Academic Catalog 2018–2019

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Bachelor of Engineering in Mechatronics Engineering

Overview

Mechatronics is a modern, multidisciplinary professional engineering area of study that combines several essential aspects from the fields of mechanical, electrical and computer engineering.

Every day, mechatronics engineers are involved in the research and development of state-of-the-art technologies in automation, control and robotic systems that are widely adopted in the fields of medicine, security, energy, construction, and economics, among others. Examples of the applications of mechatronics include driverless autonomous vehicles, medical robots, exoskeletons, artificial human limbs, and smart building management systems.

Graduates with a degree in mechatronics engineering work in several disciplines, including industrial automation and control, intelligent systems, robotics, manufacturing, product development, oil well drilling, home automation, smart transportation systems, Micro-Electromechanical System (MEMS) devices and smart grids, as well as other fields.

Mission

The B.E. in Mechatronics will provide students with a comprehensive, specialized, and contemporary education, preparing them for successful careers in the industry and graduate studies.

Program Educational Objectives

Within a few years of graduation, graduates of the B.E. in Mechatronics Engineering will:

  1. establish themselves as practicing mechatronics engineers or be engaged in advanced studies,
  2. conduct themselves as effective professionals, and
  3. demonstrate leadership and collaborate effectively with diverse team members.

Student Outcomes

Upon completion of the B.E. in Mechatronics Engineering, students will be able to:

1. apply knowledge of mathematics, science, and engineering to identify, formulate, and solve engineering problems,
2. apply both analysis and synthesis in engineering design processes, resulting in designs that meet constraints and specifications, which include societal, economic, environmental, and other factors as appropriate to the design,
3. develop and conduct appropriate experimentation and testing procedures, and analyze and draw conclusions from data,
4. communicate effectively with a range of audiences through various media,
5. demonstrate ethical principles in an engineering context,
6. recognize the ongoing need for additional knowledge and locate, evaluate, integrate, and apply this knowledge appropriately, and
7. establish goals, plan tasks, meet deadlines, manage risk and uncertainty, and function effectively on teams.

Admission Requirements

The application process is the same as for all undergraduate programs (see Admissions). Applicants will be evaluated by the School of Engineering Admissions Council and final acceptance will be based on each applicant’s qualifications and the availability of places. More details are found in the SOE Admissions Quick Guide.

Curriculum

The total number of credits required for graduation is 150 credits, including the following:

  • 4 Technical Elective courses for emphasis, depending on students’ interests and current market needs
  • 9 courses with a separate industry standard software laboratory or physical laboratory sessions to enhance the learning experience and improve employment opportunity
  • A minimum residency of four years, including three summer semesters

Requirements for graduation are grouped as follows:

  • Technical Electives (12 credits)
  • Mathematics and Science Core Courses (19 credits)
  • Other Engineering Required Courses (18 credits)
  • Mechatronics Engineering Required Courses (83 credits)
  • LAC Requirements (18 credits)

Technical Electives (12 credits)

MCE Technical Electives could be taken from any of the following courses:

MCE Elective Courses1

  • MCE510 Real Time Systems (3 cr.)
  • MCE520 Industrial Automation (3 cr.)
  • MCE522 Intelligent Building Management Systems (3 cr.)
  • MCE524 Building Automation Systems (3 cr.)
  • MCE530 Smart Materials (3 cr.)
  • MCE532 MEMS (3 cr.)
  • MCE540 Introduction to Biomechatronics (3 cr.)
  • MCE550 Robotics & Intelligent Systems (3 cr.)
  • MCE552 Computer Vision & Image Processing (3 cr.)

ELE Elective Courses

  • ELE411 Electromagnetic Fields (3 cr.)
  • ELE501 Microelectronics (3 cr.)
  • ELE526 Renewable Energy Sources (3 cr.)
  • ELE537 Communication Systems (3 cr.)
  • ELE548 Linear Systems (3 cr.)
  • ELE553 Reliability (3 cr.)
  • ELE557 Simulation of Electronics Circuits (3 cr.)

MEE Elective Courses

  • MEE403 Heat Transfer (3 cr.)
  • MEE442 Mechanical Vibrations (3 cr.)
  • MEE505 Solar Systems (3 cr.)
  • MEE515 Refrigeration & Air-Conditioning (3 cr.)
  • MEE543 Acoustics & Vibration Control (3 cr.)
  • MEE590 Energy Audit (3 cr.)
  • MEE599D Intro to Sustainable Energy (3 cr.)
  • MEE599E Advanced Powertrain (3 cr.)
  • MEE599H Passive Building Design (3 cr.)

COE Elective Courses

  • COE416 Software Engineering (3 cr.)
  • COE423 Computer Architecture (3 cr.)
  • COE424 Digital Systems (3 cr.)
  • COE527 VLSI Design (3 cr.)
  • COE543 Intelligent Data Processing & Applications (3 cr.)
  • COE544 Intelligent Engineering Algorithms (3 cr.)
  • or any other Technical Elective course approved by the department

1These are planned courses; actual delivery may vary.

Note that all Technical Electives require at least senior standing in addition to their relevant prerequisites.

Mathematics and Science Core Courses (19 credits)

  • GNE331 Probability & Statistics (3 cr.)
  • MTH201 Calculus III (3 cr.)
  • MTH206 Calculus IV (3 cr.)
  • MTH207 Discrete Structures I (3 cr.)
  • MTH304 Differential Equations (3 cr.)
  • PHY201 Electricity and Magnetism (4 cr.)

Other Engineering Required Courses (18 credits)

  • CIE200 Statics (3 cr.)
  • COE201 Computer Proficiency (1 cr.)
  • GNE301 Professional Communication (2 cr.)
  • GNE303 Engineering Ethics (2 cr.)
  • INE320 Engineering Economy (3 cr.)
  • INE428 Project Management (3 cr.)
  • MEE211 Engineering Graphics (1 cr.)
  • SOE Signature Course (3 cr.)

Mechatronics Engineering Required Courses (83 credits)

  • COE211 Computer Programming (4 cr.)
  • COE312 Data Structures (3 cr.)
  • COE313 Data Structures - Lab (1 cr.)
  • COE321 Logic Design (3 cr.)
  • COE322 Logic Design Lab (1 cr.)
  • COE323 Microprocessors (3 cr.)
  • COE324 Microprocessors Lab (1 cr.)
  • ELE201 Electrical Circuits I (3 cr.)
  • ELE302 Electrical Circuits II (3 cr.)
  • ELE303 Electrical Circuits II Lab (1 cr.)
  • ELE401 Electronics I (3 cr.)
  • ELE402 Electronics I Lab (1 cr.)
  • ELE430 Signals & Systems (3 cr.)
  • ELE442 Control Systems (3 cr.)
  • ELE443 Control Systems Lab (1 cr.)
  • MCE301 Electromechanics (3 cr.)
  • MCE410 Mechatronics Project I (3 cr.)
  • MCE411 Mechatronics System Design (3 cr.)
  • MCE498 Professional Experience (6 cr.)
  • MCE591 Capstone Design Project I (3 cr.)
  • MCE592 Capstone Design Project II (3 cr.)
  • MEE241 Dynamics (3 cr.)
  • MEE301 Thermodynamics (3 cr.)
  • MEE311 Fluid Mechanics (3 cr.)
  • MEE312 Fluid Mechanics Lab (1 cr.)
  • MEE320 Strength of Materials (3 cr.)
  • MEE321 Material Properties & Processes (3 cr.)
  • MEE341 Kinematics & Dynamics of Linkages (3 cr.)
  • MEE351 Computer Aided Design (3 cr.)
  • MEE391 Instrumentation and Measurements (3 cr.)
  • MEE422 Mechanical Engineering Design (3 cr.)

LAC Requirements (18 credits)

Core Courses (6 credits)

  • ENG202 Advanced Academic English (3 cr.)
  • COM203 Fundamentals of Oral Communication (3 cr.)

Elective Courses (12 credits)

  • One course in social sciences (3 cr.)
  • One course in philosophy, religion, or history (3 cr.)
  • One course in literature (3 cr.)
  • One course in arts (3 cr.)

Recommended Study Plan

Year One

Fall (17 credits)

  • MTH201 Calculus III (3 cr.)
  • MTH207 Discrete Structures I (3 cr.)
  • PHY201 Electricity and Magnetism (4 cr.)
  • CIE200 Statics (3 cr.)
  • COE201 Computer Proficiency (1 cr.)
  • ENG202 Advanced Academic English (3 cr.)

Spring (17 credits)

  • MTH206 Calculus IV (3 cr.)
  • MEE211 Engineering Graphics (1 cr.)
  • MEE241 Dynamics (3 cr.)
  • ELE201 Electrical Circuits I (3 cr.)
  • COE211 Computer Programming (4 cr.)
  • MTH304 Differential Equations (3 cr.)

Summer (9 credits)

  • LAC Elective (3 cr.)
  • GNE331 Probability & Statistics (3 cr.)
  • LAC Elective (3 cr.)

Year Two

Fall (16 credits)

  • ELE302 Electrical Circuits II (3 cr.)
  • ELE303 Electrical Circuits II Lab (1 cr.)
  • MEE321 Material Properties & Processes (3 cr.)
  • COE312 Data Structures (3 cr.)
  • COE321 Logic Design (3 cr.)
  • COE322 Logic Design Lab (1 cr.)
  • GNE301 Professional Communication (2 cr.)

Spring (17 credits)

  • ELE401 Electronics I (3 cr.)
  • ELE402 Electronics I - Lab (1 cr.)
  • COE313 Data Structures - Lab (1 cr.)
  • COE323 Microprocessors (3 cr.)
  • MEE320 Strength of Materials (3 cr.)
  • MEE391 Instrumentation and Measurements (3 cr.)
  • MCE301 Electromechanics (3 cr.)

Summer (6 credits)

  • COM203 Fundamentals of Oral Communication (3 cr.)
  • LAC Elective (3 cr.)

Year Three

Fall (16 credits)

  • MEE301 Thermodynamics (3 cr.)
  • MEE311 Fluid Mechanics (3 cr.)
  • MEE312 Fluid Mechanics - Lab (1 cr.)
  • MEE351 Computer Aided Design (3 cr.)
  • GNE303 Engineering Ethics (2 cr.)
  • COE324 Microprocessors - Lab (1 cr.)
  • MCE410 Mechatronics Project I (3 cr.)

Spring (15 credits)

  • MEE341 Kinematics & Dynamics of Linkages (3 cr.)
  • ELE430 Signals & Systems (3 cr.)
  • MCE411 Mechatronics System Design (3 cr.)
  • MCExxx Technical Elective (3 cr.)
  • SOE Signature Course (3 cr.)

Summer (6 credits)

  • MCE498 Professional Experience (6 cr.)

Year Four

Fall (16 credits)

  • ELE442 Control Systems (3 cr.)
  • ELE443 Control Systems – Lab (1 cr.)
  • MCE591 Capstone Design Project I (3 cr.)
  • MCExxx Technical Elective (3 cr.)
  • MCExxx Technical Elective (3 cr.)
  • INE320 Engineering Economy (3 cr.)

Spring (15 credits)

  • INE428 Project Management (3 cr.)
  • MEE422 Mechanical Engineering Design (3 cr.)
  • MCE592 Capstone Design Project II (3 cr.)
  • MCExxx Technical Elective (3 cr.)
  • LAC Elective (3 cr.)