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Bachelors of Electrical and Computer Engineering - (year 1 & 2 at CBU and year 3 & 4 at Dalhousie University)

Sydney, Nova Scotia

 

INTAKE: Jan & Sept

Program Overview

The Bachelor of Electrical and Computer Engineering (ECE) program offered jointly by Cape Breton University (CBU) and Dalhousie University provides students with a comprehensive education in the fields of electrical engineering and computer engineering. The Bachelor of Electrical and Computer Engineering program at Cape Breton University and Dalhousie University offers students a rigorous and comprehensive education that prepares them for successful careers in the dynamic and rapidly evolving field of engineering.

Curriculum:

  1. Foundation in Engineering Principles: The program begins with foundational courses designed to provide students with a solid understanding of engineering principles. These courses cover topics such as mathematics, physics, and basic engineering principles, laying the groundwork for more advanced studies in electrical and computer engineering.

  2. Core Courses in Electrical Engineering: In the initial years of the program (years 1 and 2 at CBU), students focus on core courses in electrical engineering. These courses cover fundamental concepts such as circuit theory, electronics, electromagnetics, signals and systems, and power systems. Students gain hands-on experience through laboratory exercises and design projects, applying theoretical knowledge to real-world engineering problems.

  3. Core Courses in Computer Engineering: As students progress through the program, they take core courses in computer engineering, which explore topics such as digital logic design, computer architecture, operating systems, software engineering, and embedded systems. These courses equip students with the knowledge and skills to design and develop computer hardware and software systems.

  4. Integration of Electrical and Computer Engineering: The program emphasizes the integration of electrical and computer engineering principles to address interdisciplinary challenges. Students learn to design and implement systems that combine electrical components with computer hardware and software, such as digital control systems, communication networks, and embedded systems.

  5. Advanced Elective Courses: In the final years of the program (years 3 and 4 at Dalhousie University), students have the opportunity to choose elective courses based on their interests and career goals. These elective courses may cover specialized topics such as robotics, machine learning, renewable energy systems, VLSI design, or advanced digital signal processing.

  6. Design Projects and Capstone Experience: Throughout the program, students engage in design projects and a capstone experience that allow them to apply their knowledge and skills to real-world engineering challenges. They work collaboratively in teams to design, implement, and test engineering solutions, gaining valuable hands-on experience and developing project management and teamwork skills.

  7. Co-op Opportunities: The ECE program may offer co-op opportunities that allow students to gain practical work experience in engineering firms, research laboratories, or government agencies. Co-op placements provide students with valuable industry experience, networking opportunities, and insights into potential career paths.

  8. Professional Development: The program includes components focused on professional development, such as seminars on engineering ethics, communication skills, and career planning. Students learn about professional responsibilities, ethical considerations in engineering practice, and strategies for career advancement.

  9. Preparation for Professional Licensure: Graduates of the program are prepared to pursue professional licensure as engineers. The program provides the academic foundation required for licensure examinations and may offer preparation courses or resources to support students in their licensure process.

  10. Integration of Theory and Practice: Throughout the program, there is a strong emphasis on the integration of theoretical knowledge with practical application. Students learn to analyze engineering problems, design innovative solutions, and implement them using state-of-the-art tools and technologies.

  11. Research Opportunities: The ECE program may provide opportunities for students to engage in research projects under the supervision of faculty mentors. Research experiences enable students to explore cutting-edge technologies, contribute to the advancement of knowledge in their field, and develop critical thinking and problem-solving skills.

  12. Pathways to Further Education and Career Advancement: Graduates of the program are well-prepared for diverse career opportunities in industries such as telecommunications, electronics, computer hardware and software development, renewable energy, aerospace, robotics, and more. Additionally, the program lays the groundwork for further education at the graduate level in electrical engineering, computer engineering, or related fields.

Pollster Education

Location

Sydney, Nova Scotia

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

CAD 19579

Application Fees: CAD $ 80

Undergraduate Program:

Educational Qualifications: Indian students applying for an undergraduate programat CBU must have completed their secondary education with a minimum aggregate score of 60%. This  corresponds to a passing grade in the Indian education system.

English Language Proficiency: Proficiency in the English language is essential for admission to CBU. Indian students are required to demonstrate their English language skills by submitting the results of a recognized English language proficiency test. CBU accepts various tests such as the IELTS, TOEFL, or equivalent. IELTS score of overall 6.5 band with no band less than 6 is accepted, TOEFL iBT overall score of 80 is required. PTE overall score of 59 is required and DET score of 115 is required.

Cape Breton University (CBU) offers a range of scholarships and financial aid opportunities to international students to support their educational journey. These scholarships are designed to recognize academic excellence, leadership potential, and community involvement. 

International Student Entrance Scholarships: CBU offers entrance scholarships for international undergraduate students based on their academic achievements. These scholarships are available to both full-time and part-time students. The scholarship amounts vary and are renewable for up to four years, provided that the student maintains satisfactory academic standing.

Chancellor's Scholarships: This prestigious scholarship is awarded to exceptional international undergraduate students who have demonstrated outstanding academic achievements and community involvement. The scholarship covers full tuition fees for up to four years of study at CBU.

International Student Bursaries: CBU provides bursaries to international students facing financial challenges. These bursaries are awarded based on financial need and can help cover tuition fees, books, and other educational expenses.

External Scholarships: CBU encourages international students to explore external scholarship opportunities available in their home countries or through international organizations. The university provides support and guidance to students in their search for external scholarships.

Work-Study Program: CBU offers international students the opportunity to work on campus while studying through its Work-Study Program. This program provides students with valuable work experience and helps offset their living expenses.

It is important to note that the availability, eligibility criteria, and application deadlines for scholarships may vary each year.

Graduates of the Bachelors of Electrical and Computer Engineering (ECE) program from Cape Breton University (CBU) and Dalhousie University are well-positioned for diverse and rewarding career opportunities in various sectors. Graduates of the Bachelors of Electrical and Computer Engineering program from Cape Breton University and Dalhousie University are well-equipped with the knowledge, skills, and versatility to succeed in a wide range of careers within the dynamic and evolving field of engineering.

  1. Electronics Industry: Graduates can pursue careers in the electronics industry, working for companies involved in the design, development, manufacturing, and testing of electronic components, devices, and systems. They may work in roles such as electronics engineer, circuit design engineer, or test engineer, contributing to the creation of innovative electronic products and technologies.

  2. Computer Hardware and Software Development: With expertise in both electrical engineering and computer engineering, graduates are equipped to work in computer hardware and software development roles. They can design and develop computer systems, processors, memory devices, and other hardware components, as well as software applications, operating systems, and firmware. Career options include roles such as computer hardware engineer, software engineer, embedded systems engineer, or firmware developer.

  3. Telecommunications Industry: The telecommunications industry offers numerous career opportunities for ECE graduates, particularly in the design, implementation, and optimization of communication networks and systems. Graduates may work for telecommunications companies, internet service providers, or networking equipment manufacturers, in roles such as network engineer, telecommunications engineer, or wireless communications engineer.

  4. Renewable Energy Sector: With a growing emphasis on sustainability and environmental conservation, there is increasing demand for engineers with expertise in renewable energy systems. ECE graduates can work in roles related to the design, installation, and maintenance of renewable energy systems such as solar photovoltaic, wind power, and energy storage systems. They may work for renewable energy companies, engineering consulting firms, or government agencies focused on energy policy and regulation.

  5. Aerospace and Defense Industry: Graduates can pursue careers in the aerospace and defense industry, working on the design, development, and testing of aerospace systems, avionics, and defense electronics. They may work for aerospace companies, defense contractors, or government agencies involved in aerospace and defense research and development. Career options include roles such as avionics engineer, systems engineer, or aerospace electronics engineer.

  6. Robotics and Automation: The field of robotics and automation offers exciting career opportunities for ECE graduates, particularly in industries such as manufacturing, automotive, healthcare, and logistics. Graduates may work on the design, programming, and implementation of robotic systems, automated manufacturing processes, or autonomous vehicles. Career options include roles such as robotics engineer, automation engineer, or mechatronics engineer.

  7. Research and Development: Graduates interested in pursuing research and development careers can work in academic institutions, research laboratories, or corporate research centers. They may contribute to cutting-edge research projects in areas such as artificial intelligence, machine learning, robotics, cyber-physical systems, or nanotechnology, pushing the boundaries of technological innovation and discovery.

  8. Entrepreneurship and Innovation: ECE graduates with an entrepreneurial mindset may choose to start their own businesses or venture into innovation-driven roles. They may develop innovative products, technologies, or solutions to address emerging market needs or societal challenges. Entrepreneurial opportunities exist in areas such as startup companies, technology incubators, or technology transfer offices.

  9. Further Education and Specialization: Some graduates may choose to pursue further education at the graduate level to deepen their knowledge and specialization in specific areas of electrical and computer engineering. They may pursue master's or doctoral degrees in fields such as electrical engineering, computer engineering, telecommunications, renewable energy, or systems engineering, opening up opportunities for advanced research, academia, or leadership roles in industry.

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