市场调查报告书
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1308725
到2030年毫米波技术市场预测-按产品、组件、频段、许可证类型、最终用户和地区进行的全球分析Millimeter Wave Technology Market Forecasts to 2030 - Global Analysis By Product, Component, Frequency Band, License Type, End User and By Geography |
根据 Stratistics MRC 的数据,预计 2023 年全球毫米波技术市场规模将达到 12.8142 亿美元,2030 年将达到 106.36 亿美元,复合年增长率为 35.3%。
毫米波电磁技术用于电话、汽车和医疗设备等多种产品,以实现更快的无线宽带通信。 它被称为甚高频 (EHF),因为它的波长范围为 1 至 10 mm,并表现出 30 GHz 至 300 GHz 的信号频谱。 此外,毫米波技术还提供了通信传输安全性。 由于对成像设备、网□□络、监视器以及最重要的安全性的需求不断增长,毫米波技术越来越多地应用于医疗保健和航空航天行业。
爱立信表示,预计 2019 年至 2027 年全球 5G 用户数量将激增,从超过 1200 万增加到超过 40 亿。 预计东南亚、东北亚、印度、尼泊尔和不丹的招聘人数最多。
全球毫米波技术市场预计将在预测期内推动增长。 许多城市和国家都要求引入在家工作政策。 BPO 和 IT 行业一直致力于为数千名员工提供更加无缝的在家工作过渡。 然而,这样一来,网路更有可能成为瓶颈。 为了提高吞吐量,用户正在提高其互联网速度。 为了提供尽可能最好的服务,ISP 也在尝试定位全节点并将其拆分。 此外,随着电子设备和连接数量的增加,对带宽的需求也在增加。 随着数据流量需求的增长,网状网路将成为 ISP 的下一个投资选择,以确保速度和访问。
全球毫米波技术市场预计将在预测期内阻碍增长。 毫米波技术的关键条件之一是5G网路的快速部署。 5G网路中使用的毫米波技术将实现更快的通信。 然而,通信范围很短,并且可能被墙壁和建筑物阻挡。 此外,它们还受到空气污染物的影响,并受到电线塔的干扰,这对人、动物和树木产生不利影响。 而且,美国、德国、加拿大、法国等发达国家5G网路的部署,势必会增加对毫米波技术的需求,这将对人、宠物和环境产生负面影响。 这些因素限制了市场的扩张。
全球毫米波技术市场预计将在预测期内推动增长。 毫米波技术正在航空航天和国防工业中找到新的应用。 未来六年将增长的另一个重要应用是卫星通信,预计将使用未分配的 E 和 V 频段频谱。 毫米波在许多军事应用中被用来在存在敌对威胁、导弹制导系统和其他武器的情况下实现安全、不间断的通信。 此外,未分配微波频率的短缺导致许多军事组织进入毫米波技术市场,包括空军研究实验室(AFRL)和国防高级研究计划局(DARPA)。
全球毫米波技术市场预计将在预测期内阻碍增长。 毫米波拓宽了频谱。 然而,直到最近,毫米波频谱才被使用,因为只有少数电子设备可以传输和接收它。 毫米波很难产生和接收,但这些较高频率的更大问题是移动介质。 除了大气和自由空间路径损失之外,另一个重要的挑战是叶片渗透性差。 市场的进一步障碍是物理参数,例如机械共振、散射和非直接视线问题。
毫米波技术市场受到了 COVID-19 大流行的负面影响。 由于世界各地宣布的严格封锁以及随后的供应链中断,毫米波技术市场陷入困境。 市场进入者的安装和扩张计划直接受到影响。 此外,全球疫情的到来也导致多个5G项目的实施推迟。 锁定期间频谱发行和拍卖的暂停是 5G 延迟的原因。 疫情不仅对电子技术产生了重大影响,还对汽车和交通等其他应用领域产生了重大影响,导致这些行业对毫米波技术的需求减少。
预计电信设备部门在预测期内将占据最大的收入份额。 毫米波技术显着提高了频谱带宽和利用率。 毫米波技术的普及彻底改变了电信行业。 但每秒能够传输千兆位数据的毫米波也正在彻底改变第五代 (5G) 蜂窝通信。
预计 24 GHz 至 57 GHz 细分市场在预测期内将以最高复合年增长率扩展。 24GHz 至 57GHz 频段是移动无线电服务最常见的频段。 美国、英国和德国等全球主要经济体的物联网 (IoT) 设备的使用量不断增加,商业和住宅行业对宽带服务以及 5G 连接的需求不断增加,从而导致 24GHz 我们正在关注在~57GHz频段上。 主要市场参与者正在及时投资网路技术的潜在频段。 此外,24GHz至57GHz频段主要用作通信、卫星通信、汽车连接技术等的授权频段。
北美以最大的收入份额引领毫米波技术市场。 该地区技术接受度的不断提高正在推动北美毫米波技术市场的增长。 美国和加拿大被称为新技术的早期采用者。 此外,该地区是许多重要市场参与者的所在地,利用该地区的增长。 因此,这些变量为毫米波技术在该地区的各种应用中提供了机会,从而推动了预测期内的增长。
预计亚太地区在预测期内将以最高的复合年增长率增长。 随着该地区人口稠密且越来越适合使用毫米波技术,用于高速访问数据、电话和其他商品和服务的 5G 网路的部署正在蓬勃发展。 此外,商业和住宅层面对高速网路访问智能应用的需求正在推动毫米波市场的增长。
2023年3月,Sicle与WAV和MBSI WAV签署战略协议。 这些公司是 LTE、无线宽带、光纤、网路和 Wi-Fi 设备的全方位服务分销商。 此次开发将为 Sickle 在 60/70 和 80GHz 频段运行的解决方案提供售前工程、库存管理、网路设计和售后服务。 该服务支持多种应用,例如住宅连接和视频安全。
2022 年 6 月,东京工业大学和 NEC 的研究人员宣布推出适用于 5G 毫米波频段的相控阵波束形成器。 该产品可实现超低延迟通信,数据速率超过 10Gbps,容量大,可容纳多个用户。
2021 年 12 月,该公司将率先提供经过 CTIA 批准的完整 5G 毫米波 OTA(空中下载)测试系统,在实验室环境中验证设备的收发器性能,从而宣布将加速无线连接宽带的部署
According to Stratistics MRC, the Global Millimeter Wave Technology Market is accounted for $1281.42 million in 2023 and is expected to reach $10636.0 million by 2030 growing at a CAGR of 35.3% during the forecast period. Millimeter-wave electromagnetic technology is used in a variety of products, including phones, cars, medical equipment, and others, to enable faster wireless broadband communications. It is referred to as extremely high frequency (EHF) because the signal spectrum it exhibits spans from 30 GHz to 300 GHz with a wavelength range of 1 to 10 mm. Moreover, security in communication transmission is provided by millimeter wave technology. Multimeter wave technology is increasingly being used in the healthcare and aerospace industries due to rising demand for imaging devices, networks, monitors, and, most importantly, security.
According to Ericsson, 5G subscriptions are expected to surge globally between 2019 and 2027, rising from over 12 million to over 4 billion. Subscriptions are predicted to be highest in South East Asia, North East Asia, India, Nepal, and Bhutan.
The global Millimeter Wave Technology market expected to drive growth during the forecast period. It has become necessary to implement work-from-home policies in numerous cities and nations. The BPO and IT industries have worked to implement a more seamless transition for thousands of employees to work from home. The likelihood of a network bottleneck has increased as a result, though. In order to increase throughput, users are increasing their internet speed. To provide the best possible service, ISPs are also attempting to locate full node locations and split them. Additionally, along with the rising number of electronic devices and connections, the bandwidth demand is also increasing. In a world where there is a greater need for data traffic, mesh networks are probably the next investment option for ISPs to ensure speed and access.
The global Millimeter Wave Technology market expected to hinder growth during the forecast period. One of the crucial conditions for millimeter wave technology is the quick deployment of a 5G network. The millimeter wave technology used by the 5G network allows for faster communication. However, due to its short range, it can be obstructed by walls or buildings. Additionally, it is impacted by air pollutants and interfered with by electrical towers, which is bad for people, animals, and trees. Morever, the deployment of 5G networks in developed nations like the U.S., Germany, Canada, and France inevitably raises the demand for millimeter wave technology and is detrimental to people, pets, and the environment. Such elements limit market expansion.
The global Millimeter Wave Technology market expected to drive growth during the forecast period. Millimeter-wave technology is finding new uses in the aerospace and defense industries. Another significant application that is anticipated to expand over the next six years is satellite communication, where it is anticipated that unallocated E- and V-band spectra will be used. For secure and unbroken communication in the presence of hostile threats, missile guidance systems, and other weapons, millimeter wave is used in a number of military applications. Moreover, a number of military organizations, including the Air Force Research Laboratory (AFRL) and the Defense Advanced Research Projects Agency (DARPA), have entered the millimeter wave technology market as a result of the lack of unallocated spectrum in the microwave frequency.
The global Millimeter Wave Technology market expected to hamper growth during the forecast period. The spectrum is expanded by millimeter waves. However, the millimeter-wave spectrum was unused until recently because only a small number of electronic devices could transmit or receive it. Millimeter waves are difficult to produce and receive, but the bigger problem with these high frequencies is the traveling medium. Another important challenge is poor foliage penetration, in addition to atmospheric and free-space path loss. Additionally, the few obstacles for the market are physical parameters like mechanical resonance, scattering, and non-line-of-sight issues.
The market for millimeter wave technology was negatively impacted by the COVID-19 pandemic. The mmWave technology market suffered as a result of the severe lockdowns announced all over the world and the subsequent supply chain disruptions. The installations and expansion plans of the market participants were unintentionally impacted by this. Additionally, the global pandemic's arrival caused a delay in the execution of several 5G projects. The suspension of spectrum issuance and auctioning during the lockdown was the cause of the 5G delay. The pandemic had a significant impact on other application sectors, including automotive and transportation as well as electronics technology, and as a result, these industries saw a decrease in demand for mmWave technology.
During the forecast period, it is anticipated that the telecommunications equipment segment will have the largest revenue share. Spectrum bandwidth and utilization are both significantly increased by millimeter wave technology. The telecom industry has undergone a revolution thanks to the widespread adoption of millimeter-wave technology. However, due to their capacity for gigabit-per-second data transmission, millimeter waves are also revolutionizing fifth-generation (5G) cellular communication.
The 24 GHz to 57 GHz segment is anticipated to expand at the highest CAGR during the forecast period. For mobile radio services, the frequency spectrum bands from 24 GHz to 57 GHz are the most common. Significant economies of the world like the US, the UK, and Germany are turning their attention to the 24 GHz to 57 GHz spectrum bands as a result of the rise in Internet of Things (IoT) device usage around the globe and the rise in demand for broadband services for commercial and residential industry verticals along with 5G connectivity. The potential frequency bands of networking technologies are being invested in by major market players at an opportune time. Moreover, the 24 GHz to 57 GHz frequency range is primarily used for licensed bands and for telecommunication, satellite communication, and automotive connectivity technologies, among other things.
North America was in the lead and contributed the largest revenue share in the millimeter wave technology market. The expansion of technological acceptance in the region is responsible for the growth of the millimeter wave technology market in North America. The United States and Canada are two well-known early adopters of new and developing technologies. Additionally, the area is home to a number of significant market players who are leveraging the area's growth. As a result, these variables open up opportunities for MMW technology in a variety of regional applications, fueling its growth over the forecast period.
During the forecast period, Asia-Pacific is anticipated to grow at the highest CAGR. Due to the high population density in this area, which makes millimeter wave technology more and more suitable for use there, there has been a rapid increase in the deployment of 5G networks for faster access to data, phones, and other goods and services. Moreover, the demand for high-speed networks to access smart applications on a commercial and household level is driving the growth of the millimeter wave market.
Some of the key players in Millimeter Wave Technology market include Avait Networks, Inc., BridgeWave Communications Inc., Denso Corporation, E-Band Communications, LLC , Farran Technology Ltd, FastBack Networks, Fujitsu limited, Keysight Technologies, Inc. , L3 technologies, inc., LightPointe Communications, Inc., Millimeter Wave Products Inc., Mistral Solutions Pvt. Ltd, Mitsubishi Electric Corporation , Mmw biomedical engineering tech , NEC Corporation., QuinStar Technology, Inc., Sage millimeter, inc., Siklu Communication, Ltd, Smiths Group PLC and Trex Enterprises Corporation.
In March 2023, Siklu has made a strategic agreement with WAV and MBSI WAV. These companies are full-service distributors of LTE, wireless broadband, fiber, networking, and Wi-Fi equipment. This development would provide pre-sales engineering, stocking, network design, and post-sales services for Siklu's solutions operating in the 60/70 and 80 GHz bands. This service caters to various applications such as residential connectivity and video security.
In June 2022, Researchers at Tokyo Tech and NEC Corporation have launched a phased-array beamformer for the 5G millimeter wave (mmWave) band. This product enables ultra-low latency in communication along with data rates of over 10 Gbps and a massive capacity to accommodate several users.
In December 2021, The company proclaimed that it is the first to deliver a complete CTIA-authorized 5G mmWave Over-The-Air (OTA) test system for authenticating device transceiver performance in a laboratory environment, speeding up the rollout of wireless connectivity broadband across the US.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.