Bachelor of Engineering in Biomedical and Electrical Engineering

Comments about Bachelor of Engineering in Biomedical and Electrical Engineering - At the institution - Ottawa - Ontario

• Objectives
  Increasingly, the field of health care relies on technology. Biomedical and electrical engineers are interested in solving biological and medical problems. They are also concerned with designing and building new components and systems for biomedical applications. This program allows students to integrate their core curriculum in electrical engineering with their understanding of biological systems to improve medical practice. Biomedical and Electrical Engineering includes a combination of course work in mathematics, natural and life sciences, applied engineering science and design, and elective courses from the arts, culture, humanities, and social sciences. The program also includes aspects of directed and individual study, supervised project work, extensive laboratory and industrial (clinical) field experience, oral and written presentations.
• Academic title
  Bachelor of Engineering in Biomedical and Electrical Engineering
• Course description
  Biomedical and Electrical Engineering
  Bachelor of Engineering (21.0 credits)
  
  First year
  
     1. 5.0 credits in BIOL 1003, CHEM 1000 [1.0], MATH 1004, MATH 1005, MATH 1104, PHYS 1004, ECOR 1010, ECOR 1101, ECOR 1606;
  
  Second year
  
     2. 4.5 credits in MATH 2004, ECOR 2606, ELEC 2501, SYSC 2002, MATH 3705, CCDP 2100, ELEC 2507, ELEC 2607, ELEC 3105;
     3. 0.5 credit from BIOL 2005, BIOC 2200, CHEM 2203;
  
  Third year
  
     4. 4.5 credits in SYSC 3600, ELEC 3509, ELEC 3500, ELEC 3908, STAT 3502, SYSC 3006, SYSC 3501, ELEC 3909, ECOR 3800;
     5. 0.5 credit from BIOL 2005, BIOC 2200, CHEM 2203;
  
  Fourth year
  
     6. 2.5 credits in SYSC 4201, ECOR 4995, ELEC 4601, SYSC 4203, SYSC 4405;
     7. 1.0 credit from SYSC 4917 [1.0];
     8. 1.0 credit from ELEC 4709, SYSC 4202, SYSC 4205;
     9. 0.5 credit from SYSC or ELEC at the 3000-level or above with a laboratory/problem analysis component;
    10. 1.0 credit in Complementary Studies Electives.
  
  

  • ELEC 1908 - First Year Project
  • ELEC 2501 - Circuits and Signals
  • ELEC 2507 - Electronics I
  • ELEC 2607 - Switching Circuits
  • ELEC 3105 - Basic EM and Power Engineering
  • ELEC 3500 - Digital Electronics
  • ELEC 3508 - Power Electronics
  • ELEC 3509 - Electronics II
  • ELEC 3605 - Electrical Engineering
  • ELEC 3908 - Physical Electronics
  • ELEC 3909 - Electromagnetic Waves
  • ELEC 4502 - Microwave Circuits
  • ELEC 4503 - Radio Frequency Lines and Antennas
  • ELEC 4504 - Avionics Systems
  • ELEC 4505 - Telecommunication Circuits
  • ELEC 4506 - CAD for Communication Circuits
  • ELEC 4509 - Communication Links
  • ELEC 4600 - Radar and Navigation
  • ELEC 4601 - Microprocessor Systems
  • ELEC 4602 - Electrical Power Engineering
  • ELEC 4609 - Integrated Circuit Design and Fabrication
  • ELEC 4700 - The Physics and Modeling of Advanced Devices and Technologies
  • ELEC 4702 - Fiber Optic Communications
  • ELEC 4703 - Solar Cells and Applications
  • ELEC 4705 - Electronic Materials, Devices and Transmission Media
  • ELEC 4706 - Digital Integrated Electronics
  • ELEC 4707 - Analog Integrated Electronics
  • ELEC 4708 - Advanced Digital Integrated Circuit Design
  • ELEC 4709 - Integrated Sensors
  • ELEC 4906 - Special Topics
  • ELEC 4907 - Engineering Project
  • ELEC 4908 - Engineering Physics Project

  • SYSC 1100 - Introduction to OO Computing
  • SYSC 1101 - OO Software Development
  • SYSC 1102 - C++ Programming
  • SYSC 2001 - Computer Systems Foundations
  • SYSC 2002 - Data Structures and Algorithms
  • SYSC 2003 - Introductory Real-Time Systems
  • SYSC 2004 - OO Software Development
  • SYSC 2100 - Algorithms and Data Structures
  • SYSC 2101 - Software Development Project
  • SYSC 3001 - Operating Systems & Databases
  • SYSC 3006 - Computer Organization
  • SYSC 3100 - Systems Analysis and Design
  • SYSC 3101 - Programming Languages
  • SYSC 3200 - Industrial Engineering
  • SYSC 3303 - Real-Time Concurrent Systems
  • SYSC 3500 - Signals and Systems
  • SYSC 3501 - Communication Theory
  • SYSC 3503 - Communication Theory II
  • SYSC 3600 - Systems and Simulation
  • SYSC 3601 - Microprocessor Systems
  • SYSC 4001 - Operating Systems
  • SYSC 4005 - Discrete Simulation/Modeling
  • SYSC 4101 - Software Validation
  • SYSC 4102 - Performance Engineering
  • SYSC 4105 - Engineering Management
  • SYSC 4106 - Software Product Management
  • SYSC 4107 - Software Business
  • SYSC 4201 - Ethics, Research Methods and Standards for Biomedical Engineering
  • SYSC 4202 - Clinical Engineering
  • SYSC 4203 - Bioinstrumentation and Signals
  • SYSC 4205 - Image Processing for Medical Applications
  • SYSC 4405 - Digital Signal Processing
  • SYSC 4502 - Communications Software
  • SYSC 4504 - Distributed Network Processing
  • SYSC 4505 - Automatic Control Systems I
  • SYSC 4507 - Computer Systems Architecture
  • SYSC 4600 - Digital Communications
  • SYSC 4602 - Computer Communications
  • SYSC 4604 - Digital Communication Theory
  • SYSC 4607 - Wireless Communications
  • SYSC 4700 - Telecommunications Engineering
  • SYSC 4701 - Communications Systems Lab
  • SYSC 4800 - Software Engineering
  • SYSC 4805 - Computer Systems Design Lab
  • SYSC 4806 - Software Engineering Lab
  • SYSC 4906 - Special Topics
  • SYSC 4907 - Engineering Project
  • SYSC 4917 - Biomedical Engineering Project

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