市场调查报告书
商品编码
1379005
2023-2028 年按技术(SIMO、MIMO、MISO)、应用(Wi-Fi 系统、WiMAX 系统、蜂窝系统、雷达系统)和区域分類的智慧天线市场报告Smart Antenna Market Report by Technology (SIMO, MIMO, MISO), Application (Wi-Fi Systems, WiMAX Systems, Cellular Systems, RADAR Systems), and Region 2023-2028 |
2022年全球智慧天线市场规模达58亿美元。展望未来, IMARC Group预计到2028年市场规模将达到95亿美元,2022-2028年复合年增长率(CAGR)为8.6%。对无线通讯服务的需求不断增长、资料密集型应用(例如高清视讯串流)的激增、行动装置的日益普及以及讯号处理技术的进步是推动市场的一些主要因素。
智慧天线是一项复杂的技术,旨在增强无线通讯系统的效能。与传统的固定天线不同,智慧天线能够动态调整其辐射方向图并将其讯号集中在特定方向。这种适应性是透过使用先进的讯号处理演算法和多个天线元件来实现的。它们可以显着提高无线网路的讯号品质、范围和容量。透过选择性地将天线波束转向用户或特定位置,它们可以减少干扰并增强讯号强度,从而提高整体通讯品质。此外,智慧天线可以支援各种无线标准和协议,使其能够用于不同的应用,例如蜂窝网路、Wi-Fi 和卫星通讯。
对无线通讯服务不断增长的需求正在推动全球市场的发展。这一成长主要归功于城市地区的快速扩张、各行业的广泛数位化以及众多企业积极推动智慧城市计画。此外,行动装置的日益普及也加大了对无线通讯解决方案的需求。智慧天线正在成为满足这一需求的关键技术,因为它们有效地增强了无线网路的效能。他们透过优化讯号强度和最大限度地减少干扰来实现这一目标,这使它们成为无线服务提供者的有吸引力的选择。此外,资料密集型应用(例如高清视讯串流)的激增迫切需要更高的资料传输速率。智慧天线可以很好地满足这一要求,因为它们可以透过提高讯号杂讯比和减少干扰来显着提高资料速率。这种优化使得能够在相同的可用频宽内传输更多的资料,从而满足消费者和企业不断变化的需求。此外,讯号处理技术的进步以及经济高效的高效能数位讯号处理器 (DSP) 的普及简化了智慧天线系统的实施。这种可近性进一步促进了全球市场的成长,使智慧天线成为各行业日益可行和有吸引力的解决方案。
5G网路快速扩展
5G技术承诺无与伦比的速度、超低延迟和海量设备连接,但它也在网路覆盖和容量方面提出了重大挑战。智慧天线具有波束成形和波束控制功能,对于应对这些挑战至关重要。它们使网路营运商能够将讯号精确地集中并定向到用户或设备,从而增强覆盖范围、减少干扰并确保高效的频谱利用。随着 5G 在全球范围内的不断部署,对支援该技术的智慧天线的需求必将增加。此外,随着 5G 发展并扩展到毫米波 (mmWave) 等新频段,智慧天线对于确保城市环境及其他环境中的可靠高速连接将变得更加不可或缺。
物联网的不断普及
物联网透过连接越来越多的设备和感测器,正在彻底改变各个产业,包括医疗保健、製造、农业和智慧城市。这些设备通常在不同的频率下运行,需要低功耗,并且需要可靠、低延迟的连接。智慧天线具有处理不同频段和通讯标准的适应性和能力,非常适合满足物联网部署的独特要求。它们可以支援大量同时连接,优化低功耗设备的资料传输,并帮助扩展物联网网路的范围。随着物联网生态系统不断扩大,对实现无缝、高效物联网通讯的智慧天线的需求将会增加,从而推动市场成长。
城市环境中增强连结性的需求
在人口稠密的城市地区,传统的固定天线面临着讯号干扰、高用户密度以及建筑物和基础设施等障碍物的存在等挑战。智慧天线在此类环境中表现出色,因为它们可以动态调整辐射方向图以针对特定用户或区域,从而减轻干扰并优化讯号强度。这项功能对于在世界上大多数人口居住的城市提供可靠、高速的无线服务至关重要。随着智慧城市计画的不断发展,智慧天线将在支援城市基础设施、交通系统、公共安全和其他需要无缝和高效连接的应用方面发挥关键作用。
IMARC Group提供了全球智慧天线市场报告各细分市场主要趋势的分析,以及 2023-2028 年全球、区域和国家层面的预测。我们的报告根据技术和应用对市场进行了分类。
西莫
多输入多输出
味噌
MIMO 主导市场
该报告基于该技术对市场进行了详细的细分和分析。这包括 SIMO、MIMO 和 MISO。根据该报告,MIMO 代表了最大的细分市场。
MIMO 技术在通讯链路的发射机和接收机端均采用多个天线,允许在同一频道上同时传输和接收多个资料流。这项突破性创新彻底改变了资料无线传输方式,从而提高了资料速率、提高了频谱效率并增强了整体效能。当无线讯号在环境中传播时,它们会被障碍物反弹并向各个方向反射,导致讯号衰减和不可预测的讯号强度。 MIMO 透过使用多个天线接收这些反射并将它们建设性地组合起来,利用空间分集,有效减轻多路径干扰的影响。这可以提高讯号可靠性并增加覆盖范围,特别是在具有挑战性的环境中,包括城市地区或室内空间。此外,MIMO 的空间復用能力还具有另一个显着优势:更高的资料速率。透过在同一频道上同时传输多个资料流,MIMO 技术大大提高了有效资料吞吐量。
无线网路系统
WiMAX系统
蜂窝系统
雷达系统
蜂窝系统主导市场
该报告根据应用程式提供了详细的市场细分和分析。这包括 Wi-Fi 系统、WiMAX 系统、蜂窝系统和雷达系统。根据该报告,蜂窝系统代表了最大的部分。
蜂窝系统的特点是能够将地理区域划分为较小的互连小区,每个小区由基地台或小区塔提供服务。这些单元共同创建一个无缝网络,为智慧型手机、平板电脑和物联网感测器等行动装置提供无线连接。蜂窝系统的重要性在于其提供无处不在且可靠的覆盖的能力,使用户能够在移动中或在各种室内和室外环境中保持连接。此外,蜂窝系统已成为各行业的重要组成部分,从医疗保健到交通运输,从农业到智慧城市。医疗保健专业人员依靠蜂窝网路进行远距医疗、远端监控和健康资料传输。交通系统利用蜂窝连接进行车辆对车辆 (V2V) 和车辆对基础设施 (V2I) 通信,有助于互联和自动驾驶车辆的发展。在农业中,基于蜂巢的物联网感测器可实现精准农业,优化资源利用和农作物产量。
北美洲
美国
加拿大
亚太
中国
日本
印度
韩国
澳洲
印尼
其他的
欧洲
德国
法国
英国
义大利
西班牙
俄罗斯
其他的
拉丁美洲
巴西
墨西哥
其他的
中东和非洲
北美表现出明显的主导地位,占据最大的智慧天线市场份额
市场研究报告还对所有主要区域市场进行了全面分析,其中包括北美(美国和加拿大);亚太地区(中国、日本、印度、韩国、澳洲、印尼等);欧洲(德国、法国、英国、义大利、西班牙、俄罗斯等);拉丁美洲(巴西、墨西哥等);以及中东和非洲。报告称,北美占据最大的市场份额。
北美拥有强大且高度发达的电信基础设施。几十年来,该地区一直处于技术进步的前沿,拥有大型电信公司。该基础设施为智慧天线技术的采用和部署提供了坚实的基础,能够无缝整合到现有网路中,并促进向 5G 等新通讯标准的过渡。此外,北美市场的特点是对先进无线技术的高需求。随着精通科技的人口和蓬勃发展的数位经济,人们对更快、更可靠的无线连线有着持续的需求。智慧天线能够提高网路效能、覆盖范围和容量,完美满足该地区消费者、企业和各行业不断变化的需求。此外,北美拥有不断扩大的研发机构、创新新创公司和成熟科技巨头的生态系统。这种环境促进创新并推动尖端智慧天线解决方案的开发。
该公司正在大力投资开发先进的天线技术、讯号处理演算法和整合解决方案,以提高天线性能、效率和适应性。此外,各公司正致力于使智慧天线适应 5G 网路的要求。这涉及优化更高频率、毫米波 (mmWave) 频段和大规模 MIMO 配置的天线设计,以最大限度地发挥 5G 技术的优势。此外,智慧天线公司经常与无线网路供应商、基础设施製造商和晶片组开发商合作,创建无缝融入现有生态系统的整合解决方案。此外,领先企业还提供客製化解决方案和咨询服务,以满足网路营运商和产业的特定需求。这可能包括设计适合特定环境或用例的天线阵列。许多公司都透过开发节能环保的天线解决方案来强调永续性,与全球减少电信基础设施碳足迹的努力保持一致。
阿德特兰公司
空气增益公司
航网通讯公司
Arraycom有限责任公司
英特尔公司
林克斯科技
摩托罗拉解决方案公司
高通公司
狮子山无线
澳洲电信有限公司
德州仪器公司
天宝公司
2023 年 6 月,澳洲电信有限公司推出工业自动化能力,协助澳洲工业转型。 Telstra 的高品质网络,包括 5G、光纤和物联网,可协助企业简化工业 4.0 的复杂性。
2023 年 5 月,Airgain Inc. 推出了 EZConnect (TM) 天线平台,以简化外部天线的订购和安装。这可确保减少交货时间和最小订购量 (MOQ) 的影响,同时还提高可用性以满足客户需求并扩展配置选项。
2021 年 4 月,ADTRAN Inc 推出了 OSA 5405-MB,这是业界首款配备多频段 GNSS 接收器和整合天线的超紧凑型户外 PTP 主时脉。它使通讯服务提供者 (CSP) 和企业能够提供 5G 前传和其他新兴时间敏感应用所需的奈秒精度。
The global smart antenna market size reached US$ 5.8 Billion in 2022. Looking forward, IMARC Group expects the market to reach US$ 9.5 Billion by 2028, exhibiting a growth rate (CAGR) of 8.6% during 2022-2028. The rising demand for wireless communication services, the proliferation of data-intensive applications, such as high-definition video streaming, the increasing prevalence of mobile devices, and advancements in signal processing techniques are some of the major factors propelling the market.
A smart antenna is a sophisticated technology designed to enhance the performance of wireless communication systems. Unlike traditional fixed antennas, smart antennas have the capability to dynamically adjust their radiation patterns and focus their signal in specific directions. This adaptability is achieved through the use of advanced signal processing algorithms and multiple antenna elements. They can significantly improve signal quality, range, and capacity in wireless networks. By selectively steering the antenna's beam towards a user or a specific location, they reduce interference and enhance signal strength, resulting in better overall communication quality. Moreover, smart antennas can support various wireless standards and protocols, making them versatile for use in different applications, such as cellular networks, Wi-Fi, and satellite communications.
The rising demand for wireless communication services is driving the global market. This growth is primarily attributed to the rapid expansion of urban areas, the widespread digitization of various industries, and the proactive initiatives undertaken by numerous companies in advancing smart city projects. In addition, the increasing prevalence of mobile devices is amplifying the need for wireless communication solutions. Smart antennas are emerging as a key technology in meeting this demand as they effectively enhance the performance of wireless networks. They achieve this by optimizing signal strength and minimizing interference, making them an appealing choice for wireless service providers. Moreover, the proliferation of data-intensive applications, such as high-definition video streaming, has created a pressing need for higher data transmission rates. Smart antennas are well-positioned to address this requirement as they can significantly boost data rates by improving the signal-to-noise ratio and reducing interference. This optimization enables more data to be transmitted within the same available bandwidth, thus catering to the evolving needs of consumers and businesses. Furthermore, advancements in signal processing techniques and the accessibility of cost-effective, high-performance digital signal processors (DSPs) have streamlined the implementation of smart antenna systems. This accessibility has further catalyzed the global market's growth, making smart antennas an increasingly viable and attractive solution for various industries.
Rapid Expansion of 5G Networks
5G technology promises unparalleled speeds, ultra-low latency, and massive device connectivity, but it also presents significant challenges in terms of network coverage and capacity. Smart antennas, with their beamforming and beam-steering capabilities, are crucial in addressing these challenges. They enable network operators to focus and direct signals precisely toward users or devices, enhancing coverage, reducing interference, and ensuring efficient spectrum utilization. As 5G deployment continues worldwide, the demand for smart antennas to support this technology is set to rise. Moreover, as 5G evolves and extends to new frequency bands, such as millimeter wave (mmWave), smart antennas will become even more indispensable for ensuring reliable and high-speed connectivity in urban environments and beyond.
Increasing IoT Proliferation
IoT is revolutionizing various industries, including healthcare, manufacturing, agriculture, and smart cities, by connecting an ever-growing number of devices and sensors. These devices often operate on different frequencies, require low power consumption, and need reliable, low-latency connectivity. Smart antennas, with their adaptability and ability to handle diverse frequency bands and communication standards, are well-suited to meet the unique requirements of IoT deployments. They can support the massive number of simultaneous connections, optimize data transmission for low-power devices, and help extend the range of IoT networks. As the IoT ecosystem continues to expand, the demand for smart antennas to enable seamless and efficient IoT communication will increase, driving market growth.
Demand for Enhanced Connectivity in Urban Environments
In densely populated urban areas, traditional fixed antennas face challenges related to signal interference, high user density, and the presence of obstacles, such as buildings and infrastructure. Smart antennas excel in such environments as they can dynamically adjust their radiation patterns to target specific users or areas, mitigating interference and optimizing signal strength. This capability is crucial for delivering reliable and high-speed wireless services in cities, where the majority of the world's population resides. As smart cities initiatives continue to grow, smart antennas will play a pivotal role in supporting urban infrastructure, transportation systems, public safety, and other applications that demand seamless and efficient connectivity.
IMARC Group provides an analysis of the key trends in each segment of the global smart antenna market report, along with forecasts at the global, regional and country levels from 2023-2028. Our report has categorized the market based on technology and application.
SIMO
MIMO
MISO
MIMO dominates the market
The report has provided a detailed breakup and analysis of the market based on the technology. This includes SIMO, MIMO, and MISO. According to the report, MIMO represented the largest segment.
MIMO technology employs multiple antennas at both the transmitter and receiver ends of a communication link, allowing for the simultaneous transmission and reception of multiple data streams over the same frequency channel. This breakthrough innovation has revolutionized the way data is transmitted wirelessly, leading to improved data rates, greater spectral efficiency, and enhanced overall performance. As wireless signals propagate through the environment, they bounce off obstacles and reflect in various directions, leading to signal degradation and unpredictable signal strength. MIMO leverages spatial diversity by using multiple antennas to receive these reflections and combine them constructively, effectively mitigating the impact of multipath interference. This results in improved signal reliability and increased coverage, particularly in challenging environments, including urban areas or indoor spaces. Moreover, MIMO's spatial multiplexing capability enables another significant advantage: higher data rates. By transmitting multiple data streams simultaneously over the same frequency channel, MIMO technology dramatically increases the effective data throughput.
Wi-Fi Systems
WiMAX Systems
Cellular Systems
RADAR Systems
Cellular systems dominate the market
The report has provided a detailed breakup and analysis of the market based on the application. This includes Wi-Fi systems, WiMAX systems, cellular systems, and RADAR systems. According to the report, cellular systems represented the largest segment.
Cellular systems are characterized by their ability to divide geographical regions into smaller, interconnected cells, each served by a base station or cell tower. These cells collectively create a seamless network that provides wireless connectivity to mobile devices, such as smartphones, tablets, and IoT sensors. The significance of cellular systems lies in their capacity to offer ubiquitous and reliable coverage, enabling users to stay connected while on the move or within various indoor and outdoor environments. Moreover, cellular systems have become the important for various industries, from healthcare to transportation, agriculture to smart cities. Healthcare professionals rely on cellular networks for telemedicine, remote monitoring, and health data transmission. Transportation systems leverage cellular connectivity for vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communications, contributing to the development of connected and autonomous vehicles. In agriculture, cellular-based IoT sensors enable precision farming, optimizing resource usage and crop yields.
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 smart antenna market share
The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, 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 boasts a robust and highly developed telecommunications infrastructure. The region has been at the forefront of technological advancements for decades, with major telecommunications companies. This infrastructure provides a strong foundation for the adoption and deployment of smart antenna technologies, enabling seamless integration into existing networks and facilitating the transition to new communication standards, such as 5G. Moreover, North American market is characterized by a high demand for advanced wireless technologies. With a tech-savvy population and a thriving digital economy, there is a continuous appetite for faster and more reliable wireless connectivity. Smart antennas, with their ability to improve network performance, coverage, and capacity, align perfectly with the evolving needs of consumers, businesses, and various industries in the region. Additionally, North America is home to a expanding ecosystem of research and development institutions, innovative startups, and established technology giants. This environment fosters innovation and drives the development of cutting-edge smart antenna solutions.
Companies are heavily investing in developing advanced antenna technologies, signal processing algorithms, and integrated solutions to improve antenna performance, efficiency, and adaptability. Also, companies are working on adapting smart antennas to the requirements of 5G networks. This involves optimizing antenna designs for higher frequencies, millimeter-wave (mmWave) bands, and massive MIMO configurations to maximize the benefits of 5G technology. Also, smart antenna companies often collaborate with wireless network providers, infrastructure manufacturers, and chipset developers to create integrated solutions that seamlessly fit into the existing ecosystem. Additionally, leading players are offering customized solutions and consulting services to meet the specific needs of network operators and industries. This may include designing antenna arrays tailored to a particular environment or use case. Various companies are emphasizing sustainability by developing energy-efficient and environmentally friendly antenna solutions, aligning with global efforts to reduce the carbon footprint of telecommunications infrastructure.
ADTRAN Inc
Airgain Inc.
AirNet Communications Corporation
Arraycom LLc
Intel Corporation
Linx Technologies
Motorola Solutions Inc
Qualcomm Incorporated
Sierra Wireless
Telstra Corporation Limited
Texas Instruments Incorporated
Trimble Inc.
In June 2023, Telstra Corporation Limited Launched Industrial Automation capability to help transform Australian industries. Telstra's high-quality networks, including 5G, Fibre and IoT, to help businesses simplify the complexities of Industry 4.0.
In May 2023, Airgain Inc. Launched EZConnect™ Antenna Platform to Simplify Ordering and Installation of External Antennas. This ensures that lead times and minimum order quantities (MOQs) have a reduced impact, while also improving availability to meet customer demand and expanding configuration options.
In April 2021, ADTRAN Inc launched its OSA 5405-MB, the industry's first ultra-compact outdoor PTP grandmaster clock with multi-band GNSS receiver and integrated antenna. It empowers communication service providers (CSPs) and enterprises to deliver the nanosecond precision needed for 5G fronthaul and other emerging time-sensitive applications.