Abstract: "Data Driven Roads: A Connected and Secure Vehicle Mobility Network" is designed to transform the navigation of emergency vehicles in urban congestion, addressing a global challenge that affects timely medical and emergency interventions in cities. Traditional reliance on sirens and manual traffic control often proves inadequate in high-density areas, leading to this project's innovative, data-driven approach aimed at enhancing the efficiency of emergency services. By leveraging sophisticated mobile application technology integrated with the urban infrastructure, the project aims to close the gap between the critical need for quick emergency responses and the existing bottlenecks.
The core goal is to design, develop, and implement a state-of-the-art mobile application that supports instantaneous data sharing, facilitating optimized routing for emergency vehicles in real time. This endeavor is built on a foundation of software development expertise, complemented by detailed simulation testing in urban-like environments. A significant emphasis is placed on developing a user-friendly interface that smoothly aligns with current traffic management frameworks, bolstered by reliable real-time communication protocols to ensure the swift and efficient passage of emergency vehicles through city landscapes. "Data Driven Roads" is committed to drastically reducing the time it takes for emergency responses, thereby elevating public safety and enhancing urban mobility. This initiative not only tackles a critical social challenge but also proposes a flexible model that can be tailored to various urban settings. With its trailblazing application of technology to facilitate critical emergency services, the project positions itself as a leader in urban mobility innovations, representing a crucial advancement towards the realization of smarter, safer urban environments.
Keywords: Urban congestion, emergency vehicles, data-driven solution, mobile application technology, urban infrastructure integration, real-time data exchange, dynamic route optimization, simulation testing, user interface, traffic management systems, real-time communication protocols, public safety, urban mobility, scalable model, smart cities..
Cite:
Arpitha M, Shashank C, Shravan Vaidya, Sudasrhan, "Data Driven Roads : A Connected And Secure Vehicle Mobility Network", IJARCCE International Journal of Advanced Research in Computer and Communication Engineering, vol. 13, no. 4, 2024, Crossref https://doi.org/10.17148/IJARCCE.2024.13427.
| DOI: 10.17148/IJARCCE.2024.13427