59. Sineha N II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
60. Sharanya A Kaashiv Infotech
II / III
Workshop on
Ethical
Hacking
21.08.16
& KSR Wikitechy
Microsoft Research
Community
61. Priyadharshini S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
62. Vinothini P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
63. Subathra S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
64. Uma P II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
65. Thamarai Kannan S II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
66. Vigneshwar B II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
67. Udhaya Kumar B II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
68. Dinesh T II / III
Workshop on
Ethical
Hacking
21.08.16
Kaashiv Infotech
& KSR Wikitechy
Microsoft Research
Community
69. Moulika II/III Workshop 2/9/2016 CSE/SNS College
Of Technology
70. Alexraj.A II/III Workshop 23/9/16
Vidhya Vikas
College Of
Enginering And
Technology
Other Events Participated by students Within the State
OTHER EVENTS
S.No Name Of The
Students Year/Sem
Name Of The
Event Date Organised By
1. Karthikeyan S II / III
ICTACT
YOUTH TALK –
2016
24.08.16 ICTACT,
Tamilnadu
2. Saranya M II / III
ICTACT
YOUTH TALK –
2016
24.08.16 ICTACT,
Tamilnadu
3. Alexraj A II / III
ICTACT
YOUTH TALK –
2016
24.08.16 ICTACT,
Tamilnadu
Workshop Attended by students in Outside the State
WORKSHOP
S.No Name Of The
Students Year/Sem
Name Of The
Event Date
Organised
By
1. Jotheeswaran K III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
2. Udhayakumar B III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
3. Sasitha M III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
4. Preethiberlin.W III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
5. Dhivya Prabha P III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
6. Divya S III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
7. Gokul Raj K N III/V Python
Workshop
19.8.16
&
20.8.16
IEEE Student
Branch, IISc
Project Presentation by students in Outside the State
PROJECT PRESENTATION
S.No Name Of The Student Year/Sem Name Of The
Event Date
Organised
By
1.
Logesh Kumar M
III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
2. Mahaboof Sherif E III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
3. M.Krishna III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
4. T.Janani III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
5. Durka Devi S III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
6. Arthi K III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
7. Arun S K III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
8. Deepak Raju C III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
9. Kalaipriya N III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
10. Hemavarthini M III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
11. Keerthana S III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
12. M.Nandhini III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
13. Oviya.T III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
14. Nivetha.A III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
15. Nandhini.R III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
16. Naaga Naveenkumar
V III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
17. Jothipraksh R III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
18. Kathiresh S III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST -Texas
Instruments
Bangalore
19. Manoj Aravind V III/V
Indian
Innovation
Challenge Design
Contest Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
Events Participated by students in Outside the State
OTHER EVENTS
S.No Name Of The
Students Year/Sem
Name Of The
Event Date Organised By
1 K napeeD III/V IoT Design
Contest 15/08/16 Bangalore
2 S ivaR III/V IoT Design
Contest 15/08/16 Bangalore
3 M ahtisaS III/V IoT Design
Contest 15/08/16 Bangalore
4 S inihsrahdayirP III/V IoT Design
Contest 15/08/16 Bangalore
Prizes and Awards received by students in the year 2016-17
S.No Name Of The
Students
Name Of The
Event Date Organised By
Prizes/
Award
1.
Logesh Kumar M
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
2. Mahaboof Sherif E
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
3. M.Krishna
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
4. T.Janani
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
5. Durka Devi S
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
6. Arthi K
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
7. Arun S K
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
8. Deepak Raju C
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
9. Kalaipriya N
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
10. Hemavarthini M
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
11. Keerthana S
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
12. M.Nandhini
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
13. Oviya.T
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
14. Nivetha.A
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
15. Nandhini.R
Indian
Innovation
Challenge
Design Contest
Ti-2016
28/08/2016
DST-Texas
Instruments
Bangalore
200$
Worth
Project
Kit
16. K.V.Gokul Prasad
Paper
Presentation 1/9/2016
Jaysriram
College Of
Engineering
I
17. S.Arul Prakash Paper
Presentation 1/9/2016
Jaysriram
College Of
Engineering
I
18. Venkatesh V
Project Expo –
2016
National Level
Technical
Symposium
28.08.16
Bannari
Amman
Institute of
Technology
II
19. Preamkumar S
Project Expo –
2016
National Level
Technical
Symposium
28.08.16
Bannari
Amman
Institute of
Technology
II