Women Safety Device With Shocker | GPS Tracker | Body Shock Circuit
Women Safety Device With Shocker | GPS Tracker | Body Shock Circuit
Tracker for Women's Safety Project
Project Introduction
Women's safety is a critical concern in today's society, and technological innovations can play a significant role in enhancing security. This document presents a GPS Tracker project designed to improve women's safety. The project consists of two circuit boards: a Transmitter Circuit and a Receiver Circuit. The Transmitter Circuit is equipped with a GPS module, a shocker circuit, and a SIM800L module for location tracking and emergency communication. The Receiver Circuit, worn as a wristwatch, includes a camera module, pulse rate sensor, OLED display, and communication capabilities.
Part List of Transmitter Circuit
1. Wemos D1 Mini Module
2. GPS Module (NEO-6M)
3. SIM800L GSM/GPRS Module
4. Shocker Circuit
5. Antenna for GSM Module
6. LiPo Battery
Part List of Receiver Circuit
1. Wemos D1 Mini Module
2. ESP32 Camera Module
3. MAX30102 Pulse Rate Sensor
4. 128x32 OLED Display
5. LiPo Battery)
Working of Project
Transmitter Circuit:
1. **GPS Location Tracking**: The GPS module in the Transmitter Circuit continuously receives location data (latitude and longitude).
2. **Emergency Switch**: In case of danger, the user can activate the shocker circuit by pressing the emergency switch.
3. **Communication**: The SIM800L GSM/GPRS module sends the GPS coordinates and an SOS signal to a registered mobile number.
Receiver Circuit:
1. **Camera Activation**: When the user presses the switch on the Transmitter Circuit in an emergency, the camera module in the Receiver Circuit captures images.
2. **Pulse Rate Monitoring**: The pulse rate sensor measures the user's pulse rate. In an emergency, if the pulse rate increases significantly, it sends a signal to the Transmitter Circuit.
3. **OLED Display**: The OLED display on the Receiver Circuit shows the real-time latitude, longitude, and pulse rate.
4. **Communication with Transmitter**: If the pulse rate sensor detects a high pulse rate or the user activates the emergency switch, the Receiver Circuit communicates with the Transmitter Circuit.
5. **Location and Image Transfer**: The Transmitter Circuit receives the signal from the Receiver Circuit, sends an SOS message with location details to a registered mobile number, and triggers the shocker circuit.
Future Scope of Project
1. **Enhanced User Interface**: Develop a user-friendly mobile app to remotely control and monitor the device, view GPS locations, and access images.
2. **Voice Communication**: Implement two-way voice communication between the transmitter and receiver circuits for immediate assistance during emergencies.
3. **Data Storage**: Add onboard storage to store images and location history for later retrieval.
4. **SOS Geofencing**: Create geofencing features to alert authorities or contacts when the user enters predefined danger zones.
5. **Integration with Emergency Services**: Establish integration with local emergency services or hotlines for quicker response times.
6. **Battery Optimization**: Optimize power management to extend the device's battery life.
7. **User Education**: Promote awareness and educate users on how to effectively use the device in emergency situations.
This GPS Tracker project has the potential to significantly enhance women's safety by providing real-time location tracking, emergency communication, and vital health monitoring capabilities. With further development and integration, it can become a valuable tool in ensuring the security and well-being of women in various situations.
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