Bachelor of Engineering (Automation and Robotics) (Co-op) Pathway for Electrical Engineering Technology
Blend the three fields of engineering to succeed in the high-demand field of automation and robotics.
- For eligible students, this pathway can reduce the time to degree completion to three years
- Students gain knowledge in computer engineering, computer programming, mechanical engineering, and electrical engineering, for a well-rounded experience prior to graduation
- Two of the program’s mandatory co-op semesters, with proper documentation, can be counted towards time needed in the industry to gain a Professional Engineering designation
Program Availability and Schedule
Availability
Open
Closed
Waitlisted
Start Term
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Fall 2025
No
Schedule
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Program Summary
Credential
Program Delivery
Program Code
Area of Interest
School
Campus
The four-year Bachelor of Engineering (Automation and Robotics) degree prepares you for a career in the field of automation and robotics. Eligible graduates of the Electrical Engineering Technology (EET) Ontario College Advanced Diploma program can apply to this pathway program following the successful completion of three bridging courses (see Program Eligibility for more details), and receive credit for up to 14 courses in the degree, reducing the time to degree completion to three years.
Autonomous and remotely operated systems are deployed the world over with ever increasing frequency. Such systems are being implemented in many instances to reduce risk to human workers, to achieve higher efficiencies in manufacturing and to improve the quality of lives through robot-assisted rehabilitation and care. Variations of these systems are often in place for reasons of feasibility, efficiency, safety or practicality. Traditionally, in order to develop such systems, collaborative expertise and knowledge in aspects of mechanical and electrical engineering as well as computer science is necessary. Through a combination of these three fields of engineering, this program helps you acquire the theoretical and applied expertise to succeed in the high-demand field of automation and robotics....(read more)
Overview
Blend the three fields of engineering to succeed in the high-demand field of automation and robotics.
The four-year Bachelor of Engineering (Automation and Robotics) degree prepares you for a career in the field of automation and robotics. Eligible graduates of the Electrical Engineering Technology (EET) Ontario College Advanced Diploma program can apply to this pathway program following the successful completion of three bridging courses (see Program Eligibility for more details), and receive credit for up to 14 courses in the degree, reducing the time to degree completion to three years.
Autonomous and remotely operated systems are deployed the world over with ever increasing frequency. Such systems are being implemented in many instances to reduce risk to human workers, to achieve higher efficiencies in manufacturing and to improve the quality of lives through robot-assisted rehabilitation and care. Variations of these systems are often in place for reasons of feasibility, efficiency, safety or practicality. Traditionally, in order to develop such systems, collaborative expertise and knowledge in aspects of mechanical and electrical engineering as well as computer science is necessary. Through a combination of these three fields of engineering, this program helps you acquire the theoretical and applied expertise to succeed in the high-demand field of automation and robotics.
As a student in this program, you acquire knowledge and skills specific to electrical engineering, mechanical engineering and computer science, including:
- engineering principles, professionalism and methodologies
- mathematics, technical writing, computer programming, physics
- dynamics, electronics, optical systems, machine design, control systems, electromechanical actuators, sensors, vision systems and the software necessary to design and simulate autonomous and remotely operated systems and components
- project planning and management, and research and leadership
This program provides you with learning opportunities through industrial and/or applied research placements. A comprehensive final year project tied to the needs of industry exists to challenge you, presenting the opportunity to test and further develop knowledge and skills.
Students also gain real-world experience through a paid co-operative education (co-op) work term(s) (see Additional Information for more details). Please note that places in the co-op work term(s) are subject to availability and academic eligibility. Please note admission to a co-op program does not guarantee a co-op placement.
There is a wide variety of work opportunities for you after graduation. As a graduate of this degree, you may find employment opportunities in sectors such as:
- industrial automation
- mining
- agriculture
- manufacturing
- chemical
- pharmaceutical
- food
- aerospace
- healthcare
- defence
This program is not yet accredited by the Canadian Engineering Accreditation Board (CEAB), however, Algonquin College intends to pursue accreditation.
SUCCESS FACTORS
This program is well-suited for students who:
- Possess strong analytical, logical, mathematical and critical-thinking skills.
- Enjoy working with mechanical and/or electronic assemblies.
- Can work independently and collaborate in problem-solving teams.
- Are interested in working with a wide variety of people and situations.
- Have an appreciation for creative work and using cutting edge technology.
Courses
Programs at Algonquin College are delivered using a variety of instruction modes. Courses may be offered in the classroom or lab, entirely online, or in a hybrid mode which combines classroom sessions with virtual learning activities. Upon registration, each full-time student is provided an Algonquin email account which is used to communicate important information about program or course events.
Code:
CAD8202
Course Name:
Computer Aided Design
Course Description:
Techniques for designing mechanical components have evolved over time from simple hand drawings and calculations to sophisticated computer m... + Read More
Hours:
56.0
Code:
ENG8001
Course Name:
Principles of Design
Course Description:
Design principles are essential tools and techniques that enable engineers to iteratively solve problems in a targeted way. In this applied ... + Read More
Hours:
56.0
Code:
ENG8332
Course Name:
Engineering Mechanics: Statics
Course Description:
Structural analysis is an essential consideration for any engineer tasked with design. In order to develop the ability to apply the principl... + Read More
Hours:
42.0
Code:
ENL8810
Course Name:
Technical Communications
Course Description:
Students develop an appreciation of both the applications and the implications of technical communication. Through a combination of written ... + Read More
Hours:
42.0
Code:
GEP1001
Course Name:
Cooperative Education and Job Readiness
Course Description:
Students are guided through a series of activities that prepare them to conduct a professional job search and succeed in the workplace. Thro... + Read More
Hours:
21.0
Code:
MAT8400
Course Name:
Mathematics for Engineers
Course Description:
Real-world engineering and robotics problems often do not have a single, easily solved for, solution. Students find approximate solutions to... + Read More
Hours:
42.0
Code:
MAT8406
Course Name:
Differential Equations and Advanced Calculus
Course Description:
Forming the basis of careers in many disciplines is the ability to apply mathematical techniques and expertise needed for investigating and ... + Read More
Hours:
70.0
Code:
CHE3190
Course Name:
Chemistry
Course Description:
Chemistry is both directly and indirectly used in engineering. Students develop a foundation in chemistry learning about a variety of topics... + Read More
Hours:
56.0
Code:
ELN8404
Course Name:
Digital Circuits, Design and Microprocessors
Course Description:
Digital circuits and microprocessor technologies are considered the backbone of modern electronic and computer systems. Student develop theo... + Read More
Hours:
56.0
Code:
ENG8405
Course Name:
Engineering Mechanics: Dynamics
Course Description:
Knowledge of the action of external forces resulting in motion is essential in the design of mechanical systems. In order to develop the abi... + Read More
Hours:
56.0
Code:
ENG8604
Course Name:
Fluid Mechanics and Hydraulics
Course Description:
Fluid mechanics and hydraulics is an important branch of engineering mechanics, since these principles are widespread in all engineering app... + Read More
Hours:
56.0
Code:
ENG8607
Course Name:
Mechanics of Solids
Course Description:
The internal reactions in solid materials resulting from the action of external forces must be known for safe design of load supporting stru... + Read More
Hours:
56.0
Code:
PHI1000
Course Name:
Logic and Critical Thinking
Course Description:
Logic and critical-thinking skills play an important role in both daily life and ongoing academic studies. As foundational skills, they supp... + Read More
Hours:
56.0
Code:
WKT0009
Course Name:
Co-Op Work Term I
Course Description:
The first co-op placement provides students with experiential opportunities within the field. Students attain entry-level positions that in... + Read More
Hours:
Code:
ENG8603
Course Name:
Dynamics of Machinery
Course Description:
Information about the motion, forces, and general dynamic behaviors of mechanical systems are essential for a designer to be able to select ... + Read More
Hours:
42.0
Code:
ENG8605
Course Name:
Mechatronics
Course Description:
Obtaining harmonious integration of mechanism, electronics, and computer control to achieve a functional automation system requires mechatro... + Read More
Hours:
56.0
Code:
ENG8608
Course Name:
Industrial Robot Cells
Course Description:
Industrial robot integration is an interdisciplinary subject spanning the areas of mechanics, electronics, information theory, control and a... + Read More
Hours:
56.0
Code:
MAC8102
Course Name:
Machine Shop and Manufacturing Techniques
Course Description:
Many different manufacturing techniques exist for fabricating engineering components from various materials. The main focus is conventional ... + Read More
Hours:
42.0
Code:
ROB8403
Course Name:
Industrial Robotics
Course Description:
Robots often perform tasks in place of humans for reasons such as safety, efficiency and cost. Students gain an overview of robotics topics ... + Read More
Hours:
56.0
Code:
WKT0010
Course Name:
Co-Op Work Term II
Course Description:
Co-op provides an experiential opportunity which is directly related to the field of study. The second work term centers on an expanded role... + Read More
Hours:
Code:
CST8703
Course Name:
Real-Time and Embedded Systems Programming
Course Description:
With the advent of the Internet of Things (IoT) and more powerful microcontrollers (MCU), electronics are becoming more ubiquitous in applic... + Read More
Hours:
56.0
Code:
ENG8704
Course Name:
Mechanical Systems Design
Course Description:
A successful design must satisfy prescribed performance criteria, operate safely and reliably under nominal conditions and be a manufacturab... + Read More
Hours:
56.0
Code:
MGT8904
Course Name:
Engineering Economics and Entrepreneurship
Course Description:
Knowledge of entrepreneurship and economics is essential for engineers to identify the right kind of business opportunities and to help them... + Read More
Hours:
56.0
Code:
ROB8224
Course Name:
Mobile Robotics: Control, Guidance, and Navigation
Course Description:
The wide variety of applications for mobile robots can necessitate novel design approaches to meet the requirements of today's projects. In ... + Read More
Hours:
84.0
Code:
WKT0017
Course Name:
Co-Op Work Term III
Course Description:
Co-op provides an experiential opportunity which is directly related to the field of study. The third work term centers on an expanded role... + Read More
Hours:
Code:
ENG8706
Course Name:
Heat Transfer and Thermodynamics
Course Description:
Advances in science and technology have made our day to day lives completely dependent on thermodynamics and heat transfer principles. Stude... + Read More
Hours:
42.0
Code:
ROB8705
Course Name:
Computer VIsion for Robotics
Course Description:
Cameras are becoming ever more prevalent in robots as well as the devices we all carry everywhere; computer vision unlocks this wealth of da... + Read More
Hours:
42.0
Code:
ROB8904
Course Name:
Robotics and Automation Project 1
Course Description:
Engineering projects require significant planning to clearly outline objectives, constraints and function of design solutions. Students appl... + Read More
Hours:
84.0
Code:
ROB9102
Course Name:
Advanced Robotics
Course Description:
Integration of electrical, mechanical and electrometrical components with computer aided control to produce functional technological system ... + Read More
Hours:
56.0
Code:
SCI2000
Course Name:
Environmental Science
Course Description:
Environmental science is an interdisciplinary study of how the earth works, human interaction with the earth and how to address the existing... + Read More
Hours:
42.0
Code:
ENG3191
Course Name:
Professional Practice and Ethics
Course Description:
Knowledge of the responsibilities of engineers towards the public and the legal obligations of practicing engineering is essential for the g... + Read More
Hours:
28.0
Code:
ENG9103
Course Name:
System Level Reliability
Course Description:
Mechanical and electrical reliability of automated systems is critical, especially as these systems perform tasks traditionally completed by... + Read More
Hours:
42.0
Code:
ROB9106
Course Name:
Robotics and Automation Project 2
Course Description:
Engineering projects require comprehensive testing and prototyping to ensure a design solution meets specific objectives and design criteria... + Read More
Hours:
84.0
Code:
ENL4016
Course Name:
World Literature
Course Description:
Exposure to broad sources of literature promotes an open-minded perspective on today's global society and encourages an appreciation of dive... + Read More
Hours:
42.0
Code:
ENL4100
Course Name:
Creative Writing
Course Description:
Whether for personal or public consumption, many people enjoy writing short fiction to express their creative energy while improving upon th... + Read More
Hours:
42.0
Code:
ENL4200
Course Name:
New Worlds and Alternative Realities: Speculative Fiction
Course Description:
Speculative fiction gathers together all those works of fiction in which new worlds or alternative realities are envisioned. Within this ca... + Read More
Hours:
42.0
Code:
PHI4000
Course Name:
Philosophy and Popular Culture
Course Description:
Many facets of today's popular culture engage, directly or indirectly, with the concerns of a variety of philosophical traditions. Drawing o... + Read More
Hours:
42.0
Code:
PHI4002
Course Name:
The Philosophy of Drugs
Course Description:
Drugs are everywhere: professionals prescribe them to us to make us "better"; we take them recreationally; we give them to our children, pet... + Read More
Hours:
42.0
Code:
PHI4003
Course Name:
The Philosophy of Love and Sex
Course Description:
Love and sex are central to the human condition, and have been topics of academic inquiry and controversy throughout history. Various practi... + Read More
Hours:
42.0
Code:
PHI4004
Course Name:
Technology, Society and the Environment
Course Description:
Environmental issues have come to occupy a central place in the marketplace, politics, policy, and society at large. Owing largely to the ma... + Read More
Hours:
42.0
Code:
PHI4100
Course Name:
Survival in the Information Age: Risk and the Media
Course Description:
On an almost daily basis, the media, through its various outlets - television, radio, web sites, RSS, and podcasts - reports on issues that ... + Read More
Hours:
42.0
Code:
PHY4000
Course Name:
Black Holes, Big Bangs and the Cosmos
Course Description:
The dynamic and exciting field of Cosmology outlines our current understanding of the Universe from its start, at the so-called Big Bang, th... + Read More
Hours:
42.0
Code:
SOC4000
Course Name:
Criminology
Course Description:
The interdisciplinary study of social science examining the individual and social aspects of crime is known as criminology. Students work th... + Read More
Hours:
42.0
Code:
SOC4001
Course Name:
Global Perspectives
Course Description:
Sociology, through its exploration of the organization of society and the connections between people and their surroundings, provides new wa... + Read More
Hours:
42.0
Careers & Pathways
Careers
Graduates may work in the engineering fields as robotics engineers, controls engineers, automation engineers, robotics specialists and automation systems designers. As well, graduates may work in the traditional engineering field as a mechanical systems designer/engineers, electronic systems engineers and controls hardware/software designer/engineers.
Pathways
Please use our Pathways tool to search for pathway options.
Learning Outcomes
The graduate has reliably demonstrated the ability to:
- Analyze, design, modify and support mechanical, software and electrical components, processes and systems by applying fundamentals of engineering.
- Build functional robotic components by researching and integrating knowledge from mechanical, electrical and software engineering practices.
- Customize existing non-autonomous systems into autonomous or semi-autonomous systems by designing and integrating solutions and developing autonomy algorithms and controls.
- Analyze and solve complex technical problems in the field of robotics and automation by applying the principles of engineering and mathematics.
- Develop, execute and interpret quantitative and qualitative analysis and tests for industrial mechatronic and automation systems.
- Lead and perform diagnostics on a variety of industrial automation controls, sensors, data acquisition devices and interfaces by developing and using troubleshooting skills and techniques.
- Ensure all work is performed in compliance of relevant laws, codes, regulations, policies, ethical principles, safety procedures and engineering practices and standards.
- Contribute to the on-going and upcoming innovation and research in the robotics and automation field.
- Develop entrepreneurship and effective business planning skills to innovate robotics technology targeting new and existing local and global markets.
- Develop personal and professional strategies and plans to adapt to change, maintain currency and foster interprofessionalism.
- Manage the project and communication with clients and other professionals to translate abstract ideas into tangible project requirements and products.
- Identify and apply discipline-specific factors that enable the contribution to the local and global community through social responsibility, economic commitment and environmental stewardship.
Tuition & Fees
Get an idea of how much each semester will cost with our Tuition and Fee Estimator.
2024/2025 Academic Year
Tuition and related ancillary fees for this program can be viewed by using the Tuition and Fees Estimator tool at www.algonquincollege.com/fee-estimatorFurther information on fees can be found by visiting the Registrar`s Office website at www.algonquincollege.com/ro
Fees are subject to change.
Additional program related expenses include:
Books and supplies cost approximately $1,200 per academic year.
Admissions Requirements
All applicants must satisfy both College Eligibility and Program Eligibility requirements.
Program Eligibility
- Graduate of Electrical Engineering Technology Ontario College Advanced Diploma, with an overall GPA of 2.7 (70%) and have successfully completed the three mandatory bridging courses (MAT8203 - Linear Algebra, CST8203 - Advanced Programming and Data Structures, PHY8205 - Physics I-IIl) with a minimum grade of 63% (C) in each course.
Application Information
BACHELOR OF ENGINEERING (AUTOMATION AND ROBOTICS) (CO-OP)
Pathway for Electrical Engineering Technology
Program Code 6519B03FWO
Applications to full-time day programs must be submitted with official transcripts showing completion of the academic admission requirements through:
ontariocolleges.ca
60 Corporate Court
Guelph, Ontario N1G 5J3
1-888-892-2228
The equal consideration date is February 1. After the equal consideration date, applications for open program spaces will be considered on a first-come, first-serve basis.
International applicants please visit this link for application process information: https://algonquincollege.force.com/myACint/.
For further information on the admissions process, contact:
Registrar`s Office
Algonquin College
1385 Woodroffe Ave
Ottawa, ON K2G 1V8
Telephone: 613-727-0002
Toll-free: 1-800-565-4723
TTY: 613-727-7766
Fax: 613-727-7632
Contact: https://www.algonquincollege.com/ro
Additional Information
Program Resources
Algonquin College has been granted consent by the Minister of Colleges and Universities to offer this applied degree for a seven-year term starting December 20, 2017. The College shall ensure that all students admitted to the above-named program during the period of consent have the opportunity to complete the program within a reasonable timeframe.
CO-OP INFORMATION:
Co-operative education (Co-op) allows students to integrate their classroom learning with a real-world experience through paid work terms. Two academic terms prior to the cooperative education work term, students are required to actively participate in and successfully complete the self-directed co-op course, readiness activities and workshops.
Students must actively conduct a guided, self-directed job search and are responsible for securing approved program-related paid co-op employment. Students compete for co-op positions alongside students from Algonquin College and other Canadian and international colleges and universities. Algonquin College`s Co-op Department provides assistance in developing co-op job opportunities and guides the overall process, but does not guarantee that a student will obtain employment in a co-op work term. Co-op students may be required to relocate to take part in the co-op employment opportunities available in their industry and must cover all associated expenses; e.g., travel, work permits, visa applications, accommodation and all other incurred expenses.
Co-op work terms are typically 14 weeks in duration and are completed during a term when students are not taking courses. For more information on your program`s co-op level(s), visit the courses tab on your program`s webpage.
International students enrolled in a co-op program are required by Immigration, Refugees and Citizenship Canada (IRCC) to have a valid Co-op/Internship Work Permit prior to commencing their work term. Without this document International students are not legally eligible to engage in work in Canada that is part of an academic program. The Co-op/Internship Work Permit does not authorize international students to work outside the requirements of their academic program.
For more information on co-op programs, the co-op work/study schedule, as well as general and program-specific co-op eligibility criteria, please visit www.algonquincollege.com/coop.
Completion of the total number of co-op work terms listed under the courses section on the program page are mandatory for graduation. Co-op students must make every effort to remain on schedule and participate in co-op work terms as planned. Students who fail to complete co-op work terms as scheduled may be required to take an unscheduled break in their studies, resulting in a delay in graduation in order to complete their co-op at a later date. Taking an unscheduled break in studies can impact an international student’s immigration status, including, in most cases, the ability to work. International students are advised to consult with the International Education Centre to understand the potential implications of unscheduled breaks at www.algonquincollege.com/international/student-handouts/scheduled-unscheduled-breaks/.
Contact
Raymond Greiss
Program Coordinator
Room T212
Ray Greiss is a Professor and Coordinator of the Bachelor of Engineering (Automation and Robotics) at Algonquin College. He is a licensed Professional Engineer in Ontario with a background in Biomedical (B.Eng.) and Mechanical (MASc) engineering. His professional experience includes sensor R&D, scientific computing, and wind engineering. He is a member of the Canadian Engineering Education Association and a volunteer with Engineers Canada assisting with accreditation of engineering undergraduate programs.
Ray’s teaching philosophy incites students to take an iterative approach to problem-solving. By examining open-ended engineering problems, Ray challenges students to ask insightful questions, assess underlying assumptions, and find effective solutions.
Ray is passionate about inspiring students to consider impacts of engineering beyond the traditional scope. Ray encourages students to consider how social responsibility in engineering evolves in today’s context and help them prepare for their future careers.