1
electrical engineering
I want to be a member of your graduate program, which has strengthened my decision to pursue graduate studies in the United States. Purdue University provides the needed flexibility for such a vast and rapidly changing field. The research facilities and faculty of this university are excellent.
Communication is an industry that changes our lives. In a short time, it has changed the way we look at things for centuries. This is an industry that will shape our future in the coming centuries. Therefore, I am eager to get a master's degree in electronic engineering and take communication as my major.
My interest in electronics has developed since my high school days. This is the time when technology began to have an impact on the lives of Indian people. Therefore, electronic engineering is my first choice for undergraduate study. Since my undergraduate study, the application ability of electronics has deeply attracted me. The courses I have studied include linear electronics and digital electronics. These laid the foundation for my course of electronic communication and electronic technology. Later communication system. My undergraduate study has focused on electronic communication. A master's degree in electronic engineering with communication as the main field is the logical next step.
For the past four months, I have been working as a project intern at the Institute of Advanced Electronics in India. I am designing and developing a "digital serial data generator controlled by PC". This short work has given me valuable practical experience. It gave me confidence to study for a master's degree and also ignited my desire to do research.
I met several scientists during my work in IIAE. Most of them work in different communication fields. The communication with them made me realize the vastness of communication. My discussion with them convinced me that specializing in communication would suit me very well.
The research topic I am very interested in is spread spectrum communication system. Coding theory and combination is another research topic that arouses my curiosity. The subject communication theory I am currently studying introduces these topics theoretically. I am eager to find out more about the application of coding theory in spread spectrum communication system.
Besides, I have been a student member of IEEE (Institute of Electrical and Electronics Engineers) for the past three years. Through seminars and publications, such as "Spectrum", I came into contact with many emerging technologies in the field of communication.
My family firmly believes that the American education system is the best in the world. This belief stems from my parents' experience in studying for a master's degree in science at the University of Pennsylvania during 1967-69. If I can have the opportunity to be part of the environment that inspires intelligence, I believe my talents will be brought into full play.
India is a developing country with great potential in the information technology industry. In order to meet the needs of this developing industry, and more importantly, to meet its huge population, communication will become crucial. Therefore, the conditions here are very favorable for me to supplement my ambition when I return to China after completing my graduate studies.
2
electrical engineering
As a graduate student, I will engage in research and courses in electrical engineering to improve my ability in this field. I intend to finish my master's degree in order to study for a doctorate. My most interesting research in Northeastern University revolves around the optical characteristics of MEMS devices and the development of fast electro-optical interfaces based on substrates. My interest in this field stems from my undergraduate research on MEMs development of triaxial accelerometer.
Since childhood, engineering has always been my main interest. When I was in primary school, I liked to listen to my father, an electrical engineer, telling me about technical progress, and I was always eager to hear more. I came into contact with my first computer when I was five years old, and I like interacting with them since then. For those who know me, it is not surprising that I decided to study engineering as a career.
In college, I found that I was always learning what I liked. I believe it is because I enjoy my life and work that I have achieved success. Staying in the laboratory for a few hours is not something I am afraid of. On the contrary, I am proud of my work and its successful completion. One example that I remember vividly is the successful design of a functional microprocessor in Xilinx environment. Overall, this project took each design team member 150 hours. However, I don't regard it as a waste, but a learning experience, which is the focus of my career and technical development. When we finished this project, we felt a sense of value and pride, because we accomplished a task that was once beyond our knowledge level.
Studying for a postgraduate degree in my chosen research field is also a challenge, and I know that studying can sometimes make me depressed. However, I think my commitment to study will not waver. I believe I have the ability to be creative and persistent in my point of view. My ultimate goal is to be an innovator in my chosen research field. Professionalism and creativity are my most valued advantages.
I am most interested in the harmony between human progress and the environment. My personal philosophy of life is very important during my study and after graduation. That's why I spend time thinking about my goals and what they mean. Money has never been my motivation for work, and I don't think it will be in the future. However, as a professional and graduate, I realize that my income potential will be huge. This is why I am committed to charity and fairness. In the past, I was a member of boy scouts of america and obtained the rank of Eagle Scout. In my experience in that organization, I learned respect and moral values. Now, as a member of IEEE, I attach importance to my professional status and its corresponding moral implications. Engineering ethics is as important as technical skills, so I intend to do my best to safeguard my own ethical obligations.
As a student of Northeastern University, I will devote everything I can to my study. I intend to engage in the research of MEMS technology. When I was an undergraduate in Rowan University, I had done some research and development on military MEMS sensors and published a paper. An article written by me and my project member David Bowen and edited by our consultant Dr. Robert Krchnavek was published in the proceedings of 200 1 NAVSEA Intelligent Ship Seminar. The paper, entitled "Design of a 3-axis, monolithic accelerometer based on MEMS", was being reviewed by the NAVSEA factory in Philadelphia, USA.
Based on my past success in MEMs design, I hope to deepen my understanding. Through postgraduate research, I hope to be familiar with and innovate the design of MEMs optical devices in order to create a reliable and practical MEMs electro-optical interface for consumer electronics products. I hope that through my research, I can realize the optical waveguide for communication within the equipment.
Finally, my intention to continue my postgraduate study is clear. The research of MEMs optics is the focus I want, and I am committed to my goal. In the process of studying for a doctorate, I carefully analyzed myself to determine the reasons for my previous success and my future goals. I found that I really and always like engineering, and I have a strong desire to continue my studies. I'm going to devote myself to this research and achieve the goal I set.
three
I want to study for a master's degree in electrical engineering
In my fourth year at Purdue University, I made a decision, which influenced my whole education process. When my classmates make a clear decision on their career path, I choose to implement a five-year development and growth plan for myself. I designed this plan to investigate various occupations that I thought might be of interest and to expand my abilities at that time. When I got my bachelor's degree in electrical engineering, I decided to focus on the fields related to VLSI (Very Large Scale Integrated Circuit). My main goal is either to gain work experience, or to pursue further studies and master's degree in electrical engineering (MSEE). I saw the opportunity to work and study in Xilinx Inc Being a product engineer in a successful high-tech semiconductor company enables me to use my technology and interpersonal skills in new and challenging ways. This position also requires me to interact with many departments, including marketing, IC design, software /CAD development, manufacturing, reliability, accounting and sales. Therefore, I have gained a series of experience beyond my responsibility. In the workplace, I rely heavily on the interpersonal skills developed when I was a counselor in Purdue University dormitory, and the organizational skills acquired when I held various leadership positions in the Cultural and Engineering Association. I also cultivated my interest in high-tech marketing, which has continued to grow in my career.
My experience in Xilinx strengthened my thirst for knowledge in VLSI field. Two months after joining the company, I applied for several amateur programs nearby, which could enable me to get my MSEE degree in two to three years. San Jose State University seems to be an ideal choice, because its MSEE evening course allows me to pursue two independent full-time positions at the same time. The San Jose project has well supplemented my responsibilities in Xilinx; Both of them need a lot of energy and enthusiasm, and guide me to achieve my ultimate goal & higher education of VLSI science. The resources I have invested in these two efforts have gained a lot. I was promoted to the position of product output engineering in the product engineering department of coarse-grained static memory (CGSM) in Xilinx. My extensive courses have played a key role in my continued success in Xilinx. Courses related to advanced digital and analog VLSI design and sub-micron ULSI technology gave me a more comprehensive understanding of the working mode of Xilinx, a fabless semiconductor company and a software and hardware design, testing and marketing center. Through the combination of work experience and education, the knowledge I have gained is indeed exponential.
My grades in the fourth grade at Purdue University, together with my courses in MSEE, fully proved my persistence in learning. I feel that through hard work and dedication, I have overcome the short "boring stage" at the end of my second year and the first semester of my third year at Purdue University. My performance at that time can never represent my usual achievements; On the contrary, they are the result of urgent family difficulties, which require many trips abroad and serious attention to solve. In May this year, I will graduate from the University of San Jose with a MSEE degree, which is much earlier than I expected. Graduating early with the honor of the dean is the result of my firm belief in the value of diligence and my renewed determination to pursue perfection in my work and school.
I am now working on another five-year plan, during which I hope to achieve several specific career goals. For example, becoming a member of a dynamic and result-oriented production team in Xilinx requires continuous development of computing and statistical techniques. The production team is divided into focusing on specific process/manufacturing problems and process (manufacturing) optimization. My own post is an indispensable part of the optimization group. The problems of speed and cost continue to promote the development of high technology to optimization, strict simulation of probabilistic and stochastic processes and systems and mathematical models. MS & amp; EES; Or provide me with the statistical knowledge that your university will grant me, which is crucial to optimize the process and production in a fabless environment. In addition, product engineering requires basic research on mathematical models of linear and nonlinear programming and the use of effective computer software. I constantly apply what I have learned in Purdue University to the courses of operational research and advanced mathematics. However, although these courses are valuable and my performance is good, I need further education now to better perform my duties. Master's degree in EES. Or fields, will give me valuable knowledge in product development, project management and strategic planning. This plan will enable me to improve my decision-making skills on operational, strategic and policy issues. I will strengthen my theory and application in countless fields: continuous, discrete and numerical optimization; Probability and stochastic process; Dynamic system and simulation; Economy, finance and investment; Decision analysis; Dynamic planning and planning under uncertain conditions; Operation and service; Corporate and personal strategies; As well as private and public policy issues. Therefore, EES&; OR project can not only help me stand out in Xilinx, but also promote my future career. In the past three years, my commitment to work and education proves that I will pursue this master's degree with full enthusiasm. The technological advantages provided by Microsoft are unparalleled. As I will work at Stanford, I will combine education with practical application, and put forward my experience and interesting problems in past education.
EES & amp; amp; amp; Technical challenges encountered by the project; Or plans will provide impetus and opportunities for method innovation. The problems of data collection, processing and demonstration are part of my future goals, and the management challenges will provide valuable experience for professional practice. This in turn will lay a solid foundation for your lifelong career and overcome any problems in decision-making. In addition, taking courses in economics, finance and investment analysis can increase your knowledge on investment issues in different industries. EES & amp; Therefore, the OR program is not only attractive to my engineering, economic, scientific and mathematical background, but also will supplement my technical ability in analyzing the conceptual framework needed for operation, production, strategic planning and marketing in the field of semiconductors/integrated circuits/engineering systems. I think I'm ready for the challenge of the course. My courses in intermediate microeconomics and macroeconomics, international trade, operational research, linear algebra and probability methods, and my extensive calculus background will enable me to play a good role in this project.
My long-term career goals include entering the field of marketing and product management. I believe that getting this master's degree is the cornerstone to achieve my goal. It will provide me with the necessary academic background for success in product development, project management and strategic planning. It will improve the decision-making skills needed to optimize performance. The integration of two excellent courses, Economic System and Operational Research, is very suitable for my current position and closely combined with my future goals by improving the decision-making in operation, strategy and policy. At present, I hope to stay in Xilinx; Therefore, it is necessary to participate in a project that provides flexibility and convenience for SITN. Therefore, being an HCP student in Stanford also attracted me. I believe Stanford is the best environment for me to achieve my goals, and I can also get in touch with diverse student groups and teachers and gain experience from them. My belief is that a person keeps learning all his life, and the most effective way to learn is through interaction with others. The diversity of Stanford University provides a learning environment, both inside and outside the classroom. I hope to share my knowledge with my classmates and gain a new understanding of topics that are strange to me. I believe that no other school can provide students with the combination of education and environment provided by Stanford. Its excellent academic reputation, combined with its diverse environment and prosperous Bay Area location, has created unparalleled development opportunities. When I entered this stage of my life, I had many ambitions for myself. I believe that the edu education in Stanford University will provide valuable experience and skills, so that I can become a successful and innovative business leader in the new millennium.
four
Biomedical engineering research department aims to study and solve bioelectricity and biomagnetic engineering problems in biomedical field with the help of engineering principles and methods. Its main task is to explain the biological and pathological processes of organisms, especially human beings, from the perspective of engineering, and to research and develop related medical equipment and life science equipment. Its research directions mainly include modeling and simulation of biological systems, testing and analysis of biomedical signals, biomedical imaging and processing, biological effects of electromagnetic fields, and development of artificial organs and medical devices.
Electromagnetic bioengineering
With the development and integration of electromagnetism, biology and medicine, bioelectromagnetism has more and more influence on human life and health, environmental protection and bioengineering. The research of electromagnetic bioengineering is a new research direction of IEECAS, which mainly includes the study of the interaction between electromagnetic field and living matter, bioelectromagnetic effect and its application in biology, medicine and medical devices. At present, the research team has established a bio-electromagnetic environment laboratory and a bio-electromagnetic signal and detection laboratory; Electromagnetic characteristics testing laboratory, electromagnetic biological effect testing laboratory and bioelectromagnetic simulation laboratory. It is equipped with various electromagnetic fields, simulation software and biochemical experimental equipment for bioelectric magnetic effect experiments. Using these devices, we can carry out bio-electromagnetic experiments on living animals and isolated living cells, detect, analyze and process very weak bio-electromagnetic signals, and analyze and test living or isolated cells under electromagnetic action by biochemical quantitative methods. Recent research work has focused on the effect.
Is the direction right? I don't know which one you want Tell me, if I find more, I'll send you an email.