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Edge Computing Market - Global Opportunity Analysis and Industry Forecast (2023-2030)

Meticulous Research®, a prominent international market research firm, published a research report titled, ‘Edge Computing Market by Component (Hardware, Platform, Services), Application (Smart Cities, Industrial IoT, AR/VR, Others), End-use Industry (Energy & Utilities, Manufacturing, Retail, Others), and Geography - Global Forecast to 2030.’

As per the recent report by Meticulous Research®, the global edge computing market is expected to hit $122.7 billion by 2030, with a compound annual growth rate (CAGR) of 37.1% throughout the forecast period. The surge in the edge computing market is linked to heightened pressure on cloud infrastructure, expanding usage of Industrial IoT solutions, and the escalating need for swift processing and real-time automated decision-making solutions. Nevertheless, the market's growth faces a hindrance due to the substantial capital investment necessary for infrastructure development.

Furthermore, the rise of autonomous vehicles and the development of connected car infrastructure are expected to present substantial growth prospects for the global edge computing market. Nonetheless, security issues associated with IoT devices could impede market expansion. Moreover, the widespread integration of 5G technology stands out as a significant trend in the edge computing market.

Meticulous Research® has structured its analysis of this market by dividing it into segments based on component, application, end-use industry, and geography, facilitating comprehensive examination. The report assesses competitors within the industry and scrutinizes market dynamics at both regional and national levels.

Based on component, The global edge computing market is divided into hardware, platform, and services. In 2023, it's projected that the hardware segment will hold the largest portion of the market. This dominance is attributed to the growing implementations of IoT and increased investments in edge computing infrastructure by industry players. For example, in February 2023, bitsensing from South Korea launched the 24GHz Traffic Insight Monitoring Sensor (TIMOS), powered by the NVIDIA Jetson platform. This innovation incorporates AI edge computing to facilitate smart city environments by providing precise and reliable real-time road detection, including traffic statistics, incidents, violations, and estimated time of arrival (ETA).

Additionally, the hardware segment is forecasted to experience the most significant compound annual growth rate (CAGR) throughout the forecast period. This expansion is linked to escalating investments in digital transformation endeavors across diverse industry sectors.

Based on application, The global edge computing market is categorized into various applications such as smart cities, industrial IoT, remote monitoring, content delivery, AR/VR, and others. It is projected that in 2023, the smart cities segment will hold the largest portion of the global edge computing market. This dominance is driven by the growing prevalence of smart city initiatives globally and the increasing uptake of smart technologies for urban governance. Edge computing strategies are increasingly integrated into smart city frameworks to alleviate the expenses linked with transmitting large volumes of data, consequently reducing bandwidth demands.

Nevertheless, the content delivery segment is anticipated to achieve the most significant compound annual growth rate (CAGR) throughout the forecast period. This surge is credited to the rising requirement for swift data processing via content delivery networks and the escalating necessity to reduce data transmission expenses for enterprises and other stakeholders.

Based on end-use industry, The global edge computing market is divided into various end-use industries, including manufacturing, retail, healthcare, media & entertainment, telecommunications, transportation & logistics, government & defense, energy & utilities, and others. It is projected that in 2023, the energy & utilities sector will dominate the global edge computing market. This dominance is attributed to market players' increasing endeavors to employ edge computing for data processing in remote areas, alongside the growing necessity to improve production capabilities, streamline operations, and prolong asset lifespan. For instance, in June 2023, Itron Inc. introduced the Edge Gateway, an edge-computing platform designed to assist utilities in achieving decarbonization and sustainability objectives while effectively managing critical infrastructure.

Nonetheless, it is anticipated that the telecommunications segment will experience the most significant compound annual growth rate (CAGR) throughout the forecast period. This growth is fueled by the rising desire for voice assistants such as Cortana, Alexa, Google Assistant, and Siri, along with technological advancements within the telecom sector, including the deployment of 5G technology and the widespread adoption of IoT-enabled devices.

Based on geography, In 2023, North America is projected to hold the largest portion of the global edge computing market. This dominance is mainly attributed to the region's robust technological and educational infrastructure, a greater uptake of advanced technologies, and the presence of numerous established edge computing companies and startups. Moreover, the adoption of edge computing solutions has been increasing among various enterprises in North America, aiming to improve their IT infrastructure and leverage the benefits of leading-edge technologies, particularly 5G and IoT. These factors have significantly driven the growth of the edge computing market in the region.

Yet, the Asia-Pacific market is forecasted to achieve the most significant compound annual growth rate (CAGR) throughout the forecast period. This growth is credited to escalating cloud traffic, a rising inclination among government bodies and industry players for local data storage and processing, and increased investments in the telecommunications sector. Additionally, governmental efforts to promote digitalization across diverse sectors and substantial investments in IoT and cloud technologies are driving market expansion in the region.

Key Players

The prominent players in the global edge computing market include Amazon Web Services (U.S.), Microsoft Corporation (U.S.), Dell Technologies, Inc. (U.S.), Hewlett-Packard Enterprise Company (U.S.), General Electric Company (U.S.), Huawei Technologies Co., Ltd. (China), IBM Corporation (U.S.), Juniper Networks, Inc. (U.S.), Cisco Systems, Inc. (U.S.), FogHorn Systems, Inc. (U.S.), Google LLC (U.S.), Intel Corporation (U.S.), SAP SE (Germany), MachineShop, Inc. (U.S.), and Saguna Networks Ltd. (Israel).

Download Sample Report Here @ https://www.meticulousresearch.com/download-sample-report/cp_id=5061

Key questions answered in the report-

What are the market segments showing significant growth potential in terms of component, application, end-use industry, and geographical region?

What is the past performance or historical data regarding the edge computing market?

What are the projected market figures and estimations for the timeframe spanning from 2023 to 2030?

What are the primary factors propelling, hindering, and presenting potential advantages within the global edge computing market?

Who are the key players in the global edge computing market, and what are their respective market standings?

How does the competitive environment appear in the edge computing market?

What are the latest advancements or updates observed in the global edge computing market?

How do leading companies implement various strategies within this market?

What are the patterns observed in different geographical regions and which areas are exhibiting significant growth within the market?

Who are the up-and-coming contenders in the global edge computing market, and how do they vie with established players?

Contact Us: Meticulous Research® Email- [email protected] Contact Sales- +1-646-781-8004 Connect with us on LinkedIn- https://www.linkedin.com/company/meticulous-research

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(2023-08-19 image ©evening standard) 5G in the UK uses frequencies in the same sort of ranges as 4G and WiFi - with similar results in terms of capacity and speed. But 5G has the ability to use so called mmWaves at 28 or 40GHz. These will be able to carry much more data but inherently the waves do not travel far. In a test in the Australian desert the waves were recorded a few kms, but the Australian desert is not Oxford Street in the drizzle.

Nokia have been busy and in a more realistic test managed to get these waves to get 2Gbps over 11kms using a 24GHz band - impressive. Sadly we are still years away from a really usable mmWave build.

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5G 系统的初始部署采用 FR1 频段（7.125GHz 频段），另外也可采用24GHz的毫米波 FR2 频段。采用MIMO技术 可进一步提升用户的数据吞吐量。MIMO 可部署在传统的整体 4G/LTE 网络中，并用作 2x2 和 4x4 配置。大规模 MIMO (mMIMO) 是 MIMO 的延伸，可将天线的数量提升到 64 个发射/64 个接收 (64T64R MIMO) 的配置。此外，利用波束成形技术在天线和特定UE之间创造一个集中的信号，提高。

 可用性：该 5G Sub- 6GHz 射频收发器 IP 核可立即向客户进行技术授权。有关授权的选择和报价等更多信息，请发送邮件至[email protected]，进行了解。

T2M 广泛的无线和蜂窝网络 IP 核还包括为这些射频收发器 IP 核匹配的数字和软件 IP，包括 5G UE 和 g-node B L1-L2-L3 堆栈 IP、NB-IoT 协议堆栈 SW+ 数字、NB-IoT 超低功率射频收发器 IP 核，GNSS 多制式射频接收器 IP 核以及具有超低功率和高性能的 GNSS 多星座数字 IP。广泛的产品系列还包括接口和高速模拟数据转换器。这些 IP 可以立即获得许可

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(2022-12-11 image ©ericsson.com) 4G is here and well established, 5G is coming here in some city areas but not widespread and now Ericsson is thinking of 6G. 6G is due in 2030 and Ericsson is establishing a research centre here in the UK to develop the technologies. How to use the frequencies that could be used in 6G. With 5G we are still only using frequencies in the mid range - up to 3.8GHz or so. We in the UK have not jumped your to 24GHz or 40MHz. But Ericsson is looking at TerraHz waves.

There are big difficulties in sing these higher frequencies, anything over 4GHz. We need masts nearer and the waves do not penetrate buildings, or even air in some cases, but if we can get these higher frequencies to work the their capacity is massive.

UPDATE- Ofcom are just now asking what should we do with 24GHz and 40GHz, the so called microwaves for 5G. We are decades away from using TeraHZ frequencies.