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Novel Cyber Physical Systems : Raspberry Pi, Arduino & Ai

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Published 7/2024
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.21 GB | Duration: 3h 9m

Build Novel Cyber Physical Systems & See The High level Picture of the Feasibility & Commercialization of CPS

What you’ll learn
Fundamental concepts and principles of building novel cyber physical systems using Raspberry Pi, Arduino, and AI.
Techniques for modeling cyber physical systems, including the use of finite state machines, algorithms, and computational models.
Practical applications across various domains such as computer vision, language models, smart homes, cities, infrastructure, and agriculture.
The essentials of systems engineering as applied to cyber physical systems, emphasizing integration and optimization.
Hands-on experience with processors, microchips, sensors, actuators, and communication protocols crucial for CPS development.
Insight into cybersecurity considerations and leveraging cloud technology in CPS implementations.

Requirements
Knowledge in building cyber physical systems using Raspberry Pi and Arduino platforms integrated with AI.
Skills in modeling CPS components and interfaces, critical for designing comprehensive CPS architectures.

Description
Embark on a journey into the realm of Novel Cyber Physical Systems (CPS) with our comprehensive course designed for students, engineers, and entrepreneurs eager to innovate using Raspberry Pi, Arduino, and AI technologies. This course serves as a gateway to mastering the integration of hardware, software, and artificial intelligence in creating cutting-edge CPS applications. Through a blend of theoretical foundations and practical hands-on projects, participants will delve into the intricacies of modeling, engineering, and deploying CPS across diverse domains.Beginning with an exploration of fundamental components such as processors, microchips, sensors, and actuators, learners will grasp the foundational elements essential for CPS development. They will gain proficiency in leveraging Raspberry Pi and Arduino platforms, learning to integrate AI for enhanced functionality and autonomy. The course progresses to cover advanced topics including modeling CPS using finite state machines, algorithms, and computational models, equipping students with the tools to architect robust CPS solutions.Practical application forms a core component of the curriculum, with deep dives into CPS deployments in computer vision, smart homes, cities, infrastructure, agriculture, and more. Students will not only understand the theoretical underpinnings but also apply their knowledge through hands-on projects that simulate real-world scenarios. Additionally, cybersecurity considerations and the role of cloud technology in CPS are explored, ensuring participants are equipped to design secure and scalable systems.By the end of this course, participants will emerge with a comprehensive skill set in building, modeling, and deploying novel CPS using Raspberry Pi, Arduino, and AI technologies. Whether aiming to innovate within industries like healthcare, robotics, automotive, or beyond, graduates will be primed to tackle complex challenges and drive technological advancements in the field of cyber physical systems.Chapter 1: Introduction to Building Novel Cyber Physical Systems– Main ComponentsSection 1.2: Introduction to Processors & MicrochipsSection 1.3: Sensors & ActuatorsSection 1.4: CommunicationSection 1.5: Cyber Security & Cloud TechnologySection 1.6: Introduction to ARM Processors & ProjectsSection 1.7: Consumer Electronics & Industrial ApplicationsSection 1.8: Cyber Physical Systems in the CitySection 1.9: CPS Applications for Mechatronics, Healthcare, EV & RoboticsSection 1.10: CPS Applications in the Automotive & Healthcare SectorsSection 1.11: CPS Applications in RoboticsChapter 2: Modelling Cyber Physical SystemsSection 2.1: Modelling Cyber Physical SystemsSection 2.2: Modelling Interfaces for Cyber-Physical System: Conversion, Networks & Complete CPS ModelSection 2.3: Modelling Cyber Components: Finite State Machines, Computations, Algorithms and a First CPS ModelChapter 3: Practical Applications in Cyber Physical SystemsSection 3.1: Feasibility in Cyber Physical SystemsSection 3.2: Five CPS Applications in Computer VisionSection 3.3: Five CPS Applications in Large Language ModelsSection 3.4: Five CPS Applications in Smart Homes & CitiesSection 3.5: Five CPS Applications in Smart InfrastructureSection 3.6: Five CPS Applications in Smart Agriculture

Overview
Section 1: Introduction to Building Novel Cyber Physical Systems

Lecture 1 Introduction

Lecture 2 Chapter 1 Introduction

Lecture 3 Chapter 1 – Introduction | Slides

Lecture 4 Introduction to the Lecturer | Legend Feras Naser

Lecture 5 Introduction to Building Novel Cyber Physical Systems – Slides

Lecture 6 Introduction to Building Novel Cyber Physical Systems – Slides | Part 2

Lecture 7 Introduction to Processors & Microchips

Lecture 8 Introduction to Processors & Microchips – Slides – Part 1

Lecture 9 Introduction to Processors & Microchips – Slides – Part 2

Lecture 10 Introduction to Processors & Microchips – Slides – Part 3

Lecture 11 Introduction to Processors & Microchips – Slides – Part 4

Lecture 12 Sensors & Actuators

Lecture 13 Sensors & Actuators – Slides

Lecture 14 Communication

Lecture 15 Communication – Slides

Lecture 16 Cyber Security & Cloud Technology

Lecture 17 Cyber Security & Cloud Technology – Slides

Lecture 18 Introduction to ARM Processors & Projects

Lecture 19 Introduction to ARM Processors & Projects – Slides 1

Lecture 20 Consumer Electronics & Industrial Applications

Lecture 21 Consumer Electronics & Washing Machines – Slides

Lecture 22 Cyber Physical Systems in the City

Lecture 23 Cyber Physical Systems in the City – Slides

Lecture 24 Cyber Physical Systems in the City – Slides – Part 2

Lecture 25 Cyber Physical Systems in the City – Slides – Part 3

Lecture 26 CPS Applications for Mechatronics & The Automotive Sector

Lecture 27 CPS Applications in Vehicle Technology

Lecture 28 CPS Applications for Mechatronics & The Automotive Sector – Slides – Part 1

Lecture 29 CPS Applications for Mechatronics & The Automotive Sector – Slides – Part 2

Lecture 30 CPS Applications for Mechatronics & The Automotive Sector – Slides – Part 3

Lecture 31 CPS Applications for Mechatronics & The Automotive Sector – Slides – Part 4

Lecture 32 CPS Applications in Robotics

Lecture 33 CPS Applications in Robotics – Slides – Part 1

Section 2: Modelling Cyber Physical Systems

Lecture 34 Introduction to Section 2

Lecture 35 Introduction to Chapter 2 – Slides

Lecture 36 Modelling Cyber Physical Systems | Cyber & Physical – Slides

Section 3: Practical Applications in Cyber Physical Systems

Lecture 37 Introduction to Chapter 3

Lecture 38 Introduction to Chapter 3 – Slides

Lecture 39 Feasibility in Cyber Physical Systems – Slides 1

Lecture 40 Feasibility in Cyber Physical Systems – Slides 2

Lecture 41 Five CPS Applications in Computer Vision – Slides – Part 1

Lecture 42 Five CPS Applications in Large Language Models – Slides

Lecture 43 Five CPS Applications in Smart Homes & Cities

Lecture 44 Five CPS Applications in Smart Homes & Cities – Slides

Lecture 45 Five CPS Applications in Smart Infrastructure

Lecture 46 Five CPS Applications in Smart Infrastructure – Slides

Lecture 47 Five CPS Applications in Smart Agriculture

Lecture 48 Five CPS Applications in Smart Agriculture – Slides

Lecture 49 Concluding Remarks

University Students in Engineering Fields,Professionals in Cyber Physical Systems Innovations,Entrepreneurs & Innovators,Professional who work in Railways, Aerospace, Space & Defense Industries,Professionals with interest in Systems Engineering & Systems Integration


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