WIRELESS NETWORK TEST EQUIPMENT MARKET KEY INSIGHTS:

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The Wireless Network Test Equipment Market Size was valued at USD 4.56 Billion in 2023 and is expected to reach USD 8.47 Billion by 2032 and grow at a CAGR of 7.2% over the forecast period 2024-2032.

The Wireless Network Test Equipment Market is fast growing with rising dependence on wireless technologies in industry after industry. The category includes all devices and tools intended to test, analyze, and optimize the performance of wireless networks including cellular, Wi-Fi, Bluetooth, as well as emerging 5G networks. These tests are a necessity for establishing reliable, efficient, as well as adequately covered networks.

Global mobile data traffic is expected to grow at a healthy pace of 20-30% annually over the next couple of years, then it is likely to drop below 20% as the market becomes mature. This tremendous rise in mobile data usage is partly caused by the shift to 4G and 5G networks, in which 5G users consume much more than their 4G users. Mobile data traffic is expected to hit 163 exabytes per month by 2025. This explosive growth in data usage is due to the need for more wireless network test equipment to ensure performance, stability, and efficiency in high-capacity networks, especially with the growth of 5G technology and IoT devices.

MARKET DYNAMICS

KEY DRIVERS:

• Adoption of 5G Networks Drives Increased Demand for Wireless Network Test Equipment to Ensure Optimal Performance and Coverage

The widespread rollout of 5G networks worldwide is a key driver for the growth of the wireless network test equipment market. 5G technology promises ultra-fast data speeds, low latency, and the ability to connect a massive number of devices, which significantly enhances network efficiency. However, to achieve the desired performance and ensure seamless operation, rigorous testing of 5G infrastructure is crucial. Test equipment plays a very important role in proving in-field network component integrity, adequate coverage, reduced interference, and also signal quality. That in itself is creating much of the demand for these test solutions as more sectors telecommunications, IoT, Industrial Automation, etc., - take 5G rollout off the ground. With more countries and telecom operators moving towards 5G, there is an increasingly stringent need for tools that could optimize network efficiency, reduce downtime, and enhance user experience. Rapid growth in the adoption of 5G therefore drives growth in the market for wireless network test equipment.

• Surge in Mobile Data Traffic and IoT Device Connectivity Boosts Demand for Efficient Wireless Network Test Equipment

This increased demand for network capacity necessitates the advanced testing equipment that would verify and optimize network performance to ensure that networks are capable of handling the surge in data and maintaining quality services. The test solutions for wireless networks are vital in monitoring and troubleshooting IoT network performance, especially in industries such as healthcare, transportation, and manufacturing. In these industries, the need for reliable connectivity cannot be overstated. This trend is expected to persist with the continued growth in the number of connected devices and mobile data usage.

Increased mobile data traffic and IoT connectivity are the key growth drivers behind the wireless network test equipment market. Ericsson Mobility Report estimates that the global mobile data traffic is expected to grow nearly threefold from 2024 to 2032 and reach about 303 exabytes per month by 2032. Of particular interest, data traffic per smartphone is forecasted to double from 19 GB/month in 2024 to 40 GB/month by 2032. Meanwhile, 5G networks are projected to carry 80% of total mobile data traffic by 2032, indicating the demand for highly advanced testing equipment to guarantee network performance and reliability for this exponential growth.

RESTRAIN:

• High Cost of Advanced Testing Equipment Hampers Market Growth, Limiting Adoption Among Smaller Enterprises

The wireless network test equipment market is the high cost of advanced testing solutions, as it limits their adoption, more so among smaller enterprises and new startups. Developing sophisticated testing equipment capable of supporting the intricacies of 5G, IoT, and many other advanced wireless technologies entails a significant investment in research development and production. These high upfront costs prevent smaller companies, or especially those with limited capital, from investing in these devices. This not only forces them to lag on new network demands but limits innovation within the marketplace as well. Thus, the advanced test systems require a heavy capital expenditure for acquisition and maintenance which delays the adoption of the wireless network test equipment to become widespread.

The high cost of advanced wireless network test equipment, at USD 100,000 to USD 500,000 per unit, presents a serious challenge to smaller enterprises to adopt the necessary infrastructure for 5G standalone (SA) networks. In 2023, 30% of mobile operators had fully deployed 5G SA, while 70% used 5G non-standalone systems because the implementation costs were lower. This slow adoption is mainly because of the lack of immediate returns on investment, which limits the growth of the market. Smaller companies, especially in emerging markets, find it difficult to integrate costly testing solutions, which further hampers the overall expansion of the wireless network test equipment market.

KEY SEGMENTATION ANALYSIS

BY EQUIPMENT TYPE

The Drive Test segment holds the largest market share of 27.00% in 2023 within the wireless network test equipment market, it is driven by the growing demand for mobile network performance validation. Drive tests are crucial for optimizing coverage, signal quality, and network capacity, especially for new technologies such as 5G. Keysight Technologies, Anritsu, and Rohde & Schwarz are the companies that have led product developments in this area. For instance, in 2023, Keysight introduced its "PathWave Test Automation" platform, which enhanced drive test capabilities for 5G networks by offering real-time data analytics and network performance evaluation.

The Self-Organizing Networks (SON) Testing segment is witnessing the highest CAGR of 8.91% within the wireless network test equipment market during the forecasted period 2024-2032, need for SON technologies in the optimization of 5G networks is driven by the complexity of modern networks and the necessity of automation. It allows dynamic adjustment of performance, load balancing, and fault management. Leaders in product innovation include Keysight Technologies, Spirent Communications, and Rohde & Schwarz. In 2023, Spirent released "iTest," which combines SON testing for 5G networks and delivers automated network optimization and fault detection.

BY END-USE

The Telecommunication segment dominates the wireless network test equipment market, contributing 46.00% of the revenue in 2023, driven by the rapid expansion of mobile networks, especially driven by the 5G rollout, telecom operators increase their investments in advanced test equipment to optimize network performance while ensuring high-quality service and increasing demand for data. For this, companies like Keysight Technologies, Anritsu, and Rohde & Schwarz are crucial players; they introduce innovative solutions for supporting telecom networks.

The Commercial segment in the wireless network test equipment market is experiencing the largest CAGR of 8.61% during the forecasted period, driven by the growing adoption of advanced wireless technologies across industries. Sectors like retail, healthcare, manufacturing, and transportation are demanding reliable and high-performance networks, hence demanding sophisticated network testing solutions. The companies that are leveraging this growth include Spirent Communications, Keysight Technologies, and Anritsu. Spirent, for example, introduced the "Spirent TestCenter," which allows for high-performance testing of both 5G and IoT networks, supporting commercial enterprises in optimizing their connectivity solutions.

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REGIONAL ANALYSIS

The Asia Pacific region dominated the wireless network test equipment market in 2023, capturing a significant share of the market. While precise figures may vary based on specific reports, it is estimated that the Asia Pacific region holds approximately 32% of the global market share. This dominance is supported by several factors: rapid expansion of 5G networks, a growing number of connected devices, and a strong strategic position for the region as a centre of telecom operators and equipment manufacturers. For instance, China Unicom, in partnership with Huawei, has been one of the key drivers in deploying 5G-A networks, which have reached a downlink speed of up to 10 Gbps and an uplink speed of up to 1 Gbps while also investing in 5G-A pilot networks. This accelerated deployment of advanced networks has greatly increased the demand for wireless network test equipment to ensure seamless integration, coverage, and service delivery.

North America is identified as the fastest-growing region for the wireless network test equipment market, the region is projected to achieve a CAGR of 8.78% from 2024 to 2032. The growth drivers include 5G network expansion, rising demand for advanced wireless testing equipment, and new markets from virtualized networks and private 5G networks. Other key leaders behind the innovation include Keysight Technologies, VIAVI Solutions, and Anritsu Corporation, as they work on AI/ML-integrated testing solutions, next-generation network validation, and optimizing wireless performance in the public and private sectors.

Key Players

Some of the major players in the Wireless Network Test Equipment Market are:

• Anritsu (MT8870A Universal Wireless Test Set, Site Master Cable, and Antenna Analyzer) 

• Keysight Technologies (PathWave Test Automation, UXM Wireless Test Set) 

• Rohde & Schwarz (R&S CMW500 Wireless Communication Tester, R&S TS7124 Radio Network Analyzer) 

• Viavi Solutions (CellAdvisor 5G, T-BERD/MTS 5800 Network Tester) 

• Accuver (XCAL-M, XCAP) 

• Infovista (TEMS Investigation, TEMS Discovery) 

• Teoco (Helix Service Assurance, ASSET Radio Network Planning) 

• Netscout (AirMagnet Spectrum XT, OneTouch AT Network Assistant) 

• CommProve (NetLedge, Insight Analyzer) 

• Empirix (Hammer XMS, E-XMS Analytics) 

• Radcom (Radcom ACE, Network Visibility Solutions) 

• EXFO (FTB-1 Pro Network Tester, LTB-8 Platform) 

• Dingli Corporation (Pilot Pioneer, Pilot Scout) 

• Bird Technologies (SignalHawk Spectrum Analyzer, RF Power Meter) 

• Spirent Communications (Landslide Mobile Core Testing, Vertex Channel Emulator) 

• Airtrace (Airtrace Mobile Platform, Airtrace Analyzer) 

• Fluke Networks (LinkRunner G2, AirCheck G2 Wireless Tester) 

• Digital Lightwave Inc. (NIC (Network Information Computer), OTN Tester) 

• RadioOpt (Nemo Handy, Drive Test Equipment) 

RECENT TRENDS

• In November 2024, Anritsu becomes an OpenROADM test and measurement instrument supplier as a result of this engagement. The company significantly enhances its involvement in optical networking as it strives to develop OpenROADM-compliant advanced testing capabilities for optical networks that could improve multi-vendor optical systems performance. It will help the service providers deliver 5G and other high-capacity network solutions.

• In February 2024, Keysight Technologies introduced a new wireless test platform that will be used in the Wi-Fi 7. This is to provide better test capabilities for the latest technologies that have been promised for Wi-Fi 7. They offer faster speeds and more efficient wireless communication. It aims to assist developers and manufacturers in testing the next generation of Wi-Fi devices and optimize their performance for consumers and enterprises.

• In October 2024, Rohde & Schwarz demonstrated its first RF wireless power tester prototype which is part of the efforts put by the AirFuel Alliance to standardize RF wireless power. This newly designed device will further enable the development of solutions for wireless charging, improving the efficiency and scalability of RF-based power transmission systems in multiple applications, from mobile to IoT devices.