CPS solution for Industries from Coursera

This course is meant for Mechanical, Manufacturing, and Mechatronics students, as well as aspiring Engineers and technologist. You will go on an exploration and hands-on learning adventure, gaining valuable insights and practical skills in innovative technology.

In our first module, "Demystifying Cyber-Physical Systems," you will lay a solid foundation by looking into several facets of CPS. This subject is designed to offer you with a comprehensive grasp of the interdisciplinary nature of CPS, ranging from embedded processors to wireless communication, cybersecurity, and cloud-edge computing.

Continuing to our second module, "Demo on Design and Development of CPS Components in Industrial Sensors and Control using Embedded C - Part 1," you will be immersed in the fascinating world of industrial sensors and controls. With hands-on experience with the STM32F103F ARM Cortex processor and STM Cube IDE, you'll learn how to interface sensors such as OLED, Humidity & Temperature Sensor, Ultrasonic Distance Sensor, and Hall Effect Sensor with the ARM Cortex processor, gaining valuable skills for implementing CPS components in industrial sensor applications.

Our learning journey proceeds with our third session, "Demo on Design and Development of CPS Components in Industrial Sensors and Control Using Embedded C - Part 2." In this section, you will go deeper into practical applications, learning how to interface sound, current, voltage, soil moisture, tilt, and touch sensors with an ARM Cortex processor. Through hands-on demonstrations and Embedded C programming, you will gain a better grasp of sensor integration and control techniques for industrial CPS applications.

Transitioning to our fourth module, you will explore the "Design and Development of a 5-Degree Freedom Robotic Arm for Industrial Automation within the context of CPS." This module covers fundamental aspects of 5-DOF, including pneumatic and hydraulic systems, control of solenoid valves through microcontrollers, and the Hartenberg Principle. Hands-on experiences with Arduino Nano, servo motors, and Simulink simulation will further enhance your skills in robotic arm assembly and testing.

By the end of this course, you will emerge equipped with in-demand skills in CPS, industrial automation, and sensor integration, ready to tackle real-world challenges in the exciting field of digital manufacturing and Industry 4.0.

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Syllabus

Demystifying Cyber Physical Systems (CPS)

This module aims to provide a comprehensive understanding of Cyber-Physical Systems (CPS) by exploring its various facets. From the foundational components of embedded processors and memory systems to advanced topics such as wireless communication, cybersecurity, and cloud-edge computing, participants will gain insights into the interdisciplinary nature of CPS. Through a blend of theoretical concepts and practical applications, this module aims to demystify the complexities of CPS, enabling participants to navigate the evolving landscape of smart systems.

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Examines Cybersecurity and cloud-edge computing in detail

Offers multi-modal learning experience

Useful for navigating smart systems

Develops core skills for digital manufacturing and Industry 4.0

Course should be taken in sequence

Requires prerequisite knowledge or experience

Reviews summary

Hands-on cps for industry automation

According to learners, 'CPS solution for Industries' is praised for its strong practical foundation in Cyber-Physical Systems. Students particularly benefit from the extensive hands-on experience provided, covering industrial sensors and control using Embedded C programming with the STM32F103F ARM Cortex processor. The course is highlighted for its deep dive into 5-Degree Freedom Robotic Arm design and integration for industrial automation, equipping participants with critical skills for navigating Industry 4.0. Its structured approach from demystifying CPS concepts to practical demonstrations makes it a valuable resource for aspiring engineers and technologists.

Offers in-depth exposure to industry-standard tools and processors.

"Working hands-on with the STM32F103F ARM Cortex processor and STM Cube IDE was a significant advantage."

"I appreciated the practical use of Arduino Nano for robotic arm control and Simulink for system simulations."

"The specific examples using various industrial sensors provided very practical insights into real hardware integration."

Establishes a solid foundation in Cyber-Physical Systems principles.

"The 'Demystifying Cyber-Physical Systems' module provided a clear and comprehensive understanding of core concepts like cloud-edge computing and cybersecurity."

"I now have a comprehensive grasp of the interdisciplinary nature of CPS, from embedded systems to wireless communication."

"The initial theoretical concepts were well-integrated with practical examples, making complex ideas much clearer."

Focuses on in-demand skills for industrial automation and Industry 4.0.

"The course material is highly relevant to current industry trends in industrial automation and manufacturing."

"Learning about controlling solenoid valves and pneumatic systems directly applies to real-world industrial settings and job requirements."

"This course truly equips you with skills directly applicable to digital manufacturing and tackling Industry 4.0 challenges."

Provides valuable hands-on experience in industrial applications.

"I found the practical demonstrations on sensor interfacing incredibly useful and well-explained."

"The hands-on work with the STM32F103F and Embedded C was key to my understanding and skill development."

"Assembling and testing the 5-DOF robotic arm was a truly immersive and highly valuable learning experience for me."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in CPS solution for Industries with these activities:

Review Embedded C Programming

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Brush up on Embedded C programming skills, essential for developing CPS components in the course.

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Revise basic C syntax and data structures
Practice using pointers and bitwise operators

Compile Resources on Industrial Sensors for Cyber-Physical Systems

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Build your knowledge base by compiling a collection of resources on industrial sensors used in Cyber-Physical Systems.

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Search for articles, tutorials, and technical documentation on sensors
Organize the resources into categories based on sensor types and applications
Create a document or online repository to share the compiled resources

Follow Arduino Tutorials for Sensor Interfacing

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Enhance your understanding of sensor interfacing by following guided tutorials using the Arduino platform.

Browse courses on Sensor Interfacing

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Find tutorials on interfacing sensors like temperature, humidity, and distance
Follow the tutorials step-by-step, building circuits and writing code
Troubleshoot any issues encountered during the process

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Attend a Workshop on Wireless Communication for CPS

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Expand your knowledge in wireless communication technologies used in Cyber-Physical Systems by attending a dedicated workshop.

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Research and identify relevant workshops in your area or online
Register for the workshop and prepare any necessary materials
Actively participate in the workshop, taking notes and asking questions

Build and Test a 5-Degree Freedom Robotic Arm

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Apply your knowledge and skills by building and testing a 5-DOF robotic arm, integrating mechanical, electrical, and control systems.

Browse courses on Industrial Automation

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Gather necessary materials, including hardware, sensors, and microcontrollers
Assemble the robotic arm, following mechanical design specifications
Configure and program the microcontrollers for control
Test the robotic arm's functionality and precision

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Learners who complete CPS solution for Industries will develop knowledge and skills that may be useful to these careers:

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CPS solution for Industries

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What's inside

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Hands-on cps for industry automation

Activities

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