Personal Statement: Twenty years of education have brought me a deep appreciation for the study of the Power systems, Controls systems and Telecommunication. When the time came to specialize, my decision to major in Electrical Power Engineering was motivated by the hope of achieving a strong opportunity of creativity, research, and development. Electrical Engineering, with its myriad sub-domains and multi-faceted nature is a natural amalgamation that allows me to express my creativity and innovative power to bring about works that offer benefits to society. The tools and aims may be different, but designing and developing software/hardware or devising a novel mathematical proof is relatable to the work of artists in their shared spirit of creating. I view my decision to study Electrical Engineering as a natural means of fulfilling my need to create since it equips me with tools for the job: the ability to devise, test and evaluate Power systems and the programming knowledge required to implement them.
A natural avenue for me to utilize my creative bent was the field of entrepreneurship. In the year prior to joining my
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Although, it is invisible but it is something real and substantial. As a power engineer, I’ll be helping to guarantee electricity supply to keep businesses and households going – allowing everyone to do what they have to do and importantly, do what they want to do. Power Engineers help to shape the future. Clean energy sources, smart grid, energy efficiency and electric vehicles are some of the promising areas that depend on new technology designed by power and energy engineers. Pursuing my interest, I have also worked in Goldwind Co. Ltd, where I designed algorithms for the fault detection in wind turbines, which was verified by the company and is installed in a big wind farm near
There are so many reasons why I want to attend Applied Technology. The first being that it suits my style of learning (hands on) and stimulates my mind with endless possibilities. This program seems to offer so much. Working with drones, rockets and 3D printers would be the opportunity of a lifetime.
The modern world is run by computers, and the men and women behind these computers are electrical engineers. Electrical engineers distribute, develop, improve and maintain equipment that is used in electrical energy in a wide variety of ways. Electrical engineers apply their physics and math knowledge to assemble and test things such as radars, phones, robots, wiring, lighting in buildings and various other kinds of electrical energy systems. Electrical engineers can be occupied by these projects for months, even years before it’s completed.
When I studied power electronic circuits such as: ac to dc uncontrolled and controlled rectifiers, voltage controllers, converters, dc to ac inverters and power supplies, I decided to build my career on “Power Systems and Power Electronics” which prompted me to take more core courses and lab works in electrical and electronics filed such as Control Engineering, Digital Signal Processing, Advanced Electronics and Communications. I also took several courses on: Electromagnetic (ETE 361), Semiconductors (ETE 411) and VLSI Design (CSE 435) to achieve a comprehensive knowledge over my aspired field. Today an electrical engineer needs to be conversant both at software and hardware levels. So I took programming language courses on C, Java and Database management with projects. Profuse availability of research works and projects in my desired fields in Michigan Technological University is the foremost reason to apply in this institution.
After completing my bachelors , I worked as an Design engineer in the field of Electrical where I was able to implement knowledge which I had gained from my Bachelors of Engineering. When I realized that my bachelor’s knowledge and skill was not able to address new problems, I decide to pursue my masters in the field of Electrical and Electronics Engineering.
Electrical engineers have an impact on the world in this way by trying to find better energy sources to fuel us and keep the power on but what helps electrical engineers is what tools they use.
Electrical Engineering is “ The branch of engineering concerned with the generation, transmission, distribution, and use of electricity. Its two main branches are power engineering and electronics (including telecommunications). Electrical engineering emerged in the late 19th century with the mathematical formulation of the basic laws of electricity by James Clark Maxwell, followed by the development of such practical applications as the Bell telephone, Edison’s incandescent lamp, and the first central generating plants. Electrical power engineers design generators, power stations, and electricity supply systems as well as electric motors and transport and traction systems. Electrical engineering is an applied science involving mathematical skills and a knowledge of physics, in addition to the basic engineering subjects” (The Macmillan Encyclopedia). Electrical systems have always fascinated me since childhood, and figuring out the engineering behind everything I could get my hands on was another passion I have always had. When getting out of the military and deciding to go to college electrical engineering was the only major that really stood out to me as a way to combine both my childhood interests. My third year at college and I still stand firm with my decision as I continue to excel in my classes directed toward my major while the classes further ignite my passion for the field of study.
The number of engineering graduates and qualified technicians is now falling in the UK as older workers retire and too few new graduates come onto the labour market each year to take their place. As a policy, negotiation with colleges and universities can be taken to provide graduates that will be feeder pools for new developing talent. Focus on developing great relationships with these schools by helping intellectual property development as in research, development and much more. Association with these schools to offers wok placements in various renewable energy sectors can also be vital.
This is a crucial time for me to reflect on the various roads my career could take, as I am about to complete my undergraduate education in a few months. I am doing my B.Tech in Mechanical and Manufacturing Engineering from Manipal Institute of Technology, Karnataka, India, which is among the top engineering colleges in India. The time that I spent here, learning about the various mechanisms that make the world go forward, has really helped me understand where my interests lie and where I can make a subtle yet noticeable difference in this world. So I pen down my statement of purpose in front of you.
I write this as an undergraduate student seeking admission to the Electrical Engineering graduate program of Stanford with a research focus on Hardware/Software Systems. The exponential advancement in technology over the last decade with the rise of Internet of Things and Big data analytics has necessitated novel computational techniques. New design paradigms in hardware architectures have emerged to expand the capabilities of physical devices. I am fascinated by the potential impact of efficient system design and analysis on information technology. At graduate school, I would like to work at the intersection of embedded systems and data science, contributing to tackling various design challenges that include designing energy efficient and secure systems and analyzing collected data to make new hypotheses. I consider my choice of
My father, right from the start of his career, has been working in Electrical Engineering and maintenance based companies. He always used to come up with some photographs of huge transformers or generators which really fascinated me in my childhood. Those photographs and his experiences were the reasons why I selected Electrical Engineering as my B.Tech course.
Frankly, my family always encouraged me to become a doctor at the hospital, so I grew up having the dream of joining the Medicine School to fulfill my family’s ambition which I thought it was mine too. In grade 10, I was studying at night and suddenly the electricity went off and that made me think what if I am a doctor doing a life-and-death surgery for a patient and the power goes out. I thought about energy recourses and other medical equipment the doctors use, who made them? I started thinking that I can provide more services than doctors do. I can design and produce items that all use and provide reliable and sustainable energy for us all. From that night, I decided to study an engineering-related discipline, and upon completing high school and after consulting a Mechanical Engineering graduate who explicitly explained to me what mechanical Engineering is all about, I found that Mechanical Engineering is the best choice among the engineering fields.
Humans naturally tend to perceive large-scale mechanisms as a complex mess, but they are merely a combination of simple mechanical movements. Decomposition of a product architecture into its elementary building blocks has always fascinated me and the constant desire to work in the manufacturing and design field of leading industries was my driving potential to pursue mechanical engineering. Even though globalization and industrialization have changed today’s world drastically, the need for an efficient mechanical engineer is of utmost importance. I feel strengthening my knowledge and skills as a mechanical engineer is essential to become a part of this community and contribute towards the growing world, thus I have decided to undertake graduate studies.
“The first and simplest emotion we discover in the human mind is curiosity”. And this aptly applies to my childhood too. It made me question every other thing I come in contact with. In addition, this inquisitiveness helped me garner in-depth knowledge about subjects in school. I was more inclined towards practical or hands-on experience rather than mere classroom learning. My interest in logically oriented subjects like maths, statistics and science propelled me to take up science as a major in college. I was of the belief that if you want to excel in a particular field, you need have to practical experience for better understanding of the pros and cons of that filed. This attitude not only contributed to my high grades in schooling and college, but also helped me gain a stronghold over the concepts of applied sciences.
This essay enlightens my academic and professional accomplishments. It also sheds light on my career objectives and the motivation to pursue the postgraduate program in Electrical Engineering at the Edith Cowan University, Perth.
Being able to graduate with a Bachelor of Engineer (Honours), majoring in Electrical and Electronic Engineering, will allow me to work in a range of sectors with high-level technology. Skills that I will develop in the course of my degree such as having a high level of technical knowledge and IT skills as well as having strong analysis and practical problem-solving abilities to improve designs. These are core skills that are valued in my future career as an Electrical and Electronic Engineer, which will also help me direct my career into areas such as; designing and testing circuit building blocks, computer programming and computer-aided design. Throughout the duration of my degree, I plan to undertake