Swati Mohan

  • Dr. Swati Mohan is an Indian-American scientist.
  • She is currently working as Supervisor for Guidance, Navigation and Control Systems at NASA’s Jet Propulsion Laboratory.
  • She started her career at NASA as an intern.
  • She started working as a full-time employee at JPL on Cassini Mission. The mission was at its final stages when she joined.
  • Cassini Mission is a 20 years long voyage in exploring the Saturn.
  • In 2013, she was engaged in the Mars 2020 Perseverance Rover Mission. She was appointed as the Guidance, Navigation and Control Systems (GNC) Engineer.
  • Her role was to design the GNC subsystem of the rover and deploy the assembly and final launch of it. Then she became the guidance, navigation and control operations lead through out the launch, cruise and landing of the mission.
  • The Perseverance Rover touched down the Martian surface on February 18, 2021. She was responsible for maneuvering the complex entry of the space craft into the Martian Orbit.
  • When asked about what made her to pursue her career in space, she says, that when she was a kid, she was inspired by the Star Trek series.

IEEE PAPER PRESENTATION RULES

TEAM FORMATION

1. Team can have maximum of 2 participants
2. No participants can be part of more than one team.

PRESENTATION RULES

1.The paper submitted will have to be presented during the event.
2. Hard copies of the same are to be submitted before presentation to Judges.
3. The Teams will get 8 minutes to present their paper. And 2 minutes will be for questioning by judges.
4. The participants will have to present their papers in MS-Power Point (ppt) format only.
5. Violation of any rule can result in rejection of paper.

ABSTRACT SUBMISSION

1.The abstract should not exceed 2 pages.

2.The abstract should be submitted on or before the date specified.

3.Any late submission of abstract will be considered as invalid

The organizers reserve the right to change/update the rules of the contest at any point of time and will do their best to inform to participants of the same.

The jury’s decision will be final and first 3 positions will be announced based on their decision. Marks will be allotted based on your idea, presentation skills etc.

Participation certificates will be provided for all the teams who participated.

CATCH UP

 

With an ample response from the students, the event ‘Catch Up’ was definitely a stress buster to mellow out amidst the tight academic schedule. The event being a fun-filled online quiz, was a comprehensive work of IEEE & WIE club. The quiz was open from 24/12/2021 to 02/02/2022.

Jocose

Lead off with the reckoning of rebus puzzles to the must know contrived scientific concepts in entertainment stuffs, the quiz was a jocular assessment. The event coped to manifest the overlooked facts in voguish plays. The event was concocted by Ms. J JESMIA (II EEE A), headed by the branch counsellor Dr. C. Kalyana Sundaram M.E, Phd. Assistant professor Department of ECE.

HEY ALEXA…

The event ‘HEY ALEXA’, organized by IEEE and WIE club in the academic year 2021-2022, was conducted virtually through Impartus on 22nd of January 2022. Commencing with oath taking for the forthcoming occasion of National Voters’ Day, the event was smoothly coordinated by Mr. K VISHWAUGH III ECE A and Ms. S MADHU VARSHINI III EEE A. The event was a mere attempt to consolidate the radiance of cognition among students.

The event enjoyed an active participation of audience enthusiastically prompting answers through the chat box for every question. A detailed account on amusing facts about Alexa and a brief description on the pros of Dialogflow was delivered by the presenters. The event consisted of interactable questions enabling the students to share their conscience along with rebus rounds, featuring the meticulous know abouts of organizations from various genre. The students relished throughout the program and gave pleasing reviews. The event was headed by the branch counsellor Dr. C. Kalyana Sundaram M.E, Phd. Assistant professor Department of ECE.

Techieddles!

IEEE and WIE scrutinized the tech event ‘Techieddles’, with a propensity to quench one’s thirst for the pursuit to quest. The event took place on 29th of January 2022 virtually through Impartus and was headed by the branch counsellor, Mr. C Kalyana Sundaram M.E, Phd. Assistant professor Department of ECE.

Fun is just another word for learning!

And this event was a fine corroboration denying an aspect to refute this statement with its bemused pitch. The event gathered a fair crowd, attaining an active participation by several students flooding the chat box with rejoinders witfully, by cracking the hints and tricks smoothly for enumerable quizzes despite its arduous stripe. The event was deliberately administered by Mr. G AJEETH MUTHU (II EEE A) and Ms. J JESMIA (II EEE A) within the time frame of 3:40pm to 4:30pm.

Lisa Su

  •  Lisa Su is the current CEO of the semiconductor company Advanced Micro Devices (AMD).
  • She is the first woman to become the CEO of AMD.
  • She is known for her works in the fields such as Semiconductors On Insulators (SOI) technology.

 
  • She did her BS in Electrical Engineering at MIT and pursued to do MS and did PhD in SOI technology. 

  • It is a technology to fabricate silicon transistors over another layer of silicon transistors with an insulating medium between the two layers of silicon. This would help in reducing the size and increasing the performance of the devices.
  • After completing her PhD in 1994, she joined Texas Instruments. There she worked on and devised a technique to utilize copper in semiconductor connections instead of aluminium. This resulted in 20% faster operating devices.
  • She also served as the director in the R&D department of IBM in 2000s and also started her own semiconductor company.

  • She joined AMD in the year 2012 and in the year 2014 AMD announced her as its new CEO. At that time, AMD had very worse market shares and the company was at the brink of bankruptcy.

  • With decades of experience in the field of semiconductors, Lisa Su along with other directors devised a plan to bring back the company to its form.

  • They focused on manufacturing CPUs and other Semiconductors for high performance computing such as gaming and hosting data centres. As a result, they launched their Ryzen CPUs based on Zen architecture in 2017. This surged their CPU market share to about 11%.
  • And currently, she is the CEO of AMD and also serves as directors for companies such as Cisco Inc, Analog Devices.

Minal Rohit

  • Minal Rohit is an Indian Scientist and Systems Engineer in the Indian Space Organization (ISRO).She helped in sending the Mangalyaan space probe to Mars.
  • She started her career as a Satellite Communication Engineer at ISRO and went to work for the Space Application. She was one among the 500 scientists and engineers who worked on the Mars Orbiter Mission (MOM).
  • She was a head engineer and Project Manager for Chandrayaan II.
  • Her primary work on that project involved improving Insat-3DS satellite to increase atmospheric data and quality received.
  • She received the ISRO young Scientist Merit Award 2013 for her contributions to the Telemedicine Programme.

An intelligent artificial pancreas

          Our body gets energy from the food that we consume. The food we consume is broken down into glucose and from that energy is obtained. When there is excess of glucose, it is stored in muscles and fat cells, utilized when there is a demand. 

Our body does this automatically without any intervention. An organ, pancreas is responsible for regulating the blood glucose level. It secretes two hormones namely, Insulin and Glucagon. Insulin lowers the blood glucose levels and Glucagon increases the blood glucose levels. Thus, maintaining the blood glucose level to a rate of 70-180 mg/dL. When our body fails to do this automatically, we encounter diabetes.

Our body does this automatically without any intervention. An organ, pancreas is responsible for regulating the blood glucose level. 

It secretes two hormones namely, Insulin and Glucagon. Insulin lowers the blood glucose levels and Glucagon increases the blood glucose levels. Thus, maintaining the blood glucose level to a rate of 70-180 mg/dL. When our body fails to do this automatically, we encounter diabetes.

The controller comes loaded with a control algorithm that predicts the blood glucose levels and injects required amount of insulin. When the person is eating, they can press the button “I am Eating” and then enter the calories of the food they consume which may help predict the glucose level much better. Also, they can press “I am Exercising” button when they exercise so the device stops injecting insulin in the blood. The next step is to take it design a fully autonomous device that will be placed within our body.

3D Printing in Quantum Computing

Ultra-cold atoms are excellent sensors of time, magnetic field and vacuum, obeying quantum -mechanics rules. Physicists could use these ultra-cold atoms to sense even the weakest magnetic fields in the room, or to build a clock with an accuracy of four-billionth of a second. But they probably couldn’t get these sensors or clocks out of their lab.

Now, a team of physicists from the University of Nottingham have shown that 3D printing parts for these ultra-cold quantum experiments allows them to shrink their device down to just a third of its usual size. This could be a more accessible way to create smaller, more stable, and personalized experiment setups.

The Nottingham team’s experiment does not take an entire table – it has a volume of 0.15 cubic meters. To build it, Somaya Madkhaly and her colleagues embarked on something like a very customizable Lego set, that’s very small. Typically, they work on a 5-by-8-foot table covered with a maze of mirrors and lenses (optical components) that guide and manipulate light as it travels through millions of atoms, often which are stored in an ultra-high vacuum chamber. They almost reduced the size by about 70% compared to the conventional setup. Instead of buying parts, they assembled their setup from blocks that they 3D printed to be shaped exactly the way they wanted.

Thus, 3D printing helps ultra-cold quantum experiments get smaller!

Fresh Start

Yet another an engaging and mirthful event of the academic year 2021-2022, organized by the IEEE and WIE club, was held on the 5th of January 2022. The event was titled ‘FRESH START’, welcoming the commence of the new year and was a propulsive to motivate the audience to inculcate technical stuff in a merely entrancing facet, along with a brief elucidation of the club`s agenda. The rendezvous was chaperoned by Ms. S K Samrutha IV ECE A and Ms. Anjala Monal M S IV ECE A, in the ECE Seminar Hall between 5pm to 6:15pm. A good congregation of students took part in this event. The event comprised of enumerable technical and non-technical questions that embraced the students to assess their grasp and elicit answers. The technical questions focused in the genre, ‘Units and Measurements’. Also, a buzzer round was conducted in the mid, not to eradicate slightest of the audience`s enthusiasm.  In a nutshell, the pupil`s interaction was diligently remarkable and they gestured a positive response by terming the event to be informative and clubbable. The event was headed by the branch counsellor Dr. C. Kalyana Sundaram M.E, Phd. Assistant professor Department of ECE.