市场调查报告书
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2024-2032 年按组件、产品、频段、许可证类型、应用和地区分類的毫米波技术市场报告Millimeter Wave Technology Market Report by Component, Product, Frequency Band, License Type, Application, and Region 2024-2032 |
2023年全球毫米波技术IMARC Group规模达26亿美元。由于对高速资料传输的需求不断增长、5G 技术的采用以及对先进成像和扫描解决方案的需求,全球毫米波技术市场正在经历显着增长。
毫米波技术,也称为极高频 (EHF) 技术,涉及透过波长在 1mm 至 10mm 范围内(即频率在 30GHz 至 300GHz 之间)的无线电波传输资料。它利用短波长,实现高速资料传输并增强通讯效能。毫米波技术凭藉其大频宽和高频频谱,可实现更快的网路速度,从而实现大量资料的无缝传输。此外,它还支援先进无线通讯系统的开发,例如5G网络,可提供低延迟和高容量连接。毫米波技术的优势也扩展到自动驾驶汽车、扩增实境和智慧城市基础设施等应用。此外,该技术有两种类型:被动和主动。被动毫米波系统可侦测自然发生的辐射,而主动系统则采用发射器和接收器来产生和接收毫米波讯号。
全球毫米波技术市场受到多种因素的推动,包括对高速资料传输的需求不断增长以及5G技术的日益普及。此外,医疗保健、航空航太和国防等各行业对高解析度成像和扫描技术的需求不断增长,也推动了对毫米波技术的需求。此外,物联网(IoT)设备的激增和对无缝连接的需求正在推动市场成长。此外,在回程网路中越来越多地部署毫米波技术以支援不断增长的资料流量是另一个重要驱动因素。人们对该技术提供高效且经济高效的无线回程解决方案的能力的认识不断提高,以及半导体和通讯技术的进步有利于市场的成长。
对高速资料传输的需求不断增长以及 5G 的日益普及
随着对更快资料传输速率的需求不断增加,毫米波频谱提供了更高频宽的优势,使其成为自动驾驶汽车、虚拟实境和高清视讯串流等应用的理想解决方案。对无缝连接的需求和物联网设备的激增进一步推动了对毫米波技术的需求,从而实现设备之间高效、可靠的通讯。随着5G部署在全球蓬勃发展,毫米波技术市场必将经历大幅成长。
各行业对高解析度成像和扫描技术的需求不断增长
医疗保健、航空航太和国防等各行业对高解析度成像和扫描技术的需求不断增长,是全球毫米波技术市场的重要驱动力。毫米波技术可实现精确、详细的成像,对于医疗诊断工具、安全检查设备和航空航天应用都很有价值。即时撷取高品质影像并提供准确扫描功能对于提高这些行业的安全性和营运效率至关重要。因此,随着组织为各种关键应用寻求先进的成像和扫描解决方案,对毫米波技术的需求不断增加。
增加毫米波技术在回程网路中的部署
为了支援不断增长的资料流量,在回程网路中越来越多地部署毫米波技术,这是全球市场的重要驱动力。随着资料消耗的指数级增长以及对更高资料速度的需求,传统无线网路在满足这些要求方面面临挑战。毫米波技术透过提供高频宽无线回程连接提供了可行的解决方案,从而实现基地台和核心网路之间的高效资料传输。全球电信营运商正在采用毫米波技术来满足其网路的容量和性能需求,为市场的大幅成长铺平道路。
The global millimeter wave technology market size reached US$ 2.6 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 12.5 Billion by 2032, exhibiting a growth rate (CAGR) of 18.5% during 2024-2032. The global millimeter wave technology market is experiencing significant growth driven by the increasing demand for high-speed data transfer, the adoption of 5G technology, and the need for advanced imaging and scanning solutions.
Millimeter wave technology, also referred to as extremely high frequency (EHF) technology, involves the transmission of data through radio waves with wavelengths that fall in the range between 1mm and 10mm, or equivalently, frequencies between 30GHz and 300GHz. It utilizes short wavelengths, enabling high-speed data transmission and enhanced communication performance. With its large bandwidth and high-frequency spectrum, millimeter wave technology facilitates faster internet speeds, enabling the seamless transfer of massive data volumes. Moreover, it supports the development of advanced wireless communication systems, such as 5G networks, which provide low latency and high-capacity connectivity. The advantages of millimeter wave technology also extend to applications like autonomous vehicles, augmented reality, and smart city infrastructure. Furthermore, this technology comes in two types: passive and active. Passive millimeter wave systems detect naturally occurring radiation, while active systems employ a transmitter and receiver to generate and receive millimeter wave signals.
The global millimeter wave technology market is bolstered by a multitude of factors, including the growing demand for high-speed data transfer and the increasing adoption of 5G technology. Additionally, the rising need for high-resolution imaging and scanning technologies in various industries, including healthcare, aerospace, and defense, is boosting the demand for millimeter wave technology. Furthermore, the proliferation of the Internet of Things (IoT) devices and the need for seamless connectivity are fueling the market growth. Moreover, the increasing deployment of millimeter wave technology in backhaul networks to support the growing data traffic is another significant driver. The surging awareness regarding the technology's ability to provide efficient and cost-effective wireless backhaul solutions and the advancements in semiconductor and communication technologies are favoring the market growth.
Growing demand for high-speed data transfer and the increasing adoption of 5G
As the demand for faster data transmission rates rises, millimeter wave spectrum offers the advantage of higher bandwidth, making it an ideal solution for applications like autonomous vehicles, virtual reality, and high-definition video streaming. The need for seamless connectivity and the proliferation of IoT devices further fuel the demand for millimeter wave technology, enabling efficient and reliable communication between devices. With 5G deployment gaining momentum worldwide, the market for millimeter wave technology is set to experience substantial growth.
Rising need for high-resolution imaging and scanning technologies in various industries
The surging demand for high-resolution imaging and scanning technologies in various industries, including healthcare, aerospace, and defense, is a significant driver for the global millimeter wave technology market. Millimeter wave technology enables precise and detailed imaging, making it valuable for medical diagnostic tools, security screening devices, and aerospace applications. The ability to capture high-quality images and provide accurate scanning capabilities in real-time is crucial for enhancing safety, security, and operational efficiency in these industries. Consequently, the demand for millimeter wave technology is increasing as organizations seek advanced imaging and scanning solutions for various critical applications.
Increasing deployment of millimeter wave technology in backhaul networks
The increasing deployment of millimeter wave technology in backhaul networks to support the growing data traffic is a significant driver for the global market. With the exponential growth in data consumption and the demand for higher data speeds, traditional wireless networks face challenges in meeting these requirements. Millimeter wave technology offers a viable solution by providing high-bandwidth wireless backhaul connections, enabling efficient data transfer between base stations and core networks. Telecom operators worldwide are adopting millimeter wave technology to address the capacity and performance needs of their networks, paving the way for substantial market growth.
IMARC Group provides an analysis of the key trends in each segment of the global millimeter wave technology market report, along with forecasts at the global, regional and country levels from 2024-2032. Our report has categorized the market based on component, product, frequency band, license type and application.
Antennas and Transceivers
Amplifiers
Oscillators
Control Devices
Frequency Converters
Passive Components
Others
Antennas and transceivers dominate the market
The report has provided a detailed breakup and analysis of the market based on the component. This includes antennas and transceivers, amplifiers, oscillators, control devices, frequency converters, passive components, and others. According to the report, antennas and transceivers represented the largest segment.
Antennas and transceivers play a crucial role in millimeter wave technology, and their market dominance can be attributed to several factors. With the escalating demand for high-speed data transmission, there's a burgeoning need for antennas and transceivers capable of operating in the high frequency, high data rate millimeter wave spectrum. They are fundamental in enabling 5G networks, which promise superior speed and lower latency. Transceivers facilitate the conversion of these high frequency signals into a format usable by electronic devices, while antennas are essential for signal transmission and reception over these higher frequencies. Furthermore, millimeter wave technology requires a dense network of antennas due to its shorter range and susceptibility to interference, increasing the demand for these components. In other applications, such as security scanning, radar systems, and remote sensing, high-resolution capabilities offered by millimeter wave technology are also driving the need for specialized antennas and transceivers, thereby leading the market.
Telecommunication Equipment
Imaging and Scanning Systems
Radar and Satellite Communication Systems
Services
Telecommunication equipment hold the largest share in the market
A detailed breakup and analysis of the market based on the product has also been provided in the report. This includes telecommunication equipment, imaging and scanning systems, radar and satellite communication systems, and services. According to the report, telecommunication equipment accounted for the largest market share.
Telecommunication equipment is leading the millimeter wave technology market due to the surging demand for high-speed, high-capacity wireless communication. The transition to 5G networks heavily relies on millimeter wave technology to deliver unprecedented speed and lower latency, boosting the need for compatible telecommunication equipment. Millimeter wave technology allows for significantly higher data rates and more simultaneous connections compared to previous generations of mobile networks. This is particularly critical for supporting the growth of IoT, streaming services, virtual and augmented reality, and other data-intensive applications. Moreover, the smaller wavelength of millimeter waves enables more compact antenna design and the deployment of massive MIMO (multiple-input, multiple-output) technology, which uses multiple antennas to improve communication performance.
30 GHz - 57 GHz
57 GHz - 96 GHz
96 GHz -300 GHz
The report has provided a detailed breakup and analysis of the market based on the frequency band. This includes 30 GHz - 57 GHz, 57 GHz - 96 GHz, and 96 GHz -300 GHz. According to the report, 57 GHz - 96 GHz represented the largest segment.
The frequency band between 57 GHz and 96 GHz is leading the millimeter wave technology market due to several key factors. This range, also known as the E-band, offers abundant unlicensed or lightly licensed spectrum, providing a cost-effective solution for wireless communication services. Additionally, the higher frequencies allow for more bandwidth, which translates into faster data rates and higher capacity, critical for high-speed applications such as 5G networks and high-performance computing. These frequencies are particularly beneficial for supporting data-intensive applications like video streaming, virtual reality, and IoT devices. Moreover, these frequencies allow for smaller antenna sizes, leading to more compact and dense network infrastructure, essential for urban areas and indoor usage. Lastly, the signal's shorter range in this frequency band enhances security as it's harder to intercept.
Light Licensed Frequency Millimeter Wave
Unlicensed Frequency Millimeter Wave
Fully Licensed Frequency Millimeter Wave
Fully licensed frequency millimeter wave hold the largest share in the market
A detailed breakup and analysis of the market based on the license type has also been provided in the report. This includes light licensed, unlicensed, and fully licensed frequency millimeter wave. According to the report, fully licensed frequency millimeter wave accounted for the largest market share.
Fully licensed frequency millimeter wave involves the allocation of specific frequency bands within the millimeter wave spectrum through an official licensing process. This approach ensures exclusive access to the allocated spectrum, providing a high degree of control and protection against interference. Fully licensed frequency millimeter wave is often utilized by telecommunications operators for deploying 5G networks and other mission-critical applications. It allows for efficient spectrum management, ensures quality of service, and enables seamless integration with existing cellular infrastructure.
Telecommunication
Military and Defense
Automotive and Transport
Healthcare
Electronics and Semiconductor
Others
Telecommunication dominates the market
The report has provided a detailed breakup and analysis of the market based on the application. This includes telecommunication, military and defense, automotive and transport, healthcare, electronics and semiconductor, and others. According to the report, telecommunication represented the largest segment.
Telecommunication is the largest application of millimeter wave technology due to the escalating demand for high-speed, high-capacity data transmission. Millimeter waves, with their high frequencies, enable faster data rates and higher bandwidth, making them ideal for wireless communication services. The advent of 5G networks, which extensively utilizes millimeter wave frequencies, further accentuates this demand. The shorter wavelengths of millimeter waves also allow the use of smaller antennas, enabling dense, urban deployments and massive MIMO configurations, enhancing network capacity and performance. Moreover, millimeter wave technology can alleviate congestion in lower frequency bands, providing a solution for the growing number of wireless devices and data-intensive applications like video streaming, IoT, and augmented or virtual reality. Despite challenges such as shorter range and susceptibility to environmental interference, the benefits of millimeter wave technology in improving telecommunication services continue to fuel its application in this sector.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
North America exhibits a clear dominance, accounting for the largest millimeter wave technology market share
The report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and Others); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and Others); Latin America (Brazil, Mexico, and Others); and the Middle East and Africa. According to the report, North America accounted for the largest market share.
North America is leading the millimeter wave technology market due to a combination of technological advancements, early adoption, and regulatory support. The region is home to several tech giants and telecommunication companies that are at the forefront of researching and implementing new technologies, including 5G, which relies heavily on millimeter wave technology. Furthermore, the Federal Communications Commission (FCC) in the United States has made significant amounts of millimeter wave spectrum available for licensed and unlicensed use, fostering innovation and deployment in this space. The presence of a robust infrastructure for developing and deploying advanced telecommunications services, combined with a strong emphasis on IoT and smart city initiatives, also contributes to North America's dominance in the millimeter wave technology market.
The global millimeter wave technology market is highly competitive, with several key players competing for market share. These players focus on research and development activities to enhance the capabilities of millimeter wave technology and introduce innovative products. The market is characterized by strategic partnerships, collaborations, and acquisitions, as companies aim to strengthen their market position and expand their product portfolios. Additionally, players strive to establish strong distribution networks and engage in marketing activities to increase their customer base. As the market grows, competition intensifies, driving companies to differentiate themselves through technological advancements, quality, pricing strategies, and customer service. The competitive landscape is dynamic, with players constantly seeking opportunities in emerging regions and industry verticals.
Aviat Networks Inc.
AXXCSS Wireless Solutions Inc.
Farran Technology Ltd.
Fastback Networks Inc.
Keysight Technologies Inc.
L3 Technologies Inc.
Millimeter Wave Products Inc.
Mistral Solutions Pvt. Ltd. (AXISCADES Engineering Technologies Ltd.)
NEC Corporation
Siklu Communication Ltd.
Smiths Group Plc
Vubiq Networks Inc.
In July 2023, NEC Corporation developed generative artificial intelligence (AI) that is customizable for each customer in order to create new value for companies in response to business changes caused by new technologies.
In June 2023, Aviat Networks, Inc. announced a new 11 GHz indoor microwave radio with the highest transmitter power ever supported in the industry, to allow more capacity, longer links and provide operators with an alternative to deploy long distance links without the potential risk of interference in the 6 GHz band.
In June 2023, The U.S. Space Force Space Systems Command awarded L3Harris Technologies approximately $29 million for a sensor payload design contract to deliver a digital model for the medium Earth orbit (MEO) - Missile Track Custody (MTC) Epoch 1 program that will support detecting and tracking hypersonic missiles.