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Design of CPS with ARM processor using Embedded C

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Design of CPS with ARM processor using Embedded C

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1 week to complete
at 10 hours a week
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Gain insight into a topic and learn the fundamentals.
Intermediate level

Recommended experience

1 week to complete
at 10 hours a week
Flexible schedule
Learn at your own pace

Build your subject-matter expertise

This course is part of the VLSI chip design with CPS for Industrial Applications Specialization
When you enroll in this course, you'll also be enrolled in this Specialization.
  • Learn new concepts from industry experts
  • Gain a foundational understanding of a subject or tool
  • Develop job-relevant skills with hands-on projects
  • Earn a shareable career certificate

There are 4 modules in this course

This comprehensive course is designed to equip participants with the knowledge and practical skills required to design and implement Cyber-Physical Systems (CPS) tailored for industrial applications. From foundational concepts to hands-on development using Embedded C programming on ARM processors, participants will explore the interdisciplinary nature of CPS, demystify its complexities, and gain the expertise needed to navigate the evolving landscape of smart systems.

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.

What's included

16 videos2 readings1 assignment

16 videosβ€’Total 122 minutes
  • About the Specializationβ€’5 minutes
  • About the Courseβ€’5 minutes
  • Cyber Physical Systems - Faces of Engineeringβ€’9 minutes
  • Evolution of Processorsβ€’10 minutes
  • Making Processor Chips from Sandβ€’7 minutes
  • Structural Units in Embedded Processorβ€’6 minutes
  • Embedded Memory Systemsβ€’8 minutes
  • Sensors and Actuators -Part 1β€’7 minutes
  • Sensors and Actuators -Part 2β€’8 minutes
  • Serial Communication in CPSβ€’5 minutes
  • Serial Communication Protocol in CPSβ€’9 minutes
  • Wireless Communication in CPSβ€’10 minutes
  • Cyber Security in CPS-Part 1β€’8 minutes
  • Cyber Security in CPS-Part 2β€’10 minutes
  • Cloud-Edge Computing Framework for CPS-Part1 β€’7 minutes
  • Cloud-Edge Computing Framework for CPS-Part 2β€’7 minutes
2 readingsβ€’Total 20 minutes
  • Specialization Readingβ€’10 minutes
  • Course Readingβ€’10 minutes
1 assignmentβ€’Total 30 minutes
  • Assessment for Demystifying Cyber Physical Systems (CPS)β€’30 minutes

This module provides a hands-on approach to the design and development of Cyber-Physical Systems (CPS) components in industrial applications using Embedded C programming. Participants will delve into the intricacies of Advanced RISC Machines (ARM) architectures, with a specific focus on the STM32F4XX Microcontroller. The module covers practical aspects such as getting started with the IAR Embedded Workbench, interfacing ARM Cortex Processors with various peripherals, and developing drivers for essential components like UART, ADC, LCD, Matrix Key, Buzzer, Relay, and STEPPER Motor. Through a series of demonstrations, participants will gain practical insights into implementing CPS components for real-world industrial applications.

What's included

25 videos1 assignment

25 videosβ€’Total 197 minutes
  • Introduction to Advanced RISC Machines (ARM) Architectures-Part 1β€’7 minutes
  • Introduction to Advanced RISC Machines (ARM) Architectures-Part 2β€’10 minutes
  • Introduction to Advanced RISC Machines (ARM) Architectures -Part 3β€’7 minutes
  • STM32F4XX Microcontroller-Part 1β€’6 minutes
  • STM32F4XX Microcontroller-Part 2β€’14 minutes
  • Getting started with IAR Embedded Workbench-Part 1β€’9 minutes
  • Getting started with IAR Embedded Workbench-Part 2β€’9 minutes
  • Getting started with IAR Embedded Workbench-Part 3β€’4 minutes
  • Interfacing ARM Cortex Processor with Relay using Embedded C-Part1β€’8 minutes
  • Interfacing ARM Cortex Processor with Relay using Embedded C-Part2β€’9 minutes
  • Interfacing ARM Cortex Processor with Buzzer using Embedded C-Part1β€’7 minutes
  • Interfacing ARM Cortex Processor with Buzzer using Embedded C-Part2β€’9 minutes
  • Development of UART Driver for ARM Cortex Processor-Part1β€’6 minutes
  • Development of UART Driver for ARM Cortex Processor-Part2β€’7 minutes
  • Development of UART Driver for ARM Cortex Processor-Part3β€’7 minutes
  • Interfacing ARM Cortex Processor with ADC and UART using Embedded C-Part 1β€’8 minutes
  • Interfacing ARM Cortex Processor with ADC and UART using Embedded C-Part 2β€’11 minutes
  • Interfacing ARM Cortex Processor with ADC and UART using Embedded C-Part 3β€’9 minutes
  • Interfacing ARM Cortex Processor with 16x2 LCD using Embedded C-Part 1β€’7 minutes
  • Interfacing ARM Cortex Processor with 16x2 LCD using Embedded C -Part 2β€’7 minutes
  • Interfacing ARM Cortex Processor with 16x2 LCD using Embedded C -Part 3β€’7 minutes
  • Interfacing ARM Cortex Processor with Matrix Key and Led using Embedded C-Part 1β€’6 minutes
  • Interfacing ARM Cortex Processor with Matrix Key and Led using Embedded C-Part 2β€’8 minutes
  • Interfacing ARM Cortex Processor with STEPPER Motor using Embedded C-Part 1 β€’6 minutes
  • Interfacing ARM Cortex Processor with STEPPER Motor using Embedded C-Part 2 β€’8 minutes
1 assignmentβ€’Total 30 minutes
  • Assessment for Demo on Design and Development of CPS Components in Industrial Applications using Embedded Cβ€’30 minutes

This module offers a hands-on exploration of the design and development of Cyber-Physical Systems (CPS) components for industrial sensors and control, focusing on practical applications using Embedded C programming. Participants will delve into the architecture of the STM32F103F, an ARM Cortex processor, and gain practical insights by working with the STM Cube IDE. The module includes demonstrations on interfacing sensors such as OLED, Humidity & Temperature Sensor, Ultrasonic Distance Sensor, and Hall effect sensor with the ARM Cortex processor. Participants will acquire skills to implement real-world CPS components for industrial sensor applications.

What's included

14 videos1 assignment

14 videosβ€’Total 103 minutes
  • Introduction STM32F103F Architecture ARM Cortex-Part 1 β€’6 minutes
  • Introduction STM32F103F Architecture ARM Cortex-Part 2 β€’6 minutes
  • Getting Started with STM Cube IDE with on board LED Blinking-Part 1 β€’4 minutes
  • Getting Started with STM Cube IDE with on board LED Blinking-Part 2 β€’9 minutes
  • OLED Interface With ARM Cortex Processor Using Embedded C-Part 1β€’6 minutes
  • OLED Interface With ARM Cortex Processor Using Embedded C-Part 2β€’13 minutes
  • Interfacing Humidity & Temperature Sensor with ARM Cortex 3 Processor-Part 1β€’7 minutes
  • Interfacing Humidity & Temperature Sensor with ARM Cortex 3 Processor-Part 2β€’6 minutes
  • Interfacing Humidity & Temperature Sensor with ARM Cortex 3 Processor-Part 3β€’8 minutes
  • Interfacing Ultrasonic Distance Sensor with ARM Cortex Processor using Embedded C-Part 1β€’7 minutes
  • Interfacing Ultrasonic Distance Sensor with ARM Cortex Processor using Embedded C-Part 2β€’7 minutes
  • Interfacing Ultrasonic Distance Sensor with ARM Cortex Processor using Embedded C-Part 3β€’7 minutes
  • Interfacing Hall effect sensor with ARM Cortex Processor using Embedded C-Part 1β€’7 minutes
  • Interfacing Hall effect sensor with ARM Cortex Processor using Embedded C-Part 2β€’7 minutes
1 assignmentβ€’Total 30 minutes
  • Assessment for Demo on Design and Development of CPS Components in Industrial Sensors and Control using Embedded C-Iβ€’30 minutes

Building on the foundations laid in the first part of the module, "Demo on Design and Development of CPS Components in Industrial Sensors and Control using Embedded C," this second part continues the exploration of practical applications in industrial sensors and control. Participants will engage in hands-on demonstrations and learn how to interface various sensors β€” Sound, Current, Voltage, Soil Moisture, Tilt, and Touch β€” with an ARM Cortex processor. Through these practical sessions using Embedded C programming, participants will deepen their understanding of sensor integration and control mechanisms in Cyber-Physical Systems (CPS) for industrial applications.

What's included

15 videos1 assignment

15 videosβ€’Total 110 minutes
  • Interfacing Sound Sensor with ARM Cortex Processor using Embedded C-Part 1β€’7 minutes
  • Interfacing Sound Sensor with ARM Cortex Processor using Embedded C-Part 2β€’7 minutes
  • Interfacing Current Sensor with ARM Cortex Processor using Embedded C-Part 1β€’10 minutes
  • Interfacing Current Sensor with ARM Cortex Processor using Embedded C-Part 2β€’7 minutes
  • Interfacing Current Sensor with ARM Cortex Processor using Embedded C-Part 3β€’7 minutes
  • Interfacing Voltage Sensor with ARM Cortex Processor using Embedded C-Part 1β€’8 minutes
  • Interfacing Voltage Sensor with ARM Cortex Processor using Embedded C-Part 2β€’7 minutes
  • Interfacing Voltage Sensor with ARM Cortex Processor using Embedded C-Part 3β€’7 minutes
  • Interfacing Soil Moisture Sensor with ARM Cortex Processor using Embedded C-Part 1β€’9 minutes
  • Interfacing Soil Moisture Sensor with ARM Cortex Processor using Embedded C-Part 2β€’9 minutes
  • Interfacing Soil Moisture Sensor with ARM Cortex Processor using Embedded C-Part 3β€’6 minutes
  • Interfacing Tilt Sensor with ARM Cortex Processor using Embedded C-Part 1β€’6 minutes
  • Interfacing Tilt Sensor with ARM Cortex Processor using Embedded C-Part 2β€’6 minutes
  • Interfacing Touch Sensor with ARM Cortex Processor Using Embedded C-Part 1β€’7 minutes
  • Interfacing Touch Sensor with ARM Cortex Processor Using Embedded C-Part 2β€’7 minutes
1 assignmentβ€’Total 30 minutes
  • Assessment for Demo on Design and Development of CPS Components in Industrial Sensors and Control using Embedded C-IIβ€’30 minutes

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