Art Work - Websmemberfiles.freewebs.com/63/58/78355863/documents... · Art Work D.Swathi ECE 3A P.Vishnu Vardhan. ECE 2B ... Crack GRE Department Activities ... Dr. K.V.L. Raju and

Art Work

D.SwathiECE 3A

P.Vishnu Vardhan.

ECE 2B

K. ARJUN ECE-3A

Ravi Teja

ECE 2B

ContentsSubject Page No.

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Foreword by HOD

Will Tomorrow Be Lit By LEDs?

Imagine the future..

Ridiculous Computers

Do electronics think?

Emails not all Ecological

Crack GRE

Department Activities

Co-curricular activities

Toppers Edge

Campus Placements

Student Activities (SPACE & IEEE)

Electronics Freaks

Poiima

Photo Gala

Photo Funia

Foreword

by Naveen Robsworth(10331A04A1)

1 Impulse 2012-13 Issue 1

Dr. R. Ramana Reddy,HOD, ECE Dept.

Technological advancement in the fields of Electronics and Communication Engineering played a key role in the nation’s socio-economic development. The developments in the field of hardware technologies like IC manufacturing, Space technology and embedded systems have contributed enormously in making IT enabled services reach out rural and interior places of the country. Evidently the rapid growth made in this area necessitates the need for continuous updating of the knowledge.

Department news letter will be a best platform in continuous updating and sharing of the knowledge. I appreciate the students of the department for their valuable contributions and innovative ideas in giving a good shape for the third issue of Department news letter Impulse. Student's active participation in certification programs encouraging the department to start new add-on programs to further bridge the gap between academics and industry and to make our students more employable.

I am thankful to the Honorable Management, Principal, Dr. K.V.L. Raju and Governing Body Members for their encouragement and support in all the activities of the Department.

The department's success is entirely attributed to the enthusiasm and hard work of faculty, staff, students, and alumni who have strived to make our Vision a reality. I want to take this opportunity to thank everyone who helped in moving the department forward.

he performance of LEDs has improved so much over time Tthat these tiny bulbs are all set to

brighten homes, light up streets, project images from mobile phones, and get involved in our lives in many more interesting ways. Governments are even challenged companies to come up with viable, sustainable, LED-based home lighting solutions, cheap enough to replace the omnipresent 60W bulb. Eco-friendly, low- power LED lamps might be the biggest step we take towards saving this planet!

Do you remember the HP-35 calculator that Hewlett-Packard (HP) launched way back in 1972? It was a hot favourite amongst engineers, being the only pocket calculator with transcendental functions at that time. It cost $395, and believe it or not, the price tag was so heavy because the device used light-emitting diodes (LEDs)! Today, LEDs are used even by school children for their science projects—say, an experiment to light up little bulbs using a spinning magnet. That is how common these tiny 'digital' lights have become.

At a time when their cost was prohibitive, LEDs were used merely as indicators in electronic devices. They are now used as backlights for digital displays, including liquid crystal display (LCD) flat televisions and computer

TECHNICAL ARTICLES

Will Tomorrow Be Lit By LEDs?

monitors, sustainable lighting systems such as solar lanterns and solar street lights, as well as conventional home lighting. This quick uptake of LED technology can be attributed to the fact that the industry has been keeping pace with Haitz's Law—a prediction by an erstwhile HP employee called Ronald Haitz that the amount of light that can be produced per diode (performance) would increase twenty-fold every decade, while the cost of that light would decrease ten-fold.

LED in your living room : Efforts are being made LEDs the de facto standard for home and public lighting. Although LED lights are still too costly to motivate the common man to go for them, power savings, long life and low maintenance requirements have resulted in companies opting for LED. Also, with LEDs, it is possible to develop solid-state lighting (SSL) products, that is, lamps made using LEDs and OLEDs rather than electrical filaments, plasma or gas. The light weight and no brittle parts make such lamps robust and shock-resistant. The lifespan is also longer. They are now used mostly for traffic lights, remote controls, etc., but soon they might rule the home lighting market. Despite the high initial costs, commercial organizations worldwide have already started adopting LED-based lighting because of the low TCO it offers in the long run, as well as to

meet energy-related regulations.

India will also walk in step with the LED revolution happening worldwide. To sustain this effort Indian companies are working with bodies like the Bureau of Energy Efficiency (BEE) to help define LED luminaire specifications to meet global standards.

LED-lit towns : LEDs are a great option for street lighting, because these are economically and environmentally

sustainable. By moving to LEDs, a town can save lots of power, avoid a lot of carbon emission and also reduce the total cost of ownership because LEDs have a long life and are practically maintenance-free.

Driving home with LED : LEDs have been used for the amber and red taillights in cars for quite some time now, but as far as forward-lighting goes, it has been discussed for long but not implemented, as the efficiency of LEDs

was insufficient for headlights thus far. Prototypes have been demonstrated since 2006, and hobbyists have tweaked their cars to fit special LED headlights.


- BNS ManoharAbhi Sekhar Reddy

ECE 2/4

lectronic Gadgets had turned out to be one hell of the necess i ty in the present E

technological world. The android and Iphone gadgets have made us feel like in a smart world. But after having a look at these future concept gadgets you will know the real meaning of “SMART”.

NOKIA Morph Concept:

Launched alongside The Museum of Modern Art “Design and The Elastic Mind” exhibition, the Morph concept device is a bridge between highly advanced technologies and their potential benefits to end-users. This device concept showcases some revolutionary leaps being explored by Nokia Research Center (NRC) in collaboration with the Cambridge Nanoscience Centre (United Kingdom) – nanoscale technologies that will potentially create a world of radically different devices that open up an

entirely new spectrum of possibilities.

Morph concept technologies might

TECHNICAL ARTICLES

Imagine the future..

create fantastic opportunities for mobile devices:

Newly-enabled f lexible and transparent materials blend more seamlessly with the way we live

Devices become self-cleaning and self-preserving

Transparent electronics offering an entirely new aesthetic dimension

Built-in solar absorption might

charge a device, whilst batteries become smaller, longer lasting and faster to charge

Integrated sensors might allow us to learn more about the environment around us, empowering us to make better choices

Google Glass: research and development program by Google to develop an augmented

reality head-mounted display (HMD).Project Glass products would display information in Smartphone- like format hands - free and could interact with the Internet via natural language voice

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Project Glass is a

c o m m a n d s . T h e p r o t o t y p e ' s f u n c t i o n a l i t y a n d m i n i m a l i s t appearance (aluminum strip with 2 nose pads) has been compared to Steve Mann's Eye Tap

The operating system software used in the glasses will be Google's Android

Project Glass is being developed by Google X Lab, which has worked on other futuristic technologies such as self-driving cars. The project was announced on Google+ by Babak Parviz, an electrical engineer who has also worked on putting displays into contact lenses; Steve Lee, a project manager and "geolocation specialist"; and Sebastian Thrun, who developed

Udacity as well as worked on the self-driving car project. Google has patented the design of Project Glass.

Google glass has a wide range of applications. Its mix of variety of gadgets we carry around, for starters it has a camera, gps location, face recognition etc. It's a wearable computer. User can access the any feature through interactive voice recognition “ok glass”. User at any time can just call 'it' and take a snap shot hands free. The glass is imbibed with memory with face recognition software, so it can recognize a face within its memory. Google Glass has the ability to take photos and record 720p HD video. Just like anything google, this device can access Google maps, weather forecast.


- V. S.V. RupaS.Naveen

ECE 3/4

5# The 3com Audrey (2000) A good sign that something unfortunate is afoot at your technology company is when someone proposes naming your new computer after a dead actress. S a y A u d r e y H e p b u r n f o r instance.

Launched in 2000, the makers of the Audrey designed their tool specifically for the kitchen and to do far, because trendy, on the go internet users of the new millennium had no time to walk back to the living room or bedroom, they needed to see what eBay had to offer while they frosted their toaster strudel. "In an attempt to make the Audrey unique, this is marketing talk for “incompatible with anything and grossly inconvenient to use? they came up with It had a whopping eight-inch screen--probably enough to read the first half of this sentence--and subscribers got to have access to "channels" specifically designed and optimized for the Tiny Tim-sized screen.

4# The Coleco Adam (1983) We understand that personal computers were still pretty primitive in the 80s. B a s i c a l l y , a machine sold back then had to satisfy

TECHNICAL ARTICLES

Ridiculous Computers

two requirements: entering the wrong command wouldn't cause the Reds to launch nukes at Nebraska, The Coleco Adam only satisfied one of those. As you probably guessed, this was made by the Coleco company, the creators of Colecovision. There were minor issues, like the fact that the power supply ran through the printer (that is, if the printer broke, your computer was a paperweight).And its software was stored on cassette tapes. If you don't see the problem with this, you're too young to know what magnets did to cassettes (hint: It's the same thing that a big wave does to a sand castle).

3# The Timex Sinclair 1000 (1982) KAPOW! That computer is s o s m a r t i t ' s shooting out holy b e a m s o f computer light! And what's that? With its totally hardcore 2KB of RAM and ability to display 32 columns and 24 lines in sleek, early 80s black and white, the TS1000 did nothing. We're not exaggerating; you could fill those lines and columns with some text, then presumably erase it and type more. It had no ability to save your work (though you could hook a tape recorder up to it if you had one).

2# PocketMail (2000) Imagine being able to check or send e-mail

anytime, anywhere. If you just imagined you were back in the year 2000 with your PDA, shut up. We ' re t a l k i n g about the miracle of Pocket Mail, which was like a PDA except all it did was send and receive e-mail. cell phones had the ability to send texts as early as the mid 90s and, you know, there was always actual computers in your home, wherever. Plus if you were stuck out somewhere without a cell phone or a computer handy, you still needed to get to a payphone to use your Pocket Mail. It also pulled off the miraculous design feat of being too big to fit in your pocket, yet too small to be comfortable to type on like a laptop.

1# The Apple III (1980) Now just settle down, Apple lovers. We're all friends here. That's right, just lay the gun on the table. See, not so long ago Apple wasn't t h e b e s t manufacturer of iPods and paper-thin laptops it is now. The Apple III, while aesthetically as retarded as any computer from the 80s, had the problem of trying to cram a whole lot of computer into a relatively small space. Which is totally in the spirit of cutting-edge Apple, only this is 1980 we're talking about here. Nowadays, computers have internal cooling fans and heat sinks all over them to take care of this. The result was that chips would actually pop free from their sockets as the metal heated and expanded. Machine owners exper ienc ing problems were given the most awesome set of troubleshooting instructions in the history of computing: Lift the dead machine a few inches of the ground and drop it. The hope was that the impact would seat the chips again.


- Md. SiddeqECE 3/4

hen one tiny circuit within an integrated chip cracks or Wfails, the whole chip -- or

even the whole device -- is a loss. But what if it could fix itself, and fix itself so fast that the user never knew there was a problem?

A team of University of Illinois engineers has developed a self-healing system that restores electrical conductivity to a cracked circuit in less time than it takes to blink.

As electronic devices are evolving to perform more sophisticated tasks, manufacturers are packing as much density onto a chip as possible. However, such density compounds reliability problems, such as failure s t e m m i n g f r o m f l u c t u a t i n g temperature cycles as the device operates or fatigue. A failure at any point in the circuit can shut down the whole device.

The I l l inois team previously developed a system for self-healing polymer materials and decided to adapt their technique for conductive systems. They dispersed tiny microcapsules, as small as 10 microns in diameter, on top of a gold line functioning as a circuit. As a crack propagates, the microcapsules break open and release the liquid metal contained inside. The liquid metal fills

TECHNICAL ARTICLES

Do electronics think?(You may change your mind)

in the gap in the circuit, restoring electrical flow.

A failure interrupts current for mere microseconds as the liquid metal

immediately fills the crack. The researchers demonstrated that 90 percent of their samples healed to 99 percent of original conductivity, even w i t h a s m a l l a m o u n t o f microcapsules.

The self-healing system also has the advantages of being localized and autonomous. Only the microcapsules that a crack intercepts are opened, so repair only takes place at the point of damage. Furthermore, it requires no human intervention or diagnostics, a boon for applications where accessing a break for repair is impossible, such as a battery, or finding the source of a failure is difficult, such as an air- or spacecraft.

One if the futuristic innovations by DARPA is a self destructing battelefield electronics.Technology has become a major asset on the battlefield and is used extensively across all areas and agencies within the Department of Defense. But that technology also f o r ms a ma jo r problem if it gets into the wrong hands. Electronic devices are built to last, which make them very reliable. However, if during a hostile situation such a device has to be left behind or gets dropped, it will continue to function and could end up giving the enemy an advantage. With that in mind, DARPA has set about creating electronics that work for as long as necessary, but can be destroyed at a moment’s notice. The project is called Vanishing Programmable Resources (VAPR). Its main aim is to develop so-called transient electronics that are capable of dissolving completely, or at the very least to the point where they no longer function. Destroying a VAPR device should be as easy as sending a signal to it or placing the device within certain conditions e.g. extreme heat or cold, that triggers the rapid destruction process. For the moment, VAPR remains strictly a research project. DARPA is set to announce to introduce the ideas associated with VAPR in a bid to get industry, academia, and other government agencies interested. After that, research needs to happen in key areas including materials development, manufacturing processes, and device design.

Dissolving electronics isn’t a new idea, and it’s one DARPA has visited before when researching their use in medical procedures. In that case electronics created on ultrathin sheets of silicon could be dissolved using a biofluid. It seems likely the same ideas could be used as a starting point for VAPR devices.

SELF HEALING ELECTRONICS

Self destructing electronics:

5

- Md. ZiauddinP.S. Harsha

ECE 3/4Impulse 2012-13 Issue 1

e are inundated wi th electronic greeting cards, and we send several such e-cards W

ourselves. We believe that by switching from paper to electronic mode of communications, we are “green”, and that in doing so we have saved paper and thus done a bit to save the environment and generate less Co . 2

Well, perhaps just a bit but it appears not as much as we are led to believe. “E-mails are not so green” The often-quoted estimate by Mr. Matthew Yeager of Europe's largest IT infrastructure company claims that sending an e-mail attachment of 4.7 megabytes (MB) creates as much greenhouse gas as boiling a tea-kettle 17.5 times. His study claims that an e-mail of 1MB would be the equivalent to the emission of 19 grams of CO And if that mail is 2

copied (cc's, as we type) to 10 people, its impact is 73 grams of CO2

Matthew Yeager points out that the current amount of data storage across the globe is 1.2 zettabytes (ZB) of stored

GREEN CORNER

Emails not all Ecological

data. This requires equipment with a mass equivalent of 20 per cent of the island of Manhattan, New York City! Put another way, this level of stored data is the equivalent of all of the US' academic libraries multiplied by half a million! and the data storage is expected by the year 2020, to grow to 35 ZB (incidentally, zeta is a sextillion, or 10 raised to the power 21 (or 1 followed by 21 zeros). The scale increases thousand-fold each time from million or mega, to billion (giga), trillion (tera), quadrillion (peta), quintillion (exa), sextillion (zeta), septillion (yotta) and so forth).

E-mail is thus not all that green and e-mails with attachments are worse. Yeager estimates that in a 100-people company where each employee sends on average 33 e-mails a day and receives 58, the greenhouse gas emission linked to emails would be around 13.6 tons of CO per year.2

And a s tudy by the French government's Environment and Energy Management Agency (Ademe) suggests that if each of these 100 employees sent 10 per cent less emails for a year, they would save CO 2

emissions equivalent to one round-trip flight between Paris and New York.

Talking of CO emissions by airline 2

traffic, it was reminded of what Dr. Jeremy Nathans of Johns Hopkins wrote (by e-mail, not snail-mail) when

he was invited to come to Hyderabad for delivering the Champalimaud Lecture. He declined coming in person, stating that he is doing his bit to the environment by not flying all the way from Baltimore and back. He lectured electronically (video talk real time; it should now be estimated how much CO he would have saved by not flying 2

but video-lecturing) 30 per cent of the input power in each computer is used in powering the chips, 30 per cent of the energy entering a microprocessor is turned into heat, and that 123 billion kilowatt hour per year is how much electricity it takes just to keep the Internet's servers running.

Energy use is a central issue for data centers. Power draw for data centers ranges from a few kW for a rack of servers in a closet to several tens of MW for large facilities. Some facilities have power densities more than 100 times that of a typical office building. For higher power density facilities, electricity costs are a dominant operating expense and account for

over 10% of the total cost of ownership (TCO) of a data center. Cost of power for the data center is expected to exceed the cost of the original capital investment

Take Facebook usage. It is estimated that its users alone are uploading over 1000 photos per second, or 3 billion photos per month. Recall the tea kettle boiling equivalent of sending a 4.7 MB attachment, and you get the idea.


- N.C.V. Ranga CharyuluP. Ananth Varma

ECE 3/4

rospective graduate and business school students can Ptake GRE. test. Schools require

GRE test to evaluate applicants for Graduate school admission. GRE General Test provides a common measure for comparing candidates' qualifications.

GRE scores are used by admissions committee members in addition to appl icants academic prof i le– u n d e r g r a d u a t e r e c o r d s , recommendation letters, statement of essay and other requirements.

The Graduate Record Examinations (GRE) is a standardized test that is an admissions requirement for many graduate schools in the United States, in other English-speaking countries and for English-taught graduate and business programs world-wide. Created and administered by Educational Testing Service (ETS) in 1949.The exam aims to measure verbal reasoning, quantitative reasoning, analytical writing and critical thinking skills that have been acquired over a long period of time and that are not related to any specific field of study. The GRE General Test is offered as a computer-based exam administered by selected qualified testing centers.

In the graduate school admissions process, the level of emphasis that is

Career Article

Crack GRE

placed upon GRE scores varies widely between schools and between departments within schools. The importance of a GRE score can range from being a mere admission formality to an important selection factor.

The GRE was completely overhauled in August 2011, creating an exam that is not adaptive on a question-by-question basis, but rather by section, so that the performance on the first verbal and math sections determine the difficulty of the second sections

shown. Overall, the test retained the sections and question types from its predecessor, but the scores were changed to a 130 to 170 scale.

Structure : The computer-based GRE General Test consists of six sections. The first section is always the analytical writing section involving separately timed issue and argument tasks. The next five sections consist of two verbal reasoning sections, two quantitative reasoning sections, and either an experimental or research section. These five sections may

occur in any order. The experimental section does not count towards the final score but is not distinguished from the scored sections. Unlike on the computer adaptive test prior to August 2011, the examinee is free to skip back and forth within sections. The entire testing procedure lasts about 3 hours 45 minutes.[4] One-minute breaks are offered after each section and a 10-minute break after the third section.

The paper-based GRE General Test consists of six sections and is only available in areas where computer-based testing is unavailable. The analytical writing is split up into two sections, one section for each issue and argument task. The next four sections consist of two verbal and two quantitative sections in varying order. There is no experimental section on the paper-based test.

Preparation : A variety of resources are available for those wishing to prepare for the GRE. ETS provides p repara t ion so f tware ca l l ed PowerPrep, which contains two practice tests of retired questions, as well as further practice questions and review material. Since the software replicates both the test format and the questions used, it can be useful to predict the actual GRE scores. ETS does not license their past questions to any other company, making them the only source for official retired material. ETS used to publish the "BIG BOOK" which contained a number of actual GRE questions; however, this publishing was abandoned. Several companies provide courses, books, and other unofficial preparation materials.

Test preparation companies such as Kaplan and Princeton Review claim that the test format is so rigid that familiarizing oneself with the test's organization, timing, specific foci, and the use of process of elimination is the best way to increase a GRE score.

What is GRE?


Md. Ziauddin

ECE 3B

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rdP.Davidraju,Md.Siddeq,M.A.K.Muzebuddin,P.V.A.AnantaVarma of 3 year ECE presented a paper titled “Design of octagonal &hexagonal strip monopole antennas for UWB Applications “ in International Conference ICMARS,

th thJodhpur during 11 to 15 Dec 2012.

rdM.V.DivyaDeepika ,R.S.S. MEGHANA, V.UMA BHARATHI of 3 year ECE presented a paper titled “Telsa Touch Screen “ thin Granicus during the period 13 august. 2012.

th rdV.V.Ramesh of 4 year ECE and M.Vimala Rani of 3 year ECE presented a paper titled “Halo Networks “ in Granicus during ththe period 13 August. 2012.

rdE.Vamsi Krishna and K.Mahideep of 2 year ECE presented a paper titled “Palm Vein Technology “ in Samyak during the th thperiod 5 -6 september 2012.

rd thB.Arun Kumar and B.RamabhadraRaju of 2 year ECE presented a paper titled “Cryonics “in Samyak during the period 5 -th6 september 2012.

rdP.SumaPrasanth, P.V.J.RamaRaju ,S.Naveen,Md.Sirazuddinof 3 year ECE attended workshop on “Embedded Flow For thRobotics“in EESISTHA during the period 25 september 2012.

rdA.C.Sarath, V.Anvesh, K.Raviraj and Ms.K.Utkala of 3 year ECE attended workshop on “JAHAAZ “in technozion during th27 september 2012.

rdM.Lakshmi, E.Sushmitha,G.Priyanka of 3 year ECE attended workshop on “ADVANCED ROBOTICS “at I-GENESIS thduring 7th september 2012.

rdN.C.V.R.Rangacharyulu, P.Sunil,N.VamsiKrishna and R.sandeep of 3 year ECE attended workshop on “ANDROID thBOTIX “at TECHNOZION during 27 september 2012.

rdK.Viveyk,G.varun,K.Leelaprasad of 3 year ECE attended workshop on “CYBER FORENSICS AND EXPLORATION th“at TECHNOZION during 29-30 september 2012.

rdA.AnilKumar,R.BalaKrishna,A.Sandeep,CH.PraveenKumar of 3 year ECE attended workshop on “BASIC ROBOTICS th“at I-GENESIS during 7 september 2012.

rdM.Vimala Rani of 3 year ECE attended workshop on “IN CASH BOX GUARD TRADKY(PROJECT EXPO) “at thGRANICUS during 13 augustr 2012.

nd rdJ.Mounika of 2 year and K.DurgaRohiniof 3 year ECE attended workshop on “ANDROID APPLICATION thDEVELOPMENT “at I-GENESIS during 7 september 2012.

And many more…….

Co-curricular activities

Department Activities9 Impulse 2012-13 Issue 1

Toppers Edge

I YEAR II – SEMESTER ( 2011 – 12 )

S.No Name Regd.No Photo % Position

1 1

2

33

2

KOTAMRAJU

MADHURI

BADIGANTI J V

NAGA PRASANTH

PERUMAHANTHI

SOWMYA

91.83

91.19

88.35

11331A0458

11331A0406

11331A0492

UPTO II YEAR II – SEMESTER ( 2011 – 12 )


1 1

2

33

2

NISHITA

BHUPATHI RAJU

KALIVARAPU

UTKALA

P VENKATA APPALA

ANANTHA VARMA

90.22

88.77

86.55

10331A0407

10331A0444

10331A0478

UPTO III YEAR II – SEMESTER ( 2011 – 12 )


1 1

2

33

2

PRIYAMVADA TATIKONDA

KHAJANA VINOD KUMAR

MIRIYALA SRUJANA

86.02

84.95

84.05

09331A0497

09331A0447

09331A0473

UPTO IV YEAR II – SEMESTER ( 2011 – 12 )


1 1

2

33

2

VASANTHA

SANTOSHI

GOPISETTY

GAYATRI

RAYAVARAPU

SARATH CHANDRA

85.98

84.90

84.31

08331A04C0

08331A0445

09335A0405


Campus Placements

he economic slowdown has hit campus drives hard. With the economic slowdown taking a toll globally and sentiment

falling domestically, companies are going slow on campus recruitments. Though the Students of ECE Department had Tsuccessfully got selected in various Companies like TCS, GENPACT, Sutherland Global Services, ONYX and

BROADCOM. Training Programs organized by T&P cell and faculty had greatly helped the students to taste the success. Team

Work and High spirits of students are the key factors to get success in these drives. Training & Placement incharges of our

department Mr .M.Krishna Murthy and Mr. D. Raja Ramesh are appreciated for their efforts towards the placements.

Campus Placements


Student Activities

SPACE & IEEE

entative Schedule for SPACE(Student Progressive Association of

Electronics and Communication Engineers), and IEEE Student Branch T(01921) activities for the academic year 2012-2013.

Activities

S.No. Name of the event Proposed date

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Tech quiz-1

Tech Quiz-2

Tech Quiz-3

Tech Quiz-4

Social Service Activity on the eve of

Birth anniversary of MaharajAlaknarayanGajapathi raj

On the eve of Engineers day Tech Quiz(final)

Kho-Kho(B),Tennicoit(G)

Shuttle(B),Musical Chair(G)

Throw ball(G),Carroms,chess(B)

Volley ball(B),carroms(G),chess(G)

Essay writing

Tugh of war(B),Kho-kho(G)

Tugh of war(G),Basket ball(B)

Rangoli

Shuttle(G),Table tennis(B)

Extempore,Group discussion

Debate,Non technical quiz

Atheletics(B & G)

Singing & Dancing

Lemon & Spoon(G),Table tennis(G),Cricket(B)

Department Day

13th July

th20 July

th24 August

th26 August

th15 sept

th28 sept

th29 sept

5th oct

th12 October

th15 December

nd 22 December

st31 December

th4 January

th 5 January

th 9 January

th9 February

th27 February

nd rd2 -3 March

rd3 August

th 29 December

th12 March

Engineering by Profession Perfectionthrough Passion...

“ “

Bachelors of TechnologyMaster of Totality...

“ “

President : K. Divya Charitha

Vice : P. Sandeep Rou

Treasurer : T.Priyamvada

Secretary : V. Vamsi Krishna

Co- : Md. Siddeq

Co- : K. Leela Prasad

President

President

Vice President

Co-Secretary : E. Vamsi Krishna

Co-Treasurer : M. Sree Kavya

SPACE Core Team

IEEE Core Team

President : A. Ashok Vardhan

Vice President : Y. Laxmi Lavanya

Secretary : Pennam Ajay

Treasurer : Sai Sunil Kumar

Co - President : P.S.Harsha Vardhan

Co - Vice President : K. Manasa Chinmay

Co - Secretary : Nishita Bhupathi Raju

Co- Treasurer : L. Jagadish


Fun Zone

Electronics Freaks

Swathi ECE 3B

Arun kumar

ECE 2A


Fun Zone

Poiima

Ohhchandamama...

Andhanikiprathirupama

PremikulakiAaapurupama

KanthulaJalapathama

VenelaKolaatama

Needalenivarikihayiniistavu

Jaadalenivarikidariniichuputhavu..........

G.SANTOSH SRAVAN

ECE 2/4

The first may the best……. But the last is sweetest…….We always finding the' first' things in our life. No one enjoying the 'last'…The first day of college…Full of confusion state, pressure, fearWe feel like alone…But the last day of college…Full of sweet memories, relief,We are in middle of Group of friends.First interview may gives you experienceBut last one gives you job…Who can decide the value of last rupee in our mobile balance…?No one in the world can remember the first day of his life. But he may know his last day. He can plan it.The last day of examThe last ball of cricket match We never enjoy first day of year We celebrate' year ending'The first ones are may be valuable….But the last are precious…!

D.SWATHI

ECE 3A


Fun Zone

Photo Gala


S. Naveen

P.S. Harsha Vardhan

P.V.J. Rama Raju

ECE 3B

Fun Zone

Alumni Area

His Aim: is to become an IAS officer and become civil servant.But chosen the INDIAN NAVY as its a good opportunity to serve the nation and his future plan is to become IAS after getting retired from NAVY after 10years as defense personal will be exempted from age relaxation for IAS

His words to juniors: Defence is a wonderful opportunity for all Engineering students as its a great honour to work for country and also the facilities and salaries provided are the best and unmatched with any other career and great opportunity to enter any Public Service Unit (PSU) after retirement.

PAKKURTHI ABINAV SANTOSH VINAY

Sub-lieutenant, Indian Navy

2008-12 BATCH B.TECH

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Art Work - Websmemberfiles.freewebs.com/63/58/78355863/documents... · Art Work D.Swathi ECE 3A P.Vishnu Vardhan. ECE 2B ... Crack GRE Department Activities ... Dr. K.V.L. Raju and