Worldwide 5G Smart Antenna Industry to 2026 – Featuring Airgain, Broadcom and California Amplifier Among Others – ResearchAndMarkets.com

DUBLIN – (BUSINESS LIFE) – The “Market of 5G intelligent antennas by type (switching multi-beam antenna and adaptive antenna array), technology (SIMO, MISO and MIMO), case of use, application and region 2021 – 2026” report added to ResearchAndMarkets.com supply.

This report assesses the 5G smart antenna market, including key players, technologies and solutions. This includes an analysis of the product and service strategy for smart antenna providers. The report assesses the role and importance of smart antennas in terms of 5G network optimization, including improving data speed coverage and maintaining service quality.

The report assesses and provides forecasts for the market for smart antennas by type (SIMO, MISO, MIMO), frequency range (FR1 and FR2), connectivity and applications. It also evaluates the support of 5G smart antenna of IoT solutions, providing forecasts for applications and services. The report includes revenue forecasts as well as projected deliveries of smart antennas from 2021 to 2026.

Select report findings:

• The market for 5G smart antennas in the IoT will reach $ 7.1B by 2026

• 5G will ensure uninterrupted mobility to a large extent only in the metropolitan areas

• Multiple Input Multiple Output smart antennas are the fastest growing type

• In addition to network optimization, smart antennas reduce energy needs and other resources

• 5G antennas will be an absolute requirement to support the smart city market and related services

• In terms of frequency bands, FR1 will lead to 2026, but FR2 is growing almost three times faster at a CAGR of 37.7%

Mentioned companies

• Airgain Inc.

• ANSYS Inc.

• ArrayComm LLC

• Broadcom Inc.

• California Amplifier Inc.

• Cobham antenna systems

• Combo Telecom

• COMSCOPE

• Ericsson

• Honeywell International Inc.

• Intel Corporation

• Laird Technologies

• Leica Geosystems AG

• Linx Technologies

• LOCOSYS Technology Inc.

• MediaTek Inc.

• Motorola Solutions Inc.

• NEC Corporation

• Nokia Corporation

• NXP Semiconductors

• PCTEL Inc.

• Qualcomm Incorporated

• Ruckus Networks

• Samsung Electronics Co. Ltd.

• Sierra Wireless (Accel Networks)

• Smart Antenna Technologies Ltd.

• ZHEJIANG JC Antenna Co., Ltd.

Smart antenna arrays use multiple inputs / multiple outputs (MIMOs) of both the source (transmitter) and destination (receiver) to improve signal quality. This is in contrast to non-lattice systems, which use a single antenna (and signal path) at the source and destination. The market for smart antennas is nothing new, as they provide efficient coverage for 2G, 3G and LTE. However, 5G smart antennas will be needed to provide mobility support for many new and improved applications and services such as virtual reality, self-driving cars, connected vehicles and voice over 5G.

Smart antennas will improve 5G coverage and optimize capacity by focusing RF signals where they are most needed. In addition, smart antennas improve 5G application and service mobility by facilitating a more seamless connection, which can be especially useful with 5G roof seams. Otherwise, the user experience with the 5G network activated may deteriorate with 5G transmission to LTE.

5G cellular networks promise to improve many aspects of wireless communications by supporting improved mobile services, greater scalability for IoT systems, and ultra-reliable communication for mission-critical applications. Some of these benefits will be based on the evolution of 4G LTE technology, as well as the unique capabilities provided by 5G New Radio (5GNR), based on a new infrastructure supporting RAM equipment with millimeter waves (mmWave).

Key topics covered:

1.0 Summary

2.0 Introduction

3.0 Application Technology and Analysis

3.1 Types of smart antennas

3.1.1 Switched multibeam antennas

3.1.2 Adaptive massive antennas

3.2 Digital antenna array

3.3 5G NR infrastructure and active antennas

3.4 Antennas for mobile devices

3.5 System connectivity

3.6 Adaptive radiation

3.6.1 Digital beamforming

3.6.2 Hybrid beamforming

3.7 5G MIMO multiple input / multiple output

3.8 Digital signal processing

3.9 Programmability of the software

3.10 Software defined radio

3.11 Smart Sector Application Sectors

3.12 Smart antennas in IoT

3.13 Machine learning and artificial neural network

4.0 Dynamics of the 5G smart antenna market

4.1 Drivers for the 5G smart antenna market

4.2 Challenges of the 5G smart antenna market

4.3 Considerations for a 5G smart antenna solution

4.4 Case study using a 5G smart antenna

4.4.1 Voice over 5G

4.4.2 Critical communications for the mission

4.4.3 Industrial automation and robotics

4.4.4. Connected and self-driving vehicles

4.4.5 Unmanned aerial vehicles and unmanned aerial vehicles

5.0 Ecosystem analysis of a 5G smart antenna

6.0 Analysis and predictions for 5G smart antenna

6.1 Global 5G Smart Antenna Market 2021 – 2026

6.2 Regional market for 5G smart antennas 2021 – 2026

6.2.1 Market for 5G smart antennas by regions 2021 – 2026

6.2.2 Market for 5G smart antennas in North America by type, technology, application, AI, IoT and leading country

6.2.3 The European market for 5G smart antennas by type, technology, application, AI, IoT and leading country

6.2.4 Market of APAC 5G smart antennas by type, technology, application, AI, IoT and leading country

6.2.5 Latin American Smart Antenna Market by Type, Technology, Application, AI, IoT and Lead Country

6.2.6 5G smart antenna market in the Middle East and Africa by type, technology, application, AI, IoT and leading country

7.0 Conclusions and recommendations

For more information about this report, visit https://www.researchandmarkets.com/r/ye5dda