Iot Smart Shoe Development With Esp32: Build & Innovate

Posted By: ELK1nG

Iot Smart Shoe Development With Esp32: Build & Innovate
Published 3/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 860.53 MB | Duration: 2h 7m

Build Your own Smart Shoe using Internet of Things, ESP32, Accelerometer, Force Sensor, Arduino IDE and Blynk New

What you'll learn

Build and test Your Own smart Shoe Project

Learn ESP32 and its spcifications

Learn to Program ESP32 using Arduino IDE

Learn Interfacing Force sensor with ESP32

Learn Interfacing Accelerometer sensor with ESP32

Learn to Read Step Count, Calories burned and accelerometer values

Learn Sending data to new Blynk IoT Cloud and Visaulizaing Data in the Blynk Application (APP)

Requirements

No programming experience needed. You will learn everything you need to know.

Basic Computer Skills

Access to an ESP32 development board, MPU6050 sensor, Force sensor, breadboard, and jumper wires.

Description

Discover the Future: Create Your IoT Smart Shoe with ESP32! Welcome to the ultimate guide in IoT innovation! Join us in crafting your own "IoT Smart Shoe Development with ESP32: Build & Innovate" course. In this comprehensive course, you will embark on an exciting journey into the world of Internet of Things (IoT) by building a cutting-edge smart shoe using the powerful ESP32 microcontroller and Blynk IoT Cloud Platform. What You'll Master:Smart Shoe Essentials: Learn to build your own smart shoe using the powerful ESP32 microcontroller, MPU6050 sensor (Accelerometer and Gyroscope Sensor), and Force sensor.Easy Programming: Get hands-on experience programming the ESP32 with the Arduino IDE for seamless sensor integration and cloud connectivity.Cloud Integration Made Simple: Explore how to integrate the Blynk IoT cloud platform to monitor and analyze your shoe's data in real-time.Practical Projects: Apply your skills to real-world scenarios, mastering step count calculation, calorie estimation, and presence detection. Why Join Us:Hands-On Learning: Gain practical skills through immersive projects that reinforce theoretical knowledge.Project-Based Approach: Fuel your creativity and innovation by applying theory to practical projects.Expert Guidance: Learn from experienced instructors passionate about IoT and wearable tech.Career Boost: Equip yourself with sought-after IoT skills for exciting career opportunities.Don't miss out on the chance to explore the exciting world of IoT! Enroll now and start creating your IoT Smart Shoe with ESP32 today!

Overview

Section 1: Introduction

Lecture 1 Introduction to Smart Shoe Project

Section 2: Introduction to ESP32

Lecture 2 Introduction to ESP32 Board

Lecture 3 ESP32 Power Requirements

Lecture 4 ESP32 Board Pinout

Lecture 5 Programming ESP32 and form factor

Section 3: Programming ESP32 using Arduino Software

Lecture 6 Installing Arduino Software (IDE)

Lecture 7 Installing ESP32 Boards in Arduino IDE

Lecture 8 Blinking an LED

Lecture 9 Source Code - Blinking an LED

Section 4: Interfacing Force sensor with ESP32

Lecture 10 Understanding Force Sensor

Lecture 11 Interfacing force sensor with ESP32

Lecture 12 Presence Sensing using Force Sensor

Lecture 13 Source Code (Presence Sensing using Force Sensor)

Lecture 14 Interfacing force sensor with ESP32 to Read Analog Values (Optional)

Section 5: Interfacing Accelerometer with ESP32

Lecture 15 Understanding Accelerometer

Lecture 16 Interfacing Accelerometer with ESP32

Lecture 17 Reading Sensor Data

Lecture 18 Reading Step Count using MPU6050 sensor

Lecture 19 Circuit Diagram

Lecture 20 Source Code (Reading Sensor Data)

Lecture 21 Source Code (Read Step Count)

Section 6: Blynk IoT Cloud New

Lecture 22 Blynk IoT Platform

Lecture 23 Introduction to Blynk Cloud (New)

Lecture 24 Getting started with Blynk

Lecture 25 Creating smart shoe project in Blynk Cloud

Lecture 26 Creating smart shoe project in Blynk App

Lecture 27 Installing Blynk Library

Section 7: Programming Logic and Circuit Diagram

Lecture 28 Smart Shoe Project Concept

Lecture 29 Smart Shoe Project Programming Logic

Lecture 30 Final Circuit Connections

Lecture 31 Circuit Diagram- Final circuit diagram for the project development

Section 8: Real Time Implementation and Source Code

Lecture 32 Real Time Demonstration (Demo)- Smart Shoe

Lecture 33 Source Code

Lecture 34 Complete components List for reference

Students and Professionals in Engineering Fields,IoT Enthusiasts and Developers,Electronics Hobbyists,Anyone Interested in Wearable Technology and Fitness Tracking,Anyone who has a desire to build a real-time project