
Bachelor of Engineering (Automation and Robotics) (Co-op)
Ottawa, Canada
DURATION
4 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
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EARLIEST START DATE
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TUITION FEES
USD 34,995
STUDY FORMAT
On-Campus
Introduction
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 program prepares you for a career in the field of automation and robotics.
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.
Ideal Students
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
Admissions
Curriculum
Level 01
- CAD8202 CAD
- CST8107 Introduction to Programming and Problem Solving
- ENL1100 Communications and Academic Writing
- MAT6443 Calculus I
- MAT8203 Linear Algebra
- PHY8103 Physics I
Level 02
- CHE3190 Chemistry
- CST8203 Advanced Programming and Data Structures
- MAT8202 Calculus II
- PHI1000 Logic and Critical Thinking
- PHY8204 Physics II
- ROB8113 Introduction to Robotics
Level 03
- ELN8304 Electrical and Electronic Circuits I
- ENG8332 Engineering Mechanics: Statics
- GEP1001 Cooperative Education and Job Readiness
- MAC8102 Machine Shop and Manufacturing Techniques
- MAT8406 Differential Equations and Advanced Calculus
- PLT1106 Introduction to Optics
Elective (choose 1)
- BIO2200 Botany
- ECO2000 Environmental Economics
- ENL2025 Interpersonal Communication
- FLS3101 French as a Second Language - Beginner 1
- FLS3102 French as a Second Language - Beginner 2
- GEO2300 Principles of Urban Planning
- LAN3101 Spanish - Beginner 1
- LAN3102 Spanish - Beginner 2
- LAW2014 Law
- PHI2002 Ethical Decision Making
- PSI2000 Navigating Canada's Political Landscape
- PSY2100 Introductory Psychology
- SCI2000 Environmental Science
- SOC2000 Introduction to Sociology
- SOC2001 Anti-Racism: Theory and Practice
Level 04
- ELN8402 Electrical and Electronic Circuits II
- ELN8404 Digital Circuits, Design and Microprocessors
- ENG8405 Engineering Mechanics: Dynamics
- ENG8604 Fluid Mechanics and Hydraulics
- ENG8607 Mechanics of Solids
- PHI2000 Introduction to Research
Co-op 01
- WKT0009 Co-Op I
Level 05
- ELN8606 Control Systems
- ENG8603 Dynamics of Machinery
- ENG8605 Mechatronics
- ENG8608 Industrial Robot Cells
- MAT8400 Mathematics for Engineers
- ROB8403 Industrial Robotics
Co-op 02
- WKT0010 Co-Op II
Level 06
- CST8703 Real-Time Systems and Embedded Systems Programming
- ENG8704 Mechanical Systems Design
- ENG8706 Heat Transfer and Thermodynamics
- ENG8905 Sensors and Instrumentation
- ROB8224 Mobile Robotics: Control, Guidance, and Navigation
Co-op 03
- WKT0017 Co-Op Work Term III
Level 07
- ENG9103 System Level Reliability
- ROB8705 Computer Vision for Robotics
- ROB8903 Robotics and Automation Project I
- ROB9102 Advanced Mechatronics and Multi-Robot Systems
Elective (choose 2)
- ENL4016 World Literature
- ENL4100 Creative Writing
- ENL4200 New Worlds and Alternative Realities: Speculative Fiction
- PHI4000 Philosophy and Popular Culture
- PHI4002 The Philosophy of Drugs
- PHI4003 The Philosophy of Love and Sex
- PHI4004 Technology, Society, and the Environment
- PHI4100 Survival in the Information Age: Risk and the Media
- PHY4000 Black Holes, Big Bangs, and the Cosmos
- SOC4000 Criminology
- SOC4001 Global Perspectives
Level 08
- ENG3191 Professional Practice and Ethics
- MGT8904 Engineering Economics and Entrepreneurship
- ROB9104 Robotics and Automation Project II
Elective (choose 1)
- ENL4016 World Literature
- ENL4100 Creative Writing
- ENL4200 New Worlds and Alternative Realities: Speculative Fiction
- PHI4000 Philosophy and Popular Culture
- PHI4002 The Philosophy of Drugs
- PHI4003 The Philosophy of Love and Sex
- PHI4004 Technology, Society, and the Environment
- PHI4100 Survival in the Information Age: Risk and the Media
- PHY4000 Black Holes, Big Bangs, and the Cosmos
- SOC4000 Criminology
- SOC4001 Global Perspectives
Program Outcome
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 the 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.
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 analyses 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 with relevant laws, codes, regulations, policies, ethical principles, safety procedures, and engineering practices and standards
- Contribute to the ongoing 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 interprofessional
- Manage the project and communicate 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.
Career Opportunities
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 mechanical systems designers/engineers, electronic systems engineers, and controls hardware/software designers/engineers.
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
- Defense
This program is not yet accredited by the Canadian Engineering Accreditation Board (CEAB); however, Algonquin College intends to pursue accreditation.
English Language Requirements
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