Green Corridor for Emergency Services
Keywords:
RFID, Ambulance, Traffic Signal, Intelligent TrafficAbstract
Here in the city where there lot of traffic, ambulances face a lot of problems reaching to the hospital. The patient on the way might die if does not proper treatment if stuck in the traffic and not given proper way. This application is now only for organ transplant because whenever there is no patient in the ambulance, the driver cannot blow the siren, which might create a problem as he will not get way and someone in need might not get the desired organ on time and die. To reduce the death tolls, we have decided to develop a module which will provide green corridor to the ambulance. As soon as the ambulance will reach at a certain distance from the traffic signal, RFID which will be installed in the ambulance will get scanned by the scanner located on the road at a certain distance from the road and after scanning the RFID one buzzer will start at the signal side alerting all the pedestrians and other vehicle that the ambulance is coming and the signal of the lane in which ambulance is coming it will turn green and rest all the signal will be red and it will provide a Green Corridor to Ambulance.
References
F. ANDRONICUS AND MAHESWARAN. (2015) “INTELLIGENT AMBULANCE DETECTION SYSTEM”, INTERNATIONAL JOURNAL OF SCIENCE, ENGINEERING AND RESEACH 1462-1466
DIMITRIS K. FRAGOULIS AND JOHN N. AVARITOSIOTIS. (2001) “A SIREN DETECTION SYSTEM BASED ON MECHANICAL RESONANT FILTERS.” SENSORS 121-137.
F. Meurcci, L. Pierucci, E. Del Re, L. Lastrucci and P.Desii. (2008) “A REAL-TIME SIREN DETECTOR TO IMPROVE SAFETY OF GUIDE IN TRAFFIC ENVIRONMENT.” European Signal Processing Conference
Takuya Miyazaki, Yuhki Kitazono and Manabu Shimakawa(2013) “Ambulance Siren Detector using FFT on dsPIC”International Conference on Intelligent Systems and Image Processing.
F. Andronicus and Maheswaran. (2015) “Intelligent Ambulance Detection System”, International Journal of Science, Engineering and Reseach 1462-1466
Dimitris K. Fragoulis and John N. Avaritosiotis. (2001) “A Siren Detection System based on Mechanical Resonant Filters.” Sensors 121-137.
F. Meurcci, L. Pierucci, E. Del Re, L. Lastrucci and P.Desii. (2008) “A REAL-TIME SIREN DETECTOR TO IMPROVE SAFETY OF GUIDE IN TRAFFIC
ENVIRONMENT.” European Signal Processing Conference [8]Takuya Miyazaki, Yuhki Kitazono and Manabu Shimakawa(2013) “Ambulance Siren Detector using FFT on dsPIC” International Conference on Intelligent Systems and Image Processing
Dobre, A.R.; Nita, A.V.; Ciobanu, A.; Negrescu, C.; Stanomir, D. (2015) "Low computational methods for siren detection" in Proceedings of the IEEE 21st International Symposium for Design and Technology in Electronic packaging (SIITME), Brasov, Romania, 22-25 October 2015; pp. 291-295.
Priya Rohini, A. Jose, G Sumathy
Traffic light pre-emption control system for emergency vehicles.
SSRG International Journal of Electronics and Communication Engineering (SSRG-IJECE), 2 (2) (2015)
Miyazaki, Takuya, Kitazono, Y.; Shimakawa, M. (2013) "Ambulance siren detection using FFT and dsPIC" in Proceedings of the First IEEE/IIAE International Conference on Intelligent System and Image processing, Kitakyushu,Japan, 26-27 September 2013; pp. 266-269.
Kumar, Tarun & Kushwaha, D.S. (2019). "An Approach for Traffic Congestion Detection and Traffic Control System" in Proceedings of Third International Conference on ICTCS 2017.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Re-users must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use. This license allows for redistribution, commercial and non-commercial, as long as the original work is properly credited.
