INTROUCTION

Arduino is an open-source electronics platform based on easy-to-use hardware and software. Arduino Boards are able to read inputs - light on a sensor, a finger on a button, or a Twitter message - and turn it into an output - activating a motor, turning on an LED, publishing something online.

Over the years Arduino has been the brain of thousands of projects, from everyday objects to complex scientific instruments. 

Arduino was born at the Ivrea Interaction Design Institute as an easy tool for fast prototyping, aimed at students without a background in electronics and programming. later, the Arduino board started changing to adapt to new needs and challenges .It led to the development of various IoT applications, wearable, 3D printing, and embedded environments.

WHY SHOULD I USE IT

• Inexpensive
• Cross-platform
• It Simple, clear programming environment
• It has a Open source software
• It has a Open source and extensible hardware

HOW CAN AI BE USED IN ARDUINO

AI can be used in Arduino in a number of ways, including:

• Arduino Nano AIfES: An AI/ML framework for Arduino that allows on-device training without a PC
• 33 BLE Sense Rev2: A 3.3V AI enabled board with a set of sensors
• ChatGPT: An AI tool that uses natural language processing (NLP) and machine learning (ML) to provide interactive lessons and answer questions about Arduino and coding concepts
• Google Colab: A Jupyter notebook that allows you to run your TensorFlow training in a web browser
• Using Arduino to collect data and run AI in the cloud
• Getting started with machine learning on Arduino
• Using fruit identification using Arduino and TensorFlow
• Using the dashboard using the Arduino Nicla Sense ME

EFFECTS OF ARDUINO AI

• Pass rate: The pass rate for Projects II increased from 61% in 2014 to 92% in 2015 when all students used the Arduino platform.
• Attention and performance: Arduino can improve students' attention and overall performance, which can lead to higher grades.
• Attitudes towards technology: Arduino can improve students' attitudes towards technology.
• Creativity, problem-solving, and critical thinking: Arduino can foster creativity, problem-solving skills, and critical thinking.
• STEM interests: Arduino can cultivate students' STEM interests.
• 21st century skills: Arduino can cultivate students' 21st century skills.
• Real-world problems: Arduino can teach students to use technology to solve real-world problems.
• Improved programming skills was reported by 36 % of the students and 26% reported on improved problem solving skills. 64% reported better design skills.

CONCLUSION

The potential of AI in education is immense. As it continues to evolve and mature, AI is expected to bring about even more transformative changes, making education more personalized, accessible, and effective. As such, AI is not just a part of the future of education - it's shaping the future itself.

AI is a remarkable tool of the Fourth Industrial Revolution that’s making significant inroads into education. With applications ranging from AI-based intelligent assistants to personalized education and VR technology, AI is set to revolutionize the way we teach and learn. The future of education is here, and AI is leading the way. There are a plenty many ways to build AI models . One of them is Arduino.

Arduino