5G-Enabled Smart Cities Market Size, Share, Growth, Trends, and Global Industry Analysis: By Component (Hardware, Software, Services), By Application (Smart Transportation, Public Safety & Security, Smart Infrastructure, Healthcare & Telemedicine, Industrial & Manufacturing, Smart Governance), By End-user (Government & Municipal Authorities, Transportation & Logistics, Energy & Utilities, Healthcare Providers, Telecommunications Providers, Retail & Commercial Enterprises, Manufacturing & Industrial Sector) and Region Forecast 2020-2031

5G-Enabled Smart Cities Market size was valued at US$ 644.5 billion in 2024 and is expected to reach US$ 2,519.4 billion by 2031, growing at a significant CAGR of 21.5% from 2025-2031. Moreover, the U.S. Global 5G-Enabled Smart Cities Market is projected to grow at 23.5% CAGR over the forecast period.

The market refers to the integration of 5G technology with urban infrastructure to create highly connected, intelligent, and efficient city ecosystems. This market consists of wide range of applications, including smart transportation, real-time data analytics, IoT-powered utilities, public safety enhancements, and autonomous services, all enabled by ultra-fast, low-latency 5G networks. By leveraging edge computing, AI, and cloud-based solutions, 5G transforms traditional urban systems into adaptive, automated, and data-driven environments, improving the quality of life for residents while optimizing resource management.

The growing adoption of 5G networks is revolutionizing smart city development, enabling seamless connectivity and real-time data exchange across multiple sectors. Governments and urban planners are increasingly investing in 5G infrastructure to enhance traffic management, energy efficiency, and public safety, while businesses leverage the technology to enable autonomous vehicles, AI-driven surveillance, and smart grid management. The rising demand for sustainable and efficient urban solutions, coupled with advancements in IoT and AI, is accelerating the expansion of 5G-enabled smart cities. However, challenges such as high deployment costs, cybersecurity risks, and regulatory complexities may impact growth. Despite these hurdles, the market is expected to thrive as cities worldwide prioritize digital transformation, sustainable urbanization, and advanced connectivity solutions.

Facts & Figures

• By 2025, cities that deploy smart-mobility applications have the potential to cut commuting times by 15 to 20 percent on average, with some people enjoying even larger reductions.

Key Developments:

• November 2024 – The ‘5G CityBrain’ project was launched in Granada, Spain, utilizing AI and 5G to enable real-time urban management. The system monitors traffic patterns, pollution, and tourist flows, significantly improving city sustainability and decision-making.
• November 2024 – A nationwide initiative is projected to save £580 million annually by integrating 5G-connected smart sensors in public buildings in United Kingdom. These sensors enhance energy efficiency, reducing consumption by 17% in facilities such as hospitals and leisure centers.
• October 2024 – UK: EE launched its standalone 5G network in 15 cities, including Edinburgh and Glasgow. This upgrade offers improved mobile speeds, enhanced battery life, and supports next-gen applications like AI-driven tools and immersive gaming.

List of Instances:

• September 2024 – Granada, Spain: The city council introduced AI-based pollution monitoring through 5G-enabled sensors. These devices track vehicle emissions in real time, feeding data into an intelligent system for more effective traffic and environmental management.
• September 2024 – Scotland: EE announced the expansion of its standalone 5G network to Dundee by the end of the year. This deployment promises faster connectivity, improved reliability in high-traffic areas, and AI-powered network optimizations.

5G-Enabled Smart Cities Market Segmentation:

Based on the component:

• Hardware
• Software
• Services 

The hardware segment held the most significant share in the global 5G-Enabled Smart Cities market. It is anticipated that networking infrastructure, including small cells, towers, and routers, will emerge as the leading driver in the market, as cities worldwide accelerate their transition to high-speed, low-latency connectivity. The rapid deployment of 5G infrastructure is crucial for supporting IoT-based urban management systems, AI-driven public safety solutions, and autonomous mobility networks. Governments and telecom providers are heavily investing in expanding fiber-optic networks and installing small cell towers to ensure seamless 5G connectivity across densely populated urban areas. This expansion is expected to enable real-time data processing, predictive analytics, and automation, essential for enhancing smart city operations such as traffic control, energy distribution, and emergency response systems.

Additionally, the increased demand for edge computing solutions is driving the need for robust networking infrastructure, allowing faster data transmission and reducing latency in critical smart city applications. With major infrastructure investments in North America, Asia-Pacific, and Europe, the scalability and efficiency of networking hardware are anticipated to play a pivotal role in shaping the future of 5G-enabled smart cities, ensuring uninterrupted connectivity for millions of connected devices and intelligent urban solutions.

Based on the application:

• Smart Transportation
• Public Safety & Security
• Smart Infrastructure  
• Healthcare & Telemedicine
• Industrial & Manufacturing

It is anticipated that smart transportation, particularly intelligent traffic management, will emerge as the leading driver in the 5G-enabled smart cities market, as urban areas face increasing congestion and demand for efficient mobility solutions. With the integration of real-time AI analytics, IoT sensors, and high-speed 5G connectivity, cities are expected to revolutionize traffic management by optimizing signal timing, reducing congestion, and improving road safety. Governments worldwide are investing in connected infrastructure, including smart traffic lights, vehicle-to-infrastructure (V2I) communication, and predictive traffic flow analytics, to enhance urban mobility and reduce travel time. The deployment of autonomous vehicles and connected car ecosystems further accelerates the need for ultra-low latency 5G networks, ensuring seamless communication between vehicles, pedestrians, and city infrastructure.

Moreover, the rise of smart parking solutions is anticipated to alleviate urban parking challenges through real-time availability tracking and automated payment systems. As cities continue their transition toward sustainable and efficient mobility, intelligent traffic management is expected to be a key application area, enabling smarter, safer, and more connected transportation networks powered by 5G-driven automation and AI-based decision-making.

Based on the end-user:

• Government & Municipal Authorities
• Transportation & Logistics
• Energy & Utilities
• Healthcare Providers
• Telecommunications Providers
• Retail & Commercial Enterprises
• Manufacturing & Industrial Sector

It is anticipated that government and municipal authorities will emerge as the leading end-user in the 5G-enabled smart cities market, driven by the increased need for efficient urban management, public safety, and infrastructure modernization. As cities become more connected, governments worldwide are heavily investing in 5G-powered solutions to enhance traffic control, energy distribution, waste management, and emergency response systems. Municipal authorities are leveraging AI-driven surveillance, IoT-based environmental monitoring, and real-time data analytics to improve public safety, disaster management, and law enforcement efficiency.

Additionally, smart governance initiatives, such as digital identity systems and AI-powered citizen engagement platforms, are being integrated to streamline government services and administrative operations. The deployment of 5G networks is also enabling real-time monitoring of critical infrastructure, ensuring proactive maintenance of roads, bridges, and public utilities. As smart city initiatives gain momentum across North America, Europe, and Asia-Pacific, governments are expected to remain the primary drivers of 5G adoption, ensuring seamless connectivity and digital transformation for urban populations. Through strategic investments and public-private partnerships, municipal authorities will play a pivotal role in shaping the future of 5G-enabled smart cities, fostering sustainability, economic growth, and enhanced quality of life for citizens.