Edge gateways​ Market | Latest Analysis, Demand Trends, Growth Forecast

Edge gateways Market demand is concentrated in industrial sites, utilities, transport hubs, and distributed enterprise networks

Industrial automation, smart utilities, logistics, oil and gas, telecom edge sites, healthcare facilities, and retail chains account for most installed demand for edge gateways. In 2026, the Edge gateways Market is estimated at about USD 2.5 billion globally for IoT gateway-class hardware and related embedded edge connectivity units, with industrial IoT edge gateway demand forming a larger specialized submarket near USD 4.4 billion when ruggedized industrial, protocol-conversion, and local compute gateway systems are included. The difference is important: factory, grid, and transport gateways are not simple routers; they connect PLCs, sensors, meters, cameras, machine controllers, robots, and cloud platforms while filtering data locally.

The customer base is also uneven. Manufacturing and process industries represent roughly 35–40% of gateway demand, utilities and energy networks 18–22%, transportation and logistics 12–15%, building automation and retail 10–13%, and healthcare, public infrastructure, and other enterprise use cases the balance. Industrial demand is expanding because plants are installing more sensors but cannot send every data stream directly to the cloud. Gateways sit between operational technology and IT networks, handling Modbus, Profinet, OPC UA, EtherCAT, CAN, BACnet, MQTT, and cellular or Ethernet backhaul.

Edge gateways Market demand is shifting from connectivity hardware to local compute and protocol intelligence

The clearest demand shift is from basic connectivity boxes toward gateways with embedded Linux, container support, cybersecurity modules, AI inference capability, 5G/LTE, Wi-Fi 6/7, and time-sensitive networking. Industrial buyers now expect a gateway to manage device onboarding, local analytics, data compression, machine health monitoring, and secure cloud connection.

This is why the Edge gateways Market is tracking broader industrial edge investment rather than only IoT device growth. The industrial edge market is estimated to rise from about USD 21.19 billion in 2025 to USD 44.73 billion by 2030, implying a 16.1% CAGR. Gateway demand benefits because each deployment of edge servers, machine vision systems, digital twins, and predictive maintenance software needs field-level data aggregation before higher-level analytics can function.

Private 5G is another demand accelerator. Private 5G infrastructure spending is projected to grow from USD 3.86 billion in 2025 to USD 17.55 billion by 2030, with low-latency industrial communication as the main driver. For edge gateways, the impact is direct: factories, mines, ports, airports, and refineries require industrial gateways that bridge machines, sensors, AGVs, cameras, and private cellular networks.

A practical example came in June 2025, when Verizon Business and Nokia secured a contract to deploy private 5G across the United Kingdom’s Thames Freeport, including DP World London Gateway, Port of Tilbury, and Ford’s Dagenham site. The corridor covers 34 km and supports a multibillion-dollar operational transformation. Such port and automotive logistics projects increase demand for edge gateways because cranes, vehicles, cameras, access systems, energy assets, and yard equipment must exchange low-latency operational data locally before cloud synchronization.

Manufacturing customers account for the strongest Edge gateways Market pull in China, Germany, the United States, Japan, and South Korea

Manufacturing remains the largest customer group because gateways are deployed close to production lines, CNC machines, industrial robots, compressors, pumps, test equipment, packaging systems, and quality-control cameras. Demand is strongest in countries with dense automation bases and active factory digitization: China, Germany, the United States, Japan, South Korea, Taiwan, and increasingly India.

China has the largest volume opportunity because its industrial base combines electronics manufacturing, automotive, machinery, chemicals, steel, batteries, and logistics. In July 2024, China’s State Council Information Office stated that the country had established 30,000 5G virtual private networks, 300 5G factories, and more than 13,000 “5G plus industrial internet” projects. This directly supports Edge gateways Market demand because factory 5G networks require machine-side gateways for deterministic connectivity, industrial protocol conversion, remote monitoring, and edge security.

China’s policy direction is also extending the demand runway. The country’s upgraded “5G + industrial internet” program targets 10,000 5G-enabled factories by 2027. That creates a multi-year pull for gateways used in production lines, warehouse automation, smart inspection, energy monitoring, and equipment maintenance.

The United States is a high-value demand geography, although not always the highest-volume market. U.S. gateway demand is linked to factory reshoring, semiconductor fabs, data-center energy systems, smart buildings, oil and gas monitoring, and grid modernization. Large industrial users tend to buy higher-spec devices with stronger cybersecurity, ruggedization, and certification requirements. In October 2024, the U.S. Department of Energy announced nearly USD 2 billion in grants for 32 grid resilience projects across 42 states, including protection for about 950 miles of transmission lines. Grid hardening projects increase the need for edge gateways in substations, distributed energy resources, fault detection, remote switching, and field telemetry.

Germany, Japan, and South Korea are quality-driven markets. Demand is less about very large device volumes and more about deterministic control, machine safety, predictive maintenance, and integration with high-value factory equipment. Automotive plants, robotics suppliers, semiconductor equipment makers, and precision machine tool users are important customers. In these countries, edge gateways are often purchased as part of automation architectures rather than as standalone networking hardware.

Utilities, smart meters, and distributed energy assets are widening the Edge gateways Market customer base

Utilities are becoming one of the most stable demand groups for edge gateways. Smart meters, substations, solar farms, battery storage systems, EV charging networks, and distribution automation assets all require local data aggregation and secure communication. Gateways are used where utilities need to collect meter data, detect outages, manage feeders, monitor transformers, and coordinate distributed energy resources.

India is a large example of utility-led gateway demand. The Revamped Distribution Sector Scheme set a target of 250 million prepaid smart consumer meters, along with feeder and distribution transformer metering. As of December 2025, India’s Ministry of Power reported that 5.28 crore smart meters had been installed across schemes. This scale matters for the Edge gateways Market because AMI networks need neighborhood-level and substation-level gateway infrastructure to aggregate meter data, manage communication gaps, and support utility analytics.

The utility segment also changes the technical specification of gateways. Compared with factory gateways, grid gateways require longer operating life, remote firmware management, secure key storage, cellular or RF mesh connectivity, and resistance to outdoor temperature and voltage fluctuations. In regions with weak communication coverage, gateways become more important because they buffer data locally and reduce communication failure between meters, feeders, substations, and central systems.

Europe is adding another demand channel through distributed edge infrastructure. The EU’s Digital Decade objective targets at least 10,000 climate-neutral, highly secure edge nodes by 2030, and 2,257 edge nodes were already deployed in the EU in 2024. This supports enterprise and industrial edge deployments across manufacturing clusters, ports, cities, and energy networks. Gateways are required at the lower layer of this architecture because field equipment still needs secure and low-latency access to edge nodes.

Customer concentration by geography shows Asia-Pacific leading volume while North America and Europe lead value per deployment

Asia-Pacific accounts for the largest shipment opportunity in the Edge gateways Market, estimated at roughly 38–42% of 2026 demand. China leads on factory networks, electronics production, battery manufacturing, and smart infrastructure. Japan and South Korea contribute through robotics, automotive electronics, semiconductor fabs, and high-reliability industrial automation. India is moving faster in utilities, smart factories, logistics parks, metro rail, renewable energy, and public infrastructure.

North America represents about 28–32% of market value because gateway ASPs are higher. Buyers in the U.S. and Canada usually require cybersecurity compliance, industrial certifications, cloud integration, and long lifecycle support. Demand is concentrated in manufacturing, oil and gas, grid automation, logistics, healthcare, and data-center infrastructure. The U.S. CHIPS-related semiconductor fab buildout also indirectly supports edge gateway demand because fabs use dense facility automation, power monitoring, gas systems, HVAC controls, water treatment, and predictive maintenance networks.

Europe contributes around 22–25% of demand value, led by Germany, the United Kingdom, France, Italy, the Netherlands, and Nordic markets. Germany’s industrial automation base creates steady pull from machine builders and automotive plants. The United Kingdom is seeing private 5G and port automation projects, while the Netherlands and Belgium benefit from logistics, ports, smart grid, and industrial energy systems.

Edge gateways Market growth is tied to customers that need fast local decisions, not only more connected devices

The strongest growth is coming from applications where latency, uptime, cybersecurity, and data cost matter. Machine vision quality checks, AGV fleet coordination, power fault detection, cold-chain monitoring, clinical device connectivity, rail signaling assets, and remote oilfield equipment cannot rely only on cloud round trips. A gateway that filters data locally, runs AI inference, and sends exceptions instead of raw streams reduces network load and improves response time.

By 2030, the Edge gateways Market is likely to remain hardware-led in unit terms, but software-managed gateways will capture more value. Subscription device management, security updates, container orchestration, and cloud connectors are becoming part of gateway procurement. Industrial buyers are expected to favor rugged gateways with multi-protocol support, TPM-based security, 5G/LTE fallback, and support for edge AI workloads. The market is therefore moving from simple connectivity demand toward distributed operational intelligence, with manufacturing, utilities, ports, logistics, and energy networks forming the most concentrated customer base.

Edge gateways Market technology stack is moving from protocol conversion to edge AI, secure orchestration, and private-network integration

Technology evolution is highly relevant in the Edge gateways Market because the product is no longer purchased only as a bridge between field devices and cloud dashboards. In industrial, utility, logistics, and building automation environments, gateways are becoming small compute nodes with protocol translation, device authentication, data filtering, local storage, AI inference, and remote lifecycle management. Hardware still represents the largest revenue pool, with industrial IoT gateway hardware estimated at about 65% of 2025 demand, but software, edge management, and cloud-based gateway orchestration are growing faster as customers shift from one-time device installation to managed industrial edge architectures. MQTT held roughly 30–35% of protocol-support demand in 2025, while OPC UA is expanding faster because factories need vendor-neutral interoperability between PLCs, SCADA systems, MES layers, and analytics platforms.

The first major shift is from simple data forwarding to selective local decision-making. In older installations, gateways collected data from machines and passed it upstream. In newer deployments, they perform rule-based filtering, data normalization, local anomaly detection, and predictive maintenance triggers before data reaches the cloud. This matters in plants where thousands of sensors generate continuous vibration, temperature, pressure, current, image, and cycle-time data. Sending all raw streams to cloud infrastructure increases bandwidth cost and creates latency. Edge gateways reduce that load by sending exceptions, compressed summaries, or selected time-series packets.

Another shift is the convergence of industrial gateway and edge computer. Vendors now position many gateways as ruggedized compute platforms that support Linux, containerized applications, embedded security, and integration with industrial edge platforms. Siemens’ SIMATIC IOT2050, for example, is positioned as a smart IoT gateway that connects IT, production, and cloud systems while processing and harmonizing machine data on site. Siemens also highlights its role in retrofitting existing plants without changing current control hardware, which is important because brownfield factories remain a larger addressable base than fully new smart factories.

Edge gateway architecture is being shaped by 5G, TSN, OPC UA, MQTT, and cybersecurity requirements

Connectivity is no longer limited to Ethernet and serial ports. Hybrid wired-plus-wireless gateways are gaining share because factories, warehouses, ports, and utilities need to connect both fixed assets and mobile equipment. Wireless connectivity represented about 55–60% of industrial IoT gateway connectivity demand in 2025, while hybrid connectivity is growing faster because most facilities combine legacy wired networks with Wi-Fi, LTE, private 5G, LoRaWAN, and Ethernet backhaul.

Private 5G adds another layer to the Edge gateways Market. Gateways are needed to connect PLCs, cameras, AGVs, AMRs, smart meters, sensors, and industrial handheld devices to cellular networks. Time-Sensitive Networking is also becoming relevant where machine control, motion systems, and deterministic communication are involved. Industrial communication spending is projected to rise from USD 20.45 billion in 2025 to USD 26.06 billion by 2030, supported by 5G, TSN, edge computing, and AI-driven analytics. Gateway suppliers benefit because these technologies require field-level hardware that can translate protocols, secure endpoints, and manage data flows between operational technology and IT systems.

Cybersecurity is becoming a product-selection factor, not an optional feature. Customers increasingly expect TPM-based device identity, secure boot, encrypted communication, role-based access, VPN support, certificate management, and remote patching. This is especially visible in utilities, water systems, transport infrastructure, semiconductor fabs, and energy assets where gateways connect operational equipment to enterprise networks. Security requirements also influence replacement cycles: older gateways without modern firmware support or secure remote management become operational risk points.

Edge AI is still a selective use case, but it is changing premium gateway specifications. Machine vision inspection, acoustic monitoring, worker safety analytics, power-quality monitoring, and pump or motor diagnostics require local inference close to the asset. As industrial automation moves toward software-defined automation and edge AI beyond only vision use cases, gateways with higher CPU/GPU/NPU capability, container support, and industrial data pipelines gain relevance. Industrial DataOps and unified namespace architectures are also pushing gateway demand because factories need structured data from multiple control systems before analytics platforms can deliver value.

Edge gateways Market segmentation highlights by technology, deployment, and end-use fit

• By hardware type: rugged industrial gateways lead demand because manufacturing, utilities, oil and gas, and transportation require wide-temperature operation, DIN-rail mounting, shock resistance, and long lifecycle support.
• By connectivity: wireless gateways hold a larger share in distributed assets, while hybrid wired-wireless gateways are growing fastest in brownfield factories, ports, and smart infrastructure.
• By protocol: MQTT is widely used for lightweight IoT messaging, while OPC UA is gaining faster adoption in industrial automation because of structured data exchange and interoperability.
• By application: predictive maintenance accounts for an estimated 25–30% of industrial IoT gateway application demand, supported by vibration monitoring, motor diagnostics, compressor analytics, and production-line uptime programs.
• By deployment: cloud-managed gateway fleets are expanding as enterprises need centralized provisioning, firmware updates, security policy enforcement, and device health monitoring.
• By customer type: discrete manufacturing, process industries, utilities, logistics, smart buildings, retail chains, telecom edge sites, and healthcare facilities form the main buyer groups.

Production-side geography depends on electronics manufacturing depth, automation suppliers, and embedded hardware ecosystems

The Edge gateways Market production base is concentrated around countries with strong embedded computing, industrial automation, electronics manufacturing services, and networking hardware ecosystems. Taiwan, China, Germany, the United States, Japan, and South Korea are the most important supply-side geographies, with Singapore, Malaysia, and parts of Eastern Europe supporting assembly, EMS, and regional customization.

Taiwan has a major role because several gateway and embedded computing suppliers are based there or manufacture through Taiwanese ODM/EMS networks. Advantech is one of the most visible players in industrial IoT gateways, embedded platforms, and edge computing systems. The company describes its industrial IoT edge gateways as devices that bridge edge equipment and cloud systems while functioning as protocol converters, data collectors, or data loggers. In May 2025, Advantech announced its COMPUTEX 2025 “Edge Computing & WISE-Edge in Action” program, focused on AI edge computing, industrial protocol gateways, embedded platforms, and customer applications. This reinforces Taiwan’s position as a design and production hub for gateway-class hardware used in industrial and enterprise edge deployments.

China is the largest assembly and component-integration base. Gateway production in China benefits from PCB assembly scale, enclosure manufacturing, connector supply, telecom hardware production, and cost-efficient EMS capacity. Chinese suppliers serve domestic smart manufacturing, smart grid, transportation, and city infrastructure demand, while also exporting gateway products through industrial automation and networking brands. However, export-sensitive customers in North America, Europe, and Japan often require cybersecurity assurance, supply-chain documentation, firmware transparency, and long-term software support, which can shift part of sourcing toward Taiwan, Europe, or the United States.

Germany is important on the premium industrial automation side. Siemens, Phoenix Contact, Weidmüller, WAGO, Bosch Rexroth, and other automation ecosystem players connect gateway demand with PLCs, industrial PCs, control cabinets, safety systems, and factory software platforms. German production dynamics are less about low-cost volume and more about industrial reliability, integration with automation systems, and lifecycle support. The Siemens Industrial Edge ecosystem also shows how gateway hardware is becoming part of a broader software and data architecture. In April 2026, Siemens announced that its Industrial Information Hub would be available on ARM-based devices such as SIMATIC IOT2050, with LTE-based wireless networking planned for future release. This kind of development supports lower-power and distributed edge applications where permanent power or wired connectivity may not always be available.

The United States remains a high-value design, software, and application-integration market. U.S. companies and operations influence gateway specifications in cybersecurity, cloud integration, ruggedization, and industrial compliance. Dell, Cisco, HPE, Digi International, Rockwell Automation, and smaller industrial IoT specialists participate in different layers of the OEM ecosystem, from edge computing platforms and networking hardware to device management and industrial connectivity. U.S. manufacturing is stronger in high-reliability, defense, energy, and critical infrastructure applications than in mass low-cost gateway assembly.

Japan and South Korea contribute through factory automation, robotics, automotive electronics, semiconductor fabs, and high-reliability components. Production dynamics in these countries are tied to quality-sensitive industrial customers. Gateway adoption is often embedded into larger automation systems, robotics cells, inspection platforms, and facility control networks rather than bought as generic IoT hardware.

Overall OEM ecosystem is layered across silicon, modules, ODMs, automation brands, and system integrators

The Edge gateways Market OEM ecosystem has four main layers. The first layer is silicon and module suppliers, including processor vendors, wireless module makers, Ethernet chipset suppliers, memory providers, security IC vendors, and power-management component suppliers. ARM-based processors dominate many compact gateways because of power efficiency, while x86 platforms are used where higher compute capability or software compatibility is needed.

The second layer includes board, embedded computer, and ODM suppliers. These companies design carrier boards, I/O expansion, rugged enclosures, thermal systems, and cellular or Wi-Fi integration. Taiwan and China are especially strong in this layer.

The third layer consists of branded industrial gateway OEMs such as Siemens, Advantech, Moxa, HMS Networks, Digi International, Cisco, Phoenix Contact, Teltonika Networks, WAGO, and Dell Technologies in selected edge infrastructure use cases. These firms differentiate through industrial certifications, lifecycle support, protocol libraries, cybersecurity, cloud connectors, and channel reach.

The fourth layer is system integration. Automation integrators, telecom operators, utility contractors, smart-building integrators, and cloud partners install and manage gateway fleets. This layer is becoming more influential because buyers increasingly want deployment-ready architectures rather than standalone hardware. As a result, competitive advantage in the Edge gateways Market is shifting from device specifications alone toward validated ecosystem compatibility, remote management, cybersecurity assurance, and integration with industrial edge software.

Edge gateways Market competition is fragmented across industrial automation, networking, and embedded-computing OEMs

The Edge gateways Market does not have one simple competitive map because vendors enter from different product histories. Siemens, Advantech, Moxa, HMS Networks, Digi International, Cisco, Teltonika Networks, Dell Technologies, HPE, Schneider Electric, ABB, Rockwell Automation, Huawei, Eurotech, and ADLINK compete across different gateway classes. Some are stronger in industrial protocol conversion, some in cellular routing, some in automation cabinets, and others in edge compute infrastructure. This creates a medium-concentration market: the broader IoT gateway market is estimated at USD 2.49 billion in 2026 and is projected to reach USD 4.51 billion by 2031 at 12.61% CAGR, while industrial IoT gateway demand forms a more specialized high-value segment inside it.

Market share should be read by segment, not as a single global ranking. In broad IoT gateway devices, Cisco is reported as a leader with more than 31% share in 2025, while Cisco, Sierra Wireless/Semtech, Digi International, Teltonika Networks, Cradlepoint/Ericsson, and Lockheed Martin together represented about 46% of 2025 share. That ranking is weighted toward networking and cellular gateway devices. In industrial IoT edge gateway applications, the competitive field shifts toward Siemens, Advantech, Moxa, HMS Networks, Cisco, Digi, Dell, HPE, Schneider Electric, ABB, Rockwell Automation, Huawei, Eurotech, and ADLINK.

Advantech, Siemens, Moxa, and HMS Networks lead in industrial gateway depth

Advantech is one of the most relevant manufacturers in the Edge gateways Market because of its industrial embedded-computing base, Taiwan-centered hardware ecosystem, and large catalog of IoT edge gateways. The company positions its industrial IoT edge gateways as devices that bridge edge equipment and cloud systems, acting as protocol converters, data collectors, or data loggers. Its UNO gateway and edge computer series is used in factory automation, outdoor and roadside applications, in-cabinet installations, and industrial monitoring environments. Advantech’s UNO-2271G V3, launched in November 2024, is described as a compact IoT gateway using an Intel Atom x7211RE processor for Industry 4.0 applications, real-time data analytics, remote monitoring, predictive maintenance, and production optimization.

Siemens competes from the automation architecture side. SIMATIC IOT2050 is its most visible gateway-class product for making new or existing plants IIoT-ready. Siemens describes the device as a smart IoT gateway that acquires, processes, and harmonizes machine data on site while linking production systems with IT, cloud, and Industrial Edge solutions. Its advantage is not just the box; it is integration with SIMATIC automation, Industrial Edge software, plant data infrastructure, and brownfield retrofit use cases. This gives Siemens strong positioning in Europe, automotive plants, machine builders, and factories already using Siemens automation layers.

Moxa is stronger in industrial connectivity, rugged networking, and remote infrastructure. Its IIoT gateway family is designed for sensor-to-cloud applications and harsh industrial environments. Moxa’s cloud-ready IIoT edge gateways are positioned for solar power, wind power, water and wastewater, oil and gas, and factory automation. The company’s ThingsPro software supports Modbus and MQTT/HTTPS protocols and built-in connectivity to AWS and Azure. This makes Moxa relevant in distributed infrastructure where the gateway must survive field conditions rather than sit only inside a clean factory control cabinet.

HMS Networks, through its Ewon product line, holds a strong niche in remote machine connectivity and industrial data access. Ewon Flexy 205 is a multipurpose IIoT data gateway used by machine builders and equipment users to monitor, collect KPIs, support predictive maintenance, and gather data from PLCs, sensors, and other devices. It supports industrial protocols including OPC UA, which is important for machinery OEMs that need secure remote troubleshooting and service-based business models.

Networking-led manufacturers influence Edge gateways Market share in cellular and critical infrastructure deployments

Cisco’s position is strongest where edge gateways overlap with industrial networking, secure routing, and edge compute. Cisco IC3000 Industrial Compute Gateway is positioned for edge computing, capturing data from distributed devices such as traffic cameras, industrial robots, and oil and gas pipelines, while sending only relevant data to applications. Cisco also promotes industrial IoT networking with IOx for running applications at the industrial edge across routers, switches, and compute modules. This supports its higher share in broad IoT gateway devices and enterprise-grade industrial networking.

Digi International is important in cellular industrial gateways, remote equipment monitoring, and infrastructure connectivity. Digi IX20 is a full-featured industrial 4G LTE router for industrial routing and security, managed through Digi Remote Manager. Digi IX30 is designed for critical infrastructure and industrial applications; the company describes it as suitable for distribution automation, remote machine and sensor monitoring, oil and gas production, water utilities, smart cities, and outdoor signage. This makes Digi more visible in North America and distributed asset monitoring than in factory automation cabinet ecosystems.

Teltonika Networks competes in compact industrial cellular gateways and cost-effective M2M connectivity. Its gateway catalog supports LTE-M, NB-IoT, and 5G, while bridging Modbus with RS232, RS485, and Ethernet interfaces. The TRB246 industrial 4G LTE gateway includes I/Os, RS232, RS485, Ethernet, dual SIM, and protocols such as DNP3, DLMS, and Modbus. Teltonika also positions TRB142 and TRB145 for smart grid and oil and gas pipeline communication, which gives the company relevance in energy, utilities, construction, agriculture, and industrial monitoring.

Edge gateways Market share by player group

Player group	Indicative Edge gateways Market position	Main strengths
Cisco, Cradlepoint/Ericsson, Sierra Wireless/Semtech, Digi, Teltonika	High share in cellular and networking gateway devices	Secure routing, cellular backhaul, enterprise network integration
Siemens, Advantech, Moxa, HMS Networks	Strong share in industrial IoT edge gateway deployments	PLC connectivity, rugged gateways, protocol conversion, machine data access
Dell, HPE, Eurotech, ADLINK	Selective share in edge compute and embedded gateway platforms	Higher compute, industrial PCs, modular embedded systems
Schneider Electric, ABB, Rockwell Automation, Phoenix Contact, WAGO	Strong in automation-adjacent gateway demand	Control cabinets, power systems, factory automation, utility networks

The Edge gateways Market is therefore not dominated by one product class. Cisco has measurable leadership in broad IoT gateway devices, but industrial gateway share is distributed across automation OEMs and rugged embedded-computing vendors. Advantech, Siemens, Moxa, and HMS Networks are more visible where protocol conversion, brownfield factory integration, and industrial lifecycle support are decisive.

Recent industry developments linked to gateway demand

• November 2024: Advantech introduced the UNO-2271G V3 compact IoT gateway with Intel Atom x7211RE processor, aimed at Industry 4.0, factory data collection, remote monitoring, and predictive maintenance applications.
• April 2026: Siemens expanded its Industrial Edge ecosystem by making Industrial Information Hub available on ARM-based devices such as SIMATIC IOT2050, strengthening low-power distributed edge use cases.
• 2025–2030: The industrial edge market is projected to grow from USD 21.19 billion to USD 44.73 billion at 16.1% CAGR, supporting demand for managed gateway fleets, edge software, and industrial data pipelines.
• 2026–2031: The IoT gateway market is projected to rise from USD 2.49 billion to USD 4.51 billion, keeping cellular, industrial, and embedded gateway vendors in expansion mode.