Next-Generation Traffic Control: Adaptive Timer and Emergency Vehicle Priority in Intelligent Traffic
Keywords:
Internet of Things (IoT), Intelligent Traffic Control, Real-time adaptiveAbstract
Traffic congestion plagues modern urban areas, leading to extended travel times, elevated fuel use, and worsened pollution. Conventional traffic lights rely on rigid timing cycles that fail to adapt to fluctuating traffic volumes, resulting in poor flow efficiency. With urban expansion and rising vehicle numbers, especially at high-traffic intersections, there's a pressing need for intelligent, real-time signal adjustment systems. This project introduces an Intelligent Traffic Control System featuring adaptive signal control and emergency vehicle prioritization. It leverages microcontrollers like Arduino NANO and wireless modules such as NRF24L01 to gather live traffic data via sensors or inputs. The system dynamically extends green-light durations based on vehicle density in each direction. Upon detecting an emergency vehicle—via RFID, GPS, or wireless signals—it creates a clear green corridor for swift, unobstructed passage. This enhances road safety, minimizes delays, and boosts emergency response effectiveness. Encompasses conceptual planning, literature review, system architecture, circuit design, and preliminary hardware integration, laying a solid foundation for automation. This will focus on comprehensive testing and evaluation. Long-term, this embedded solution supports smart-city initiatives by optimizing traffic flow, cutting energy consumption, and accelerating emergency services.
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Copyright (c) 2026 IES International Journal of Multidisciplinary Engineering Research
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