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1. An Arduino-Based Advanced Safety
Method for Automatic Railway
Gate Control
• Presented by: Jarvis
• Department of Electrical Engineering
• [Your University Name]
• Date: [Presentation Date]

2. Introduction
• - Manual railway gates often cause delays and
accidents.
• - Automation can significantly improve safety.
• - Objective: Design an Arduino-based smart
gate control system using sensors.

3. Problem Statement & Existing
Issues
• - Manual gate operations are slow and prone
to error.
• - High chances of accidents due to human
negligence.
• - Causes traffic congestion and inefficiency.
• - Need for smart, automated safety systems.

4. Proposed System Overview
• **Components:** Arduino UNO, IR/Ultrasonic
Sensors, Servo Motor, Buzzer, LCD (optional)
• **Working Principle:**
• - Sensors detect train approach
• - Arduino processes input
• - Gate closes before train arrives
• - Gate opens after train passes

5. Hardware Implementation
• - Hardware Setup:
• - Sensors placed on tracks
• - Arduino controls servo motor for gate
• - Buzzer gives alert signal
• - Circuit diagram and real-time simulation (if
available)

6. Advantages & Applications
• **Advantages:**
• - Improves railway crossing safety
• - Minimizes human error
• - Low cost, scalable
• **Applications:**
• - Urban and rural railway crossings
• - Integration with IoT for live monitoring

7. Conclusion & Future Scope
• - Arduino-based system automates gate
control efficiently.
• - Ensures safety, reduces accidents.
• **Future Scope:**
• - Add GSM for alerts
• - AI for train speed prediction
• - Solar-powered version