Use Raspberry Pi and Windows 10 to build a home automation system that can operate home devices automatically.
Today, technology is enhancing human life. Technology is evolving in a very fast manner. Automation was an idea and a dream but not today. By combining the latest technologies with Home Devices, Everyone can build A Fully Automated Home. With the Raspberry Pi and Windows 10 IoT, we can build a home automation system that is capable of handling and operating any of your home devices automatically.
In this course, an Arduino UNO will be used to control different devices and read different sensor data. Raspberry Pi will send requests for Arduino UNO to get the sensor data collected.
Each room can have multiple controllable devices (Light, Fan, Wall Socket), PIR Sensor, temperature sensor, and LDR. We will explain how to connect everything and how to code each part in a step-by-step manner.
Why we are using Windows 10 IoT Core:
Built for small, secure, smart devices: The smallest Windows 10 operating system still has the manageability and security expected from Windows.
Smart: Easily bring Artificial Intelligence (AI) and Machine Learning (ML) to the edge with Windows.
Secure: Help keep devices secure for the long term.
Fast: Quickly get IoT devices to market and maintain for the long term with out-of-the-box OS.
What about Communication Protocols?
I²C (pronounced I-squared-C): Allows communication of data between I2C devices over two wires, making it easier for anyone to exchange information without too much wiring.
I2C Communication between Arduino and Raspberry Pi: A step-by-step guide to Master I2C Protocol and Start using it to connect your Arduino and Raspberry Pi.
In today's world, every electronics hobbyist works with Arduino and Raspberry Pi to do their projects. With the introduction of Windows 10 IoT Core, Microsoft is also into the embedded world. Today Internet Of Things is a buzzword, but for basic things, we need an Arduino to communicate with a Raspberry Pi. In this course, I will explain how to communicate the Arduino with the Pi using an I2C bus and Windows 10 IoT Core.
I2C communications have become the de facto method of communicating between microcontrollers, microcomputers, and a variety of integrated circuits and sensors. It has been around since 1982 and was originally developed for use in television receivers.
Join this course now and start building your fully automated home using Raspberry Pi and Windows 10 IoT.
What you will learn
Build a home automation system using Raspberry Pi and Windows 10 IoT.
Control various home devices (lights, fans, wall sockets) automatically.
Use Arduino UNO to read sensor data and control devices.
Connect and code multiple controllable devices and sensors step-by-step.
Implement I2C communication between Arduino and Raspberry Pi.
Understand and use Windows 10 IoT Core for small, secure, and smart devices.
Who is this course for
Electronics enthusiasts interested in home automation.
Hobbyists and makers looking to expand their skills with Raspberry Pi and Windows 10 IoT.
Engineering students and professionals wanting to learn about IoT.
Anyone interested in building and controlling automated home systems.
Requirements
Basic understanding of Raspberry Pi, Arduino, and electronics.
A Raspberry Pi board, Arduino UNO, and necessary peripherals.
Basic programming knowledge is helpful but not required.
About the Instructor
Educational Engineering Team
Team of skilled Engineers Sharing Knowledge with the World
Educational Engineering Team is a Leading Team in the Microcontroller Industry, with over 13 Years of Experience in Teaching and Doing Practical Projects.
We strive to put all our hands-on experience in these courses. Instead of superficial knowledge, we go into the depth of the topic and give you the exact step-by-step blueprint on how to tame simple as well as complex topics in easy and digestible bite-sized videos.
This real-world knowledge enables you to grasp knowledge easily, and you can apply this learning immediately to your life and projects.
Educational Engineering Team has been in the Programming and Microcontroller business since 2007. We have been part of many projects. Over the course of these years, we have gained a good insight into students’ and educators’ needs. We are passionate about sharing all our collective knowledge with you. As of 2018, we have already taught over 250k-THOUSAND students and counting.
Currently, we have more than 100+ Courses on Udemy
Educator and Author of "Educational Engineering".
Ashraf is an educator, Mechatronics engineer, electronics and programming hobbyist, and Maker. He creates online video courses on the EduEng YouTube Channel (More Than 4 Million View, 20k+ Subscribers) and is the author of four Microcontroller books.
As a Chief Educational Engineer since 2007 at Educational Engineering Team, the company he founded, Ashraf’s mission is to explore new trends and technology and help educate the world and make it a better place.
Educational Engineering offers educational courses and Bootcamps, articles, lessons, and online support for electronics hobbyists, Programming hobbyists, Microcontroller hobbyists, STEM students, and STEM teachers.
That team also works as freelancer engineers, helping many students in their graduation projects, and providing guidance and consulting for many students over the years to help them kick-start their careers.
Ashraf’s core skill is explaining difficult concepts in a step-by-step, easy-to-understand manner using video and text. With over 11 years of tertiary teaching experience, Ashraf has developed a simple yet comprehensive and informative teaching style that students from all around the world appreciate.
His passion for Microcontrollers and Programming, particularly for the world of Arduino, PIC Microcontroller, and Raspberry Pi, has guided his personal development and his work through Educational Engineering.
Ashraf’s online courses have helped over 250,000 people from around the world to improve and make great careers in the industry.
Educational Engineering Team offers Courses on:
Circuit Design, Simulation, and PCB Fabrication
Arduino, PIC Microcontroller, and Raspberry Pi
Programming in C, Python, and other programming languages
PLC Industrial Programming and Automation
3D Design and Simulation
ESP and IoT World