Project Power

RESHMI S

Phone nr.: +** / 944-***-**** / Email: ***********@*****.***

Career objective

To continuously enhance my knowledge, skills and experience by getting involved in challenging work

environment and utilize them for personal and organizational growth to the best of my ability.

Education

DEGREE YEAR NAME OF THE UNIVERSITY/B PERCENTAGE

INSTITUTION OARD

M.Tech 2012-2014 KARUNYA KARUNYA 67.4

UNIVERSITY UNIVERSITY

B.Tech 2006-2010 MAR BASELIOS MAHATMA 63

CHRISTIAN GANDHI

COLLEGE OF UNIVERSITY

ENGINEERING

&

TECHNOLOGY

HSC 2004-2006 BASELIOS KERALA STATE 75

HSS,DEVAGIRI BOARD

SSLC 2004 BASELIOS KERALA STATE 75

HSS,DEVAGIRI BOARD

•

Project Details

M.Tech Full semester project

PROJECT MAXIMUM POWER POINT TRACKING OF PHOTOVOLTAIC SYSTEM EMPLOYING

TITLE FUZZY SLIDING MODE CONTROL

DESCRIPTION Depending on various atmospheric conditions, photovoltaic system produce maximum power at a

particular operating point called the maximum power point(MPP). Unlike conventional power

sources, it is desirable to operate photovoltaic system at its MPP. However, the MPP locus varies

over a wide range depending on the insolation intensity, temperature, aging of solar panels,

instantaneous clouding conditions and load’s electrical characteristics. Therefore a time varying

matching network which interfaces the varying source to the potentially varying load is required.

The role of this matching network is to ensure the operation of the PV panel at its MPP in the

face of changing atmospheric conditions. Here this network is efficiently implemented using

fuzzy sliding mode control. Fuzzy sliding mode control ensures faster response and stability while

the high tracking efficiency is contributed by a simple P&O algorithm used along with the

FSMC. A comparative study of maximum power point tracking using Fuzzy sliding mode control

and conventional sliding mode control is done in real time and it was observed that fuzzy sliding

mode gave a better response than the conventional sliding mode control.

PLATFORM LabVIEW2006

M.Tech Half semester project

PROJECT MAXIMUM POWER POINT TRACKING OF PHOTOVOLTAIC SYSTEM EMPLOYING

TITLE SLIDING MODE CONTROL

DESCRIPTION Depending on various atmospheric conditions, photovoltaic system produce maximum power at a

particular operating point called the maximum power point(MPP). Unlike conventional power

sources, it is desirable to operate photovoltaic system at its MPP. However, the MPP locus varies

over a wide range depending on the insolation intensity, temperature, aging of solar panels,

instantaneous clouding conditions and load’s electrical characteristics. Therefore a time varying

matching network which interfaces the varying source to the potentially varying load is required.

The role of this matching network is to ensure the operation of the PV panel at its MPP in the

face of changing atmospheric conditions. Here this network is efficiently implemented using

fuzzy sliding mode control. Sliding mode control ensures faster response and stability. A

comparative study of maximum power point tracking using PI,PID,Fuzzy and sliding mode

control was done and it was observed that sliding mode gave a better response than other

controllers.

PLATFORM Matlab2010

B.Tech full semester project

PROJECT Design and implementation of serial interface for communication multiplex board

TITLE

DESCRIPTION The OCB283 telephone exchange is a digital switching system. It is developed by CIT Atcatel of

France and it makes use of Motorola 68000 series processors as main processors. It supports

thousands of lines while occupying a relatively small space and is known for its high speed of

switching. The exchange employs hundreds of boards. Debugging of these boards manually by

using a CRO and refer data sheets and logbooks is a cumbersome task. Employing computer for

this purpose has developed a much more efficient system. This project deals with the

development of a serial interface for a communication multiplex board used in OCB283

exchange.it involves the development of software and hardware that really enhanced the ways by

which faults in the exchange were detected

Achievements and Extra curricular

Certified for participating in training of DCS fundamentals, Engineering & Maintenance by

YOKOGAWA India Limited.

Certified for participating in training of PLC fundamentals, Engineering & Maintenance by

YOKOGAWA India Limited.

Certified for participating in training of Fieldbus Basics & Engineering by YOKOGAWA India

Limited.

Won 3rdprize for Quiz competition in the event E XOUSIA’13 conducted by EIE

department held at Karunya University.

Participated in the pre-conference workshop on Conventional & Modern Techniques

for Controller Design conducted by the Department Of Electronics And

I nstrumentation, Karunya University.

Published a research paper entit led Comparative Study of Photovoltaic System

E mploying P I,P I D and Sliding Mode Control i n the I nternational Journal Of

E ngineering Research & Technology ( IJERT), Volume.3,Issue.03,March-2014.

Personal Skills

Consistent academic records throughout my education

Crystal clear understanding of the underlying principles of the subject and its relevancy

In depth knowledge of various techniques and approaches applied at a research project.

Quick learner.

Hard working.

Ability to deal with people diplomatically.

Personal Details

Nationality : Indian

Gender : Female

Date of Birth : 12th February 1989

Flexibility to Travel : 100%

Language Known : English, Malayalam, Hindi, Tamil

Hobbies : Reading, Gardening, Listening music, Surfing internet

Declaration:

I hereby declare that above information is correct to the best of my knowledge and belief.

Place: Kerala

Date: 05/05/2014 (RESHMI S)

Contact this candidate