Improved Dynamic Threshold Timer for Emergency Vehicle Preemption Exit Strategy

Khoirunnisaa, Kunti and Hartanto, Rudy and Mustika, I Wayan and Arshella, Ika Arva (2023) Improved Dynamic Threshold Timer for Emergency Vehicle Preemption Exit Strategy. In: IES 2023 - International Electronics Symposium: Unlocking the Potential of Immersive Technology to Live a Better Life, Proceeding, 8 Agustus 2023 - 10 Agustus 2023, Bali Indonesia.

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Abstract

This paper examines the Dynamic Threshold Timer (DTT) as an exit strategy for Emergency Vehicle Preemption (EVP), a critical service that prioritizes emergency vehicles' passage through traffic by pre-empting traffic signals. However, the use of EVP can lead to traffic congestion and delays for other vehicles. To address this issue, an Exit Strategy can be used to optimize traffic signal timing and improve traffic flow, thereby mitigating the negative impacts of EVP on other vehicles. The study focuses on a case study of one such strategy: Dynamic Threshold Timer, which was enhanced and evaluated for its effectiveness in reducing waiting time. The results indicate that the improvisation of DTT into the Dynamic Exit Phase can significantly reduce the average waiting time by 18% across all traffic flows saturation level. In contrast, the Fixed Phase does not reduce congestion but rather increases it by 10%, compared to a traffic light system without the Exit Strategy. Furthermore, the study reveals that applying DTT with an exit to the South Phase yields the most effective results, reducing waiting time by 20%. The findings from this research underscore the potential of utilizing DTT with exit strategies for the Dynamic Phase to improve traffic flow and mitigate delays. The implications of this study are significant for managing smart city transportation systems and enhancing emergency service provision. © 2023 IEEE.

Item Type: Conference or Workshop Item (Paper)
Uncontrolled Keywords: Case-studies; Critical service; Dynamic threshold,Emergency vehicles; Traffic congestion; Traffic si,Timing circuits
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions: Faculty of Engineering > Electronics Engineering Department
Depositing User: Rita Yulianti Yulianti
Date Deposited: 03 Apr 2024 03:40
Last Modified: 03 Apr 2024 03:40
URI: https://ir.lib.ugm.ac.id/id/eprint/417

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