What you would learn in Home Automation Using Raspberry Pi And Windows 10 IoT course?
Raspberry Pi and Windows 10 can be used to create a home automation system capable of operating home devices automatically.
Technology is improving human lives today. Technology is constantly changing. Automating your home was once a dream and an idea. But it is possible today. Combining the most recent technologies with home devices, anyone can create a fully automated home. We can create a home automation system with the Raspberry Pi and Windows 10 IoT to automatically manage and operate all your home devices.
An Arduino UNO is used in this course to control various devices and read different sensor data. To collect the sensor data, Raspberry Pi will request Arduino UNO.
Many controllable devices can be connected to a room. These include light, fan, wall socket, PIR sensor, temperature sensor, and LDR. We will show you how to connect them all and code them each step by step.
Windows 10 IoT simplifies the Internet of Things (IoT). It offers a rich device platform and world-class tools for developers, long-term support for enterprises, and a global network of partners. Azure IoT gives you the power to scale and do more at the edge, thanks to its machine learning capabilities. You can use the power of Windows to quickly and securely create a solution. Our products are supported for 10 years.
What about communication protocols?
I2C (pronounced "I-squared-C")
I2C Communication between Arduino & Raspberry Pi: This step-by-step guide will help you master I2C Protocol. Then, start using it to connect your Arduino & Raspberry Pi.
I2C allows data to be sent over two wires between I2C devices. This makes it easy to exchange information with minimal wiring.
Every electronics enthusiast uses Arduino and Raspberry Pi today to complete his projects. Microsoft has also entered the embedded world with the introduction of Windows 10 IoT Core. Internet Of Things is now a popular buzzword. However, for the most basic tasks, an Arduino is required to communicate with a Raspberry Pi. This course will show you how to communicate with an Arduino and the Pi via an I2C bus, Windows 10 IoT Core, and Windows 10.
I2C communications are the most popular method for communicating between microcontrollers, processors, and various integrated circuits and sensors. It was initially developed for television receivers in 1982.
Windows 10 IoT Core is why we use it:
Built for small, secure, and smart devices, Windows 10's smallest operating system has all the security and manageability you expect from Windows.
Smart: With Windows, you can easily bring Artificial Intelligence and Machine Learning to the edge.
Secure: Keep your devices safe for the long term.
Rapid: Get IoT devices on the market quickly and keep them there for the long-term with an out-of-the-box OS.
This Home Automation Device's structure, user interface, connection, and working principle are all explained.
Different Rooms Management
Address Mapping: Device Addressing
What's the difference between I2C communication and other methods?
Controlling high power loads via Arduino
Software Required to Code Arduino and Raspberry Pi
Protocol for Communication
Communication between Raspberry Pi and Arduino
Windows 10 IoT User Interface
Visual Studio User Interface and Raspberry Pi Coding
How does I2C work?
How to get things done
Tips and tricks and helpful resources
Protocol for I2C Communication
Device Address Mapping
How to code I2C correctly and how to easily talk to multiple devices
To connect Arduino and Raspberry Pi, code and circuit schematics
Communication Protocol between Raspberry Pi & Arduino
Tips and tricks
Advantages and disadvantages of I2C
Main I2C Bus Library Functions
How to implement I2C within your project
I2C makes your life easier
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