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Real-Time Notification System for Enhanced Emergency Response and Road Safety

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Publicat a:The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Conference Proceedings (2025), p. 1-5
Autor principal: Deoghare, Radha
Altres autors: Deshmukh, Sphurti, Tawade, Shradha, Kolambe, Sapana, Pagar, Rakhi
Publicat:
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Matèries:
Data base management systems
Emergency vehicles
Performance evaluation
Roads & highways
Traffic safety
Applications programs
Route optimization
Traffic delay
Optimization
Mobile computing
Situational awareness
Emergency response
Traffic accidents & safety
Databases
Traffic congestion
Tracking
Real time
Client server systems
Emergency preparedness
Data reduction
Economic
Accés en línia:Citation/Abstract
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LEADER 00000nab a2200000uu 4500
001 3283942309
003 UK-CbPIL
024 7 |a 10.1109/ICCUBEA65967.2025.11283753  |2 doi 
035 |a 3283942309 
045 2 |b d20250101  |b d20251231 
084 |a 228229  |2 nlm 
100 1 |a Deoghare, Radha  |u Information Technology, Pimpri Chinchwad, College of Engineering,Pune,India 
245 1 |a Real-Time Notification System for Enhanced Emergency Response and Road Safety 
260 |b The Institute of Electrical and Electronics Engineers, Inc. (IEEE)  |c 2025 
513 |a Conference Proceedings 
520 3 |a Conference Title: 2025 9th International Conference on Computing, Communication, Control and Automation (ICCUBEA)Conference Start Date: 2025 Aug. 22Conference End Date: 2025 Aug. 23Conference Location: Pune, IndiaEfficient emergency response and road safety are critical for saving lives, yet traffic congestion and delayed driver reactions often hinder emergency vehicle movement. This paper proposes a Real-Time Emergency Vehicle Notification System leveraging GPS tracking, WebSocket communication, and proximity-based alerts to enhance emergency response times. The system employs a client-server architecture with Flutter-based mobile applications for ambulance drivers, users, and hospitals. Real-time location updates and notifications are delivered with minimal latency, enabling faster route clearance and improved situational awareness. Optimized database management and load balancing ensure scalability and reliability, while integration with Google Maps API supports accurate ETA predictions and dynamic route optimization. Performance evaluations demonstrate significant improvements in notification delivery times, reduced database writes, and enhanced emergency vehicle tracking efficiency compared to traditional systems. This solution represents a step toward smarter urban mobility by minimizing delays and optimizing emergency response operations. 
653 |a Data base management systems 
653 |a Emergency vehicles 
653 |a Performance evaluation 
653 |a Roads & highways 
653 |a Traffic safety 
653 |a Applications programs 
653 |a Route optimization 
653 |a Traffic delay 
653 |a Optimization 
653 |a Mobile computing 
653 |a Situational awareness 
653 |a Emergency response 
653 |a Traffic accidents & safety 
653 |a Databases 
653 |a Traffic congestion 
653 |a Tracking 
653 |a Real time 
653 |a Client server systems 
653 |a Emergency preparedness 
653 |a Data reduction 
653 |a Economic 
700 1 |a Deshmukh, Sphurti  |u Information Technology, Pimpri Chinchwad, College of Engineering,Pune,India 
700 1 |a Tawade, Shradha  |u Information Technology, Pimpri Chinchwad, College of Engineering,Pune,India 
700 1 |a Kolambe, Sapana  |u Information Technology, Pimpri Chinchwad, College of Engineering,Pune,India 
700 1 |a Pagar, Rakhi  |u Information Technology, Pimpri Chinchwad, College of Engineering,Pune,India 
773 0 |t The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Conference Proceedings  |g (2025), p. 1-5 
786 0 |d ProQuest  |t Science Database 
856 4 1 |3 Citation/Abstract  |u https://www.proquest.com/docview/3283942309/abstract/embedded/6A8EOT78XXH2IG52?source=fedsrch