This research introduces a novel traffic congestion control system designed to alleviate urban gridlock and enhance transportation efficiency. The system incorporates advanced data analytics, real-time monitoring, and adaptive control strategies. By integrating traffic flow models and machine learning algorithms, the system dynamically adjusts signal timings, reroutes vehicles, and optimizes traffic management for improved urban mobility. Extensive simulations and real-world testing showcase the system's potential to significantly reduce congestion, enhance travel times, and contribute to the development of more intelligent and responsive urban transportation systems. Additionally, the study proposes a traffic congestion control system employing fuzzy algorithmic approaches. Through the integration of fuzzy logic to model and optimize traffic flow, the system aims to boost traffic management efficiency. Real-time data analysis and adaptive decision making by the fuzzy algorithm enable dynamic adjustments to signal timings and routing strategies, offering a promising solution for addressing congestion in urban areas. The incorporation of fuzzy logic with traffic control mechanisms presents a unique and intelligent approach to tackle challenges associated with urban congestion.
Fuzzy Logic Driven Ecosystem for Traffic Control Flow
04.04.2024
348419 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Simulation of traffic flow system and control using fuzzy logic
Tema Archiv | 1997
|Traffic signal control using fuzzy logic
IEEE | 2015
|Traffic signal control using fuzzy logic
Tema Archiv | 1997
|Distributed Traffic Signal Control Using Fuzzy Logic
NTIS | 1992
|