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商品編碼

1636673

到 2030 年 TSN（時間敏感網路）市場預測：按類型、組件、最終用戶和地區分類的全球分析

Time-Sensitive Networking Market Forecasts to 2030 - Global Analysis By Type (IEEE 802.1AS, IEEE 802.1Qbv, IEEE 802.1Qbu, IEEE 802.1Qci, IEEE 802.1CB, IEEE 802.1Qch, IEEE 802.1Qcr and Other Types), Component, End User and By Geography

出版日期: 2025年01月01日 | 出版商:

Stratistics Market Research Consulting | 英文 200+ Pages | 商品交期: 2-3個工作天內

價格

簡介目錄圖表

根據 Stratistics MRC 預測，2024 年 TSN（時間敏感網路）全球市場價值將達到 4.8954 億美元，預測期內複合年成長率為 39.6%，到 2030 年將達到 36.233 億美元。

時間敏感網路（TSN）是一種尖端網路技術，結合了時間同步通訊協定、低延遲資料傳輸和頻寬管理，以實現確定性資料傳輸。這使得它們非常適合需要高可靠性和可預測性的應用，例如通訊、自動駕駛車輛和工業自動化。

IEEE 表示，IEEE 802.1AS 和 IEEE 802.1Qbv 等 TSN 標準的開發對於為乙太網路供電以及以精確確定時和低延遲處理時間敏感資料至關重要。這些標準對於需要高水準同步和最小延遲的應用至關重要，例如工業自動化和汽車系統。

工業自動化的使用增加

隨著工業和製造流程自動化程度的提高，對 TSN 的需求急劇增加。在從運動控制系統到機器人組裝的各種應用中，產業需要能夠以高可靠性和低延遲即時傳輸資料的通訊協定。 TSN 支援確定性通訊，確保同步操作並避免延遲和中斷。此外，這在半導體製造、製藥製造和汽車組裝廠等關鍵任務環境中尤其重要，在這些環境中，即使是最輕微的故障也可能導致重大損失。

實施成本高

建立支援 TSN 的網路的高昂成本是 TSN 實施的最大障礙之一。部署 TSN 需要購買支援 TSN 標準的專用硬體，例如交換器、路由器和端點。由於需要頻繁升級或更換現有網路基礎設施，成本進一步增加。對於預算緊張的中小型企業 (SME) 來說，這些成本可能過高，從而延遲了 TSN 的採用。此外，需要合格的員工來建立和維護 TSN 網路，這會增加營運成本，對於預算緊張的公司來說，這不是一個有吸引力的選擇。

工業物聯網 (IIOT) 生態系的發展

TSN 的一個關鍵機會是工業IoT(IIoT) 的快速採用。能源管理、預測性維護和智慧物流等工業物聯網應用需要具有確定性通訊和即時資料傳輸功能的網路。 TSN 透過允許各種設備（包括致動器和感測器）之間同步資料交換來滿足這些要求。隨著產業流程日益數位化、提高資源利用率、減少停機時間並提高營運效率，TSN 將成為 IIoT 系統的基礎。此外，將 TSN 與邊緣運算和雲端基礎的平台結合可提供增強的功能，以促進穩健且可擴展的 IIoT 架構。

缺乏知識和經驗

由於缺乏對 TSN 的好處和應用的了解，市場發展受到嚴重威脅，特別是在新興國家和低度開發地區。許多不了解切換到 TSN 支援的網路的好處的組織可能會繼續使用舊有系統，因為他們不熟悉 TSN 的功能。此外，實施和維護 TSN 需要專業知識，而目前市場上缺乏這些知識。由於缺乏合格的人員和培訓舉措， TSN 的採用可能會被推遲，特別是在具有複雜網路需求的領域。

COVID-19 的影響：

COVID-19 大流行對 TSN（時間敏感網路）市場產生了重大影響，既有正面的影響，也有負面的影響。一方面，全球供應鏈中斷和工業計劃（特別是製造和運輸領域）的延誤阻礙了 TSN 系統的實施。另一方面，景氣衰退導致許多公司推遲對先進網路技術的投資。另一方面，疫情加速了數位轉型和工業 4.0 解決方案的採用，增加了醫療保健、遠端操作和智慧基礎設施等行業對 TSN 等即時、可靠、低延遲通訊系統的需求。

IEEE 802.1AS（定時和同步）部分預計將在預測期內成為最大的部分

TSN（時間敏感網路）市場預計將由 IEEE 802.1AS（定時和同步）部分主導，該部分的關鍵功能是促進即時通訊所需的網路節點之間的精確時間同步。此標準可確保支援 TSN 的網路中的所有設備協調運行，從而實現通訊、工業自動化和汽車行業等領域所需的確定性、低延遲資料傳輸。此外，TSN 的重要性也體現在它在 5G 網路、智慧工廠和駕駛人汽車等應用中的廣泛使用，其中精確的定時和同步對於這些尖端系統的平穩運行至關重要，對於確保操作和互通性至關重要。

控制器和處理器領域預計在預測期內複合年成長率最高。

在 TSN（時間敏感網路）市場中，控制器和處理器預計將具有最高的複合年成長率。這種擴展是由於對先進運算和處理能力不斷成長的需求推動的，以管理支援 TSN 的系統的複雜即時通訊協定。 TSN 網路的核心是控制器和處理器，它們控制資料流、同步和流量優先級，以確保確定性的效能。隨著工業 4.0、無人駕駛汽車和智慧城市基礎設施的出現，對支援 TSN 的處理器的需求不斷增加。

佔比最大的地區：

由於領先科技公司的存在、工業自動化的大量投資以及通訊、汽車等各行業對即時資料傳輸的需求不斷成長，北美地區在 TSN（時間敏感網路）市場中佔據最大佔有率，以及製造。該地區因其先進的基礎設施、對創新的關注以及對尖端網路解決方案的採用而被定位為 TSN 市場的領導者。此外，北美在這一領域的主導也是政府鼓勵智慧城市發展和物聯網（IoT）廣泛使用的計畫的結果。

複合年成長率最高的地區：

由於亞太地區工業化的快速發展、智慧製造投資的增加以及物聯網技術在各行業的廣泛使用，時間敏感網路（TSN）市場預計將以亞太地區最高的複合年成長率成長馬蘇地區。為了滿足自動化、機器人和即時資料處理的需求，中國、日本和印度等國家正在部署先進的網路解決方案。此外，由於該地區製造業、通訊和汽車行業的蓬勃發展，以及政府支持智慧城市和智慧基礎設施的計劃，TSN 市場正在顯著擴大。

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公司簡介
- 其他市場公司的綜合分析（最多 3 家公司）
- 主要企業SWOT分析（最多3家企業）
區域分割
- 根據客戶興趣對主要國家的市場估計、預測和複合年成長率（註：基於可行性檢查）
競爭標基準化分析
- 根據產品系列、地理分佈和策略聯盟對主要企業基準化分析

北美洲
- 美國
- 加拿大
- 墨西哥
歐洲
- 德國
- 英國
- 義大利
- 法國
- 西班牙
- 其他歐洲國家
亞太地區
- 日本
- 中國
- 印度
- 澳洲
- 紐西蘭
- 韓國
- 其他亞太地區
南美洲
- 阿根廷
- 巴西
- 智利
- 南美洲其他地區
中東/非洲
- 沙烏地阿拉伯
- 阿拉伯聯合大公國
- 卡達
- 南非
- 其他中東/非洲

第9章主要進展

合約、夥伴關係、協作和合資企業
收購和合併
新產品發布
業務拓展
其他關鍵策略

第 10 章公司概況

Cisco Systems, Inc
ABB Ltd.
Siemens
Marvell Technology Group Ltd.
Belden Inc.
National Instruments Corporation
Analog Devices, Inc.,
NXP Semiconductor NV
Mitsubishi Electric
Texas Instruments Incorporated
Renesas Electronics Corporation
Microchip Technology Incorporated
Broadcom Inc.
Intel Corporation
TTTech Group

簡介目錄圖表

Product Code: SMRC28314

According to Stratistics MRC, the Global Time-Sensitive Networking Market is accounted for $489.54 million in 2024 and is expected to reach $3623.30 million by 2030 growing at a CAGR of 39.6% during the forecast period. Time-Sensitive Networking (TSN), a cutting-edge networking technology, combines time synchronization protocols, low-latency data transmission, and bandwidth management to enable deterministic data transfer. This makes it ideal for applications that require high reliability and predictability, such as telecommunications, autonomous vehicles, and industrial automation.

According to IEEE, the development of TSN standards like IEEE 802.1AS and IEEE 802.1Qbv is crucial for enhancing Ethernet networks to handle time-sensitive data with precise timing and low latency. These standards are essential for applications requiring high levels of synchronization and minimal delay, such as industrial automation and automotive systems.

Market Dynamics:

Driver:

Increasing use of automation in industry

The need for TSN has increased dramatically as a result of the growing push for automation in industrial and manufacturing processes. With uses ranging from motion control systems to robotic assembly lines, industries need communication protocols that can transfer data in real time with high reliability and low latency. Deterministic communication is made possible by TSN, which guarantees synchronized operations and avoids delays or outages. Additionally, this is particularly important in mission-critical settings where even a small disruption can result in large losses, like semiconductor manufacturing, pharmaceutical production, and auto assembly plants.

Restraint:

High costs of implementation

The high cost of setting up TSN-enabled networks is one of the biggest obstacles to TSN adoption. Purchasing specialized hardware, such as switches, routers, and endpoints that support TSN standards, is necessary for TSN implementation. The cost is further increased by the frequent need to upgrade or replace the network infrastructure that is already in place. These expenses may be unaffordable for small and medium-sized businesses (SMEs) with tight budgets, which would delay the adoption of TSN. Furthermore, the requirement for qualified staff to set up and maintain TSN networks raises operating costs, which makes it a less attractive choice for businesses with tight budgets.

Opportunity:

Growth of industrial internet of things (IIOT) ecosystems

An important opportunity for TSN is the quick uptake of Industrial IoT (IIoT). Networks with deterministic communication and real-time data transfer capabilities are necessary for IIoT applications like energy management, predictive maintenance, and smart logistics. These requirements are met by TSN, which permits synchronized data exchange between a variety of devices, including actuators and sensors. TSN can be the foundation of IIoT systems as industries increasingly digitize their processes, offering increased resource utilization, decreased downtime, and improved operational efficiency. Moreover, the incorporation of TSN with edge computing and cloud-based platforms enhances its function in facilitating robust and scalable IIoT architectures.

Threat:

Absence of knowledge and experience

The growth of the market is seriously threatened by a lack of knowledge about the advantages and uses of TSN, particularly in developing and underdeveloped areas. Unaware of the benefits of switching to a network enabled by TSN, many organizations may continue to use legacy systems because they are not familiar with TSN's capabilities. Furthermore, TSN implementation and upkeep call for specific knowledge, which is currently lacking in the market. TSN adoption may be slowed by a lack of qualified personnel and training initiatives, especially in sectors with intricate networking needs.

Covid-19 Impact:

The COVID-19 pandemic had a significant impact on the Time-Sensitive Networking (TSN) market in both positive and negative ways. On the one hand, the deployment of TSN-enabled systems was hampered by disruptions in global supply chains and delays in industrial projects, especially in the manufacturing and transportation sectors. On the other hand, the economic downturn caused many companies to postpone investments in advanced networking technologies. Moreover, on the other hand, the pandemic accelerated digital transformation and the adoption of Industry 4.0 solutions, which increased demand for real-time, dependable, and low-latency communication systems like TSN in industries like healthcare, remote operations, and smart infrastructure.

The IEEE 802.1AS (Timing and Synchronization) segment is expected to be the largest during the forecast period

The Time-Sensitive Networking (TSN) market is expected to be dominated by the IEEE 802.1AS (Timing and Synchronization) segment because of its crucial function in facilitating accurate time synchronization among network nodes, which is necessary for real-time communication. This standard guarantees that all of the devices in a TSN-enabled network work together harmoniously, enabling the deterministic and low-latency data transmission needed in sectors like telecommunications, industrial automation, and the automotive industry. Additionally, its importance is demonstrated by its broad use in applications such as 5G networks, smart factories, and driverless cars, where precise timing and synchronization are essential for ensuring smooth operation and interoperability in these cutting-edge systems.

The Controllers & Processors segment is expected to have the highest CAGR during the forecast period

The Controllers & Processors segment is expected to have the highest CAGR in the Time-Sensitive Networking (TSN) market. The growing demand for sophisticated computing and processing power to manage intricate real-time communication protocols in TSN-enabled systems is what is causing this expansion. At the heart of TSN networks are controllers and processors, which control data flow, synchronization, and traffic prioritization to guarantee deterministic performance. The need for TSN-compatible processors has increased due to the emergence of Industry 4.0, driverless cars, and smart city infrastructure.

Region with largest share:

Due to the presence of major technology companies, significant investments in industrial automation, and the rising demand for real-time data transmission across a variety of industries, including telecommunications, automotive, and manufacturing, the North American region is anticipated to hold the largest share of the Time-Sensitive Networking (TSN) market. The region is positioned as a leader in the TSN market due to its sophisticated infrastructure, emphasis on innovation, and adoption of state-of-the-art networking solutions. Moreover, North America's leadership in this field is also a result of government programs encouraging the growth of smart cities and the extensive use of the Internet of Things (IoT).

Region with highest CAGR:

The Time-Sensitive Networking (TSN) Market is anticipated to grow at the highest CAGR in the Asia Pacific region due to the region's rapid industrialization, rising investments in smart manufacturing, and the growing use of IoT technologies in a variety of industries. To satisfy the demands of automation, robotics, and real-time data processing, nations like China, Japan, and India are progressively putting advanced networking solutions into place. Additionally, the TSN market is expanding significantly due to the region's booming manufacturing, telecommunications, and automotive sectors, as well as government programs that support smart cities and smart infrastructure.

Key players in the market

Some of the key players in Time-Sensitive Networking market include Cisco Systems, Inc, ABB Ltd., Siemens, Marvell Technology Group Ltd., Belden Inc., National Instruments Corporation, Analog Devices, Inc., NXP Semiconductor N.V., Mitsubishi Electric, Texas Instruments Incorporated, Renesas Electronics Corporation, Microchip Technology Incorporated, Broadcom Inc., Intel Corporation and TTTech Group.

Key Developments:

In December 2024, Semiconductor Company Marvell Technologies has signed a five-year agreement with Amazon Web Services (AWS). The value of the deal, which will see both companies using one another's products, has not been shared. Marvell will provide a range of data center semiconductors to AWS including custom AI products, optical digital signal processors (DSPs), active electrical cable (AEC) DSPs, PCIe retimers, data center interconnect (DCI) optical modules, and Ethernet switching silicon solutions.

In November 2024, Cisco and MGM Resorts International have announced a multi-year whole portfolio agreement (WPA) that will provide MGM Resorts with access to the majority of Cisco's software portfolio. This includes cybersecurity, software-defined networking, software-defined WAN [wide area network], digital experience assurance, full-stack observability, data centre and services.

In August 2024, Mitsubishi Electric Corporation announced that it has signed an agreement with Siemens Energy Global GmbH & Co. KG headquartered in Munich, Federal Republic of Germany, to co-develop Direct Current (DC) Switching Stations and DC Circuit Breaker requirement specifications. The agreement aims to realize Multi-terminal High Voltage DC (HVDC) systems to enable efficient operation of large-scale renewable energy resources.

Types Covered:

IEEE 802.1AS (Timing and Synchronization)
IEEE 802.1Qbv (Enhancements for Scheduled Traffic)
IEEE 802.1Qbu (Frame Preemption)
IEEE 802.1Qci (Per-Stream Filtering and Policing)
IEEE 802.1CB (Seamless Redundancy)
IEEE 802.1Qch (Cyclic Queuing and Forwarding)
IEEE 802.1Qcr (Asynchronous Traffic Shaping)
Other Types

Components Covered:

Switches
Hubs, Routers, & Gateways
Connectors
Power Supply Devices
Controllers & Processors
Memory
Other Components

End Users Covered:

Power and Energy
Automotive
Transportation
Oil & Gas
Telecom and Data Centre
Pharmaceutical
Aerospace
Other End Users

Regions Covered:

North America
- US
- Canada
- Mexico
Europe
- Germany
- UK
- Italy
- France
- Spain
- Rest of Europe
Asia Pacific
- Japan
- China
- India
- Australia
- New Zealand
- South Korea
- Rest of Asia Pacific
South America
- Argentina
- Brazil
- Chile
- Rest of South America
Middle East & Africa
- Saudi Arabia
- UAE
- Qatar
- South Africa
- Rest of Middle East & Africa

What our report offers:

Market share assessments for the regional and country-level segments
Strategic recommendations for the new entrants
Covers Market data for the years 2022, 2023, 2024, 2026, and 2030
Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
Strategic recommendations in key business segments based on the market estimations
Competitive landscaping mapping the key common trends
Company profiling with detailed strategies, financials, and recent developments
Supply chain trends mapping the latest technological advancements

Free Customization Offerings:

All the customers of this report will be entitled to receive one of the following free customization options:

Company Profiling
- Comprehensive profiling of additional market players (up to 3)
- SWOT Analysis of key players (up to 3)
Regional Segmentation
- Market estimations, Forecasts and CAGR of any prominent country as per the client's interest (Note: Depends on feasibility check)
Competitive Benchmarking
- Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances

1 Executive Summary

2 Preface

2.1 Abstract
2.2 Stake Holders
2.3 Research Scope
2.4 Research Methodology
- 2.4.1 Data Mining
- 2.4.2 Data Analysis
- 2.4.3 Data Validation
- 2.4.4 Research Approach
2.5 Research Sources
- 2.5.1 Primary Research Sources
- 2.5.2 Secondary Research Sources
- 2.5.3 Assumptions

3 Market Trend Analysis

3.1 Introduction
3.2 Drivers
3.3 Restraints
3.4 Opportunities
3.5 Threats
3.6 End User Analysis
3.7 Emerging Markets
3.8 Impact of Covid-19

4 Porters Five Force Analysis

4.1 Bargaining power of suppliers
4.2 Bargaining power of buyers
4.3 Threat of substitutes
4.4 Threat of new entrants
4.5 Competitive rivalry

5 Global Time-Sensitive Networking Market, By Type

5.1 Introduction
5.2 IEEE 802.1AS (Timing and Synchronization)
5.3 IEEE 802.1Qbv (Enhancements for Scheduled Traffic)
5.4 IEEE 802.1Qbu (Frame Preemption)
5.5 IEEE 802.1Qci (Per-Stream Filtering and Policing)
5.6 IEEE 802.1CB (Seamless Redundancy)
5.7 IEEE 802.1Qch (Cyclic Queuing and Forwarding)
5.8 IEEE 802.1Qcr (Asynchronous Traffic Shaping)
5.9 Other Types

6 Global Time-Sensitive Networking Market, By Component

6.1 Introduction
6.2 Switches
6.3 Hubs, Routers, & Gateways
6.4 Connectors
6.5 Power Supply Devices
6.6 Controllers & Processors
6.7 Memory
6.8 Other Components

7 Global Time-Sensitive Networking Market, By End User

7.1 Introduction
7.2 Power and Energy
7.3 Automotive
7.4 Transportation
7.5 Oil & Gas
7.6 Telecom and Data Centre
7.7 Pharmaceutical
7.8 Aerospace
7.9 Other End Users

8 Global Time-Sensitive Networking Market, By Geography

8.1 Introduction
8.2 North America
- 8.2.1 US
- 8.2.2 Canada
- 8.2.3 Mexico
8.3 Europe
- 8.3.1 Germany
- 8.3.2 UK
- 8.3.3 Italy
- 8.3.4 France
- 8.3.5 Spain
- 8.3.6 Rest of Europe
8.4 Asia Pacific
- 8.4.1 Japan
- 8.4.2 China
- 8.4.3 India
- 8.4.4 Australia
- 8.4.5 New Zealand
- 8.4.6 South Korea
- 8.4.7 Rest of Asia Pacific
8.5 South America
- 8.5.1 Argentina
- 8.5.2 Brazil
- 8.5.3 Chile
- 8.5.4 Rest of South America
8.6 Middle East & Africa
- 8.6.1 Saudi Arabia
- 8.6.2 UAE
- 8.6.3 Qatar
- 8.6.4 South Africa
- 8.6.5 Rest of Middle East & Africa

9 Key Developments

9.1 Agreements, Partnerships, Collaborations and Joint Ventures
9.2 Acquisitions & Mergers
9.3 New Product Launch
9.4 Expansions
9.5 Other Key Strategies

10 Company Profiling

10.1 Cisco Systems, Inc
10.2 ABB Ltd.
10.3 Siemens
10.4 Marvell Technology Group Ltd.
10.5 Belden Inc.
10.6 National Instruments Corporation
10.7 Analog Devices, Inc.,
10.8 NXP Semiconductor N.V.
10.9 Mitsubishi Electric
10.10 Texas Instruments Incorporated
10.11 Renesas Electronics Corporation
10.12 Microchip Technology Incorporated
10.13 Broadcom Inc.
10.14 Intel Corporation
10.15 TTTech Group

簡介目錄圖表

List of Tables

Table 1 Global Time-Sensitive Networking Market Outlook, By Region (2022-2030) ($MN)
Table 2 Global Time-Sensitive Networking Market Outlook, By Type (2022-2030) ($MN)
Table 3 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1AS (Timing and Synchronization) (2022-2030) ($MN)
Table 4 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1Qbv (Enhancements for Scheduled Traffic) (2022-2030) ($MN)
Table 5 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1Qbu (Frame Preemption) (2022-2030) ($MN)
Table 6 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1Qci (Per-Stream Filtering and Policing) (2022-2030) ($MN)
Table 7 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1CB (Seamless Redundancy) (2022-2030) ($MN)
Table 8 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1Qch (Cyclic Queuing and Forwarding) (2022-2030) ($MN)
Table 9 Global Time-Sensitive Networking Market Outlook, By IEEE 802.1Qcr (Asynchronous Traffic Shaping) (2022-2030) ($MN)
Table 10 Global Time-Sensitive Networking Market Outlook, By Other Types (2022-2030) ($MN)
Table 11 Global Time-Sensitive Networking Market Outlook, By Component (2022-2030) ($MN)
Table 12 Global Time-Sensitive Networking Market Outlook, By Switches (2022-2030) ($MN)
Table 13 Global Time-Sensitive Networking Market Outlook, By Hubs, Routers, & Gateways (2022-2030) ($MN)
Table 14 Global Time-Sensitive Networking Market Outlook, By Connectors (2022-2030) ($MN)
Table 15 Global Time-Sensitive Networking Market Outlook, By Power Supply Devices (2022-2030) ($MN)
Table 16 Global Time-Sensitive Networking Market Outlook, By Controllers & Processors (2022-2030) ($MN)
Table 17 Global Time-Sensitive Networking Market Outlook, By Memory (2022-2030) ($MN)
Table 18 Global Time-Sensitive Networking Market Outlook, By Other Components (2022-2030) ($MN)
Table 19 Global Time-Sensitive Networking Market Outlook, By End User (2022-2030) ($MN)
Table 20 Global Time-Sensitive Networking Market Outlook, By Power and Energy (2022-2030) ($MN)
Table 21 Global Time-Sensitive Networking Market Outlook, By Automotive (2022-2030) ($MN)
Table 22 Global Time-Sensitive Networking Market Outlook, By Transportation (2022-2030) ($MN)
Table 23 Global Time-Sensitive Networking Market Outlook, By Oil & Gas (2022-2030) ($MN)
Table 24 Global Time-Sensitive Networking Market Outlook, By Telecom and Data Centre (2022-2030) ($MN)
Table 25 Global Time-Sensitive Networking Market Outlook, By Pharmaceutical (2022-2030) ($MN)
Table 26 Global Time-Sensitive Networking Market Outlook, By Aerospace (2022-2030) ($MN)
Table 27 Global Time-Sensitive Networking Market Outlook, By Other End Users (2022-2030) ($MN)