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Diploma

Robotics and Industrial Automation Graduate Certificate

Conestoga College
Cambridge , Canada
Easy Apply
Students
Tuition Fee
CAD 20,585
Per course
Start Date
2025-05-01
Medium of studying
On campus
Duration
24 months
Program Facts
About Program
About University
Admission Requirements
Ambassadors
Easy Apply
Program Facts
Program Details
Degree
Diploma
Major
Robotics Engineering | Industrial Engineering | Electronics and Automation
Area of study
Engineering
Education type
On campus
Timing
Full time
Course Language
English
Tuition Fee
Average International Tuition Fee
CAD 20,585
Intakes
Program start dateApplication deadline
2025-01-01-
2025-05-01-
2026-01-01-
2026-05-01-
About Program

Program Overview

Conestoga College's Robotics and Industrial Automation Graduate Certificate Program equips graduates with the knowledge and skills to control robotic and automated equipment. The program combines theoretical knowledge with hands-on experience in advanced robotics, automation, and process control systems. Graduates are prepared for careers in robotics, automation, and related fields, with a focus on emerging technologies and industry-standard software. The program offers a flexible learning environment and opportunities for industry experience through a co-op stream.

Program Outline

Robotics and Industrial Automation Graduate Certificate Program at Conestoga College

Degree Overview:

Overview:

This full-time graduate certificate program prepares graduates who hold previous technical degrees or diplomas for careers in robotics, automation, and other related fields.

Program Objectives:

  • Equip graduates with the theoretical knowledge and applied skills needed to control robotic and automated equipment using various technologies.
  • Provide hands-on experience in advanced robotics, automation, and process control systems.
  • Cultivate critical thinking, problem-solving, and design skills for innovative solutions in industrial automation.
  • Prepare graduates for successful employment in diverse industries utilizing their technical expertise and advanced understanding of automation principles.

Program Description:

  • Combines theoretical knowledge and practical application of robotics and automation principles.
  • Focuses on diverse areas such as mechatronic applications, industrial automation, additive manufacturing, 3D CAD, and smart systems.
  • Provides students with opportunities to design, build, and operate robotic systems using industry-standard tools and technologies.
  • Culminates in a final-term industrial automation project where students apply their acquired knowledge to solve real-world problems.

Optional Co-op Stream:

  • Offers the opportunity to gain valuable industry experience through a work term (co-op) in place of a traditional course.
  • Provides students with hands-on experience in real-world industrial settings, enhancing their employability and career prospects.

Outline:

Program Duration:

2 Years (4 semesters)

Delivery Format:

Full-Time

Start Date:

January 2025

Campus:

Cambridge – Fountain Street

Credential:

Ontario College Graduate Certificate

Course Schedule:

Semester 1 (Winter 2025):

  • Advanced Robotics
  • Automation and Process Control
  • Industrial Electronics
  • Mechatronics Systems
  • Introduction to Industrial Automation

Semester 2 (Spring 2025):

  • Robotics Applications
  • Industrial Networks and Communication
  • Machine Learning for Robotics
  • 3D Printing and Additive Manufacturing
  • Introduction to Artificial Intelligence

Semester 3 (Winter 2026):

  • Vision Systems and Sensors
  • Industrial Design and Manufacturing
  • PLC Programming and Applications
  • Advanced Automation Systems
  • Human-Robot Interaction

Semester 4 (Spring 2026):

  • Industrial Automation Project
  • Capstone Course (Co-op Stream)
  • Guided Career Management (Non-co-op Stream)
  • Elective Courses (Optional)

Modules:

  • Each semester comprises several modules that delve into specific topics related to the overall program objectives.
  • Modules may include lectures, tutorials, labs, guest speaker sessions, and industry visits to provide a comprehensive learning experience.

Assessment:

Assessment methods:

  • A variety of assessment methods will be employed throughout the program, including:
  • Assignments
  • Projects
  • Quizzes
  • Exams
  • Presentations
  • Case studies

Assessment criteria:

  • Assessments will evaluate students' knowledge, skills, and understanding of the course material and their ability to apply that knowledge within real-world scenarios.
  • Specific assessment criteria are not provided in the context; however, it is likely to include aspects such as technical accuracy, critical analysis, problem-solving skills, and communication ability.

Teaching:

Teaching methods:

  • The program will employ a variety of teaching methods to cater to diverse learning styles and ensure effective knowledge delivery.
    • These methods may include:
  • Interactive lectures
  • Hands-on labs
  • Group projects and presentations
  • Case study analysis
  • Online learning resources
  • Guest lectures from industry experts

Faculty:

  • The program is presented by experienced and qualified faculty with expertise in robotics, automation, and related fields.
  • Faculty members possess a strong blend of academic knowledge and industry experience, ensuring that students receive current and relevant information.

Unique approaches:

  • The program emphasizes a hands-on learning approach with extensive lab sessions and opportunities to apply theoretical concepts in practical settings.
  • It incorporates industry-standard software and technologies, providing students with the skills and experience required to be successful in the modern automation industry.
  • The program offers a flexible learning environment, allowing students to tailor their studies to their individual career goals through the selection of elective courses.

Careers:

Potential Career Paths:

  • Robotics Engineer
  • Automation Engineer
  • Mechatronics Engineer
  • Process Control Engineer
  • Industrial Technician
  • Manufacturing Manager
  • Project Manager
  • Research and Development Specialist

Career Opportunities:

  • Graduates of the program are equipped with the knowledge and skills to pursue careers in a wide range of industries, including:
  • Manufacturing
  • Automotive
  • Aerospace
  • Electronics
  • Healthcare
  • Energy
  • Food and beverage

Career Outcomes:

  • Graduates have successfully secured employment in various roles across different industries.
  • Some examples of previous graduates' employers include Toyota, Magna International, Linamar Corporation, General Motors, and Schneider Electric.
  • The program boasts a strong employment rate, with many graduates securing jobs before completing the program.

Other:

  • The program is designed to prepare students for professional engineering licensure through the Professional Engineers Ontario (PEO).
  • Students have access to various resources, including the Career and Employment Centre, which offers guidance and support for career planning and job search strategies.
    • The specific details of the program, including course content, assessment methods, and faculty, may be subject to change.
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