Authors :
Aditi Abhijit Tawade; Rasika Ravindra Nalawade; Prachi Santosh Patil; Samiksha Sachin Nichite; Ishita Rangrao Chougale; Pranjal Farakte
Volume/Issue :
Volume 10 - 2025, Issue 10 - October
Google Scholar :
https://tinyurl.com/49hrjh53
Scribd :
https://tinyurl.com/tje9a48b
DOI :
https://doi.org/10.38124/ijisrt/25oct769
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Note : Google Scholar may take 30 to 40 days to display the article.
Abstract :
The exponential growth of urban populations and the rapid evolution of mobility demand a communication
infrastructure that is not only ultra-fast but also intelligent, reliable, and scalable. 5G Advanced, also referred to as 5.5G, is
emerging as a critical enabler of smart cities and connected vehicles, extending the capabilities of traditional 5G networks.
Unlike standard 5G, which primarily emphasized high data rates, 5G Advanced integrates enhanced mobile broadband
(eMBB), ultra-reliable low-latency communication (URLLC), and massive machine-type communication (mMTC) along
with AI-native intelligence and energy-efficient architectures. These advancements enable seamless, context-aware, and
highly adaptive digital ecosystems.
In the context of smart cities, 5G Advanced provides the backbone for millions of interconnected IoT devices including
intelligent traffic management systems, high-resolution surveillance cameras, environmental monitoring sensors, smart
grids, and connected healthcare solutions. By enabling real-time data exchange, predictive analytics, and autonomous
decision-making, 5G Advanced transforms cities into sustainable, safe, and resilient urban ecosystems.
For connected vehicles, 5G Advanced is the cornerstone of Vehicle-to-Everything (V2X) communication—covering
V2V (Vehicle-to-Vehicle), V2I (Vehicle-to-Infrastructure), V2P (Vehicle-to-Pedestrian), and V2N (Vehicle-to-Network).
These capabilities support autonomous driving, cooperative collision avoidance, real-time navigation, intelligent fleet
management, and immersive in-car experiences such as AR-assisted driving and cloud gaming. With sub-millisecond latency,
5G Advanced ensures end-to-end safety, reliability, and efficiency in transportation systems.
This paper explores the architecture, features, and applications of 5G Advanced in building intelligent cities and
enabling autonomous mobility. We present block diagrams of system architectures, provide a comparison of 4G, 5G, and 5G
Advanced, and discuss key challenges such as spectrum allocation, infrastructure costs, and cybersecurity threats.
Furthermore, we review recent research trends and propose a roadmap for integrating 5G Advanced into smart city
infrastructures and connected vehicle ecosystems, thereby laying the foundation for future 6G innovations.
References :
- 3GPP, “Release 18: 5G Advanced Specifications,” 2023.
- ITU, “IMT-2020 and Beyond: Vision for 5G Advanced,” 2024.
- Gupta, R. K. Jha, “5G Advanced and Smart Cities,” IEEE Access, vol. 12, pp. 45678–45690, 2024.
- X. Li et al., “V2X Communication with 5G Advanced,” IEEE Transactions on Vehicular Technology, 2025.
- Y. Zhang, “AI-Driven 5G Advanced Networks for IoT,” IEEE Internet of Things Journal, 2025.
The exponential growth of urban populations and the rapid evolution of mobility demand a communication
infrastructure that is not only ultra-fast but also intelligent, reliable, and scalable. 5G Advanced, also referred to as 5.5G, is
emerging as a critical enabler of smart cities and connected vehicles, extending the capabilities of traditional 5G networks.
Unlike standard 5G, which primarily emphasized high data rates, 5G Advanced integrates enhanced mobile broadband
(eMBB), ultra-reliable low-latency communication (URLLC), and massive machine-type communication (mMTC) along
with AI-native intelligence and energy-efficient architectures. These advancements enable seamless, context-aware, and
highly adaptive digital ecosystems.
In the context of smart cities, 5G Advanced provides the backbone for millions of interconnected IoT devices including
intelligent traffic management systems, high-resolution surveillance cameras, environmental monitoring sensors, smart
grids, and connected healthcare solutions. By enabling real-time data exchange, predictive analytics, and autonomous
decision-making, 5G Advanced transforms cities into sustainable, safe, and resilient urban ecosystems.
For connected vehicles, 5G Advanced is the cornerstone of Vehicle-to-Everything (V2X) communication—covering
V2V (Vehicle-to-Vehicle), V2I (Vehicle-to-Infrastructure), V2P (Vehicle-to-Pedestrian), and V2N (Vehicle-to-Network).
These capabilities support autonomous driving, cooperative collision avoidance, real-time navigation, intelligent fleet
management, and immersive in-car experiences such as AR-assisted driving and cloud gaming. With sub-millisecond latency,
5G Advanced ensures end-to-end safety, reliability, and efficiency in transportation systems.
This paper explores the architecture, features, and applications of 5G Advanced in building intelligent cities and
enabling autonomous mobility. We present block diagrams of system architectures, provide a comparison of 4G, 5G, and 5G
Advanced, and discuss key challenges such as spectrum allocation, infrastructure costs, and cybersecurity threats.
Furthermore, we review recent research trends and propose a roadmap for integrating 5G Advanced into smart city
infrastructures and connected vehicle ecosystems, thereby laying the foundation for future 6G innovations.
