Sample Masters Degree SOP for Canadian Universities
Pursuing Masters in Canada is the dream of many students who want to study master’s programs in various disciplines like masters in engineering and technology. You will likely realize your dream through an excellent SOP for Canadian universities.
SOP for Canadian universities is an essential part of the admission process for masters in Canada through which the candidates show their candidature. SOP for Canadian universities states how your personality is the right fit for the program and institution to which you have applied.
The SOP for students to study masters in Canada explains how the course curriculum, research opportunities, university environment, and faculty will help to fulfil your career goals. It proves whether or not you can survive in the college environment and your adaptability to global exposure.
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Here are a few SOP samps for masters for your reference:
STATEMENT OF PURPOSE
‘Technology feeds on itself. Technology makes more technology possible.’
As a passionate tech fanatic, these words by the renowned American writer and futurist Alvin Toffler have immensely inspired me. I believe that from drones to autonomous vehicles and robots to cyber-physical systems, the technologies in the 21st century are rapidly transforming human lives across the length and breadth of the world. But in this increasingly digitalized world, it is noteworthy that the demand for smaller, more efficient, affordable, and low-power-consuming high-end devices continues to grow steeply with time. This phenomenon has not only enhanced the value of diverse skill-sets among Engineers globally but has also amalgamated multiple engineering disciplines within the same organizations. This hybridization has served as a motivation for me to attain interdisciplinary knowledge through academic rigor at an internationally acclaimed learning platform. In this regard, I have applied to study in the Master’s program of Electrical and Computer Engineering at the eminent (University Name).
During my 12th standard, I got to study a chapter on semiconductor electronics, where I learned about the diminutive concepts of energy bands, conduction of electrons, rectifiers, transistors, and amplifiers. These topics substantially piqued my interest, following which, I went on to dig more on the internet and that’s how I was introduced to the segment named, ‘miniaturization of devices’. As I wanted to delve deeper into it, I eventually went on to choose the Electronics and Communication major for my Engineering. Right in my first semester, my fascination with the field of electronics led me to build a small tesla tower which was greatly appreciated by my Professors. However, during my second semester, I watched the science fiction Iron Man and my career aspirations witnessed a landmark shift. I was amazed by JARVIS, an AI-powered assistant, and this subsequently inclined me towards the realm of Artificial Intelligence and Robotics.
Over the next semesters of my Engineering, I exhibited a deeper interest in the modules of Machine Learning, Introduction to Artificial Intelligence, Embedded Systems, Computer Networks, and Internet of Things (IoT) in my study curriculum. Under the effective guidance of my esteemed faculty, I performed a range of practical activities along the lines of the above-mentioned courses which strengthened my problem-solving techniques. Apart from that, I gained a considerable grasp on Artificial Intelligence by completing some enriching academic projects like Digit and Character Recognition system, Face Recognition System, and Stock Price Prediction model. I have done a few projects on the Internet of Things as well, where I implemented the interfacing of Raspberry pi and ESP8266 with various sensors. Also, I have worked on several IOT platforms such as ThinkSpeak, Blynk and Adafruit. The major takeaway from such experiential activities was that they refined my ability to come up with pragmatic solutions for complex problems.
I further reaped the benefit of my pragmatic mindset to put forward the idea of my research paper that I had written along with my three other friends, during the COVID pandemic. The title of this paper was “COVID-19 confirmed cases prediction after vaccination using deep learning methods”. Here, we implemented the Long Short Term Memory (LSTM) and Gated Recurrent Unit (GRU) methods into the system and gained a predictive accuracy of a staggering (99.20%).
I also presented this paper at the international conference (ANTIC-springer), a Scopus Index Journal and it will be published soon in CRC press and Tylor & Francis Group. Thereafter during my 4th semester, I got the opportunity to lead my team till the quarter-final stages of the swadeshi microprocessor challenge, where we had developed a Facial recognition system with VEGA and SHAKTI processors.
After such proactive participation in several activities, I was yet to acquire an industrial edge. So, during my 8th semester, I underwent a 6-month internship at the Prime UAV as a Research intern. Here I worked in a team and developed a system called “Advance Live UAV Tracking system”. It had SIM7600EI as the main component and it worked on the GSM technology rather than Wi-Fi for sending telemetry data. With the help of this system, we can see the live location of all drones on a server or website. Moreover, to implement and demonstrate this system, I had also built a drone individually. This internship efficiently tested my acquired knowledge and also equipped me with advanced technical efficiencies.
To attain a reasonable command of Artificial Intelligence, Reinforcement Learning, PCB Designing and Machine learning, I also went on to complete online certification courses in all of them. My motive behind pursuing a course specifically on PCB designing was to learn the development of various controllers on my own. Such holistic endeavors have cemented my conviction to pursue my higher studies rather than embarking upon a professional expedition. I reckon that there is a lot for me to learn within the intersection of Electrical and Computer Engineering branches so that I can develop and design cutting-edge systems and technologies for my society. Therefore, I eagerly look upon my desired Master’s program as a career-defining opportunity for me.
The (University Name) provides the most comprehensively designed course framework blended with robust hands-on training which is my prime requirement. The broad choice of electives offered in the program shall help me to specialize in my choice of concentration. (Any special feature like Capstone course, individual project, internship) is one of the most distinctive features of this program as here I shall get to apply my classroom learning in real-world application. I also foresee this program as an opportunity to furnish my stronghold on Robotics Operating System (ROS). Furthermore, I keenly look forward to benefiting from the experienced guidance of (Prof Name) who holds expertise in (his/her area of expertise). These domains coincide with my topics of interest therefore, I would be able to achieve a more in-depth and research-oriented knowledge of these fields.
Your University also offers excellent career development support, which shall allow me to prove my resourcefulness in a plethora of biomedical, energy, software, and IT industries. This program would exponentially increase the factor of my employability across a broad range of sectors where I can prove my worth in a competitive and challenging work culture. After the completion of my study tenure, I envision myself working as a proficient Senior Systems Engineer, Automation Expert, Electronics Engineer, or Project Manager. I also have a profound desire to work in Canadian Robotics companies to gain a handful of experience. In the long term, I wish to initiate a tech start-up where I would build Embedded AI systems. (University Name) seems to be the perfect platform for me to upgrade my existing capabilities. Hence, I hereby submit my candidature and hope for the best ahead.