svnr

STEPCONE 2017

STEPCONE 2017

STEPCONE 2017

STEPCONE

NATIONAL LEVEL STUDENT TECHNICAL PAPER&PROJECT CONTEST AND EXHIBITION
27-29, JANUARY 2017

Organized by:

GMR Institute of Technology
AN AUTONOMOUS INSTITUTE AFFILIATED TO JNTUK, KAKINADA

ACCREDITED BY NBA & NAAC WITH ‘A’ GRADE
RAJAM - 532127, SRIKAKULAM (DT)

Visit us at www.gmrit.org

STEPCONE 2017

Message

Welcome to the eleventh Stepcone on our green campus and here is
wishing you a wonderful New Year! Hope your parents were able to spare
enough currency for you to be comfortable during the trip! :))

At GMRIT, we are always excited about STEPCONE, especially as it has become a well-known symbol
of student networking. I hope the network would grow ever wider, assume a life of its very own, and
create Stepcone Alumni in the years to come. I trust you already have a chat group on the WhatsApp! If not,
about time you started one!

In recent years, India has emerged a confident and performing power in the world; we have launched
satellites and ICBMs of our own; serous efforts are afoot to fight corruption; important indirect-tax reforms are
under way; our polity and economy are both on firm footing; ‘Make in India’ initiative is on the march, as is
Clean India campaign. In short, India is on the move; seriously.

Globally speaking, the world today offers a million different opportunities for the youth as new
technologies constantly disrupt the old-world order of the industry. Consider this: the digital technology
disrupted the analogue photography industry nearly thirty years ago; then about twenty years ago, the cell
phone technology disrupted the landline telephony; thereafter, the MP3 industry disrupted the CD technology;
the e-commerce companies have now disrupted the physical retailing; the payment platforms are disrupting the
banking industry; social media has disrupted conventional interactions; internet has disrupted conventional
communications and knowledge industries; tele-medicines are disrupting conventional health delivery systems;
electric motors are disrupting the internal combustion engines; solar energy is disrupting the conventional
energy; autonomous vehicles are poised to disrupt conventional automobiles; drones are disrupting
conventional delivery systems…the list goes on.

Incidentally, just in case you are wondering what I mean by “disruptive technologies”, well,
disruptive technology is anything that significantly (not marginally) weakens, transforms or destroys a product,
technology or an industry. Ordinary innovations or improvements of technologies, products or processes
happen every day; but they do not “disrupt” the existing order of things.

In short, we have reached an era, where the industries are no longer on a steady growth path like the
steel industry has been for decades in the past (now about to be disrupted by carbon fibre and grapheme
technologies), but old industries are rapidly dying and new industries are coming up, like old stars die and new
ones are born in the cosmos. This categorically means, ever more than any era before, that you have a future
ahead of you that no generation in the past ever had. In this sense, you are a privileged generation and it is
important that you recognize this, so that you seize the new opportunities before you with both hands.

This Stepcone, I urge you all to dedicate yourself to the era of disruptive technologies and resolve to add
to this disruption through your own contributions, especially in a start-up eco-system, which too had opened up
like never before.

I wish you all the very best. Please do make new friends and enjoy the three days together.

Dr. V. Raghunathan

CEO GMRVF

Chairperson, GMRIT Governing Council

STEPCONE 2017

Message

Message:

Wish you all a very and prosperous New Year 2017...

At the outset, I take this opportunity to welcome you all for 11th addition of STEPCONE with added
energy, enthusiasm and broadened spectrum of the events. The event scheduled for three days i.e. on 27th,
28th and 29th of Jan 2017 gives an opportunity to showcase the creative skills of the young minds. I am happy to
share that GMRIT is keeping up its tradition of organizing this event every year with a prime objective of
creating a platform to interact, share and bring out typical innovations in Technology.

With the disrupting technologies challenging the existing skills required, the young engineers need to
work foreseeing the sustainability of technological solutions in future maintaining the harmony between
environment and mankind. STEPCONE being a common platform to exchange a network of novel ideas and
global trends in the technological arena initiates the thought process in the young minds to think differently.
As usual in continuation with the tradition, STEPCONE-2017 is reloaded with unique features making a
difference.

“Educate-Innovate-Change” being the call of the world today, in line with countries call of Make in
India and Re-skilling India, GMRIT as a part of its global responsibility is emphasizing and reinforcing the
subject. I strongly hope that the theme of the event will bring consciousness among the cohorts and in public at
large about its impact on the related issues.

I convey my best wishes to the organizing committee members and the students who have put in their
continuous efforts in shaping the event. I wish them all the very best in their endeavors to make STEPCONE-
2017 a grand success.

Dr C L V R S V Prasad

Principal, GMRIT

STEPCONE 2017

Message

STEPCONE (Student Technical Paper Contest and Exhibition), a national level techfest for students has been
celebrated every year by GMRIT since 2006.As I stand in this momentous threshold, I look back to applaud the
laurels of all our past STEPCONEs. At GMRIT, we have been discovering the supreme objectives to gain
dominant knowledge, which were modernising the way we learn, renovate the way we train and raise to the
occasion of empowering people with the skill required. We focus on overall development of students. We
strongly believe that ‘education beyond classroom is as important as education inside the classroom’.
I am very happy that the event STEPCONE is becoming more and more popular over the years. In
continuation with the tradition, STEPCONE-2016, scheduled on 08th, 09th and 10th January 2016, has made a
difference with a unique feature of cultural competition. “Imagination, Innovation, Implementation and
Indigenization” are being the need of the hour for the country’s development, GMRIT as a part of its global
responsibility is releasing a “mascot” emphasizing this subject. I strongly hope that this ‘mascot’ will bring
consciousness among the cohorts and in public at large about its impact on environmental issues.
STEPCONE 2017 will have quite a lot of other essence like workshops, robo contest, project design contest,
industry-defined problems, technical events, drone shows etc. to pitch out knowledge and fun among the
participants joining this event from various parts of the country.
I sincerely express my whole hearted thanks to the staff members, students for leaving no stone unturned for
making STEPCONE-16 a mega event.
I would like to wish all the participants good luck and assure them that the time spent in GMRIT would be
great, worthwhile, and useful and the experience enjoyable, exciting and memorable.

Wish you all the best.

Dr.G.Manmadha Rao,
Convenor – STEPCONE 2017

STEPCONE 2017 CONTENTS

1. About GMRIT 1
2. Programme schedule 02-04
3. Trabajo 05-21
4. Committee members 22-29
5. Editorial Board 30
6. Sponsors 31-33

STEPCONE 2017

STEPCONE 2017

STEPCONE 2017

About GMRIT

GMR Institute of Technology is located at Rajam, a town about 100Kms away from Visakhapatnam in
Andhra Pradesh. The institute boasts a sprawling campus of 154 acres of land. The lush sylvan and idyllic
surroundings offer an ideal environment for learning.

This is an autonomous institute affiliated to the Jawaharlal Nehru Technological University, Kakinada. The
institute has been accredited by National Board of accreditation (NBA) and NAAC with A grade, New Delhi and has
acquired the ISO 9001:2000 Quality systems Certification. Its alumni of twelve years have become change agents in
the society and contributed to the development of technology in India.

GMR Institute of Technology (GMRIT) - established by GMR Varalakshmi Foundation – the CSR arm
of GMR Group – offers aspiring engineers high quality technical education. The Institute believes in holistic approach
education and industry friendly curriculum with practical and real world experiences without losing sight of life skills.
It is this emphasis on a well-rounded education that makes GMRIT a preferred institute among the engineering
colleges in India.

2

STEPCONE 2017

PROGRAMME SCHEDULE

STEPCONE – 2017

S.No. Name of the Event Venue Max. no. of
Dept. participants &
Schedule

1 Inaugural Function Auditorium, Block 4 27 Jan 2017,
11AM-12.20 Noon

2 Power Workshop on Power PE Class Room(6-S-3) 27 Jan 2017,
Engineering plant simulator (10AM-1PM)

3 Power Project Design Block -6, 2nd Floor PE Class 27 Jan 2017
Engineering Contest Room (9AM-4PM)

Chemical Aspen Plus 2-S-07, Computer Lab, Block-2 27 Jan 2017
4 Engg. (10AM-1PM)

Chemical Aqua rocket Ball badminton ground,opp to 27 -28 Jan, 2017
5 Engg.
SAC (10AM-1PM)

6 Chemical Poster Presentation C.R.E lab;Block 2 27 -28 Jan, 2017
Engg. (11AM-1PM)

Chemical Project Design MTO Lab(2-S-9) 27 Jan, 2017
7 Engg. Contest (9AM-4PM)

IT Android app Windows NT Lab 27 Jan 2017
8 development (9AM-
1PM)&(2PM-5PM)

IT Ethical Hacking Interactive Lab 27-28 Jan 2017
9 (9AM-
1PM)&(2PM-5PM)

10 IT Blockly Games UNIX Lab 27-28 Jan 2017
(10AM-1PM)

IT Project Design IT Block 27 Jan, 2017
11 Contest (9AM-4PM)

EEE Technical Paper 3-S-03 27-28 Jan 2017
12 Presentation (11AM-1PM)

EEE Explore-Execute- 3-S-07 27-28 Jan 2017
13 Excel (10AM-12PM)
(Technical Event)

3

STEPCONE 2017

EEE Workshop on MatLab Simulation lab 27-28 Jan 2017
14 (11AM-
for Engineers (3rd block first floor) 1PM)&(2PM-4PM)

EEE Workshop on PLC English communication lab 27-28 Jan 2017
15 Scada (5th block ground floor) (9AM-
1PM)&(2PM-5PM)
EEE Project Design Electrical machines lab
16 Contest 27 Jan, 2017
(9AM-4PM)
Mech
17 Paper Presentations Seminar Hall, Block-2 27-28, Jan 2017
(10AM-4PM)

Mech Advanced IC Engines 3rd Block Civil Seminar hall 27-28, Jan 2017
18 (9AM-
1PM)&(2PM-5PM)

Mech 3D Printing CAD/CAM Lab 27 Jan 2017
19 block 2 (9AM-
1PM)&(2PM-5PM)

Mech Project Design Mechanical Block, Machine 27 Jan, 2017
20 Contest Tools Lab Block-2 (9AM-4PM)

Civil Engg. Paper presentation 3rd Block- Civil Dept. class 27 -28Jan, 2017
21 Room; 3-F-3 (10AM-1PM)
Project Design
22 Civil Engg. Contest Civil Dept. Transportation 27 Jan, 2017
engineering Lab. (9AM-4PM)
Civil Engg.
23 Tall building Design Civil Cad Lab 27 -28 Jan, 2017
(9AM-
1PM)&(2PM-5PM)

Civil Engg. Mix design contest Concrete lab 28 Jan, 2017
24 (9AM-
1PM)&(2PM-5PM)

25 Civil Engg. Technical quiz 3rd Block- Civil Dept. class 27 -28 Jan, 2017
Room; 3-F-1 (2PM-5PM)

E.C.E Quad Copter ECE Block, classroom 6-F-3 & 27-28
26 6-F-4 Jan,2017(9AM-
1PM)&(2PM-5PM)

E.C.E Gesture Controlled ECE Block, classroom 6-F-12 27 -28 Jan, 2017
27 Robotics & 6-F-9 (9AM-
1PM)&(2PM-5PM)

4

STEPCONE 2017 Fox Hunt Open place beside the ECE 27 -29 Jan, 2017
block (10AM-
E.C.E Paper Presentation 1PM)&(2PM-4PM)
28 Project Design
Contest 5th Block ECE Class Rooms 27 -28 Jan, 2017
29 E.C.E IOT 6-F-05/6-F-01 (10AM-1PM)
E.C.E
Python IC/PDC & EDC Lab 27 Jan, 2017
30 (9AM-4PM)
C.S.E Debugging contest
2 CSE Class Rooms(BLOCK-5 27 -28 Jan, 2017
31 2nd Floor) (9AM-
1PM)&(2PM-5PM)
C.S.E
32 Programming lab(BLOCK-1) 27 Jan, 2017
(9AM-
C.S.E 1PM)&(2PM-5PM)
33
Project Lab(BLOCK-5 2nd 27 -28 Jan, 2017
C.S.E/I.T Floor) (2PM-5PM)
34
Paper Presentation 2 CSE Class Rooms(BLOCK-5 27 -28 Jan, 2017
C.S.E
35 2nd Floor) (10AM-1PM)

Project Design BLOCK-5, Network Lab 27 Jan, 2017
Contest (9AM-4PM)

Hand crafted

36 Technical Miniature engineering In front of Block 4 27-29 Jan 2017
37 Exhibition working Model (10AM-4PM)

exhibition

38 Hackathon BLOCK -1:Programming Lab, 28th Jan, 2017, 6PM
Spot Lights ITWS Lab, Interactive Lab - 29th Jan, 2017,
BLOCK -5: CA LAB,
CC LAB(IBM LAB), Project 6AM
Lab

IDP Gallery Hall, 1st Block 27 Jan 2017
(10AM-
1PM)&(2PM-5PM)

5

STEPCONE 2017

Idea Bucket Gallery Hall, 1st Block 28 Jan 2017
(10AM-
1PM)&(2PM-5PM)

Project Design Reading Rooms, Library block 28 Jan, 2017
Contest(Stage -2) (9AM- 4PM)

Robo Contest ECE Quadrangle open place 27-28 Jan, 2017
(2PM-5PM)

RC Car In front of ECE Block 28 Jan 2017
Championship (2PM-5PM)
Team Size: Max. 5
Members

39 Talkathon 4th Block Seminar hall 28 Jan 2017
4th Block Seminar hall (10AM-1PM)
Club Events Movie Making
Contest 28 Jan 2017
(2PM-5PM)
Hobby Exhibition EEE machines Lab
27 -28 Jan, 2017
(10AM-
1PM)&(2PM-4PM)

Spot Events Block 5 BS&H Class Room, 27 -29 Jan, 2017
Foot ball Ground 3PM-5PM

40 Cultural Show Foot Ball Ground 27Jan, 2017, 6PM -
8.30PM

41 Rockband Show Foot Ball Ground 28Jan, 2017, 6PM -
7.30PM

42 Valedictory Function Auditorium, Block 4 29 Jan, 2017,
(2 PM-3:30PM)

6

STEPCONE 2017

Trabajo
(A Paper Presentation Arena)

7

STEPCONE 2017

DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
MICRO GRID OPERATION

N. SYAMALA, N.S.SUSHMA, GMR INSTITUTE OF TECHNOLOGY, RAJAM

Application of individual distributed generators can cause as many problems as it may solve. A better way to realize
the emerging potential of distributed generation is to take a system approach, which views generation and associated
loads as a subsystem or a “Micro grid”. A Micro grid is composed of distributed power generation systems (DGs),
distributed energy storage devices (DSs) and loads. During disturbances, the generation and corresponding loads can
separate from the distribution system to isolate the micro grid’s load from the disturbance (providing UPS service)
without harming the transmission grid’s integrity. This ability to island generation and loads together has a potential
to provide a higher local reliability than that provided by the power system as a whole.
In this model, it is also critical to be able to use the waste heat by placing the sources near the heat load. This implies
that a unit can be placed at any point on the electrical system as required.

INTELLIGENT COMPUTER SYSTEMS
V NARESH, M VAMSI KRISHNA, V VAMSI KISHORE - GMR INSTITUTE OF TECHNOLOGY, RAJAM

This document gives a short introduction to the basics of robotics in the context of artificial intelligence. It describes
the very basics of robotics like sensors and effectors, gives an overview on robotic history, and introduces some basic
problems encountered in modern robotics. It describes possible solutions to those problems without going deeply into
theory. The problems introduced are perception, basic pose description, transition and sensor models, localization as a
special case of perception, representation of environment (workspace and configuration space), path planning (cell
decomposition, potential fields, skeletonization, Voronoi diagrams, and probabilistic roadmaps), movement of robots,
and some real-life examples.

Artificial intelligence is a theory. The base object is the agent who is the "actor". It is realized in software. Robots are
manufactured as hardware. The connection between those two is that the control of the robot is a software agent that
reads data from the sensors decides what to do next and then directs the effectors to act in the physical world.
.

SMART GRID
P.SURYA MUKESH, B.KIRAN KUMAR, GMRIT, RAJAM

Smart grid refers to general term usually used to describe the incorporation of the elements connected to the electrical
grid. This also provides an information infrastructure to offer many benefits for both the providers and consumers of
electricity. The need for smart Grid technology is of great importance now or in the future. This is because a safe
environment is highly needed for a suitable existence of human kind. To overcome this problem of reducing
greenhouse effect (Carbon (IV) oxide, Co2); Solutions provided by smart grid technology is highly essential. The
overhead transmission systems of electric power remain important element of today’s electric power system.
Therefore, smart grid provides efficient upgrade to the existing power generation through an intelligent infrastructure
to meet the requirement of the consumers. Hence, is the delivery of electricity from source to socket; transmitted in a
more efficient, reliable and sustainable method.

Smart grid is an interconnected system of the future that serves as source of energy for the future from transmission
source, controlled and monitor via an intelligent platform to the distribution network and therefore successfully
deliver to the consumers. Guarantee to provide cleaner environment and sustainable energy for the future. Its
economy contributions and benefits are huge when compared to the current network distribution.

NANOMORPHIC TECHNOLOGY
VENKATA RAMANA, GMR INSTITUTE OF TECHNOLOGY, RAJAM

The Nanomorphic Cell is a conception of an atomic-level, integrated, self-sustaining microsystem with five main
functions: internal energy supply, sensing, actuation, computation and communication. Atomic level integration
provides the ultimate functionality per unit volume for microsystems. The Nanomorphic Cell abstraction allows one
to analyse the fundamental limits of attainable performance for nanoscale systems in much the same way that the

8

STEPCONE 2017

Turing Machine and the Carnot Engine support such limit studies for information processing and heat engines
respectively.
The Nanomorphic Cell concept is inspired by the trend, synergistic with semiconductor device scaling; to use these
core technologies for diverse integrated system applications. This trend is called Functional Diversification and is
characterized by the integration of non-CMOS devices such as sensors, actuators, energy sources etc. with traditional
CMOS and other novel information processing devices. The multifunctional microsystems become morphic (literally
means in the shape of) because its architecture are defined by the specific application and the fundamental limits on
volumetric system parameters.

LIFE OF PHYSICS
MAHANTHI VENKATA SURYARAO, SIVASAI SRIPATHI, NAVEEN REDDY-

GMR INSTITUTE OF TECHNOLOGY, RAJAM

Everything in the world depends on physics laws. The observations on physics were first started by Aristotle 2000
years ago . He said that all the things on the earth are more attractive towards earth. So that when a material is thrown
into the space it falls on to the earth. After a long time, a man sitting under a tree named Newton observed an apple
falling on to the ground. He started analysing it and questioned himself that why doesn’t the moon fall on earth. Then
he started doing research and brought the concept of gravity into limelight. He also invented calculus to track the
motion of moon. For that, he invented reflecting telescope. He published a book called Principia that have the
advanced mathematics and scientific laws. Until now, our scientists found four forces, which exist, in the world i.e.
gravitational force, Electromagnetic force, Weak nuclear force, Strong nuclear force. Michael Faraday said that
whenever a conductor cuts the magnetic field emf is induced. From that principle electric revolution was started.
When electric field and magnetic field coincides, each other electromagnetic field is produced. Then Maxwell wanted
to know the velocity of that electromagnetic wave. He came to know that velocity of that electromagnetic wave is
equal to the velocity of light and it nothing but light. Then electromagnetic force is found. The by-product of this
force is our internet. When two matters collide each other then the greatest energy is produced. To apply this
principle, scientists are constructing a large magnificent machine. It is named as Hadron collider. It is located around
the city Geneva, Switzerland. In this machine, the two opposite atoms are forced to bombard each other. Then the
enormous energy is produced. From that they can know the theory of Bingbang.and also can know the source of
energy for the Bing bang that occurred in the past. We can also travel with time by using Einstein’s principle in the
future. Scientists are trying to find the fifth force and which can be totally related to our mind. If we find that force,
the fate of the world will be changed.

MICROGRID
LALAM SANDHYA-
MVGR COLLEGE OF ENGINEERING, VIZIANAGARAM

Generation of electricity from renewable sources promises to satisfy the ever-increasing consumer demand for
electricity while reducing the fossil fuel consumption and the emission of environmentally detrimental green house
gases. The emerging framework of microgrids may facilitate a gradual transition from the conventional sources used
in the legacy power grid that can not be overhauled in a short time. Scientists envision that future electric networks
will consist of a large ensemble of microgrids, potentially inter-connected through the macrogrid backbone, or even
directly connected to each other. An important challenge deterring the proliferation of this promising technology is
that electricity generation from renewable sources is stochastic and may not be controlled; the electricity demand is
invariably stochastic. Thus, periodic electricity deficits and excesses are inevitable. Such deficits may be compensated
and excesses utilized partly through limited storage, but more importantly through electricity trade among
neighboring microgrids and the macrogrid, which may even constitute a major economic opportunity leading to
private sector investments in this technology. But, although significant progress has been made in the microgrid
generation and storage technology, electricity trades among microgrids have received limited attention. The existing
schemes are primarily centralized and therefore not likely to scale as the technology proliferates.

9

STEPCONE 2017

CONTROL FOR RENEWABLE ENERGY AND SMART GRIDS
LEKHYA SREE- ANIL NEERUKONDA INSTITUTE OF TECHNOLOGY, VISHAKHAPATNAM

The use of renewable energy increased greatly just after the first big oil crisis in the late seventies. The current
resurgence of interest in the use of renewable energy is driven by the need to reduce the high environmental impact of
fossil-based energy systems. Harvesting energy on a large scale is undoubtedly one of the main challenges of our
time. Future energy sustainability depends heavily on how the renewable energy problem is addressed in the next few
decades. Here, it is concentrated on two forms of renewable energy—wind and solar—and on the role of smart grids
in addressing the problems associated with the efficient and reliable delivery and use of electricity and with the
integration of renewable sources. Control is a key enabling technology for the deployment of renewable energy
systems. Solar and wind power require advanced control techniques for high performance and reliable operation.The
smart grid can be conceptualized as an extensive cyber-physical system that supports and facilitates significantly
enhanced controllability and responsiveness of highly distributed resources within electric power systems. Most
national energy policies worldwide aim at ensuring an energy portfolio that supports a cleaner environment and
stronger economy and that strengthens national security by providing a stable, diverse, domestic energy supply. Clean
energy is a global and urgent imperative. Renewable generation, especially from wind and solar, and smart grid
concepts are critical technologies needed to address global warming and related issues. The key challenge is to reduce
the cost of renewable energies to affordable levels. Control and related technologies will be essential for solving these
complex problems.

RENEWABLE POWER CONSERVATION TECHNOLOGIES
MAGNETIC GADOLINIUM PROPULSION GENERATOR

M.KEERTHI, P.MADHU, LENDI INSTIUTE OF ENGINEERING -VZM
An electrical generator is provided. The electrical generator may include a shaft and a rotor. The rotor may be
connected to the shaft and may rotate about the axis of the shaft. The present invention may further include a plurality
of magnetic blocks and a plurality of attractant blocks. The plurality of attractant blocks. The plurality of attractant
blocks may include a first set and a second set in an alternating arrangement. The attractant blocks may include
gadolinium. Therefore, a temperature regulator may heat and cool the attractant blocks in order to rotate the rotor and
produce energy.

POWER QUALITY IMPROVEMENT TECHNIQUES
I.SUDHEER, ANITS, VISAKHAPATNAM

The ubiquitous applications of power electronic equipment’s resulted in power quality problems, such as voltage
distortions due to the harmonics generated in supply currents of various order energy efficient electronic equipment’s
and nonlinear loads on voltage and current waveforms. The power quality is of increasing concerns of electric
utilities, since the ill effects of harmonics causes the deterioration of various sensitive electronic and electric
equipment designed to operate on pure sinusoidal waveforms on A.C supply at rated voltage and frequency. Harmonic
distortions and subsequent equipment damage one of the serious quality problems now a day. The three main
important factors related to power qualities are utility, customer and equipment manufactures. The aim of this paper is
to take an overview of different sources of harmonic generation, their effects, measurements and elimination
techniques. To bring the total harmonic distortion within permissible limit by using harmonic suppressor systems
RESEARCH WORK ON CONVERSION OF ENVIRONMENTAL WASTE TO ENERGY -ELECTRICAL

ENERGY
Y. V. PARTHA SARATHI, Y. TEJASWINI- ANITS, VISAKHAPATNAM.
The electricity requirement of the world including India are increasing at alarming rate and power demand has been
running ahead of supply .it also widely recognized that fossil fuels (i.e. coal, petroleum, &natural gas )and other
conventional resources are getting extinct. The recent severe Energy crisis has forced the world to develop new and
alternative methods of power generation. This paper elucidates about energy from waste. Energy recovery from
municipal solid waste and other residual materials are a key component of the integrated resources management plans.
It is the conversion of non-recyclable waste materials into useable electricity through variety of processes, including
combustion, gasification, pyrolization, anaerobic digestion & landfill gas recovery. These are economically and
environmentally sound solution for managing waste while generating renewable energy. These thermo chemical
process succeed in recovering energy from waste.

10

STEPCONE 2017

11

STEPCONE 2017

12

STEPCONE 2017

DEPARTMENT OF MECHANICAL ENGINEERING

ALTERNATIVE FUELS
PONDURU DILLESWARARAO, THAMMINENI DHARMA TEJA, TIMANANA VASU-GMRIT,RAJAM

In this paper we are going to describe the fuels like hydrogen, ethanol, natural gas and biomass which are alternative
fuels. These fuels are alternatives of the petroleum products. Global vehicle pollution has undergone profound growth
over decades. Ethanol comes under the alcohol fuels which are vastly available in United States (U.S). Hydrogen fuel
is mostly used in rockets, but now a day it is also used in cars motor bikes. Natural gas is also named as compressed
natural gas (CNG). Biomass it is a renewable energy resource of fuel produced from forest resources. Usage of these
fuels will cause the decrease in air pollution and also the cost of fuels. Due to reducing petroleum products these fuels
became alter for the petroleum products.
Keywords:-CNG, renewable enrgy, biomass.

BIO-OILS AS ALTERNATE FUELS
MOHAMMAD MALIK ABBAS- GMRIT, RAJAM

A number of research projects and companies are developing innovative processes to turn a wide range of biomass
(forestry residues, waste paper and organic waste) into stable, concentrated bio-oil (bio crude) that is compatible with
existing refinery technology and can be converted into advanced biofuels. Biomass can be utilized to produce bio-oil, a
promising alternative energy source for the limited crude oil. As the oil reserves are depleting the need of an alternative
fuel source is becoming increasingly apparent. One prospective method for producing fuels in the future is conversion
of biomass into bio-oil. The cost of bio-oil production from biomass is relatively high based on current technologies,
and the main challenges are the low yield and poor bio-oil quality. Considerable research efforts have been made to
improve the bio-oil production from biomass. Scientific and technical developments towards improving bio-oil yield
and quality to date are reviewed, with an emphasis on bio-oil upgrading research. It also points out barriers to
achieving improvements in the future.

ADVANCED MATERIALS & DESIGN
K.ARUN KUMAR -GMRIT-RAJAM

Understanding of how materials behave like they do, and why they differ in properties was only possible with the
atomistic understanding allowed by quantum mechanics, that first explained atoms and then solids starting in the
1930s. The combination of physics, chemistry, and the focus on the relationship between the properties of a material
and its microstructure is the domain of Materials Science. The development of this science allowed designing materials
and provided a knowledge base for the engineering applications. Modern engineered materials play a central role in
enabling technological designs that underpin, advance and revolutionize engineering practice. Materials & Design
seeks to publish reports of materials research that present applicable advances in the insight into structure and function,
and provide useable and reproducible recipes for the synthesis, preparation, characterization, modelling and
exploitation of new metallic alloys, ceramics, polymers, coatings, composites and bio-materials systems.

HYBRID VEHICLES
ABHITEJ BANKA, G. RAGHUNATHSAI-GMRIT,RAJAM

With the advancement in 21st Century, there has been increase in usage of Oil and Gas, which is leading to problems
like Global Warming, climate change, shortage of crude oil, etc... Due to these reasons Automobile Companies, have
started doing research for making Hybrid Technology usable into the daily life. The Paper starts from brief history
about Hybrid Technology and some brief introduction on it. Paper will discuss the technologies used in Hybrid Cars
such as “Hybrid Electric Vehicle” and “Hybrid Solar Vehicle”. It is based on the explanation of such technologies,
their function, and efficiency of Hybrid Cars, Case Studies on the present commercial Hybrid Cars such as Toyota
Prius series, etc. and the fuels & raw materials used in the Hybrid Cars. Paper concludes on the special features,
advantages and disadvantages of Hybrid Cars and how this technology will take over the world in future and would
become as an alternative for Petrol and Diesel Cars.

12

STEPCONE 2017

STRUCTURAL MONITORY OF SMART COMPOSITE MATERIAL EMBEDDED WITH FIBRE
BRAG GRATING SENSOR

LADE SIVAKRISHNA- GMRIT, RAJAM

Abstract: smart composites along with fibre brag grating sensor is an advanced material used in marine and aviation
fields. The behaviour of smart composite can be known by using fibre brag grating sensor, this sensor provides
necessary information regarding the mechanical properties of the smart composite and it is very difficult to know the
mechanical behaviour of the smart composite by using the conventional methods, so a fibre brag grating sensor is
embedded in the composite and it is termed as smart composite. Once the composite is damaged the sensor provide the
information about the mechanical changes that influence the performance of the material and sensor acts like a
structural health monitoring of a smart composite. The performance of this advance material is investigated and good
results are observed.
Keywords: fibre brag grating (FBG), smart composites, condition monitoring, sensor.

ROBOTICS AND INDUSTRIAL AUTOMATION

KISHORE GUNDU- GMRIT, RAJAM

A robot may be considered as a machine with built-in intelligence, called artificial intelligence. A robot replaces the
role of a human being to perform a task. Several disciplines of Science, Technology and Engineering are involved in
building a suitable robot for a specific application; thus, making the field of robotics a highly interdisciplinary area of
specialization. Robotics encompasses mechanical engineering, electrical & electronics engineering, (combination being
Mechatronics), computers, manufacture engineering, material technology and several other fields of specialization. To
build intelligence into the robot, powerful computers with artificial intelligence, artificial neural networks, fuzzy logic,
genetic algorithms etc., are involved. The paper presents a short introduction to the basics of robotics in the context of
artificial intelligence. It gives an overview on robotic history, including the movies associated with the field robotics.
The laws governing the making of robots are mentioned in this paper. Hardware and software requirements and
working of robots are explained in the paper. An overview of modern robots like mobile robots, industrial robots,
service robots, military robots, telerobot, BEAM robots, humanoid robots, microdot is given in the paper. The paper
concludes with the state-of-the-art and the near future research areas in the field of robotics. A collection of many
kinds of robots that are under use till date are shown in this paper.

ADVANCED VISION GUIDED ROBOTS FOR AUTOMATIC ASSEMBLIES
CH.SHIVA GANESH KUMAR –GMRIT,RAJAM

This paper presents a vision-guided robot that aims to convert a manual to a fully automatic assembly. These
robots are generally used for highly agile production scenario with processionals outputs. The main theme or the
outcome is precisely aligning assembly features on small component for tight tolerances, which are typically found in
electronic products, by utilizing a robot guided cameras. An important outcome of this ability is that the robots can
work with parts that are not precisely located or clearly separated from one another .A vision guided table top robotic
assembly system is constructed for automatic assembly purpose in any random environment. The distributed control
structure is designed for this assembly system. When a robot can see an object, various items can be picked and placed
without need for custom tooling. The machine vision is introduced to search the locations and measure the size of the
assembly parts in the robotic workspace. Then, the central controller commands the robot to pick the part sequentially
based on specified program to complete the automatic assembly process. The model-free fuzzy sliding mode control
scheme is embedded in each joint micro controller for simplifying the model based control problem. The central
control unit communicates with each joint controller by network communication. This assembly system is
implemented on a 3D SCARA robot. The advanced vision guided robots have come up with smart robots employing
the latest in 3D vision technology and software.

13





STEPCONE 2017

EMERGING TECHNOLOGIES IN WIRELESS COMMUNICAT
IONSMACHANAVAJJULA SARVANI , MANEPALLI NAVYA MADHURI -AITAM-TEKKALI

“TIME DOES NOT STAND STILL, AND NEITHER DO PEOPLE.” So, Many Technologies are being come forth for
the efficient life of Human world in Communication environment. Communication is, “a process of meaningful
interaction among human beings. More specifically, it is the process by which meanings are perceived and
understandings are reached among human beings. Emerging technologies in Wireless communication are being utmost
path of exchanging data. Wireless communication involves the transformation of information over a distance without
help of wires, cables, or any other forms of electric conductors. Predominantly it is divided into finite branches such as
Short range and Long range Wireless communications. Infrared, Bluetooth, Wi-Fi, are some of the known media of
short range and evolution of 1G to 4G (LTE) comes under the Long range wireless communication. It encompasses
various types of Fixed, Mobile and Portable applications such as Security Systems, Remote controls, Cell phones,
Wireless power transfers and Computer interface devices.
Wireless communication doesn’t require elaborate physical infrastructure or maintenance practices. Flexibility is one
of the great benefits of wireless network where wired cable cannot be installed. Wireless frequency penetrates the walls
and these are easy to install and maintain compared to messy wired counterparts. This will help when network grows
and will hundreds to thousands of customers. Thus the wireless communication is creating the networked society of
tomorrow.

AMOLED : AN EMERGING TRENDS IN LED
B.SHARMILA DEVI,G.SONY-LENDI INSTITUTE OF TECHNOLOGY-VIZIANAGARAM

The concept of Active MatrixOrganic Light Emitting Diodes as a modern trend in LightEmitting Devices. This paper
introduces AMOLED device structure and operation, AMOLED materials, Evolution of AMOLED. AMOLED are
used in television screens, computer monitors, small, portable system screens such as mobile phones and PDA,
watches, advertising, information, and indication.AMOLED are also used in light sources for space illuminationand in
large-area light-emitting elements. Due to their early stage of development, they typically emit less light per unit area
than inorganic solid-state based LED point-light sources. Different fabrication processes and technologies are covered.
Also Passive- Matrix OLED driving schemes are outlined. This paper also describes the market potential of AMOLED
by taking modern trends in technology into account.

NANOTECHNOLOGY
PAVANI VELIVALA, SAIKIRAN VEERA,RAVALI KAMBOJI –KLU-GUNTUR

NANOTECHNOLOGY is defined as the fabrication of devices with atomic or molecular scale. Generally devices
with size less than 100 nm come under the category of nano products.A nano meter is one billionth part of a meter(10^-
9nm) This is the solution for many problems that are being faced by mankind by fabricating many nano devices,nano
machines and nano electronics The history of nanotechnology and its necessities are mentioned.
We will describe the major applications of nanotechnology in wide range.The role of nanotechnology in batteries is
discussed followed by its importance in solar cells.Inorder to increase efficiency in constraint to solar cells we here go
for quantum dots.QUANTUM DOTS(QD’S) are semiconductor nanostructures with vast applications across many
industries.The importance of quantum dots is originated from the fact that their electrical conductivity can be altered
by an external stimulus such as voltage.Here we reviewed recent studies on quantum dots .Basic physics involved in
QD’S will be discussed..Nano structures provide unlimited opportunities for the creation of new trending
technologies.To understand applications regarding quantum dots we here talk about quantum confinement effect.
NANOTECHNOLOGY has wide range application in space.Space craft can be 1000’s of time stronger,faster ,and
lighter along with this it will reqire minimum repairing as nanotechnology lasts long. The development of
nanotechnology in medicine and computer field will show the real worth of nanotechnology and then concluded with
its importance in future.

16

STEPCONE 2017

SCENE TEXT DETECTION AND RECOGNITION
D. JHANSI RANI- GMRIT, RAJAM

Text characters in natural scenes and surroundings provide us with valuable information about the place and even
provide us with some legal/important system very important for us to detect such text and recognize them which helps
a lot. But it’s not really easy to recognize those text information because of the diverse backgrounds and fonts used for
the text. In this paper, they propose a method to extract the text information from the surroundings. First, a character
descriptor is designed with existing standard detectors and descriptors. Then, they model character structure at each
character class by designing stroke configuration maps. Later, an android based demo system is developed and the
proposed method of text recognition is proved for its effectiveness. The evaluation results prove that their system is
comparable to several other systems considered to be the best in their class.

GREEN COMMUNICATIONS
G.PRANEETH ,N.SAI VENKATESH-KLU, GUNTUR

Green communications is the practice of selecting energy-efficient communications and networking technologies and
products, and minimizing resource use whenever possible in all branches of communications.
With the data traffic expected to grow nearly exponentially, concerns regarding excessive energy consumption in
wireless networks have been also raised for home and enterprise environments. These two types of networks are
discussed here jointly due to many similarities they exhibit, namely, similar propagation environments (dominantly
indoor scenarios, high diversity of building structures with many obstacles, both due to wall construction and due to
the used equipment), similar basis of a network structure, i.e., usually consisting of an Ethernet-based backbone and a
wireless last hop where many different wireless technologies emerged. To complete the overview also the most
important differences and future perspectives for both networks are pointed out. Then, the “green context” of the
discussed environments is brought up. To this end, first the important metrics used in context of green networking in
wireless scenarios are introduced, and using these metrics an initial evaluation of the potential energy savings in both
scenarios is performed. Next, the energy savings that are possible to achieve in the current state of home and enterprise
networks are surveyed. We start with an overview of what can be done, including hardware (room for possible
hardware improvements) and network-level solutions, with a conclusion that the latter approaches have much more
potential. Then, an overview of most important challenges and limitations in current home and network environments
is provided. Next, a detailed survey of the network-level solutions applicable in dense WLAN scenarios is given,
followed by an outlook on the deployment of femtocells and their most important challenges in near-future perspective
home and enterprise deployments.

MOLECULAR COMMUNICATION
CH. SAI KIRAN, Y.MANOJ SAI TEJA -KLU, GUNTUR

Molecular communications systems use the presence or absence of a selected type of molecule to digitally
encode messages. The molecules are delivered into communications media such as air and water for transmission. The
technique also is not subject to the requirement of using antennas that are sized to a specific ratio of the wavelength of
the signal. Molecular communication signals can be made biocompatible and require very little energy.Molecular
communication is a nano design network design strategy where a transmitter emits information molecules that are
carried to an intended receiver.this strategy can take advantage of many mechanisms in cells and subcellular structures
that already use the emission of molecular communication,It is used in disease detection,drug delivery,virus
detection..etc..Its future scope is environmental application like waste /pollution control,environmental monitoring and
also used in design applications for pattern and structure formation. Current molecular communication research is
limited to small-scale networks of several biological nanomachines. Key challenges to bridge the gap between current
research and practical . applications include developing robust and scalable techniques to create a functional network
from a large number of biological nanomachines. Developing networking mechanisms and communication protocols is
anticipated to introduce new avenues into integrating engineered and natural biological nanomachines into a single
networked system. In this paper, we present the state-of-the-art in the area of molecular communication by discussing
its architecture, features, applications, design, engineering, and physical modeling. We then discuss challenges and
opportunities in developing networking mechanisms and communication protocols to create a network from a large
number of bio-nanomachines for future applications.

17

STEPCONE 2017

MOBILE COMMUNICATION AND CELLULAR COMMUNICATION
T.PRIYANKA-LENDI INSTITUTE OF TECHNOLOGY-VIZIANAGARAM
Communication is on of the integral parts of science that has always been a focus point for exchange information
among parties at locations physically apart. Today mobile communication became the back bone of the society.The
mobile communication was limited between one pair of users on single channel pair. The range of mobility was
defined by the transmitter power, type of antenna used and the frequency of operation. With the increase in the number
of users, accommodating them within the limited available frequency spectrum became a major problem. To resolve
this problem, the concept of cellular communication was evolved.Cellular Concept Cellular telephone systems must
accommodate a large number of users over a large geographic area with limited frequency spectrum, i.e., with limited
number of channels. If a single transmitter/ receiver is used with only a single base station, then sufficient amount of
power may not be present at a huge distance from the BS. For a large geographic coverage area, a high powered
transmitter therefore has to be used. But a high power radio transmitter causes harm to environment. Mobile
communication thus calls for replacing the high power transmitters by low power transmitters by dividing the coverage
area into small segments, called cell.

18

STEPCONE 2017

DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING

AN INSIGHT ON THE INTERNET OF THINGS(IoT)
NOBEL JACOB VARGHESENITISH JUTTU- SATHYABAMA UNIVERSITY

The Internet of things (IoT) is a circumstance in which almost all objects in the real world are capable to understand
their environmental domain and has the capability to transfer data between these objects over a network without
requiring human-to- human or human-to- computer interaction. The target is to create devices which are capable of
making decisions intelligently without human involvements. IoT deals with intense data management-i.e. collecting of
data that comes from all the intelligent sensors, reprocessing these data and sending useful information to the other
related objects. IoT is an amazing growing technology which will change the way in which we live completely starting
from smart homes to smart cities. IoT provides connectivity for everyone and everything. In this paper we aim to
depict the various applications of IoT, provide an overview of some technical details that pertain to the IoT enabling
technologies, protocols, advances in data collection technology, wireless sensor technology and RFID technology, we
also discuss the growing connection between the IoT and other latest technologies including big data analytics and
cloud computing, we also aim to portrait the challenges involved, its scope and opportunities in the future

INTERNET OF THINGS
A.DURGA SARANYA A.SRILEKHA –GMRIT,RAJAM

The Internet of Things links together networks, devices, and data .It helps us to learn more about the things important
to every level of our work. The internet will continue to become ever central to everyday life and work, but there is a
new complementary vision for Internet of things. With the implementation of IOT the way we do things in our life will
become easier. The basic premise is to smart sensors collaborate directly without human involvement to deliver a new
class of application.The current revolution in internet, mobile and machine to machine technologies can be seen as the
first phase of IOT.
In the coming years IOT is expected to bridge diverse technologies to enable new applications by connecting physical
objects together in support of intelligence decision making. A basic example of IOT objects includes thermostats and
HVAC (Heating, Ventilation and Air Conditioning) monitoring control systems that enable smart homes. There are
also other domains and environments in which IOT plays a remarkable role and improve the quality of our lives. These
applications include healthcare, industrial automation and emergency response to natural and manmade disasters where
human making decision is difficult.

WOLF PACK ALGORITHM FOR UNCONSTRAINED GLOBAL OPTIMIZATION
ADAPAKA SANGAMITRA - GMR INSTITUTE OF TECHNOLOGY-RAJAM

The wolf pack unites and cooperates closely to hunt for the prey in the Tibetan Plateau, which shows wonderful skills
and amazing strategies. Inspired by their prey hunting, behaviors and distribution mode, we abstracted three intelligent
behaviors, scouting, calling, and besieging, and two intelligent rules, winner-take-all generation rule of lead
Wolf and stronger-survive renewing rule of wolf pack. Then we proposed a new heuristics warm intelligent method,
named wolf pack algorithm (WPA). Experiments are conducted on a suit of benchmark functions with different
characteristics, unimodal/multimodal, separable/no separable, and the impact of several distance measurements and
parameters on WPA is discussed. What is more, the compared simulation experiments with other five typical
intelligent algorithms, genetic algorithm, particle swarm optimization algorithm, artificial fish swarm algorithm,
artificial bee colony algorithm, and firefly algorithm, show that WPA has better convergence and robustness,
especially for high-dimensional functions.

19

STEPCONE 2017

ANALYSIS OF COGNITIVE COMPUTERS
AUTHOR: Y. SOWJANYA, V. YAMINI, P. MANI GMRIT
Sensing the surroundings to the most knowledgeable extent is the greatest possession of mankind. If a computer
imbibes such human inherited skills through advanced programming, then it is said to be “Cognitive Computer”.
Today world’s computers are acquiring much more advancements that they are working along with human
intelligence. Here is a greater leap of Artificial Intelligence, i.e., intelligent computers with cognitive abilities. A
computer will accompany man, understands his speech, recognises some gestures, his spatial orientation and
commands its cognitive computing agents to analyse his thoughts and movements and bring valuable analysis. The
grounds of this discussion are acquired from a recent study done by Rensselaer Polytechnic Institute and IBM Research
and Cognitive & Immersive Systems Laboratory(CISL) and also gives a brief analysis of that research.

METASPLOIT-THE PENETRATION TESTING
J. HEMANTH K. DURGA PRASAD K. SAI KRISHNA TEJ – GMRIT,RAJAM

The Metasploit Framework makes discovering, exploiting, and sharing vulnerabilities quick and relatively painless.
But while Metasploit is used by security professionals everywhere, the tool can be hard to grasp for first-time users.
Metasploit: The Penetration Tester's Guide fills this gap by teaching you how to harness the Framework and interact
with the vibrant community of Metasploit contributors. Once you've built your foundation for penetration testing,
you’ll learn the Framework's conventions, interfaces, and module system as you launch simulated attacks. You’ll move
on to advanced penetration testing techniques, including network reconnaissance and enumeration, client-side attacks,
wireless attacks, and targeted social-engineering attacks. Our penetration testing software simulates complex attacks
against your systems and users so you can see what a bad guy would do in a real attack and prioritize the biggest
security risks. Defending against attacks requires many complicated steps and sometimes dozens of tools. Metasploit
Pro tests your defenses to make sure they’re ready for the real thing.

MULTITENANCY ARCHITECTURE IN SOFTWARE AS SERVICE OF CLOUD COMPUTING.
PRIYANKA SAILA ROHANI POLAKI ESWARAMMA PULI -GMRIT

Multi-tenancy is introduced by software- as-service architecture (Saas)in cloud computing .Sub tenancy is extracted
from the multitenancy architecture (MTA).Tenant is offer services for subtenant developer to customize their
applications in software as service. Subtenancy architecture (STA) system tenants can create sub-tenant and grand their
resources to them. It is important to keep services components or data private and at the same time allows them to
share and support the application customization for tenants. To address this problem this paper provides formal of a
new tenant based access control for multitenancy architecture and subtenancy in architecture software as a- service
(Saas)..They are different resources sharing strategies are defined to create and deploy the access control schema in sub
tenancy architecture models.

BIGDATA-CONCEPTS,APPLICATIONS, CHALLENGES AND FUTURE SCOPE
BANKUPALLI SAI SUDARSAN SARMA YELLETI VIVEK-JNTU UCEV-VIZIANAGARAM

Big data is a term related to datasets whose size, complexity, and rate of growth make them difficult to captured,
managed, processed or analysed by conventional technologies and tools. It commences with the subject in itself along
with its properties and the two general approaches that dealt with it. The utilization of Big Data Analytics after
integrating it with digital capabilities to secure business growth and its visualization to make it comprehensible to the
technically apprenticed business analysers has been discussed in depth. Aside this incorporation of Big Data in order to
improve population health, for the betterment of finance, telecom industry and for fraud detection and sentiment
analysis has been delineated. The hurdles of securing the data and the democratizing it have been elaborated amongst
several others such as inability in finding sound data professionals in required amounts and the software that possess
ability to process data at a high velocity. In this report we used some use-cases and examples.

20







STEPCONE 2017

comes the advantage of mud as a building material. Earth or Mud is perhaps the only traditional material used by man
ever since he started building his shelter; for protection against natural vagaries of weather. Earth is also one of the
materials very easy to use, widely accessible and most economical. Mud as cooking stoves, chimneys, and more than
all, several forms of decoration is possible. There is however a need to improve and adopt the techniques of usage of
mud as a building material in the present sophisticated context. The advantages and possibilities of mud construction
are endless.

SELF HEALING CONCRETE
S . LAHARI ANISHA- GMRIT
In this presentation, I want to explain about one of the new smart construction materials i.e., self healing concrete.
From many decades concrete is the most important building material and concrete will continue to be the important
building material for infrastructures. But most of the concrete structures are prone to cracking. Tiny cracks that are
produced on the surface make the whole structure vulnerable because water seeps into it to degrade the concrete and
corrode the steel reinforcement, greatly reducing the lifespan of a structure. Self healing concrete is a product that will
biologically produce limestone to heal the cracks that appear on surface of concrete structures. It is formed by mixing
genus Bacillus bacteria along with calcium lactate and nitrogen and phosphorus. This concrete will persist up to 200
years. Self healing concrete also have some disadvantages related to high cost and less strength. But researches are
going on to overcome those problems.

24

STEPCONE 2017

DEPARTMENT OF INFORMATION TECHNOLOGY

VIRTUAL REALITY
TANUJA NAIDU, SONIA GUPTA-GMRIT,RAJAM

Virtual reality (VR) is a technology which allows a user to interact with a computer-simulated environment, whether
that environment is a simulation of the real world or an imaginary world. It is the key to experiencing, feeling and
touching the past, present and the future. It is the medium of creating our own world, our own customized reality. It
could range from creating a video game to having a virtual stroll around the universe, from walking through our own
dream house to experiencing a walk on an alien planet. With virtual reality, we can experience the most intimidating
and gruelling situations by playing safe and with a learning perspective. Finally, the future of VR is considered in two
aspects: technological and social. New research directions, technological frontiers and potential applications are
pointed out. This paper presents a overview of virtual reality, its applications etc.,
Key words— Evolution of VR, HMD, CAVE, Levels of immersion, Immersive Virtual Reality, Telepresence,
Cyberspace.

DYNAMIC RECOMMENDATION SYSTEM USING WEB USAGE MINING FOR E-COMMERCE USERS
S.REETHIKA, T.JYOTHIRMAYI-GMRIT, RAJAM

E-commerce organizations are growing exponentially with time in terms of both business and data. Many
organizations rely on these websites to attract new customers and retain the existing ones. Using traditional web usage
mining techniques in an enhanced manner valuable patterns and hidden knowledge can be discovered. This paper
focuses on providing real time dynamic recommendation to all the visitors of the website irrespective of been
registered or unregistered. Three different approaches are proposed to provide effective recommendation. In product-
based technique, recommendation is provided to unregistered user based on IP address as obtained from log file.
Another technique is user-based technique, which provides recommendation to registered customer based on session
constructed for each unique user based on users’ navigation. Another technique is action based rational technique
provides dynamic recommendation as per changing user behaviour. These techniques yield good quality, accuracy and
minimizes limitations of traditional system.

OCULUS RIFT
S.CHANDRA SAI, V.SAI KRISHNA-GMRIT-RAJAM

OCULUS RIFT now a day is emerging field because of its performance, highly advanced technology in field of virtual
reality (VR).it is also a new set of 3D virtual reality gaming goggles that is, by consensus, one of the most exciting,
innovative and truly different new technology product of last several years. Rift is an upcoming virtual reality head-
mounted display, being developed by Oculus VR owned by Facebook. In this paper, we review Oculus Rift, which
arguably has taken the immersion in virtual reality to a completely new level. The device is a lightweight virtual reality
headset that blocks your view of your surroundings and fully immerses you in a virtual world.

THE FUTURE OF BUSINESS INTELLIGENCE IN THE CLOUD COMPUTING
D.SAI UTTEJ, PALLAPATI RAJA RATNA KUMAR-GMRIT, RAJAM

Business Intelligence (BI) on the Cloud is a delivery model that is slowly catched up and an area that is being actively
watched by many. The use of Business Intelligence (BI) in the cloud is a great changeover, as it makes BI affordable
and easily available as compared to traditional Business Intelligence(BI).Cloud Computing also attracts many
organizations because of its potential, convenient on-demand network access to configurable computing resources like
networks, servers and services. This paper shows us about how the future will be with BI in cloud in future with new
technologies the drivers and challenges related to Cloud Business Intelligence(BI), and can act as a source of
information related to leading Cloud Business Intelligence(BI) vendors. It also covers a few sample use cases and
recommended solutions for each scenario.It also covers how the BI in cloud will affect in the future.

25

STEPCONE 2017

IOT SENSOR SYSTEM BASED ON AGRICULTURAL PRODUCTION
R.YOGANAND DEEPAK, K.PAVAN KUMAR-GMRIT,RAJAM

There has been much research and various attempts to apply new IoT technology to agricultural areas. However, IoT
for the agriculture should be considered differently against the same areas such as industrial, logistics. This paper
presents the IoT-based agricultural production system for stabilizing supply and demand of agricultural products while
developing the environment sensors and prediction system for the growth and production amount of crops by gathering
its environmental information. Currently, the demand by consumption of agricultural products could be predicted
quantitatively, however, the variation of harvest and production by the change of farm's cultivated area, weather
change, disease and insect damage etc. could not be predicted, so that the supply and demand of agricultural products
has not been controlled properly. To overcome it, IoT-based monitoring system was developed to analyze crop
environment, and the method to improve the efficiency of decision making by analyzing harvest statistics.

3 DIMENSIONAL SECURITY IN CLOUD COMPUTING
L.MOHAN KUMAR, K.DILLESWARA RAO, A.MANOJ-GMRIT-RAJAM

Cloud computing is emerging field because of its performance, high availability, least cost and many others. Besides
this companies are binding there business from cloud computing because the fear of data leakage. Due lack of proper
security control policy and weakness in safeguard which lead to many vulnerability in cloud computing.
This paper has been written to focus on the problem of data leakage and proposes a frame work works in two phases.
First phase which is known as Data classification is done by client before storing data. During this phase the data is to
be categorized on the basis of CIA. The client who wants to end the data for storage needs to give the value of C
(confidentiality),I(integrity),A(availability).Accordingly data having the higher rating is considered to be critical and
3D security is recommended on that data. The sensitive proved data will send for storage to cloud provider. According
to the concept of 3D user who wants to access the data need to be authenticated, to avoid impersonation and data
leakage.

CLOUD COMPUTING IN TODAY’S WORLD
V.SAI KRISHNA, M.SAI PRANITHA, V.MRUDHULA-GMRIT,RAJAM

Updation is a must in Software sector. In today's world a company thriving on fixed software or hardware cannot
grow. The best solution to this is Cloud Computing. It allows us to utilize a shared pool of resources at a lower
investment which is a boon for entrepreneurs. These resources can be easily provisioned and released with minimal
management cost. With this upfront infrastructure costs (e.g.: Purchasing Servers) can be avoided. This paper discusses
the types of clouds, service models (Iaas, Paas, Saas), pricing models provided by the cloud providers and a few
advantages and disadvantages with clouds, Need for Cloud Computing and finally conclude.
Keywords: Service models, pricing models, resource pooling, Microsoft Azure.

ARTIFICIAL INTELLIGENCE
B.V.N.K.S.S.D. ADITYA, M. MEHADI HUSSAIN, P. SRI RAM KRISHNA-GMRIT,RAJAM

This paper reviews the meaning of artificial intelligence and its various advantages and disadvantages including its
applications. It also considers the current progress of this technology in the real world and discusses the applications of
AI in the fields of heavy industries, gaming ,aviation, weather forecasting, expert systems with the focus being on
expert systems. The paper concludes by analyzing the future potential of Artificial Intelligence.
Keywords- Turing Test, Gaming Industry, Weather Predictions, ExpertSystem.

ARTIFICIAL INTELLIGENCE
ANUSHA, HARSHINI-GMRIT,RAJAM

Artificial intelligence is intelligence exhibited by machines. The field was founded on the claim that human
intelligence can be so precisely described that a machine can be made to simulate it. AI research is divided into
subfields that focus on specific problems or on specific approach or on the use of a particular tool or towards satisfying
particular application. The term "artificial intelligence" is applied when a machine mimics cognitive functions that
humans associate with other human minds, such as "learning" and "problem solving".

26

STEPCONE 2017

VIRTUAL REALITY
BHAVANA, HARSHITHA, NAVEENA-GMRIT,RAJAM
Virtual reality (VR), sometimes called virtual environment (VE) has drawn much attention in the last few years.
Virtual reality (VR) is a technology which allows a user to interact with a computer -simulated environment, whether
that environment is a simulation of the real world or imaginary world. It is the key of experiencing, feeling and
touching the past, present, future. It is the medium of creating our own world, our own customized reality. It could
range from creating a video game to having a virtual stroll around the universe, from walking through our dream house
to experiencing a walk on an alien planet.

27

STEPCONE 2017

DEPARTMENT OF CHEMICAL ENGINEERING

DESIGN OF MEMBRANE BIO-REACTORS FOR LIQUID WASTE TREATMENT
N. GEETHA VANI, G.N.V PADMAVATHI - GMR INSTITUTE OF TECHNOLOGY- RAJAM

This paper provides a detailed literature review of waste water treatment in a membrane bioreactor process (MBR)
with special focus on industrial waste water treatment. MBR systems are compared with conventional waste water
treatment systems. The characteristics of the bioreactor treatment process (biomass concentration and flock size,
organic and mass loading rates, etc.). The membrane separation of microorganisms from the treated waste water is
discussed in detail. Problems of membrane fouling and membrane washing and regeneration, linked to activated sludge
characteristics. The development and application of a membrane bioreactor (MBR) for full scale municipal waste water
treatment is the most important recent technological advance in terms of biological wastewater treatment. The MBR is
a suspended growth-activated sludge system that utilizes micro porous membranes for solid/liquid separation instead of
secondary clarifiers. It represents a decisive step forward concerning effluent quality by delivering a hygienically pure
effluent and by exhibiting a very high operational reliability. Advanced MBR waste water treatment technology is
being successfully applied at an ever-increasing number of locations around the world.
Keywords: Membrane bioreactor, wastewater treatment, industrial effluents, membrane technology.

HEALTH IMPACT OF NANO TECHNOLOGY
P.HIMABINDU, P.GOPINADH- GMR INSTITUTE OF TECHNOLOGY-RAJAM

Nanotechnology:

Material with any external or having internal structure in the Nanoscale is known as nanotechnology. In specific cases
and where warranted by concerns for the environment, health, safety or competitiveness the number size distribution
threshold of 50%.

Health Impact:

Nanomaterial and nanotechnologies are expected to yield numerous health and healthcare of early detection of
diseases in accordance with increased rate of absorption is the main concern associated with manufactured
nanoparticles. Their surface area to volume ratio increases. The greater specific surface area may lead to increased rate
of absorption through the skin, lungs, or digestive tract and may cause unwanted effects to the lungs as well as other
organs. However, the particles must be absorbed in sufficient quantities in order to pose health risks. Nanotechnologies
are developed, such as more targeted methods of delivering drugs, new cancer therapies.

Advancements in Nanotechnology in accordance with health:

Nanotech detector for heart-Attacks, Nanotech cancer apps, enabled Breathalyzer for diabetics, 3D printed batteries,
revolutionizing eye surgery, Nanotech meets contact lenses and virtual reality etc.

ENERGY INDEPENDENCE THROUGH ANAEROBIC DIGESTION:
A CASE OF FOOD WASTE BASED BIOMETHANATION PLANT

CH.V.V. RAHUL1 K. P.RAJU - GAYATRI VIDYA PARISHAD COLLEGE OF ENGINEERING

Energy consumption, being a developmental index for any organization, needs urgent attention in the era of energy
crisis. The use of renewable energy sources is becoming very necessary due to the limited reserves of fossil fuels and
global environmental concerns for the production of electrical power generation and utilization. Biogas, formed by
anaerobic digestion of organic materials, makes sustainable, reliable and renewable energy possible. In remote areas,
villages, it is easy to get more amount of biomass. Hence by the use of these systems consisting of Biomass to generate
methane gas in these remote areas can be more economical. Kitchen (food waste) was collected from different hostels
and fed to the reactor which works as anaerobic digester system to produce biogas energy. In College campuses by
utilizing the hostels food waste and other biomass residues can be utilized for better purposes. Biogas production
requires anaerobic digestion. This paper will give an analysis on how food waste can be converted into biogas and its
utilization.
Key Words: Biogas, food waste, Anaerobic digestion, organic material.

28

STEPCONE 2017

DENDRIMERS- FACINATING NANOPARTICLES
D PHANI SHREE KALIAN, S SREE VEENA GL, SUDHA LAKSHMI –

GVP COLLEGE OF ENGINEERING
Dendrimers are highly branched polymers with tunable surface topology. This polymer has spherical core-shell nano
architecture with a high density of surface functional groups. It is available in a number of different generations and its
size making it a diverse nanocarrier for biomedical applications. Drugs can be loaded in multiple ways including
complexation and/or conjugation to surface functional groups and/or encapsulation inside the core of the dendrimers.
Dendrimers have been explored as drug delivery vehicles by various routes of drug administration and for other
biomedical applications. This paper provides an overview of physicochemical properties of dendrimers and its various
biomedical applications.

29

STEPCONE 2017

DEPARTMENT OF POWER ENGINEERING

SMART GRID : THE PRESENT AND FUTURE OF SMART PHYSICAL

PROTECTION

V.AMULYA - GMR INSTITUTE OF TECHNOLOGY- RAJAM

Smart grid is regarded as the next generation power grid, which provides bi-directional flow of electricity and
information, with improving the power grid reliability, security, and efficiency of electrical system from generation to
transmission and to distribution. As smart grid continues to develop, realization of a reliable and stable system is
necessary. This helps reviews on the current state-of-art technology in physical protection. This also focuses on the
system reliability analysis and failure in protection mechanism. In addition, the challenges of both the topics are also
presented along with the suggested solution.

SMART GRID

S.V.GANESHGUPTA - GMR INSTITUTE OF TECHNOLOGY- RAJAM

Smart grid technologies can be defined as self-sufficient systems that can find solutions to problems quickly in an
available system that reduces the workforce and targets sustainable, reliable, safe and quality electricity to all
consumers. In this respect, different technological applications can be seen from the perspective of researchers and
investors. The objective of this presentation is expected to be an important guiding source for researchers and
engineers studying the smart grid. It also helps transmission and distribution system operators to follow the right path
as they are transforming their classical grids to smart grids.

INTEGRATED WIND ENERGY AND SOLAR ENERGY
KILAPARTHI RAMU NAIDU- LIET- VIJAYANAGARAM

Now a day’s electricity is most needed facility for the human being. All the conventional energy resources are
depleting day by day. So we have to shift from conventional to non-conventional energy resources. This paper deals
about the combination of two sources ie,wind and solar energy. This process reveals the sustainable energy resources
without damaging the nature. We can give uninterrupted power by using hybrid energy system. This electrical power
can utilize for various purpose. Generation of electricity will takes place at affordable cost. This paper deals with the
generation of electricity by combination of two sources.

INTEGRATED RENEWABLE ENERGY
B.KIRAN KUMAR- GMR INSTITUTE OF TECHNOLOGY- RAJAM

Over the years, renewable energy based power generation has proven to be a cost-effective solution in stand-alone
applications in the regions where grid extension is difficult. The present study focused on the development of models
for optimal sizing of integrated renewable energy (IRE) system to satisfy the energy needs in different load sectors of
four different zones considered in Chamarajanagar district of Karnataka state in India. The objective of the study is to
minimize the total cost of generation and cost of energy using genetic algorithm (GA) based approach. Considering
optimization power factor (OPF) and expected energy not supplied (EENS), optimum system feasibility has been
investigated. Based on the study, it has been found that IRES is able to provide a feasible solution between 1.0 and 0.8
OPF values. However, power deficit occurs at OPF values less than 0.8 and the proposed model becomes infeasible
under such conditions. Customer interruption cost (CIC) and deficit energy (DE) for all zones were also computed to
quantify the reliability of the systems.

30



STEPCONE 2017

32

STEPCONE 2017

33

STEPCONE+ -2016

Core Committee: DISPATCH & COMMUNICATION

CEO, Principal, Deans, Head (Fin & Admin), Faculty Coordinators
SAO & Heads of all Departments  Dr. G. Chandra Sekhar (EEE)
 Mr. B.V. Suresh Kumar (Mech)
Programme Execution Committee: Convenor:  Ch. Vinod Babu(MECH)
Dr. G. Manmadha Rao, Associate Professor (ECE)
Dr. R. L Naidu, Associate Professor (BS&H) (School Student Coordinators
Events)  Ms. Anisha (III CHEM)
 Ms. Sunhitha (II Chem)
Co-Convenor:
Dr.M.Srinivasa Rao, Professor (Mechanical engg.) Volunteers
 T.V.N.S.S.R Vikas (III ECE)
Students:  M Sai kumar (III ECE)
Chairperson:
1.Mr.Raman Kumar Gautam (III ECE) PRESS & MEDIA
2.Ms.Vasudha(III CSE) Faculty Coordinators
Secretary:
:Mr.P.Vinodh Kumar(III EEE)  Dr. K. V. S. Prasad (EEE)
Joint Secretary:  Mr. Eswara Rao(BS&H)
Ms.G.Santhoshi Devi(III PE)  Ch. Kalyan Chakravarthy(ECE)
Treasurer:  K. Koteswara Rao(CSE)
Mr.B.Vijay Shankar(III civil) Student Coordinators
Office Bearers:
Mr. Manideep (III EEE)
D.L.Mounika-ECE Volunteers
Manideep-EEE
Uma Mahesh-CSE V. Pavan Kumar (III ECE)
Nikhita Reddy-MECH B.S.S.K. Vardhan (III Mech)
P.Sharmila-It
Vinay Shekar Reddy-CIVIL ROBO CONTEST
K. Anisha-CHEM
P.Nithin Sai-ECE Student Coordinators
S.Sandhya-MECH  M.L.S.R Prasad(III ECE)
Moses-CSE  G.Prudhvi(III ECE)
Sai Kiran-PE
Naveen Kumar-CHEM Volunteers
R.Rohit-IT 1. P.Srikanth(III ECE)
2. P.N.Koteswara rao(III ECE)
PROJECT DESIGN CONTEST 3. A.Rajesh(III ECE)
Faculty Coordinators HACKATHON

 Mr. K Krishna Kishore (ECE) Volunteers
 Ms. S. Siva Sangari (ECE)
 Mr. Prem Kumar (EEE) 1. B.Sonia(III CSE)
 Dr. M. Laxmi Prasad (BS & H) 2. K.Sai Kishore(III CSE)
Student Coordinators 3. G.Alekya(III CSE)
 Mr. Nithin Sai Padi (III ECE) 4. N.Sadhna(III CSE)
 A.Ram Bharatwaj (II ECE) 5. B.Thanuja(III CSE)
6. B.V.Rama Ratnam(III CSE)
7. B.Sowmya(III CSE)
8. B.Tejawi(III CSE)
9. A.Kiranmay(III CSE)
10. Prudhvi(III CSE)

33

STEPCONE+ -2016 11. 11. Vamsi(III CSE)
12. K.Varun raj(III CSE)
Volunteers 13. V.K.Chaitanya(III CSE)
14. K.Vahini(III CSE)
1. B.Ramji(III CSE)
2. K. Shiva Harsha(III CSE) REGISTRATION
3. P.Vamsi Krishna (III ECE) Faculty Coordinators
4. Sadanandh (III Civil)
5. Pradeep Kumar ( III MECH) 1. Dr. G Anuradha (CSE)
6. P.Dileep Kumar (III MECH). 2. Mr. P Ramana (EEE)
7. S.Gautham(III PE) 3. Ms. T. Geethamma (ECE)
8. P.Venkat Ramana(III EEE) 4. Mr. P.Srihari(IT)
5. Mr. P Satya Sagar (Chem)
INDUSTRY DEFINE PROBLEMS & IDEA 6. Mr. Priyatam(Civil)
BUCKET 7. Mr. BMS Srinivasa Rao (ECE)
8. Mr. P Praveen Kumar(EEE)
Faculty Coordinators 9. Mr. K Hari Krishna(PE)
 Dr. S. N. Das (Chemical Engg.) Student Coordinators
 Dr. R. Priya Vaijayanthi (CSE)  Mr. Uma Mahesh (III CSE)
 K. Dasu Naidu (BSH)  Snehith(II CSE)
 Ch. Chakradhara Rao (CSE)  I.Rohith-(III ECE)
 R.Madhusudhan Reddy-(III CSE)
Student Coordinators
IDP:- Volunteers

 Ms. Nikitha Priya Reddy(III MECH) 1. K.Krishnakanth-(III ECE)
 Mr. Ravi Teja (II Mech) 2. P.D.Sourya Raj-(III ECE)
IDEA BUCKET:- 3. G.Jyothi(III MECH)
 P. Aditya(III CSE) 4. B.V.Bharadwaj(III ECE)
 K.Niranjan Sai-(II EEE) 5. G.Maneesha(III ECE)
Volunteers ( IDEA BUCKET) 6. D.Neelima-(III ECE)
1. M. Gayatri(III CIV) 7. K.Venkatesh(III ECE)
2. Ms.Charishma(III CIV) 8. S.Sruthi(III PE)
3. Ch.Keerthi (II IT) 9. K.Sunitha(III PE)
10. L.S.Rama Krishna(III MECH)
Volunteers (IDP) 11. N. Sai Swetha-(III CSE)
1. Mr. Rohit Dadi (III ECE) 12. V. V.Raj sekhar-(II CSE)
2. K.S.U Swojanya(II Mech) 13. M. Avinash-(II CSE)15341A0585
3. K.Narayana(II MECH) 14. K.Durga Prasad-(III CSE)
4. K.Harsha Priyanka(III MECH) 15. M.Pavan kumar-(II CSE)
5. K.Madhuri(III MECH)- 16. K.Akhil-(II CSE)
6. C.H.L Narayana(III ECE) 17. G.Sharmila_(III CSE)
7. P.Pranathi(III ECE) 18. P.Vamsi Venkat(III EEE)
8. Sai Vinay(II PE) 19. P.Rathakar-(III CSE)
9. G.Bharadwaj(III CSE) 20. G.Srujana-(III ECE)
10. K.Anusha(3rd mech) 21. K.Srikanth-(II CSE)
11. P.Vikas(2nd civil) 22. G.Srikantha(III CSE)
12. D.Lavanya(3rdece)
SESSION ARRANGEMENT
PAPER PRESENTATION
Faculty Coordinators
Faculty Coordinators  Dr. P. Kalpanna (Chemical Engg.)
 Dr. T.S Kishore (EEE)  Mrs. G. Kalyani (Chemical Engg.)
 Mr. J V Rao(Civil)  Mr. P Ravi Kumar(ECE)
 Mrs. M. Jyothi (IT)  Mr. N Santhosh Kumar (BSH)
 Mr. Tirupathi Rao (EEE)
Student Coordinators
 Ms. Sharmila (III IT) Student Coordinators
 P.Yasaswi(II CSE)
 V.Naresh(III EEE)

34

STEPCONE+ -2016  M. Phani Kumar (III ECE)
 Sanhita(II CHEM)
Volunteers Volunteers
1. T. Sireesh Raj (III ECE) 1. V.Sukanya(III CSE)14341A05H5
2. Mr. M.V.V Ajay (III ECE) 2. B.Hemalatha(III CSE)-14341A0510
3. V. Rajitha (II ECE) 3. P.Eswaramma(III CSE)-14341A05C9
4. S.Rama Krishna-(II ECE) 4. N.Sadhana(III CSE)-14341A05A9
5. P.Roja-(III CSE) 5. N.Vidya(III CSE)-14341A05B4
6. B.Sahiti-(III CSE) 6. G.Hari Prasad(III PE)-15345A3406
7. M.Supriya-(III CSE) 7. V.Srinivas Teja(III CSE)
8. P.V.N.L.Priyanka-(III IT) 8. B.Dinesh
9. K.Sravya(II IT)
10. Siva Shankar(III PE) 9. A.Teja
11. G.Charan Srivatsav-(II PE)
12. J.Sandhya-(II PE) HOSPITALITY
13. D.Indira-(III MECH)
14. P.N.S.Santosh(III CIVIL) Faculty Coordinators
15. G.Bhaskara rao(II CIVIL)  Mr. P M K Prasad (ECE)
16. Ch.Supriya(II CHEM)  Mr. Butchi Prasad (Civil)
17. Mr. Karuna Kumar(II CHEM)  Mr. K. Santha Rao (Mech.)
18. M.V.S Murthy(III ECE)  Mr. D. V. Ramana (ECE)
 Mr. J. V. Suman (ECE)
19. Sonia Gupta(III IT)  Mrs. I Sri Lakshmi(CSE)
 Mr. T.Ram Prasad (BSH)
WORKSHOPS  Ms. P Jaya Lakshmi (PD)
 Mr. A Rama Rao (AO-H)
Faculty Coordinators  Mr. P.Rama Sharma(FB-Manager)
 Mr. P. Devendra (EEE)
 Dr. M. Gangadhar (Chemical Engg.) Student Coordinators
 Mr. G. Suresh (ECE)  Mr. Sai Kiran (III Pow)
 Mr. Sri Teja (II Pow)
Student Coordinators
 Mr. M.A. Moses (III CSE) Volunteers
 Mr. Niroop (II CSE) 1. G.Kishore(III MECH)
 R.V.Sai Kumar-(III EEE)` 2. A.Bhaskar Uday Kiran Sai(II PWR)
3. S.Sai Krishna(IIPWR)
Volunteers 4. G.N.V.Padmavathi(III CHEM)
1. M.Vamsi Krishna-(III EEE) - 5. V.Amulya(III PWR)
2. Shanmuk Srinivas-(III EEE) 6. V.Deepthi Rani(III EEE)
3. Chakradhar-(III CHEM) 7. A.Ramya(III MECH)
4. Anees Rehman-(III CHEM) 8. K.Manisha(III CSE)
5. M.Sai Pranitha(II IT) 9. P.Vivek Guptha(II ECE)
6. N. Swami Pawan(II IT) 10. Sk.Azhar Sohail(II ECE)
7. G.Mounika(III IT)
8. K.Mounika(III IT) TRANSPORT
9. B.A.N.Tharun Kumar-(II PE)
10. Ch.Hareesh Kumar-(III CSE) Faculty Coordinators
11. K.Sai krishna(III CSE)
12. T.Phaneendra Babu-(II CSE)  Mr. M. V. Sekhar Babu (Mech.)
13. M.S.Srikanth-(III CSE)  Mr. P. Govindha Rao (Mech.)
14. K.G.R.Shivani-(III CSE)  Mr. Ch. Srinivasa Rao(BSH)
15. L.V.Surya Akhil-(III MECH)
16. G.Karthik(III MECH)  Mr. D. Y. V. Prasad(ECE)
17. A.Ashish Kumar-(III MECH)
18. J.Maneela(II MECH) Student Coordinators
19. M.Meghana-(III ECE)
20. A.V.K Manoj(III ECE)  Mr. Manideep (III EEE)
21. S.Rishi(III CIVIL)  P.Sai Pavan(II ECE)

35

STEPCONE+ -2016 Volunteers

22. K.Ajith Kumar(III CIVIL)  R Chaitanya (III ECE)
23. B.Subba Lakshmi(III CIVIL  A.Surya teja (III EEE)
24. S.Rishi(III CIVIL)  K.Prasanth (III EEE)
25. K.Ajith Varma(III CIVIL)
26. B.Subba Lakshmi(III CIVIL) AUDIO,VIDEO,PHOTOGRAPHY
27. P.Ravi Kumar(II CSE) Faculty Coordinators

SCHOOL EVENTS  Mr. Ch. R. Vinod Kumar (IT)
Faculty Coordinators  Mr. V. Srinadh (CSE)

 Dr. R. L. Naidu Student Coordinators
Volunteers  Mr. A. Moses (III CSE)

1. P.Sivaram (II ECE) Volunteers
2. A.Prudhvi (II PE) A.V. Pavan Kumar (III PE)
3. M.Sai Pranitha(II IT)
4. Y.Vasantha Kumari(II MECH) RC CAR RACE

SPOT EVENTS Faculty Coordinators
Faculty Coordinators  Mr. Shiva kumar Raju (Mech)

 Dr. K. Koteeswara Rao (BS & H) Student Coordinators
 Ms. Vani Kumari (CSE)  Y.C.M Durga Prasad(III MECH)
 Mr. Srinivasa Rao (Civil)  V.S.S. Vara Prasad (III MECH)
Student Coordinators  N. Chanukya Sai (III MECH)
 Ms. D.L. Mounica (III ECE)
 Ms. Sireesha (II ECE) Volunteers
Volunteers 1. S.Jayaram(III MECH)
1. D.Sai Gowtham-(III ECE) 2. U.Vivek Vardhan (III MECH)
2. D.Sai Kiran-(III ECE) 3. Malik Abbas(III MECH)
3. B.Balasree-(III ECE)
4. B.Lavanya-(III ECE) 4. R.B.Y.Praneeth(III MECH)
5. D.Lavanya(III ECE) 5. P.V.V.S.S.M Anudeep(III MECH)
6. B.Deepak Varma-(III ECE)
7. Uday Venkat-(II CSE) 6. Y.Venkatesh(III MECH)
8. L.Dedeepya-(III CSE) 7. B.Nagabushan(III MECH)
9. B. Ashish(III ECE) 8. I.Vamsi(II MECH)

CLUB ACTIVITIES STAGE & SEATING ARRANGEMENT
Faculty Coordinators
Faculty Coordinators
 Dr. G. Sasi Kumar (PE)  Mrs. V. Vasudha Rani (IT)
 Dr. HariKrishna (BS&H-Eng.)
 Mr. L.V. Suresh Kumar (EEE) Volunteers
 Ms. G. Neelima (CSE) 1. B. Sai Krishna(II IT)
Student Coordinators 2. B.Maheswara rao(II CIVIL)
 Mr. R.R. Rohit (III IT)
 Mr. Hussain (II IT) 3. K.Ravindra(II PE)
Volunteers 4. P.Manoj(II PE)
1. M. Santosh Kumar (III IT) 5. Ch.Nikhil Mouli(II MECH)
2. R.V.S. Akhilesh Naidu (III CSE)
3. P.Deepthi Kalyani (III Mech) 6. P.Pavan Kumar(II CIVIL)
4. B.supraja(II IT)
5. S.Mounika(III IT) ACCOMODATION
Faculty Coordinators

 Mr. A. Appa Rao (PE)
 Mr. A. Sudhakar (ECE)
 Mr. Bh Arun Kumar(PD)
 Mr. A Ganapathi Rao(BS&H)
 Mr. A Rama Rao(AO-H)
 Mr. P Rama Sharma(F&B)

Student Coordinators
 Ms. Anisha (III CHEM)
 Tamishra. S(II CIVIL)

Volunteers

36

STEPCONE+ -2016 1. B. Sai Kumar (III CSE)
2. D.Yashoda(III EEE)
DEPT.TECH.EVENTS 3. D.V.S.Mounika(III CHEM)
Faculty Coordinators 4. P.Dharani(III ECE)
5. P.Subbirama Reddy
 Dr. A. V. Ramanna (CSE) 6. R.Roja(III CSE)
 Mr. H. Joga Rao (Chemical Engg.) 7. R.Roja(III CSE)
Student Coordinators 8. R.Bhargavi Pravalika(III CSE)
 Mr. K. Vinay (III Civil) 9. B.Deepak Varma(III ECE)
 Mr. Rakesh Naidu (II Civil) 10. K.Sashank kumar(III ECE)
Volunteers 11. CH.L.Narayana(II MECH
MIX DESIGN CONTEST 12. P.Vikas(II CIVIL)
1. Madhu Mohan Reddy(III CIVIL) 13. Prithivi(II PE)
2. Sarasvati(III CIVIL)
3. A. Karthik(III CIVIL) STALLS
4. K.Nithin Kumar(III CIVIL) Faculty Coordinators:
TECHNICAL QUIZ
1. A.Krishna Teja(III CIVIL)  Mr. G. V. D Mohan (Mech)
2. K.Yatheendra(II CIVIL)  Mr. B Nagamani Naidu (BS&H)
3. S.M.S. Prasanth(II CIVIL)  R. Ramakrishna (EEE)
4. B.Bala Kotaiah(II CIVIL)  B Lakshmana Rao ( BSH )
5. B.Sahithi spandana-(II CIV) Student Coordinators:
 Ms. Sandhya (III Mech)-
EXPLORE EXECUTE EXCEL  Rajesh Roy(II MECH)-
1. J. Phani Kumar(III EEE)  M.L.S.R. Prasad (III ECE)
2. T.S.N Raju(II EEE)  D. Pavan Kumar (III ECE)
 G. Akhil(Student-III ECE)
3. V.Krishna Sai(III EEE)
FOX HUNT Volunteers
1. G.Vishwanadh-(III CSE)
1. N.Jaya Raju(III ECE) 2. L.A.G.K.Koundinya(III POWER)
2. Balaji(III ECE) 3. D.Pavan Kumar-(III ECE)
3. K.Saranya(III ECE) 4. M.L.S.R.Prasad-(III ECE)
4. J.John Prakash(III ECE) 5. G.Akhil-(III ECE)
5. M.Naga Mallika(III ECE) 6. K.Bharani-(III EEE)
AQUA ROCKET 7. Ch.S.J.S Madhuri-(III CIVIL)
1. Manikanta(II CHEM) 8. Ch.Nagesh-(III CIVIL)
2. S.D.S Dinesh(II CHEM) 9. K.Karishma-(III POWER)
3. Prasanth(II CHEM) 10. V.M.N.S.S.Siva Prasad-(III CIVIL)-
POSTER PRESENTATION 11. Ch.Bharath-(III ECE)
1. V.T.V.S.N Vijay Kumar(III CHEM) 12. V.Dinesh-(II MECH)
2. Anitha(III CHEM) 13. Nazeer Mehmood-(II IT)
DEBUGGING CONTEST 14. Vasudev-(II MECH)
1. M.Surya(III CSE)
2. V.Rama Ratnam(III CSE) DISCIPLINARY COMMITTE
3. N.Vineela(III CSE) Faculty Coordinators
4. K.Approval(II cse)
5. Chaitanya kalyan reddy(II cse)  Dr. K. Gouru Naidu (BS&H)
BLOCKY GAMES  P.Vamsisagar (BSH)
1. V.Sai Krishna(II IT)  V.Dhilleswara Rao(BSH)
2. A.Anil(II IT)  B V Suresh (MECH)
3. G.Sai Prasad(II IT)  Sri Lakshmi (CSE)
4. N.Ravi Teja(II IT)  P. Nagaraju (CSE)
 P. Muralidhara Rao(CSE)
PURCHASE & FINANCE  M. Vykunta Rao(MECH)
Faculty Coordinators  D.Venkatarao(MECH)
 Sai Prasada Rao (CSO)
1. Dr. D. Srinivas Kumar (Mech.)  Bh.Arun Kumar (PD)
2. Mr. M. Rambabu(EEE)

37

STEPCONE+ -2016 Volunteers
1. G. Surya Kumari(III CSE)
3. Mr. M. Srikanth(BS&H) 2. K.Akhila(III CSE)
4. Mr. M Balaji(CSE) 3. S.anusha(III CSE)-
5. Mr. D Tejeswara Rao(BSH) 4. N. Amulya(IIICSE)
Student Coordinators 5. N.Monika(III CSE)
 Mr. Naveen (III CHEM) 6. Madhuri(III ECE)-
Volunteers 7. M.Ravi Teja(II PE)
8. G.Harisha Babu(II PE)
1. S.Manideep (III MECH) 9. B.Kaleswara Rao(III MECH)
2. G.Bhanu Teja( III ECE) 10. P Chandrasekhar (III ECE)
3. D.Vamsi( II CSE) 11. B.Dinesh(III CSE)-
4. Pavan Kumar( II CIVIL) 12. M.Pavan Kalyan(III CSE)-14341A0590
5. A.Prudhvi( II CSE) 13. K.Priyanka(III ECE)
6. Y.N. Ravi Kiran (III ECE) 14. K.Nirosha(III ECE)
7. B.Santhoshi(III-ECE) 15. Ch.T.S.Viswanadh(III MECH)
16. Perin Devi Varma(III CIV)
DESIGNING & PRINTING 17. P.Chandrika(III ECE)
Faculty Coordinators SPONSORSHIP

 Mr. M. Satish (IT) Faculty Coordinator
 Mr. Muralidhar (CSE)  Dr. R Srikanth (Chem)
 Mr. M Venkatesh (EEE)  Mr. B Anil Kumar (ECE)
 G. Satya Keerthi(IT)
 K Simhadri(Mech) Student Coordinators
 V Manoj (PE) P. Aditya (III CSE)
Student Coordinators P.Rahul(II EEE)
 Mr. Naveen (III CHEM)
 Mr. Gopi (II Chem) HELP DESK
Volunteers Faculty Coordinator
1. B. Madhavi Latha(III EEE)
2. N.Vineesha Varma(III CSE) Mr. K.Santa Rao (MECH)
3. P.Lokesh(II PWE) Mr. MTS Lakshmayya(Civil)
4. Bhavya Kiran(II CHEM) Volunteers
1. P.Lakshmi priya (II ECE)
2. G.Monika(II ECE)
3. S.V.S Pavani(III CSE)
4. R.Pranitha(III CSE)
5. S.Priyanka(III CSE)
6. P.Anusha(III CSE)

DEPARTMENT EVENT
MANAGEMENT COMMITTE

Department faculty coordinator:
 Mr. Naga Raju (CSE)
 Mr. JSV Siva Kumar(EEE)
 Mr. D. Suresh (ECE)
 M. Anil Kumar (MECH)
 Suneetha (IT)
 G Bhagawan(PE)

MOCK & WRITE UP

38

STEPCONE+ -2016

Faculty Coordinators

Dr. V Sri Rama Murthy(CSE)

Mr. N. V. A Ravi Kumar (PE)

Student Coordinators

Mr. Nithin Sai (III ECE)

39

STEPCONE+ -2016

Editorial Board:
EDITOR : Dr. G. Manmadha Rao, Associate Professor, Dept. Of E.C.E
Associate Editors:

Dr. R. L Naidu, Associate Professor (BS&H) (School Events)
Mr. K.R.Surendran, Assistant Professor, Dept. of B S & H
Mr. Manoj, Associate Professor, Dept. of P.E
Members:
B.Naveen Kumar (III CHEM)
Chandra Mouli (III MECH)
Praharsha (III MECH)
B.Ramji (III CSE)
Gopinath (II CHEM)
N.Vineesha (III CSE)
B.Madhavilatha (III EEE)
P.Lokesh (II PE)
Abhi Tej (II MECH)

40