Engineering Practice
3091 Minto Centre Engineering
carleton.ca/engineering-design/future-students/graduate-programs/master-of-engineering-engineering-practice/
This section presents the requirements for programs in:
Master of Engineering - Engineering Practice (5.0 credits)
Master of Engineering - Engineering Practice (Civil) | ||
Requirements: | ||
1. 2.0 credits from: | 2.0 | |
EGEN 5100 [0.5] | Reinforced and Prestressed Concrete Design | |
EGEN 5101 [0.5] | Design of Steel Structures | |
EGEN 5102 [0.5] | Masonry Behaviour and Design | |
EGEN 5103 [0.5] | Pavements and Materials | |
EGEN 5104 [0.5] | Traffic Engineering | |
EGEN 5105 [0.5] | Foundation Engineering | |
EGEN 5106 [0.5] | Fundamentals of Fire Safety Engineering | |
EGEN 5107 [0.5] | Design for Fire Resistance | |
EGEN 5099 [0.5] | Directed Studies (with permission of program director only, and support of a full-time faculty member) | |
2. 0.5 credit in: | 0.5 | |
ECMP 5000 [0.5] | Engineering Communications | |
3. 0.5 credit in: | 0.5 | |
ECMP 5001 [0.5] | Project Management | |
4. 0.5 credit in: | 0.5 | |
ECMP 5002 [0.5] | Research Methods and Professional and Ethical Practice | |
5. 1.5 credits from: | 1.5 | |
ECMP 5003 [0.5] | Entrepreneurship | |
ECMP 5004 [0.5] | Engineering Economics | |
ECMP 5005 [0.5] | Data Analytics | |
ECMP 5006 [0.5] | Governance, Policy Development and Decision-making | |
ECMP 5007 [0.5] | Climate Change and Sustainability | |
ECMP 5008 [0.5] | Risk Analysis | |
6. 0.0 credit in: | 0.0 | |
ECMP 5009 [0.0] | Research Seminar | |
Total Credits | 5.0 |
Master of Engineering - Engineering Practice (Electrical) | ||
Requirements: | ||
1. 2.0 credits from: | 2.0 | |
EGEN 5300 [0.5] | Signal Processing | |
EGEN 5301 [0.5] | Integrated Circuits | |
EGEN 5302 [0.5] | Modeling and Simulation of Electrical Circuits | |
EGEN 5303 [0.5] | Sensor Systems | |
EGEN 5304 [0.5] | Microprocessor Systems | |
EGEN 5305 [0.5] | Power Systems | |
EGEN 5306 [0.5] | Telecommunications Systems and Networks | |
EGEN 5307 [0.5] | Control Systems and Robotics | |
EGEN 5099 [0.5] | Directed Studies (with permission of program director only, and support of a full-time faculty member) | |
2. 0.5 credit in: | 0.5 | |
ECMP 5000 [0.5] | Engineering Communications | |
3. 0.5 credit in: | 0.5 | |
ECMP 5001 [0.5] | Project Management | |
4. 0.5 credit in: | 0.5 | |
ECMP 5002 [0.5] | Research Methods and Professional and Ethical Practice | |
5. 1.5 credits from: | 1.5 | |
ECMP 5003 [0.5] | Entrepreneurship | |
ECMP 5004 [0.5] | Engineering Economics | |
ECMP 5005 [0.5] | Data Analytics | |
ECMP 5006 [0.5] | Governance, Policy Development and Decision-making | |
ECMP 5007 [0.5] | Climate Change and Sustainability | |
ECMP 5008 [0.5] | Risk Analysis | |
6. 0.0 credit in: | 0.0 | |
ECMP 5009 [0.0] | Research Seminar | |
Total Credits | 5.0 |
Master of Engineering - Engineering Practice (Environmental) | ||
Requirements: | ||
1. 2.0 credits from: | 2.0 | |
EGEN 5400 [0.5] | Overview of Environmental Engineering Principles | |
EGEN 5401 [0.5] | Physical Processes in Water and Wastewater Treatment | |
EGEN 5402 [0.5] | Biological Processes in Water and Wastewater Treatment | |
EGEN 5403 [0.5] | Groundwater and Soil Remediation | |
EGEN 5404 [0.5] | Solid Wastes and Landfill | |
EGEN 5405 [0.5] | Air Pollution and Emission Control | |
EGEN 5406 [0.5] | Climate Change and Engineering | |
EGEN 5407 [0.5] | Environmental Impact Assessment | |
EGEN 5099 [0.5] | Directed Studies (with permission of program director only, and support of a full-time faculty member) | |
2. 0.5 credit in: | 0.5 | |
ECMP 5000 [0.5] | Engineering Communications | |
3. 0.5 credit in: | 0.5 | |
ECMP 5001 [0.5] | Project Management | |
4. 0.5 credit in: | 0.5 | |
ECMP 5002 [0.5] | Research Methods and Professional and Ethical Practice | |
5. 1.5 credits from: | 1.5 | |
ECMP 5003 [0.5] | Entrepreneurship | |
ECMP 5004 [0.5] | Engineering Economics | |
ECMP 5005 [0.5] | Data Analytics | |
ECMP 5006 [0.5] | Governance, Policy Development and Decision-making | |
ECMP 5007 [0.5] | Climate Change and Sustainability | |
ECMP 5008 [0.5] | Risk Analysis | |
6. 0.0 credit in: | 0.0 | |
ECMP 5009 [0.0] | Research Seminar | |
Total Credits | 5.0 |
Master of Engineering - Engineering Practice (Mechanical) | ||
Requirements: | ||
1. 2.0 credits from: | 2.0 | |
EGEN 5500 [0.5] | Applied Fluid Mechanics | |
EGEN 5501 [0.5] | Computational Fluid Mechanics | |
EGEN 5502 [0.5] | Thermodynamics and Energy Systems | |
EGEN 5503 [0.5] | Transport Phenomena (Heat and Mass) | |
EGEN 5504 [0.5] | Kinematics and Dynamics | |
EGEN 5505 [0.5] | Controls and Robotics | |
EGEN 5506 [0.5] | Mechanics and Fracture | |
EGEN 5507 [0.5] | Surfaces and Interfacial Phenomena | |
EGEN 5508 [0.5] | Introduction to Advanced Material | |
EGEN 5099 [0.5] | Directed Studies (with permission of program director only, and support of a full-time faculty member) | |
2. 0.5 credit in: | 0.5 | |
ECMP 5000 [0.5] | Engineering Communications | |
3. 0.5 credit in: | 0.5 | |
ECMP 5001 [0.5] | Project Management | |
4. 0.5 credit in: | 0.5 | |
ECMP 5002 [0.5] | Research Methods and Professional and Ethical Practice | |
5. 1.5 credits from: | 1.5 | |
ECMP 5003 [0.5] | Entrepreneurship | |
ECMP 5004 [0.5] | Engineering Economics | |
ECMP 5005 [0.5] | Data Analytics | |
ECMP 5006 [0.5] | Governance, Policy Development and Decision-making | |
ECMP 5007 [0.5] | Climate Change and Sustainability | |
ECMP 5008 [0.5] | Risk Analysis | |
6. 0.0 credit in: | 0.0 | |
ECMP 5009 [0.0] | Research Seminar | |
Total Credits | 5.0 |
Master of Engineering - Engineering Practice (Software) | ||
Requirements: | ||
1. 2.0 credits from: | 2.0 | |
EGEN 5200 [0.5] | Advanced Operating Systems | |
EGEN 5201 [0.5] | Embedded Systems Development | |
EGEN 5202 [0.5] | Secure Systems Engineering | |
EGEN 5203 [0.5] | Test-driven and Agile Software Development | |
EGEN 5204 [0.5] | In-memory and Stream Computing | |
EGEN 5205 [0.5] | Software Development for Parallel and Distributed Architectures | |
EGEN 5206 [0.5] | Web and Mobile Software Development | |
EGEN 5207 [0.5] | Quantum Computing | |
EGEN 5099 [0.5] | Directed Studies (with permission of program director only, and support of a full-time faculty member) | |
2. 0.5 credit in: | 0.5 | |
ECMP 5000 [0.5] | Engineering Communications | |
3. 0.5 credit in: | 0.5 | |
ECMP 5001 [0.5] | Project Management | |
4. 0.5 credit in: | 0.5 | |
ECMP 5002 [0.5] | Research Methods and Professional and Ethical Practice | |
5. 1.5 credits from: | 1.5 | |
ECMP 5003 [0.5] | Entrepreneurship | |
ECMP 5004 [0.5] | Engineering Economics | |
ECMP 5005 [0.5] | Data Analytics | |
ECMP 5006 [0.5] | Governance, Policy Development and Decision-making | |
ECMP 5007 [0.5] | Climate Change and Sustainability | |
ECMP 5008 [0.5] | Risk Analysis | |
6. 0.0 credit in: | 0.0 | |
ECMP 5009 [0.0] | Research Seminar | |
Total Credits | 5.0 |
Engineering Complementary Courses (ECMP) Courses
Engineering Communications
Designed to advance the student’s ability to communicate technical ideas and conclusions effectively to peers and stakeholders. The course is divided into three sections involving the principles and practice of written, verbal, and graphical communication modes.
Project Management
Introduction to project management tools, techniques, templates, and methodologies. This course examines the eight knowledge areas of the Project Management Institute (PMI) which provide an integrated approach to managing engineering projects.
Research Methods and Professional and Ethical Practice
The technical and professional duties / responsibilities of engineers; the ethics of the engineering profession; technical and professional organizations. Engineers role in society, including elements of equity, sustainable development, environmental stewardship, public and worker safety and health considerations. Introduction to methods of engineering research.
Entrepreneurship
Introduction to the conceptual and practical considerations in developing new products. The theory and practice of project management, innovation and entrepreneurship, business planning, marketing, and mobilizing human and financial resources applied to the creation of new business activities and ventures will be discussed.
Engineering Economics
The application of engineering economics, financial analysis and market assessment to engineering alternatives in the planning, development and ongoing management of industrial enterprises.
Data Analytics
Introduction to data analytics, including visualization and knowledge discovery in massive datasets; unsupervised learning: clustering algorithms; dimension reduction; supervised learning: pattern recognition, smoothing techniques, classification. Computer software will be used.
Governance, Policy Development and Decision-making
Provide a foundational knowledge level of key governance structures and political institutions at the Canadian federal, provincial, and municipal levels, as well as Indigenous structures. Scholarship on policy development, strategic thinking and decision making is introduced, along with the role of information.
Climate Change and Sustainability
The complex and multifaceted elements of climate change and sustainable living are introduced in terms of the humanities, sciences, engineering, business and public policy perspectives, as well as root causes and potential adaptive responses.
Risk Analysis
The challenge of living and operating responsibly within a finite level of risk is a ubiquitous aspect of engineered systems. A framework for the identification and evaluation of risk is provided through examples, and discussions include means to manage ongoing risk.
Research Seminar
A series of invited lectures to present the motivation, methodologies, results, and societal implications of ongoing engineering research projects occurring within the Faculty. Graded SAT/UNS.
Engineering General (EGEN) Courses
Directed Studies
Independent research project supervised by a full time faculty member who will provide mentorship for the project.
Reinforced and Prestressed Concrete Design
Design of prestressed concrete structures; masonry and reinforced masonry elements.
Design of Steel Structures
Brittle fracture and fatigue problems. Behavior and design of composite beams and plate girders. Discussion of frame behavior; overall buckling and instability concepts as related to the design of columns and bracing systems.
Masonry Behaviour and Design
Historical developments. Masonry units, mortars and grouts. Behavior, strength and stability of masonry under axial compression. Reinforced masonry in bending and combined axial load and bending. Ductility and joint control. Design application including discussion of code requirements.
Pavements and Materials
Advanced pavement management, network and project level management, data collection and management, pavement evaluation, pavement design, rehabilitation and maintenance, pavement performance models, life cycle analysis, implementation of pavement management systems, future directions and research needs.
Traffic Engineering
Human factors, traffic control devices, signal warrants, principles of signalized intersections, signal timing, signal optimization and coordination, capacity, traffic delay, left turn, diamond interchange,unsignalized intersection, roundabouts, actuated control, incident management, freeway control.
Foundation Engineering
Review of methods of estimating compression and shear strength of soils. Bearing capacity and performance of shallow and deep foundations, pile groups, and use of in-situ testing for design purposes.
Fundamentals of Fire Safety Engineering
The fire safety system, including social, economic and environmental issues; description of the fire safety regulatory system and the governing building codes and standards. This includes the global fire safety system in a facility and active fire protection systems; detection, suppression, smoke management.
Design for Fire Resistance
Behaviour of materials and structures at elevated temperatures; fire-resistance tests; fire-resistance ratings; building code requirements; real-world fires; assessing the fire resistance of steel, concrete and wood building assemblies.
Advanced Operating Systems
Advanced process of state transitions, operations, interrupts, and parallel processes. Multiprocessor considerations of resource allocation, critical events, deadlock avoidance, detection, and recovery. Memory management strategies (paging page management, scheduling algorithms; file system functions, file organization, space allocation and elements of operating systems security.
Embedded Systems Development
Applications of embedded systems and challenges of embedded systems design; embedded processors, embedded reconfigurable hardware, embedded software; specification, modeling, design and verification of embedded systems; real time systems; construction of event-driven systems; performance issues; practical examples.
Secure Systems Engineering
Causes and consequences of computer system failure. Structure of fault-tolerant computer systems. Methods for protecting software and data against computer failure. Quantification of system reliability. Introduction to formal methods for safety-critical systems. Computer and computer network security.
Test-driven and Agile Software Development
Software requirements specification and testing. Risk analysis and metrics for software testing. Software testing process; test planning, design, implementation, execution, and evaluation. Test design via white and black box approaches; coverage-based testing techniques. Unit, integration, and system testing. Acceptance tests. Software maintenance and regression testing.
In-memory and Stream Computing
Review of data storage and scalability of systems with respect to random-access memory (RAM) and parallelization technologies. In-memory processes that provide real time insights by combining logic, analytics, and data. Potential applications include e-commerce,transportation.
Software Development for Parallel and Distributed Architectures
Advanced parallel programming and distributed systems, and high-performance computing in engineering. Both shared-memory parallel computers and distributed-memory multicomputers are considered. Aspects of the practice of parallelism will be covered. Emphasis is on thread programming, data-parallel programming, and performance evaluation.
Web and Mobile Software Development
Developing web and mobile applications. Topics include: client-side/mobile programming language, development tools, graphical user interface patterns (e.g., event-driven programming, separation of content and presentation, layout policies) and framework, interactions with the server-side.
Quantum Computing
Introduction to the theory and practice of quantum computation. Topics covered include quantum mechanics. Quantum algorithms including Simon's algorithm, prime factorization algorithm, and Grover's search algorithm. Mathematical models of quantum computation, as well as Quantum error correcting codes, cryptography, and fault tolerance.
Signal Processing
Practical application of processing techniques to the measurement, filtering and analysis of mechanical system signals; topics include: signal classification, A/D conversion, spectral analysis, digital filtering and real-time signal processing.
Integrated Circuits
Very Large-Scale Integration (VLSI) design techniques and their application. Electrical characteristics of MOSFET devices and CMOS circuits. Use of CAD tools for simulation and integrated circuit layout. Modeling delays, advanced digital logic circuit techniques, memory.
Modeling and Simulation of Electrical Circuits
Frequency response: active device high-frequency behaviour and circuit models; amplifier circuits and design. Feedback: concepts and structure; feedback topologies and amplifiers; open- and closed-loop response. Operational amplifiers: behaviour, circuit analysis and design.
Sensor Systems
Advanced topics dealing with technologies, transduction mechanisms, and fabricated sensors and actuators. Sensors for acceleration, rotation rate, pressure, and different micro actuators with application microfluidics, chemical, gas, and biosensors.
Microprocessor Systems
Advanced microcomputer architecture, assembly language programming, sub-routine handling, memory and input/output system and interrupt concepts.
Power Systems
Introduction to power system and their transient states. Power system voltage stability; PV and QV curve methods. Power system angular stability; transient stability and equal area criterion; steady-state stability and power system stabilizer. Electromagnetic transients in power systems, insulation coordination and equipment protection.
Telecommunications Systems and Networks
Provides a fundamental understanding of the design, development, implementation, operation, and management of telecommunications systems and networks, including theoretical knowledge and practical considerations for reliable systems across a range of sizes of operation.
Control Systems and Robotics
Fundamental aspects of modeling and control of robot manipulators as devices that involve mechanics (kinematics and dynamics), electronic actuators, information theory, and automation, as well issues workspace, over and under actuated systems, and strategies for force management.
Overview of Environmental Engineering Principles
Basic mechanisms of chemistry, biology, and physics relevant to environmental engineering. Principles of equilibrium, mass transfer, material balances, microbial growth, water, energy, and nutrient cycles. Applications to environmental systems as biological degradation, mass and energy movement, and design of water and wastewater treatment systems.
Physical Processes in Water and Wastewater Treatment
Theory and design of chemical and physical unit processes utilized in the treatment of water and wastewater, sedimentation, flotation, coagulation, precipitation, filtration, disinfection, ion exchange, reverse osmosis, adsorption, and gas transfer.
Biological Processes in Water and Wastewater Treatment
Study of the theoretical and applied aspects of wastewater treatment by activated sludge, fixed and moving biological films, conventional and aerated lagoons, sludge digestion, septic tanks, land treatment, and nutrient removal. Guidelines, regulations and economics. System analysis and design of facilities.
Groundwater and Soil Remediation
Principles of groundwater chemistry, the chemical evolution of natural groundwater flow systems, sources of contamination, and mass transport processes. Hydrogeologic aspects of waste disposal and groundwater remediation.
Solid Wastes and Landfill
Principles of solid waste management to protect public health. Study of solid waste components, refuse collection, storage, and handling. Design and operation of solid waste transfer and disposal facilities including transfer stations, resource recovery and composting facilities, incinerators, and landfills.
Air Pollution and Emission Control
Types of gaseous and particulate pollutants and their sources, effects of air pollution on man,vegetation, and materials, indoor air pollution, sampling and analysis of air pollutants, air pollution meteorology and dispersion, control techniques for gaseous and particulate pollutants, and air quality management aspects.
Climate Change and Engineering
Current and projected impacts of climate change on the circumpolar north, including the land, its biota, northern communities, drivers that shape these interactions, as well as how these impact engineered structures.
Environmental Impact Assessment
Principles and elements of environmental assessment with an interdisciplinary focus. Topics include types of environmental assessments, when to use them, data required, sampling strategies, how data should be collected and analyzed and ultimately communicated to pass legal and scientific scrutiny.
Applied Fluid Mechanics
Kinematics of fluid motion, fundamental fluid equations and concepts, laminar boundary layers, potential flow, stability and transition, introduction to turbulence, practical examples in mechanical engineering.
Computational Fluid Mechanics
Solutions of the transport equations of momentum, mass, and energy. Transport processes are reviewed but emphasis is placed on the numerical solution of the governing differential equations. Different solution methodologies and software.
Thermodynamics and Energy Systems
Principles of thermodynamics; properties of homogeneous fluid phases; phase and chemical equilibria; application to industrial and energy problems.
Transport Phenomena (Heat and Mass)
Transport expressions for physical properties are combined with conservation laws to yield generalized equations used to solve a variety of engineering problems in fluid mechanics, and heat and mass transfer; steady-state and transient cases; special topics in non-Newtonian flow and forced diffusion.
Kinematics and Dynamics
Kinematics and dynamics of rigid bodies moving in three dimensions. Spatial kinematics of rigid bodies, Euler angles, tensor of inertia and the Newton-Euler equations of motion for rigid bodies.
Controls and Robotics
Introduction to advanced robotics including mobile robots, redundant manipulators, walking robots, aerial and marine autonomous vehicles. Kinematic and dynamic models for advanced robots. Linear and nonlinear control theory overview with applications to advanced robots.
Mechanics and Fracture
Basic concepts of linear and nonlinear fracture mechanics: linear and nonlinear stationary crack-tip stress, strain and displacement fields; energy balance and energy release rates; fracture resistance concepts-static and dynamic fracture toughness; criteria for crack growth; fracture control methodology and applications.
Surfaces and Interfacial Phenomena
Basics of colloid and interfacial phenomena with application to the energy sector, materials, processing, and biomedical industry.
Introduction to Advanced Materials
Introduction to advanced materials focusing on emerging materials like fibre-reinforced composite materials. Manufacturing methods of lightweight, safe and environment-friendly structures and their use in the industry. Standard analytical techniques (Micro and Macro approach) for materials' mechanical characterization and strength theories. Failure analysis of composites.
Note: Not all courses listed are offered in a given year. For an up-to-date statement of course offerings for the current session and to determine the term of offering, consult the class schedule at central.carleton.ca.
Summer session: some of the courses listed in this Calendar are offered during the summer. Hours and scheduling for summer session courses will differ significantly from those reported in the fall/winter Calendar. To determine the scheduling and hours for summer session classes, consult the class schedule at central.carleton.ca
Admission
The requirement for admission to the M. Engineering - Engineering Practice is a four-year bachelor's degree in civil, computer, electrical, environmental, mechanical engineering, or software (students with other engineering degree disciplines should contact the Faculty for special consideration) from an institution recognized by Engineers Canada under the Washington Accord, with an average of at least B+. Applicants should note that simply meeting the minimum standards for admission will not guarantee admission to the program as there are only a limited number of positions available each year.
Transfer and Transfer Credit
Graduate students currently registered in other graduate programs in Engineering at Carleton University, and who hold a four-year bachelor's degree in engineering from an institution recognized by Engineers Canada under the Washington Accord can transfer into this program. Transfer credit will be awarded for courses where a grade of B or higher was earned in other graduate programs in Engineering at Carleton University towards the fulfilment of discipline specific Engineering course requirements.
Regulations
See the General Regulations section of this Calendar.
Regularly Scheduled Break
For immigration purposes, the summer term (May to August) for the Master of Engineering - Engineering Practice is considered a regularly scheduled break approved by the University. Students should resume full-time studies in September.
Note: a Regularly Scheduled Break as described for immigration purposes does not supersede the requirement for continuous registration in Thesis, Research Essay, or Independent Research Project as described in Section 8.2 of the Graduate General Regulations.