Wireless Mesh Network Market Size and Share Outlook - Forecast Trends and Growth Analysis Report (2025-2034)

The wireless mesh network market attained a value of USD 7.19 Billion as of 2024 and is anticipated to grow at a CAGR of 13.60% during the forecast period of 2025 to 2034. The increasing need for secure, high-speed, and scalable internet connectivity between urban and rural areas is propelling the wireless mesh network market. The technology enables smooth communication, eliminates network congestion, and improves network reliability for numerous applications. The market is thus expected to reach a value of nearly USD 25.73 Billion by 2034.

Wireless Mesh Network Market Growth

The surge in smart cities and the increased adoption of Internet of Things (IoT) technology play a pivotal role in driving the wireless mesh network market growth. As cities are continually being modernized, demand for strong and scalable connectivity solutions has gone through the roof. WMNs provide low-latency, high-bandwidth connectivity crucial for real-time data sharing among sensors and systems within smart city networks. For example, in India, the government's Smart Cities Mission has identified WMNs' capability to boost urban infrastructure, making applications such as smart traffic management and effective waste collection possible. This integration enhances urban living conditions as well as increases demand for WMN solutions, thereby boosting the growth of wireless mesh network market.

Government initiatives to reduce the digital divide are contributing strongly to the growth of the WMN market. In India, the "Digital India" initiative and the National Broadband Mission plan to bring high-speed internet connectivity to all villages, including rural and underserved villages. WMNs are seen as cost-effective and scalable means to achieve this, providing self-healing and self-organizing network topologies that provide stable internet connectivity even in areas with unstable infrastructure. These initiatives not only increase connectivity but also facilitate the provision of key services such as e-governance, telemedicine, and digital education to remote areas, thus enhancing their quality of life and socioeconomic opportunities.

Key Trends and Recent Developments

AI-driven optimization, Wi-Fi 7, edge AI integration, and rugged industrial applications are driving innovation in wireless mesh networks, enhancing speed, reliability, and real-time connectivity. Such factors are thus shaping the wireless mesh network market dynamics and trends.

January 2025

RAKwireless introduced the WisMesh TAP, a weatherproof, standalone device designed for the Meshtastic LoRa mesh network. Featuring a 320×240 TFT touchscreen with an on-screen keyboard, GNSS receiver, and motion sensor, it enables off-grid messaging without a smartphone.

February 2025

HPL Electric & Power and Wirepas unveiled the market's first Wirepas-certified in-meter gateway for RF mesh networks at Elecrama'25 in Noida, India. This innovation integrates dual-radio capability directly into smart meters, eliminating the need for separate gateway devices. By embedding an 865–868 MHz RF radio and a 4G LTE modem within the meter, the solution enables any smart meter to function as a gateway, collecting data from up to 300 meters and transmitting it to the Head-End System (HES).

December 2024

RAKwireless introduced Meshtastic Designer, a browser-based tool for customizing WisBlock-based Meshtastic devices. This platform guides users through module selection, ensuring compatibility, and offers 3D visualization of designs. Developed with Infinitive, it streamlines IoT project development from concept to production, enhancing efficiency and reducing errors.

October 2022

IIIT Hyderabad and Silicon Labs launched a campus-wide Wi-SUN network to support smart city research and IoT solutions. The initiative aims to convert 100 campus streetlights into smart nodes, creating a dense, self-healing mesh network for applications like energy monitoring and environmental sensing.

AI-Driven Network Optimization

AI implementation is transforming WMNs by facilitating self-healing features and smart traffic control. These innovations enable networks to adapt dynamically to evolving conditions, minimize latency, and optimize performance, guaranteeing seamless connectivity in complex environments, thus pushing the growth of the wireless mesh network market.

Wi-Fi 7 Adoption

The development of Wi-Fi 7 is further promoting WMN performance through capabilities such as Multi-Link Operation (MLO) and 320MHz channel bandwidth. Technologies such as Netgear Orbi 870 and Amazon's Eero Pro 7 take advantage of these features to enable faster and more reliable connections, catering to the increased need for wireless high-speed communication.

Edge AI Integration

The integration of edge AI into WMNs supports real-time data processing within network nodes, lowering latency and bandwidth consumption. Qualcomm's Networking Pro A7 Elite platform is a great example of this trend, boosting connectivity and performance for home and enterprise networks, thereby helping to create new trends in the wireless mesh network market.

Industrial and Outdoor Applications

There is increasing interest in using rugged, weather-resistant WMN solutions for industrial automation and outdoor IoT use cases. The networks offer long-range wireless connectivity with high reliability in difficult environments to enable smart infrastructure and industrial automation.

Wireless Mesh Network Market Trends

One of the new trends in the wireless mesh network industry is the adoption of Wi-Fi 7 technology, which greatly increases network capacity, speed, and reliability. Wi-Fi 7 is a next-generation standard that offers broader channels and multi-link capabilities, supporting real-time data transmission in dense settings such as stadiums and industrial areas, thereby shaping new trends in the wireless mesh network market.

The other significant trend is the use of decentralized mesh networks for disaster relief and emergency communication. These networks offer robust, quickly deployable connectivity in infrastructure-damaged areas with no interruption in communication. Governments and international NGOs are increasingly investing in such systems to back humanitarian operations, particularly in natural-disaster-prone areas. These trends reflect how mesh networks are developing to serve complex connectivity needs across different sectors.

Wireless Mesh Network Industry Segmentation

The EMR’s report titled “Wireless Mesh Network Market Report and Forecast 2025-2034” offers a detailed analysis of the market based on the following segments.

Market Breakup by Radio Frequency

• Sub 1 GHz Band
• 2.4 GHz Band
• 4.9 GHz Band
• 5 GHz Band

Market Breakup by Application

• Home Networking
• Video Surveillance
• Disaster Management and Rescue Operations
• Medical Device Connectivity
• Traffic Management

Market Breakup by Architecture

• Infrastructure
• Hybrid
• Client

Market Breakup by End Uses

• Education
• Government
• Healthcare
• Hospitality
• Mining
• Oil and Gas
• Transportation and Logistics
• Smart Cities and Smart Warehouses
• Others

Market Breakup by Region

• North America
• Europe
• Asia Pacific
• Latin America
• Middle East and Africa

Wireless Mesh Network Market Share

The market is growing steadily in various radio frequency bands, each catering to specific connectivity demands. As per the wireless mesh network market analysis, the Sub 1 GHz band is increasingly being used for rural rollouts and long-range use cases. Its improved penetration and coverage capabilities make it suitable for smart farming, remote infrastructure monitoring, and environments with physical obstructions.

The 2.4 GHz band remains the most popular for its universal compatibility with a wide range of IoT devices. It provides an optimal compromise of range and speed, making it ideal for smart city infrastructure, industrial automation, and home networking. Its mature ecosystem facilitates smooth integration and consistent performance in high-density environments.

According to the wireless mesh network industry analysis, increased frequencies such as the 4.9 GHz and 5 GHz bands are finding acceptance in bandwidth-intensive and latency-sensitive use cases. These bands provide high-speed data transmission and reduced interference, making them appropriate for surveillance networks, smart campuses, and mission-critical communications. With increasing demands for wireless infrastructure that is reliable and scalable, the versatility of mesh networks to support operation over multiple bands is becoming crucial.

Competitive Landscape

Leading wireless mesh network market players are concentrating on increasing network robustness, scalability, and low-latency capabilities. They are creating AI-based and software-defined mesh solutions to enable dynamic routing and smooth connectivity. Wireless mesh network companies are also targeting increasing IoT and smart city deployment support through flexible frequency band compatibility. In addition, open-source platform partnerships and bespoke hardware collaborations are facilitating faster deployment and innovation, mirroring a strategic evolution toward user-controlled, decentralized network solutions across multiple industrial and city-scale applications.

Cisco Systems, Inc.

Cisco Systems, Inc., established in 1984 and headquartered in the United States, offers wireless mesh network solutions under its Cisco Industrial Wireless series. These include ruggedized access points and mesh-enabled routers designed for mission-critical applications in industrial, enterprise, and smart city environments, emphasizing secure and scalable connectivity.

Rajant Corporation

Rajant Corporation, founded in 2001 and based in the United States, provides its signature Kinetic Mesh® wireless network. It offers real-time, mobile-enabled, self-healing mesh networks tailored for mining, defense, oil & gas, and public safety applications, ensuring continuous, low-latency communication in highly dynamic operational settings.

Concentris Systems LLC

Concentris Systems LLC, headquartered in the United States and founded in 2003, specializes in scalable wireless mesh networking platforms. Its offerings are optimized for municipal broadband, industrial automation, and utility grid networks, providing adaptive routing and resilient connectivity through self-forming, self-healing architectures.

Hitachi Energy Ltd

Hitachi Energy Ltd, formed in 2020 and based in Switzerland, delivers wireless mesh networking solutions through its TRO600 series. These devices support multi-radio, multi-band operations with advanced cybersecurity, targeting utilities, transportation, and energy sectors for reliable communication in digital grid and critical infrastructure applications.

Other key players profiled in the wireless mesh network market include Cambium Networks, Ltd., among others.
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