Abstract:

Wearable technology has gained immense popularity in the health and fitness industry. This project focuses on developing a Wearable Smart Shoe that integrates sensors and microcontrollers to monitor various health parameters, including step count, gait analysis, posture correction, and calorie expenditure. The smart shoe connects to a mobile application for real-time data analysis, providing users with valuable insights to improve their fitness and prevent injuries.
Keywords: Wearable Fitness Shoe application, sensors, electricity generator, Bluetooth.

INTRODUCTION:

With the rise of fitness consciousness, wearable technology has evolved to track physical activities efficiently. Traditional fitness trackers are worn on the wrist, but smart shoes offer a more precise method to capture movement dynamics. By embedding sensors within the footwear, we can enhance fitness tracking, injury prevention, and health monitoring.

Objectives:

1. To design and develop a Wearable Smart Shoe for fitness and health tracking.
2. To monitor step count, temperature, humidity and calories in real-time.
3. To integrate wireless connectivity using Bluetooth with a mobile application for data visualization.
4. To analyze and provide personalized feedback based on user activity.

Applications:

• Fitness Tracking: Tracks steps, calories burned, and workout efficiency.
• Medical & Rehabilitation: Helps in post-injury recovery by analyzing gait and posture.
• Elderly Assistance: Detects falls and sends alerts to caregivers.
• Athlete Performance Monitoring: Provides in-depth movement analytics for performance optimization.

Advantages:

• Higher Accuracy: More reliable than wrist-worn fitness trackers.
• Real-Time Monitoring: Instant feedback helps prevent injuries.
• Personalized Insights: AI-driven analysis for customized fitness plans.
• Health Monitoring: Can detect foot-related medical issues like diabetes-induced neuropathy.