Has discount
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Made in
English
Last updated at
Fri, 03-Apr-2026
Level
Beginner
Total lessons
5
Total duration
00:04:22 Hours
Number of reviews
0
Total enrolment
0
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Short description
Foundations of Industrial Automation: A Comprehensive Introduction is a course designed to provide a solid understanding of the fundamental principles and concepts of industrial automation. This course covers topics such as sensors, actuators, control systems, and programming languages commonly used in industrial automation. Students will learn how to design, implement, and troubleshoot automated systems in various industrial settings. By the end of the course, students will have the knowledge and skills necessary to excel in the field of industrial automation.
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Requirements
- Course Requirements for Foundations of Industrial Automation: A Comprehensive IntroductionCourse Title: Foundations of Industrial Automation: A Comprehensive IntroductionCourse Description:This course provides an in-depth exploration of the fundamental concepts and principles of industrial automation. Students will learn about the history, evolution, and applications of automation in various industries. The course will cover topics such as sensors and actuators, programmable logic controllers (PLCs), human-machine interfaces (HMIs), industrial communication protocols, and automation system integration.Course Objectives:1. Understand the basic principles and components of industrial automation systems.2. Identify different types of sensors and actuators used in industrial automation.3. Learn how to program and troubleshoot programmable logic controllers (PLCs).4. Explore the role of human-machine interfaces (HMIs) in industrial automation.5. Understand the importance of industrial communication protocols in automation systems.6. Gain hands-on experience in designing and integrating automation systems.Course Requirements:1. Attendance: Regular attendance is required for all lectures, labs, and workshops.2. Participation: Active participation in class discussions, group activities, and hands-on exercises.3. Assignments: Completion of assigned readings, homework, and projects on time.4. Exams: Successful completion of quizzes, mid-term exams, and a final exam.5. Lab Work: Participation in laboratory sessions to gain practical experience with automation equipment and software.6. Projects: Completion of individual or group projects demonstrating understanding of key concepts and skills learned in the course.7. Final Presentation: Delivery of a final presentation showcasing a comprehensive understanding of industrial automation concepts.Prerequisites:- Basic knowledge of electrical circuits and systems.- Familiarity with programming concepts.- Understanding of industrial processes and systems.Assessment:- Attendance and Participation: 10%- Assignments and Homework: 20%- Quizzes and Mid-term Exams: 30%- Lab Work and Projects: 30%- Final Exam and Presentation: 10%Note: The course requirements and assessment criteria are subject to change at the discretion of the instructor. Students are advised to review the course syllabus for detailed information on course content, schedule, and grading criteria.
Outcomes
- Course Outcomes for Foundations of Industrial Automation: A Comprehensive Introduction:1. Understand the fundamental concepts and principles of industrial automation, including sensors, actuators, controllers, and communication systems.2. Analyze and interpret industrial automation systems and their components to optimize performance and efficiency in manufacturing processes.3. Apply knowledge of programming languages and software tools commonly used in industrial automation, such as PLCs (Programmable Logic Controllers) and SCADA (Supervisory Control and Data Acquisition) systems.4. Demonstrate proficiency in designing and implementing automation solutions for various industrial applications, considering safety, reliability, and cost-effectiveness.5. Evaluate the impact of emerging technologies, such as IoT (Internet of Things) and AI (Artificial Intelligence), on industrial automation practices and trends.6. Collaborate effectively with multidisciplinary teams to solve complex automation challenges and enhance productivity in industrial settings.7. Communicate technical information related to industrial automation concepts and projects clearly and professionally, both orally and in writing.8. Critically assess ethical and societal implications of automation technologies in the workplace and broader society, and propose strategies for responsible implementation and management.By the end of this course, students will have a solid foundation in industrial automation principles and practices, enabling them to contribute effectively to the design, implementation, and management of automated systems in various industries.
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