Resilient Fog-Based Adaptive Traffic Control System

Traffic congestion is a growing problem in India, largely caused by the increasing number of vehicles. To address this, creating an adaptive traffic control system has become essential. To present a solution, this paper aims to create a resilient, adaptive traffic control system that dynamically adj...

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Published in:	International Conference on Computing, Communication, and Networking Technologies (Online) pp. 1 - 7
Main Authors:	Matange, Ashwini, Taneja, Varun, Chaumal, Aarya, Buwa, Pallavi, Abraham, Jibi
Format:	Conference Proceeding
Language:	English
Published:	IEEE 06.07.2023
Subjects:	Adaptive systems Cameras Cloud computing Computer vision Distributed databases Feeds Fog computing Process control Real-time systems Simulation Traffic control
ISSN:	2473-7674
Online Access:	Get full text
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Abstract	Traffic congestion is a growing problem in India, largely caused by the increasing number of vehicles. To address this, creating an adaptive traffic control system has become essential. To present a solution, this paper aims to create a resilient, adaptive traffic control system that dynamically adjusts signal timings based on the current traffic density. The paper proposes introducing a Fog layer at each traffic junction to capture real-time video feeds and process them locally, with the final decision about dynamic signal control being taken in the Cloud. The validity of the solution is tested through simulations in SUMO. A Machine Learning model is trained in the Cloud to predict expected vehicle numbers to set adaptive signal times for contingency situations. The paper aims to demonstrate the resilience and performance of the system with the adaptive traffic signal control algorithm, potentially offering a solution to traffic congestion in India.
AbstractList	Traffic congestion is a growing problem in India, largely caused by the increasing number of vehicles. To address this, creating an adaptive traffic control system has become essential. To present a solution, this paper aims to create a resilient, adaptive traffic control system that dynamically adjusts signal timings based on the current traffic density. The paper proposes introducing a Fog layer at each traffic junction to capture real-time video feeds and process them locally, with the final decision about dynamic signal control being taken in the Cloud. The validity of the solution is tested through simulations in SUMO. A Machine Learning model is trained in the Cloud to predict expected vehicle numbers to set adaptive signal times for contingency situations. The paper aims to demonstrate the resilience and performance of the system with the adaptive traffic signal control algorithm, potentially offering a solution to traffic congestion in India.
Author	Matange, Ashwini Buwa, Pallavi Taneja, Varun Chaumal, Aarya Abraham, Jibi
Author_xml	– sequence: 1 givenname: Ashwini surname: Matange fullname: Matange, Ashwini email: asm.comp@coep.ac.in organization: COEP Tech,Dept. of Computer Engineering and Information Technology,Pune,India – sequence: 2 givenname: Varun surname: Taneja fullname: Taneja, Varun email: tanejavp19.comp@coep.ac.in organization: COEP Tech,Dept. of Computer Engineering and Information Technology,Pune,India – sequence: 3 givenname: Aarya surname: Chaumal fullname: Chaumal, Aarya email: chaumalam19.comp@coep.ac.in organization: COEP Tech,Dept. of Computer Engineering and Information Technology,Pune,India – sequence: 4 givenname: Pallavi surname: Buwa fullname: Buwa, Pallavi email: buwapu19.comp@coep.ac.in organization: COEP Tech,Dept. of Computer Engineering and Information Technology,Pune,India – sequence: 5 givenname: Jibi surname: Abraham fullname: Abraham, Jibi email: ja.comp@coep.ac.in organization: COEP Tech,Dept. of Computer Engineering and Information Technology,Pune,India
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Snippet	Traffic congestion is a growing problem in India, largely caused by the increasing number of vehicles. To address this, creating an adaptive traffic control...
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SubjectTerms	Adaptive systems Cameras Cloud computing Computer vision Distributed databases Feeds Fog computing Process control Real-time systems Simulation Traffic control
Title	Resilient Fog-Based Adaptive Traffic Control System
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