行動邊緣運算-市場佔有率分析、產業趨勢與統計、成長預測（2025-2030）

Mobile Edge Computing - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年03月18日 | 出版商:

Mordor Intelligence | 英文 131 Pages | 商品交期: 2-3個工作天內

價格

※ 本網頁內容可能與最新版本有所差異。詳細情況請與我們聯繫。

簡介目錄

行動邊緣運算市場規模預計在 2025 年為 8 億美元，預計到 2030 年將達到 32.6 億美元，預測期內（2025-2030 年）的複合年成長率為 32.58%。

多接取邊緣運算(MEC)，通常稱為行動邊緣運算邊緣運算，是一種邊緣運算形式，它將雲端運算帶到網路邊緣以增強功能。 MEC 是歐洲通訊標準協會 (ETSI) 一項計劃的成果，該計劃最初旨在將邊緣節點放置在行動網路中，但後來也擴展到固定（或最終融合）網路。 MEC 使得操作可以在基地台、中央局和網路上的其他聚合站點進行，而傳統的雲端運算則發生在遠離用戶和設備的伺服器上。

關鍵亮點

隨著無線訂閱量的急劇成長，對數位媒體服務的需求也不斷成長。為了滿足這一日益成長的需求，行動無線網路正在呈指數級發展。各行各業的公司開始採用各種技術創新，包括感測器和其他資料生成和收集設備以及分析工具，以推動新的性能和生產力水平。傳統上，資料管理和分析是在雲端或資料中心進行的。然而，隨著智慧製造、智慧城市等網路技術和舉措的日益普及，這種情況似乎正在改變。
此外，隨著目前 4G 網路達到極限，5G 將需要更智慧地管理線上流量，而行動邊緣運算將發揮重要作用。除了管理資料負載之外，MEC 還有望顯著降低 5G 網路的延遲。
在通訊業，邊緣運算（也稱為行動邊緣運算、MEC 或多多接取邊緣運算）為更靠近最終用戶的網路應用程式提供執行資源（運算和儲存），通常位於通訊業者網路內或邊緣。邊緣解決方案具有低延遲、高頻寬、設備上處理、資料分流以及可靠的運算和儲存等關鍵優勢。
與其他網路技術/架構一樣，MEC 缺乏安全框架，因此容易受到各種威脅和硬體入侵。 MEC 網路中可能會出現各種各樣的威脅和危險。然而，阻礙市場成長最常見的攻擊包括通訊協定外洩、資訊和日誌篡改、政策執行失效、中間人攻擊、資料遺失等。

行動邊緣運算（MEC）市場趨勢

終端用戶產業擴大使用 5G 和工業IoT服務

在物聯網 (IoT)機芯的推動下，工業 4.0 描述了在世界任何地方將不同的技術平台互連並與位於世界任何地方的製造設備介接的能力。隨著工業 4.0 改變產業，從舊有系統轉向智慧組件和智慧機器，並朝著推動數位化工廠和發展互聯工廠和企業生態系統的方向發展，MEC 平台看到了令人興奮的部署機會。
工業自動化領域的物聯網預計將從 5G 服務中受益最多。支持這一領域的能力目前正在由 3GPP 定義，並受到工業 4.0 計劃和 5G-ACIA 等行業團體的影響。此部分將是針對本地區域用例和私有網路部署的 5G 專用部分。
在醫療保健產業，物聯網將使服務提供者能夠透過連網醫療解決方案遠端監控患者的健康狀況，並實現即時資料收集和擴大即時監控和分析的存取權限。醫療領域正在增加 5G 服務的部署。例如，三星醫療中心與韓國最大的電信業者KT公司宣布合作開發智慧患者照護、利用5G創新醫療程序，並提高醫院營運效率。
能源公共產業正在積極改善 5G 的商業案例、服務和夥伴關係關係。據印孚瑟斯公司稱，56%的能源公用事業公司已經定義了5G用例，20%的能源公用事業公司已經與生態系統合作夥伴建立了5G服務組合。該公司進一步預測，智慧城市可以產生 1,000 億美元的公共產業收益。由於電力分銷商控制整個城市或社區的電線杆和電線，他們可以利用其資產為當地社區、執法部門和企業提供智慧監控和照明解決方案。

預計北美將佔很大佔有率

北美有三大雲端服務供應商：Amazon Web Services、Microsoft Azure 和 Google Cloud。此外，Verizon Communications Inc. 和 AT&T Inc. 等行動邊緣運算市場主要供應商在該地區的存在正在對該地區的行動邊緣運算市場產生積極影響。該地區也被視為所有重大技術創新的中心，包括 5G、自動駕駛、物聯網、區塊鏈、遊戲和人工智慧。
美國和加拿大等國家以率先採用新技術而聞名。當今大多數新技術都是資料密集型的。隨著如此多的資料被創建、處理和傳輸，我們目前的資料中心和雲端基礎設施已接近最大容量。如今，隨著新資料量的產生和使用，這些基礎設施不太可能滿足客戶的需求。在所有涉及的參數中，延遲可能是對您的業務最關鍵的因素。
大多數企業依賴即時資料存取和處理，因此嚴重的延遲可能會擾亂整個流程。這就是邊緣運算的作用所在，它可以幫助基礎設施開發人員解決問題。隨著新技術的成熟，邊緣運算預計將產生重大影響。
此外，行動邊緣運算將使各領域的消費者和企業能夠近乎即時地利用資料中心的功能，進一步釋放高速、低延遲行動網路的潛力，為從家庭娛樂和遊戲到醫療保健和農業等各個領域的變革技術提供動力。
該地區的各個終端用戶正在深化與邊緣運算供應商的夥伴關係，以開發結合 5G、物聯網和行動邊緣運算等先進技術的創新平台。例如，2022 年 1 月，沃達豐宣布與 Proximie 建立合作關係。 Proximie 是一個醫療技術平台，透過數位化世界各地的手術室和共用世界最佳臨床實踐來拯救生命。 5G、物聯網和邊緣運算等技術與 Proximie 世界領先的互聯外科護理軟體相結合，將使醫療專業人員能夠在世界各地的手術室中進行虛擬“刷卡”、“記錄”和“互動”，有助於加快和改善勞動力發展，更有效地大規模提供優質外科護理。

行動邊緣運算（MEC）產業概覽

MEC 市場由多家全球和地區性公司組成，它們在相當激烈的市場競爭中爭奪關注。然而，市場主要由擁有大量市場佔有率的大型供應商主導，它們競相在各個地理市場中站穩腳跟，成為先驅。總體而言，供應商競爭激烈，預計在預測期內仍將保持這種狀態。

2022 年 9 月，諾基亞宣布了其內部關鍵任務工業邊緣 (MXIE) 運算解決方案的新平台功能和應用。 MXIE 也制定了特定產業的藍圖，以簡化工業企業的數位轉型。
2022 年 9 月，Verizon 與美國軍方合作，在珍珠港希卡姆聯合基地 (JBPHH) 的飛機維修機庫內建立了私人 5G 網路。該設計將使軍事領導人更容易利用 Verizon 5G 的高速、大頻寬和低延遲。

其他福利

Excel 格式的市場預測 (ME) 表
3個月的分析師支持

Multi-access edge computing (MEC), popularly known as mobile edge computing, is a form of edge computing that brings cloud computing to the network's edge to increase its functionality. MEC is a result of the European Telecommunications Standards Institute (ETSI) program that was first intended to place edge nodes on mobile networks but has since expanded to include the fixed (or eventually integrated) network. MEC permits operations in base stations, central offices, and other aggregation sites on the network, as opposed to traditional cloud computing, which takes place on distant servers, far from the user and device.

Key Highlights

The demand for digital media services is increasing as the number of wireless subscriptions grows exponentially. Mobile wireless networks have advanced tremendously to meet this growing need. Enterprises across industries are beginning to drive new levels of performance and productivity by deploying different technological innovations, like sensors and other data-producing and collecting devices, along with analysis tools. Traditionally, data management and analysis are performed in the cloud or data centers. However, the scenario seems to be changing with the increasing penetration of network-related technologies and initiatives, such as smart manufacturing and smart cities.
Furthermore, with the current 4G networks reaching their maximum limit, 5G will have to manage online traffic far more intelligently, in which mobile edge computing will play a major role. In addition to managing the data load, MEC is expected to significantly reduce the latency in 5G networks.
In the telecom industry, edge computing, also known as mobile edge computing, MEC, or multi-access edge computing, offers execution resources (compute and storage) for applications with networking close to end users, often within or at the boundary of operator networks. Edge solutions offer key advantages: low latency, high bandwidth, device processing, data offloading, and reliable computing and storage.
As with any network technology/ architecture, MEC is prone to various threats and hardware that lay in wait owing to its lack of security framework. A wide variety of threats and hazards could potentially occur in the MEC network. However, the most common attacks that hinder the market's growth can be narrowed down to compromised protocols, falsified information and logs, loss of policy enforcement, man-in-the-middle, and data loss.

Mobile Edge Computing (MEC) Market Trends

Rising Application of 5G and Industrial IoT Services Among End-user Industries

Industry 4.0, powered by the Internet of Things (IoT) movement, involves interconnecting various technological platforms and presents the ability to interface with manufacturing equipment located anywhere in the world, from anywhere in the world. With Industry 4.0 transforming industries, from legacy systems to smart components and machines to facilitating digital factories and developing an ecosystem of connected plants and enterprises, MEC platforms find exciting opportunities for deployment.
IoT in industrial automation is expected to derive maximum benefit from 5G services. The functionality to support this segment is currently being defined in 3GPP, influenced by Industry 4.0 initiatives and industry bodies, such as 5G-ACIA. It will be a 5G-specific segment for local area use cases and private network deployments.
In the healthcare industry, IoT enables providers to monitor patient health remotely through connected medical solutions, along with real-time data collection and extended access to real-time monitoring and analysis. The healthcare sector is witnessing an increase in the deployment of 5G services. For instance, Samsung Medical Center and Korea's largest telecommunications company, KT Corporation, announced that they have partnered to develop smart patient care, 5G-powered innovative medical practices, and improve hospital operational efficiency.
Energy and utility companies are driving the pack in actively improving business cases, services, and partnerships around 5G. According to Infosys, 56% of the energy and utility companies are defining use cases for 5G, and 20% have already established their 5G service portfolios along with the ecosystem partners. The company further anticipates that smart cities will create USD 100 billion in utility revenue. As electricity distributors manage poles and wires to all parts of the cities and neighborhoods, they could leverage their assets to offer smart surveillance solutions or smart lighting solutions to communities, law enforcement agencies, and enterprises.

North America is Expected to Hold Major Share

North America is home to three major cloud service providers: Amazon Web Services, Microsoft Azure, and Google Cloud. In addition, the region is home to major mobile edge computing market vendors such as Verizon Communications Inc., AT&T Inc., etc., which positively impacts the mobile edge computing market in the region. This region is also considered to be the hub for all major technological innovations, such as 5G, autonomous driving, IoT, blockchain, gaming, and AI, among others.
Countries like the United States and Canada are known to be early adopters of new technologies. Most new technologies at present are data intensive. They create, process, and transfer large amounts of data, due to which the current infrastructure, consisting of data centers and the cloud, is inching toward its maximum capacity. With the amount of new data generated and used presently, these infrastructures would not be able to support their customers' needs. Of all the parameters involved, latency is going to be the most crucial factor for business.
Since most companies rely on real-time data access and processing, low latency can disrupt their entire process. This is where edge computing has helped infrastructure developers address the issue. With new technologies maturing, edge computing is expected to have a significant impact.
Further, mobile edge computing allows consumers and businesses from various sectors to capitalize on the power of a data center in near real-time, unlocking the further potential for fast, low-latency mobile networks to empower transformative technologies for everything from home entertainment and gaming to healthcare and agriculture.
Various end-users in the region are indulging in partnerships with edge computing providers to develop innovative platforms coupled with advanced technologies such as 5G, IoT, and mobile edge computing. For instance, in January 2022, Vodafone announced a partnership with Proximie, the health technology platform that digitizes operating rooms worldwide to save lives by sharing the world's best clinical practices. Combining technologies such as 5G, IoT, and Edge Computing with Proximie's world-class connected surgical care software, healthcare experts will be able to virtually' scrub in,' record, and interact with operating rooms across the world to help accelerate and improve workforce training and more efficient delivery of high-quality surgical care, at scale.

Mobile Edge Computing (MEC) Industry Overview

The MEC market comprises several global and regional players vying for attention in a fairly contested market space. However, the market is dominated by major vendors that cover a significant share of the market and compete to gain a foothold and become pioneers in different regional markets. Overall, the competitive rivalry among the vendors is expected to be high and remain the same during the forecast period.

In September 2022, Nokia introduced new platform capabilities and applications for its on-premise Mission Critical Industrial Edge (MXIE) compute solution that would enable to host of applications from different ecosystems to advance enterprise digital transformation. It also developed vertical-specific blueprints that guide industrial enterprises to simplify their digital transformation.
In September 2022, Verizon partnered with US Armed Forces to construct a private 5G network inside an aircraft maintenance hangar on Joint Base Pearl Harbor Hickam (JBPHH). With this design, it would be easy for military leaders to leverage the high-speed, high-bandwidth, and low latency of Verizon 5G.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitute Products
- 4.2.5 Intensity of Competitive Rivalry
4.3 Value Chain Analysis
4.4 Impact of COVID-19 on the Mobile Edge Computing Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Widespread Adoption and Growth of Latency-specific Applications
- 5.1.2 Rising Application of 5G & Industrial IoT Services Among End-user Industries
5.2 Market Restraints
- 5.2.1 Lack of a Common Security Framework

6 MARKET SEGMENTATION

6.1 By Component
- 6.1.1 Hardware
- 6.1.2 Software
6.2 By End-user
- 6.2.1 Financial and Banking Industry
- 6.2.2 Retail
- 6.2.3 Healthcare and Life Sciences
- 6.2.4 Industrial
- 6.2.5 Energy and Utilities
- 6.2.6 Telecommunications
- 6.2.7 Other End-users
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia
- 6.3.4 Australia and New Zealand
- 6.3.5 Latin America
- 6.3.6 Middle East and Africa

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Nokia Corporation
- 7.1.2 Telefonaktiebolaget LM Ericsson
- 7.1.3 Comsovereign Holding Corp
- 7.1.4 AT&T Inc.
- 7.1.5 Huawei Technologies Co. Ltd.
- 7.1.6 Verizon Communication Ltd
- 7.1.7 SGH, Inc. (penguin Solutions )
- 7.1.8 ADLINK Technology Inc.
- 7.1.9 Vodafone Group PLC
- 7.1.10 Adva Optical Networking SE