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Bachelor of Applied Science in Mechatronics Engineering (Co-op)

Waterloo

 

INTAKE: September

Program Overview

The Bachelor of Applied Science in Mechatronics Engineering (Co-op) program at the University of Waterloo provides students with a comprehensive education, hands-on learning experiences, and professional development opportunities to prepare them for successful careers in the dynamic field of mechatronic engineering. Graduates are equipped with the knowledge, skills, and practical experience to design, develop, and deploy innovative mechatronic systems for various applications in industry, research, and society.

Curriculum:

  1. Interdisciplinary Curriculum: The Bachelor of Applied Science in Mechatronics Engineering program at the University of Waterloo offers an interdisciplinary curriculum that integrates elements of mechanical engineering, electrical engineering, computer science, and control systems. Students acquire a broad understanding of the principles and techniques used in the design, analysis, and optimization of complex mechatronic systems.

  2. Core Courses: The program covers a range of core courses in areas such as mechanics, electronics, programming, sensors and actuators, robotics, control theory, and system integration. Students learn to design, model, simulate, and optimize mechatronic systems using advanced engineering software tools and techniques.

  3. Hands-on Learning: The program emphasizes hands-on learning experiences, allowing students to apply theoretical knowledge to real-world engineering problems. Through laboratory experiments, design projects, and case studies, students develop practical skills in prototyping, testing, debugging, and troubleshooting mechatronic systems.

  4. Co-operative Education (Co-op) Program: One of the highlights of the program is its co-op education model, which combines academic studies with paid work terms in industry. Students alternate between study terms on campus and co-op work terms with engineering firms, manufacturing companies, research institutions, or government agencies. Co-op placements provide valuable work experience, professional networking opportunities, and exposure to diverse mechatronic applications.

  5. Specialization Tracks: The program offers students the flexibility to tailor their studies to their interests and career goals through specialization tracks. Students can choose from a variety of elective courses and focus areas such as robotics, automation, embedded systems, artificial intelligence, or biomedical engineering.

  6. Advanced Design Projects: In their upper years, students participate in advanced design projects where they work in teams to tackle complex engineering challenges. These projects may involve designing and building autonomous robots, intelligent systems, automation solutions, or mechatronic devices for specific applications such as manufacturing, healthcare, or transportation.

  7. State-of-the-Art Facilities: The University of Waterloo provides students with access to state-of-the-art facilities, including robotics laboratories, mechatronics workshops, and research centers equipped with advanced equipment and software tools. Students have the opportunity to work on cutting-edge projects and collaborate with faculty members and industry partners on research initiatives.

  8. Professional Development: The program offers professional development opportunities to help students develop essential skills for their engineering careers. Workshops, seminars, and networking events cover topics such as communication skills, project management, teamwork, ethics, and entrepreneurship, preparing students for success in the workplace.

  9. Industry Partnerships: The University of Waterloo has strong partnerships with leading engineering companies, technology startups, and research organizations. These partnerships provide students with internship opportunities, collaborative research projects, and access to industry mentors, enhancing their learning experience and career prospects.

  10. Global Perspective: The program encourages students to gain a global perspective by participating in international exchanges, study abroad programs, or co-op placements overseas. Students have the opportunity to broaden their cultural awareness, expand their professional networks, and experience different approaches to mechatronic engineering practice and innovation.

Pollster Education

Location

Waterloo

Pollster Education

Score

IELTS: 6.5

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Tuition Fee

CAD 66000

Application Fees : CAD$ 304.25

Undergraduate Entry Requirements:

  1. Academic Achievement: International students applying for undergraduate programs at the University of Waterloo are expected to have a minimum academic achievement of 80% or above in their secondary school studies.  

  2. English Language Proficiency: The accepted English language tests and their minimum score requirements are as follows:

    • IELTS: Overall score of 6.5 with no band less than 6.5 in writing, 6.0 in reading, 6.0 in listening, and 6.5 in speaking.
    • TOEFL: Minimum score of 90 on the Internet-based Test (iBT).
    • PTE: Minimum score of 63.
    • DET (Duolingo English Test): Minimum score of 120.

It is important to note that meeting the minimum entry requirements does not guarantee admission to the University of Waterloo. The university receives a large number of applications and admission decisions are based on a holistic assessment of various factors, including academic performance, test scores, personal statements, and letters of recommendation.

The University of Waterloo offers several scholarships and financial aid options to support international students in their academic journey. These scholarships recognize academic excellence, leadership potential, and contributions to the community. 

  1. International Master's Award of Excellence: This scholarship is available to international students entering a research-based master's program. It provides funding of up to $2,500 per term for a maximum of five terms.

  2. Ontario Graduate Scholarship (OGS): The OGS is a merit-based scholarship available to domestic and international students pursuing a graduate degree at the University of Waterloo. The scholarship provides funding of up to $15,000 per year for a maximum of two or three years, depending on the program.

  3. President's Scholarship of Distinction: This prestigious scholarship is awarded to top international students entering an undergraduate program at the University of Waterloo. The scholarship covers full tuition for up to four years of study.

  4. International Student Entrance Scholarships: These scholarships are available to high-achieving international students applying for undergraduate programs. The value of the scholarships varies and is renewable for up to four years, based on academic performance.

  5. Faculty-specific Scholarships: Various faculties at the University of Waterloo offer scholarships specifically for international students. These scholarships are based on academic achievement, leadership potential, and involvement in extracurricular activities within the respective faculty.

  6. Donor-funded Scholarships: The university receives generous contributions from donors, which are used to establish scholarships for international students. These scholarships may have specific eligibility criteria and application processes.

It is important to note that the availability, eligibility criteria, and application deadlines for scholarships may vary. To apply for scholarships, international students are typically required to submit an application for admission to the university. Some scholarships may have additional application requirements, such as essays or reference letters. It is important to care.

Graduates of the Bachelor of Applied Science in Mechatronics Engineering (Co-op) program from the University of Waterloo are well-equipped to pursue diverse and rewarding career paths in industries at the forefront of technology innovation. With their interdisciplinary skills, practical experience, and problem-solving abilities, they are in high demand across sectors requiring expertise in mechatronics and automation.

  1. Robotics Engineer: Graduates can pursue careers as robotics engineers, designing and developing robotic systems for various industries such as manufacturing, healthcare, automotive, aerospace, and entertainment. They work on tasks such as robot design, motion planning, sensor integration, and control algorithm development.

  2. Automation Engineer: Automation engineers design and implement automated systems and processes to improve efficiency, productivity, and quality in manufacturing and industrial environments. They work on projects involving programmable logic controllers (PLCs), industrial robots, machine vision systems, and motion control systems.

  3. Control Systems Engineer: Control systems engineers specialize in the design, analysis, and optimization of control systems for mechatronic applications. They work on projects related to feedback control, system modeling, stability analysis, and controller design for dynamic systems such as robotic arms, autonomous vehicles, and smart devices.

  4. Embedded Systems Engineer: Graduates can pursue careers as embedded systems engineers, developing software and firmware for embedded systems used in mechatronic devices and products. They work on tasks such as microcontroller programming, real-time operating systems (RTOS), device driver development, and sensor/actuator interfacing.

  5. Systems Integration Engineer: Systems integration engineers focus on integrating mechanical, electrical, and software components into cohesive mechatronic systems. They work on projects involving system architecture design, component selection, interface development, and system testing and validation.

  6. Product Development Engineer: Product development engineers are involved in the design, prototyping, and testing of new mechatronic products and technologies. They work on multidisciplinary teams to bring innovative products to market, ensuring they meet performance, reliability, and regulatory requirements.

  7. Research and Development (R&D) Engineer: Graduates can pursue careers in research and development, working on cutting-edge projects in academia, industry, or government research laboratories. They contribute to the advancement of mechatronic technologies through experimentation, simulation, and innovation.

  8. Manufacturing Engineer: Manufacturing engineers optimize production processes and systems to ensure efficient and cost-effective manufacturing of mechatronic products. They work on tasks such as process design, equipment selection, production planning, and quality assurance in manufacturing facilities.

  9. Consulting Engineer: Consulting engineers provide expertise and advisory services to companies seeking solutions to mechatronic engineering challenges. They may work for engineering consulting firms or as independent contractors, offering design, analysis, and optimization services to clients across various industries.

  10. Entrepreneurship: Some graduates may choose to start their own businesses or join technology startups, leveraging their knowledge and skills in mechatronic engineering to develop innovative products, solutions, or services. Entrepreneurial opportunities exist in areas such as robotics, automation, IoT (Internet of Things), and advanced manufacturing.

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