市場調查報告書
商品編碼
1335607
霧網路全球市場規模、佔有率、產業趨勢分析報告:按應用、按組件(硬體、軟體、服務)、按地區分類的展望和預測,2023-2030 年Global Fog Networking Market Size, Share & Industry Trends Analysis Report By Application, By Component (Hardware, Software, and Services), By Regional Outlook and Forecast, 2023 - 2030 |
2030年,霧網路市場規模預計將達28億美元,預測期內年複合成長率年成長率為38.7%。
然而,部署霧運算(將雲端運算能力引入網路外圍)持有資料分析、網路和資料安全等領域的特定技能和資訊。由於霧計算仍然是一個相對年輕且發展中的行業,因此缺乏具有該領域經驗的專家。因此,透過培訓計劃和教育活動解決人才缺口對於釋放霧網路的真正潛力並推動其商業性擴張至關重要。這可以透過解決技能差距來實現。
應用前景
按應用分類,市場分為智慧製造、互聯醫療、智慧能源、建築和家庭自動化、運輸和物流等。到 2022 年,運輸和物流領域將在市場中佔據重要的收入佔有率。這是因為交通運輸和物流部門正在經歷大規模的數位,利用霧聯網技術來提高整體效率,最佳化供應鏈管理,並加快物流運作。
組件展望
根據組件,市場分為硬體、軟體和服務。 2022 年,硬體細分市場收入佔有率最高。這可能是由於霧網路工具和設備的使用越來越多,包括邊緣伺服器、路由器、閘道器和感測器。霧運算所需的連接、資料處理和通訊是由硬體組件實現的。
區域展望
從區域來看,我們對北美、歐洲、亞太地區和拉丁美洲地區的市場進行了分析。北美地區在 2022 年以最大的收入佔有率主導市場。這是由於該地區技術先進的環境以及對創新和早期採用開發技術的高度重視。隨著北美企業認知到霧網路在改善即時資料處理、降低延遲和整體網路效率方面的潛力,霧運算解決方案的採用將擴大並進一步加速該地區的發展。我是。
The Global Fog Networking Market size is expected to reach $2.8 billion by 2030, rising at a market growth of 38.7% CAGR during the forecast period.
Fog networking may be used in the context of linked healthcare to get around some drawbacks and difficulties in conventional cloud-based systems. Therefore, the connected healthcare segment would register approximately 1/5th share of the market by 2023. By leveraging local network resources, fog networking may increase the dependability and resilience of healthcare systems. Moreover, there are a lot of prospects for fog computing adoption in the APAC region due to its large population and growing urbanization, notably in industries like smart cities, transportation, manufacturing, and healthcare. The APAC region captured $59,485.1 million revenue in 2022. In order to improve operational efficiency, take advantage of real-time data analytics, and meet the rising demand for connected devices and IoT applications, businesses in the Asia-Pacific region are progressively using fog networking solutions. Some of the factors impacting the market are incorporation of new technology in the integration, improvements to the edge computing infrastructure, and Professional and skill gaps.
Effective and decentralized data processing at the network edge becomes critical as new technologies like the Internet of Things (IoT), edge computing, and artificial intelligence (AI) evolve. To open up even more possibilities, fog networking may be integrated with other cutting-edge technologies like 5G networks, machine learning, and blockchain. Ultra-low latency applications, for instance, are made possible by combining fog computing with 5G. In contrast, AI and machine learning at the edge make real-time data analysis and decision-making possible. Moreover, Fog computing is a distributed computing paradigm that moves computation and data storage closer to the network's edge. It has gained traction due to the explosive growth of Internet of Things (IoT) devices and the demand for real-time data processing. Edge computing infrastructure improvements have certainly played an essential part in driving the market. Edge computing reduces latency and enables quicker reaction times by processing and analyzing data closer to the devices that generated it. Consequently, the integration of developing technologies with the market and Edge computing infrastructure improvements expected to have a significant positive impact on innovation and the development of a more intelligent and linked digital environment.
However, the implementation of fog computing, which involves bringing the capabilities of cloud computing to the periphery of a network, calls for the possession of specific skills and information in fields such as data analytics, networking, and data security. As a result of the fact that fog computing is still a relatively young and developing industry, there is a shortage of experts who have experience in this area. Therefore, tackling the talent gap through training programs and educational activities is essential to unleashing the true potential of fog networking and driving its commercial expansion. This can be accomplished by addressing the skill gap.
Application Outlook
On the basis of application, the market is categorized into smart manufacturing, connected healthcare, smart energy, building & home automation, transportation & logistics, and others. The transportation & logistics segment covered a considerable revenue share in the market in 2022. This is since the transportation and logistics sector is undergoing a sizeable digital transition and using fog networking technologies to increase overall efficiency, optimize supply chain management, and expedite logistical operations.
Component Outlook
Based on component, the market is segmented into hardware, software, and service. The hardware segment registered the highest revenue share in the market in 2022. This may be due to the growing use of fog networking tools and apparatus, including edge servers, routers, gateways, and sensors. The connection, data processing, and communication necessary for fog computing are made possible by the hardware components.
Regional Outlook
Region wise, the market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The North America region dominated the market with the maximum revenue share in 2022. This is explained by the region's technologically sophisticated environment, which greatly focuses on innovation and the early adoption of developing technology. Due to enterprises in North America realizing the potential of fog networks to provide real-time data processing, lower latency, and increase overall network efficiency, this has opened up a broad range for the adoption of fog computing solutions, further increasing the region's development.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Cisco Systems, Inc., IBM Corporation, Huawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.), Google LLC (Alphabet Inc.), Microsoft Corporation, Fujitsu Limited, Dell Technologies, Inc., Intel Corporation, Amazon Web Services, Inc. (Amazon.com, Inc.) and Arista Networks, Inc.
Strategies Deployed in Fog Networking Market
Jun-2023: Google Cloud, a subsidiary of Google LLC, came into collaboration with T-Mobile, an American wireless network operator. This collaboration, aimed to integrate T-Mobile's Advanced Network Solutions with Google Distributed Cloud Edge, government and company customers would be more accordingly equipped to expand true-to-form 5G applications.
Mar-2023: Amazon Web Services, Inc., a subsidiary of Amazon.com, Inc, made enhancements in the hardware development of test kits by launching applications. Through this product, expansion, the company would allow third-party organizations to verify the Sidewalk network and prototype products that would benefit from it.
Feb-2023: Microsoft collaborated with Infosys; an Information Technology company based in India. This collaboration helps boost enterprise cloud transformation journeys globally. The alliance would benefit enterprises by bringing the best of Infosys Cobalt's cloud portfolio and Microsoft's cloud computing technologies.
Jan-2023: Microsoft Corporation completed the acquisition of Fungible, a developer of composable infrastructure for accelerating the company's data center network and storage performance. The acquisition would enable the company to enhance its broad range of technologies and offerings in offloading, improving latency, increasing system density in data centers, and reducing expenses.
Dec-2022: Fujitsu Limited introduced a broad area of GPU computing resource services to support the AI Bridging Cloud Infrastructure, the world's biggest computational infrastructure for AI processing. The product portfolio was launched to support reducing the hurdle to access modern computing and software technologies.
May-2022: Intel Corporation rolled out Intel's Habana Gaudi 2 AI processor and 12th Gen Intel® Core™ HX processors. The launched products would support training data center workloads and be perfect for hybrid work.
Feb-2022: Microsoft Corporation joined hands with Qualcomm Technologies, an American company that creates semiconductors, software, and services related to wireless technology. Through this collaboration, the company aimed at simplifying the deployment and management of intelligent 5G edges for a broad range of industries and use cases. Additionally, it would lower the operating costs and adopt barriers for high-speed 5G connectivity solutions for global enterprises.
Oct-2021: Google LLC rolled out Google Distributed Cloud, an offering of solutions including software and hardware. This launch would further expand the company's infrastructure to the edge and within customer data centers.
Jul-2021: Microsoft Corporation expanded its partnership with NEC Corporation, a developer of telecommunications equipment and related software and services, to support organizations' customers and public sectors in augmenting the growth rate of cloud embracement and digital transformation. With this expansion, unifying the power of Microsoft Azure, and Microsoft 365 with NEC's network and IT capabilities would empower Microsoft to help industries and businesses' customers through workplace and workforce transformation.
Jun-2021: IBM collaborated with GK Software, a cloud services vendor. Under this collaboration, the companies aimed to accelerate advanced and cutting-edge retail built over the hybrid cloud technology from Red Hat and IBM. Moreover, this collaboration would also help businesses quickly innovate and adopt the digital era.
Mar-2019: Intel introduced 58GBPS FPGA Transceiver which enables 400G Ethernet deployment to strengthen its networking solutions.
Feb-2019: Cisco acquired Singularity Networks, a network infrastructure analytics company, which offers network monitoring and analytics solutions for service provider networks and complex enterprise networks. Cisco will combine its Crosswork Network Automation portfolio with Singularity Networks analytics platform capabilities with the aim of delivering analysis functionality at scale.
Market Segments covered in the Report:
By Application
By Component
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures