In addition to emergency alert functionality, the system emphasizes usability and accessibility by ensuring that users can operate it under stress without complex interactions. Incorporating intelligent voice-based activation reduces dependency on physical input, which is often difficult during panic situations. The system is designed to function efficiently in real-time environments, ensuring a minimal delay between command detection and alert transmission. Moreover, it enhances communication by providing accurate location data, thereby improving the effectiveness of rescue operations. The proposed solution also addresses key limitations found in existing safety applications, such as delayed response, manual triggering, and lack of automation. By integrating AI-driven components, the system offers a more proactive approach to safety management. The scalability of the system allows it to be adapted for various use cases beyond women safety, including elderly care, child safety, and emergency health monitoring. Furthermore, the implementation of such intelligent systems contributes to the development of smart cities, where technology plays a crucial role in ensuring public safety. With continuous advancements in artificial intelligence, the Sahayak system can be further enhanced with features like multilingual voice recognition, emotion detection, and predictive risk analysis. These capabilities can significantly improve the responsiveness and reliability of the system in diverse real-world scenarios.
.Saundarya et al. (Tue,) studied this question.
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