North America 5G IoT Market Size, Share, Trends and Forecasts 2031

Key Findings

• The North America 5G IoT Market is expanding rapidly as enterprises adopt ultra-low-latency connectivity for mission-critical applications.

• Growing integration of 5G with IoT devices is enabling large-scale automation across industrial, commercial, and consumer sectors in North America.

• Rising deployment of smart city infrastructure and connected public services is strengthening market demand.

• Massive machine-type communication (mMTC) enabled by 5G is accelerating adoption of high-density IoT networks.

• Edge computing integration is improving real-time analytics and reducing cloud dependency.

• Increasing use of 5G IoT in healthcare, manufacturing, logistics, and automotive industries is reshaping digital ecosystems.

• Strong government support for 5G rollout and IoT standardization is accelerating adoption across North America.

• Partnerships between telecom operators, cloud providers, and IoT platform vendors are defining market competitiveness.

North America 5G IoT Market Size and Forecast

The North America 5G IoT Market is projected to grow from USD 7.9 billion in 2025 to USD 29.6 billion by 2031, at a CAGR of 24.7%. Growth is driven by the increasing number of connected devices, rising industrial automation, and the need for high-speed, reliable, and scalable IoT communication. 5G-enabled IoT supports enhanced mobile broadband (eMBB), ultra-reliable low-latency communication (URLLC), and massive IoT capabilities, making it ideal for high-density sensor ecosystems. The expansion of edge computing, AI analytics, cloud platforms, and digital transformation initiatives across North America is further driving adoption. As enterprises focus on operational efficiency and data-driven decision-making, 5G IoT networks will become foundational.

Introduction

5G IoT integrates next-generation mobile connectivity with Internet of Things devices to deliver high-density, ultra-fast, and low-latency communication. In North America, industries such as manufacturing, transportation, utilities, healthcare, retail, and agriculture are adopting 5G IoT to enhance automation, monitoring, and analytics. 5G connectivity supports large numbers of sensors, machines, and autonomous systems, enabling real-time data flow that traditional networks cannot support. Advanced IoT platforms combined with AI and edge computing improve operational intelligence and enable smart city and Industry 4.0 applications. As digital ecosystems expand, 5G IoT becomes essential for scalable, secure, and efficient connectivity.

Future Outlook

By 2031, the North America 5G IoT Market will evolve into a fully autonomous and AI-integrated connectivity ecosystem. Industries will increasingly deploy private 5G IoT networks for secure, deterministic communication. Edge intelligence will become mainstream, enabling ultra-fast decision-making with minimal cloud dependency. Smart cities will expand IoT-based public infrastructure including connected mobility, energy systems, and surveillance. 5G IoT will support emerging applications such as cooperative autonomous vehicles, digital twins, and healthcare robotics. As spectrum availability increases and costs reduce, 5G IoT adoption will penetrate small and medium enterprises. North America will become a major hub for industrial and urban IoT innovation.

North America 5G IoT Market Trends

• Increasing Adoption of Private 5G IoT Networks in Industrial Automation
  Enterprises across North America are deploying private 5G networks to achieve secure, high-performance connectivity for Industry 4.0 applications. These networks enable real-time automation of robots, factory equipment, and production lines. 5G IoT ensures ultra-low latency, which is essential for mission-critical manufacturing operations. Private networks provide dedicated bandwidth, enhancing reliability and data control. Industries benefit from improved operational efficiency, predictive maintenance, and reduced downtime. This trend will continue as more factories transition toward fully connected smart manufacturing ecosystems.

• Expansion of 5G IoT in Smart City Infrastructure and Public Services
  Smart cities in North America are leveraging 5G IoT for intelligent transportation systems, connected street lighting, real-time surveillance, and environmental monitoring. High-capacity 5G networks allow simultaneous connection of thousands of sensors across urban areas. City administrations use IoT data to optimize traffic flow, improve energy efficiency, and enhance public safety. 5G-enabled smart grids, waste management systems, and water networks improve resource utilization. As smart city development accelerates, demand for robust 5G IoT infrastructure will continue to rise.

• Growth of Connected and Autonomous Vehicles Using 5G IoT
  Automotive ecosystems in North America are integrating 5G IoT to support vehicle-to-everything (V2X) communication. This enables vehicles to communicate with traffic systems, infrastructure, pedestrians, and other vehicles. Ultra-low-latency 5G is essential for autonomous driving functions such as collision avoidance, platooning, and remote fleet coordination. Connected cars use IoT sensors for real-time diagnostics and predictive maintenance. Public transport systems will also rely on 5G IoT for smart fleet management. This trend is reshaping the mobility landscape across North America.

• Integration of AI and Edge Computing for Real-Time IoT Analytics
  Edge AI is becoming crucial for processing IoT data close to its source, reducing latency and cloud bandwidth consumption. In North America, healthcare, manufacturing, and logistics are adopting edge-enabled IoT systems for instant analytics and automated decision-making. 5G enhances edge computing by providing fast, stable, and scalable communication between devices and edge nodes. AI-powered IoT ecosystems improve operational efficiency, fault detection, and autonomous operations. This trend strengthens real-time intelligence across smart environments.

• Rising Adoption of 5G IoT in Healthcare and Remote Patient Monitoring
  Healthcare facilities in North America are deploying 5G IoT for hospital automation, medical robotics, and telemedicine. Wearables and biosensors transmit high-frequency patient data for continuous monitoring. Ultra-reliable 5G networks support remote surgeries, AR-assisted medical procedures, and AI diagnostics. Ambulances equipped with 5G IoT devices enable real-time patient data sharing with hospitals. As healthcare digitalization grows, 5G IoT will remain critical for next-generation medical systems.

Market Growth Drivers

• Rapid Expansion of 5G Networks and Spectrum Availability Across North America
  Governments and telecom operators are accelerating 5G deployments, enabling high-speed connectivity for IoT devices. Broader spectrum allocations and reduced deployment barriers enhance nationwide coverage. As more enterprises gain access to robust 5G networks, IoT adoption increases rapidly. This infrastructure expansion is a major driver of market growth.

• Increasing Demand for Automation Across Industries and Urban Environments
  Automation requires ultra-responsive communication between machines, sensors, and cloud/edge systems. 5G IoT meets these requirements with its low latency and massive device connectivity. Smart factories, logistics hubs, and urban services rely heavily on IoT-based automation. Growing digital transformation efforts reinforce the need for advanced 5G IoT systems.

• Growth of IoT Devices, Sensors, and Smart Ecosystems
  The rising adoption of connected devices across households, industries, and public infrastructure drives demand for scalable communication networks. 5G supports dense IoT endpoints and enables consistent, high-quality data flow. Applications such as smart agriculture, intelligent buildings, and EV infrastructure require robust IoT connectivity. This growth directly accelerates the 5G IoT market.

• Advancements in AI, Edge Computing, and Real-Time Data Analytics
  AI and edge technologies amplify the capabilities of IoT ecosystems. 5G strengthens these systems by enabling rapid data transfer and distributed computation. Enterprises leverage these technologies for predictive maintenance, optimization, and automation. This synergy between AI, IoT, and 5G drives extensive market growth.

• Government Initiatives Supporting IoT Innovation and Digital Transformation
  Governments in North America are funding IoT testbeds, smart city programs, and industrial digitalization projects. Regulatory support for spectrum access and IoT standardization improves adoption rates. Public–private partnerships accelerate deployment across sectors such as healthcare, transport, and utilities. These initiatives strongly reinforce market expansion.

Challenges in the Market

• High Deployment Costs of 5G and IoT Infrastructure
  Setting up 5G networks, IoT gateways, edge servers, and connected devices requires substantial investment. Small and medium enterprises may face financial constraints. High initial rollout costs slow down large-scale adoption across rural and low-income regions. Overcoming cost barriers is essential for mass implementation.

• Cybersecurity Threats Targeting Connected IoT Ecosystems
  The expansion of IoT increases cyberattack exposure, including risks such as DDoS attacks, device hijacking, and data breaches. 5G networks require strong encryption, device authentication, and continuous monitoring. Security vulnerabilities can compromise mission-critical operations. Ensuring end-to-end security is a major challenge.

• Interoperability Issues Between Multivendor IoT Devices and Platforms
  IoT ecosystems consist of heterogeneous devices with different protocols, operating systems, and cloud platforms. Integrating them into unified systems is complex. Lack of standardization leads to compatibility issues and operational inefficiencies. Solving interoperability problems remains a key challenge.

• Shortage of Skilled Professionals in IoT, 5G, and Edge Computing
  North America faces a talent gap in advanced technology areas such as IoT engineering, cybersecurity, network optimization, and AI integration. This shortage slows down IoT deployment and increases operational risks. Training and certification programs are essential for workforce development.

• Regulatory Constraints and Data Privacy Concerns
  IoT systems collect massive amounts of sensitive data, raising concerns around privacy, compliance, and ethical use. Regulatory frameworks impose strict requirements on data handling. Navigating complex regulations can slow down deployment in sensitive sectors. Ensuring privacy compliance is critical for sustainable adoption.

North America 5G IoT Market Segmentation

By Component

• Hardware

• Connectivity

• Platforms

• Applications & Services

By Technology

• Massive IoT (mMTC)

• Ultra-Reliable Low-Latency Communication (URLLC)

• Enhanced Mobile Broadband (eMBB)

By Application

• Smart Manufacturing

• Smart Cities

• Connected Vehicles

• Healthcare & Remote Monitoring

• Agriculture

• Retail & Smart Logistics

• Smart Utilities

• Consumer IoT

• Others

By End-User

• Enterprises

• Telecom Operators

• Government & Public Sector

• Industrial Facilities

• Healthcare Providers

• Transportation & Logistics

• Others

Leading Key Players

• Ericsson

• Nokia

• Huawei Technologies

• Qualcomm

• Cisco Systems

• Samsung Electronics

• ZTE Corporation

• Siemens

• Bosch

• Amazon Web Services

Recent Developments

• Ericsson deployed large-scale 5G IoT networks in North America to support industrial automation and high-density IoT ecosystems.

• Qualcomm introduced next-generation 5G IoT chipsets in North America optimized for low-power and high-performance applications.

• Nokia partnered with municipal authorities in North America to implement 5G-enabled smart city IoT solutions.

• Huawei Technologies launched a 5G IoT connectivity platform in North America, supporting enterprise digital transformation.

• Cisco Systems rolled out enhanced 5G IoT security and edge computing solutions for enterprise deployments in North America.

This Market Report Will Answer the Following Questions

1. What is the projected market size and growth rate of the North America 5G IoT Market by 2031?

2. Which 5G IoT technologies — eMBB, URLLC, or mMTC — are driving adoption across North America?

3. How are smart cities, automation, and connected vehicles shaping market growth?

4. What challenges affect large-scale 5G IoT implementation in North America?

5. Which companies are leading innovation in the North America 5G IoT Market?