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SDH光同期伝送装置の世界市場-2023-2030Global SDH Optical Synchronous Transmission Equipment Market - 2023-2030 |
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SDH光同期伝送装置の世界市場-2023-2030 |
出版日: 2023年02月14日
発行: DataM Intelligence
ページ情報: 英文 190 Pages
納期: 約2営業日
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SDH光同期伝送装置市場は、予測期間(2023年~2030年)においてCAGR4.22%で成長すると予測されています。
SDHは、光ファイバーでデジタル信号を伝送するための規格です。通信ネットワークにおいて、大容量のデータを長距離伝送するために利用されています。SDH光伝送装置は、このデジタル信号を光ファイバーで送受信します。SDH(Synchronous Digital Hierarchy)と呼ばれる光ファイバー伝送速度のカタログは、様々なサイズのデジタル信号を伝送します。低ビットレートと高レートのデータストリームをSDH技術で結合することができます。
また、ネットワーク全体が同期しているため、ユーザーは簡単に高速データストリームから特定のビットストリームを埋め込み、抽出することができます。SONET(Synchronous Optical Network)規格は、国際電気通信連合の電気通信標準化部門でSDHと呼ばれるように更新されました。どちらの技術も、従来のPDH(Plesiochronous Digital Hierarchy)ハードウェアよりも高速で安価なネットワーク相互接続を提供します。
クラウドコンピューティングの普及に伴い、SDH光伝送装置による大容量、高信頼性のデータ伝送に対する需要が高まっています。クラウドコンピューティングの普及が、SDH光伝送装置による大容量、高信頼性データ伝送の需要を促進しています。
SDHは、統合デジタルネットワークの伝送システムにおいて、非同期転送モードセル、イーサネットアグリゲーション、PDH信号、ストレージエリアネットワーク信号、その他の通信信号の伝送に使用されています。SDHシステムを使用する利点は、市場の拡大を後押しすることです。SDHの利点は、よりシンプルな多重化、多重化解除の技術を一貫して使用できることです。光ファイバーの帯域はほぼ無制限です。光ファイバーの帯域幅は事実上無限であり、メンテナンス手順も充実しており、より高いビットレートへの拡張も容易です。さらに、上記の要因は、世界のSDH光同期伝送装置市場を牽引しています。
光ファイバー通信の採用拡大が、SDH光同期伝送装置の世界市場の需要を押し上げる
現在の社会的な通信インフラの基盤である光ファイバー通信網は、予測期間中に大きな進化を遂げる必要があります。5Gモバイル、クラウドビジネス、オンラインサービスの普及、効果、スピードにより、インターネットデータ、ビデオ、その他の通信トラフィックは指数関数的に増加しています。こうしたトラフィック需要の高まりに伴い、超大規模データセンターのネットワークで使用されるスイッチやルーターの容量も上昇しています。これらの需要に対応するため、今年から大容量の400ギガビット光トランシーバーが導入され、将来の帯域増強のために800ギガビット光トランシーバーも検討されています。
これらのトランシーバーに使用される光部品は、シリコンフォトニクスのような単一材料からなる集積型光部品や、変調器、受信器、可変波長レーザーのようなディスクリート型部品が一般的でした。サイズと消費電力を削減するため、次世代の800Gコンポーネントとトランシーバーには、より高いレベルの集積度が必要になります。さらに、光ファイバー通信の需要の高まりは、市場の成長を補完するものです。
高速性、費用対効果、互換性、拡張性を提供できるSDHの需要は、予測期間中にさらに増加します。
SDHは、光ファイバーでデジタル信号を伝送するために使用される同期型光伝送装置の規格です。SDH機器の採用の主な原動力は以下の通りです。SDHは非常に高速なデータ伝送が可能であるため、ビデオ会議やストリーミングなど、広帯域を必要とするアプリケーションに適しています。SDHは、特に長距離通信において、他のタイプのデータ伝送よりも費用対効果が高い場合があります。SDHはクロック信号を用いて送信側と受信側を同期させるため、一般に非同期伝送よりも信頼性が高いです。データ伝送におけるエラーの可能性を低減することができます。また、SDHは簡単にスケールアップすることができ、データ伝送量の増加をサポートすることができます。互換性。SDHはさまざまなネットワーク・プロトコルと互換性があり、さまざまなアプリケーションに適しています。したがって、これらの要因が世界市場の成長を後押ししています。
しかし、初期コストの高さが市場成長の妨げになっています。SDH機器は購入や設置に費用がかかるため、一部の企業にとっては障壁となる可能性があります。データ伝送には、非同期転送モード(ATM)やイーサネットなど、SDHよりも一部のユーザーが好む他の技術も使用されています。
COVID-19影響度分析
COVID-19の大流行は多くの産業に大きな影響を与え、SDH(Synchronous Digital Hierarchy)同期光伝送装置の市場も例外ではありません。パンデミックによる景気後退は、SDH機器を含む多くの製品やサービスに対する需要の減少につながりました。パンデミックにより、通信を含む多くの産業でサプライチェーンが寸断されました。このため、一部のSDH機器では品不足となり、他の機器では納期遅延が発生しています。リモートワークへの移行やロックダウンによる多くの企業の閉鎖により、人々の通信ネットワークの利用形態が変化しています。その結果、SDH機器の需要にも何らかの変化が生じています。
全体として、COVID-19の大流行がSDH同期光伝送装置市場にマイナスの影響を与えているが、その影響の正確な程度を定量化することは容易でないです。
SDH Optical Synchronous Transmission Equipment Market is expected to grow at a CAGR of 4.22% during the forecasting period (2023-2030).
SDH is a standard for transmitting digital signals over optical fiber. It is used in telecommunications networks to transport large amounts of data over long distances. SDH optical transmission equipment transmits and receives these digital signals over optical fibers. A catalogue of fiber optic transmission rates known as Synchronous Digital Hierarchy (SDH) carries various-sized digital signals. Low-bit-rate and high-rate data streams can be combined using SDH technology.
Additionally, since the entire network is synchronous, users can easily embed and extract specific bit streams from high-rate data streams. The Synchronous Optical Network (SONET) standard has been updated by the International Telecommunication Union's Telecommunication Standardization Sector to be known as SDH. Both technologies offer network interconnections that are quicker and less expensive than those offered by conventional Plesiochronous Digital Hierarchy (PDH) hardware.
The increasing adoption of cloud computing drives the demand for high-capacity, reliable data transmission provided by SDH optical transmission equipment. The increasing adoption of cloud computing drives the demand for high-capacity, reliable data transmission provided by SDH optical transmission equipment.
SDH is used in transmission systems for integrated services digital networks to transport Asynchronous Transfer Mode cells, Ethernet aggregations, PDH signals, storage area network signals and other communication signals. The advantage of using SDH systems is to boost market expansion. It consistently makes use of techniques for multiplexing and demultiplexing that are more simplistic. The bandwidth of an optical fiber is virtually limitless. It has enhanced maintenance procedures and is easily expandable to higher bit rates. Furthermore, the above-mentioned factors drive the global SDH optical synchronous transmission equipment market.
Growing adoption of fiber optical communication drives up the demand for the global SDH optical synchronous transmission equipment market
The foundation of the current societal communication infrastructure, fiber-optic communication networks, will need to undergo a significant evolution during the forecast period. Due to the popularity, effectiveness and speed of 5G mobile, cloud businesses and online services, internet data, video and other communications traffic are growing exponentially. The capacity of switches and routers used in the networks of hyper-scale data centers is rising along with these rising traffic demands. High-capacity 400 Gigabit optical transceivers have been introduced this year to meet these demands and 800 Gigabit optical transceivers are being considered for future bandwidth upgrades.
The optical components used in these transceivers have typically been integrated optical components made of a single material, like silicon photonics or discrete components like modulators, receivers and variable wavelength lasers. In order to reduce size and power consumption, the next generation of 800G components and transceivers will need a higher level of integration. Furthermore, the growing demand for fiber optical communication supplements the market growth.
Ability to offer high speed, cost-effectiveness, compatibility and scalability, the demand for SDH is growing more over the forecast period
SDH is a standard for synchronous optical transmission equipment used to transmit digital signals over optical fiber. The main driving factors for the adoption of SDH equipment are: SDH allows for data transmission at very high speeds, making it suitable for applications that require high bandwidth, such as video conferencing and streaming. SDH can be more cost-effective than other types of data transmission, especially for long-distance communication. It is generally more reliable than asynchronous transmission because it uses a clock signal to synchronize the sender and receiver. It can reduce the likelihood of errors in the transmission of data. SDH can also be easily scaled up to support increasing data transmission. Compatibility: SDH is compatible with various networking protocols, making it suitable for various applications. Therefore, these factors drive global market growth.
However, higher initial cost hampers the market growth. SDH equipment can be expensive to purchase and install, which may be a barrier for some organizations. Some other technologies are used for data transmissions, such as asynchronous transfer mode (ATM) and Ethernet, which some users over SDH may prefer.
COVID-19 Impact Analysis
The COVID-19 pandemic has significantly impacted many industries and the market for SDH (Synchronous Digital Hierarchy) synchronous optical transmission equipment has been no exception. The economic downturn resulting from the pandemic has led to decreased demand for many products and services, including SDH equipment. The pandemic has disrupted supply chains for many industries, including telecommunications. It has led to shortages of some types of SDH equipment and delays in delivery for others. The shift to remote work and the closure of many businesses due to lockdowns have led to changes in the way that people use communication networks. It has resulted in some changes in the demand for SDH equipment.
Overall, the COVID-19 pandemic has negatively impacted the SDH synchronous optical transmission equipment market, but it isn't easy to quantify the exact extent of the impact.
The global SDH optical synchronous transmission equipment market is segmented based on type, application and region.
Increased usage low order multiplex systems bolster the demand for the communication application segment, which in turn supports global market growth
SDH equipment is used to transmit data over long distances for various communication purposes. It includes telephone calls, internet access and video conferencing.
Low-order multiplex systems, such as telephone system communication links, can be added to higher hierarchy levels using the synchronous mode of operation and removed again using add and drop. SDH recognizes a variety of hierarchies, including STM-1, STM-4, STM-16 or STM-64 (155 MBits, 622 MBits, 2,488 MBits, 9,953 MBits), following the levels specified by the standard. About five percent of the gross data rate is reserved for OAM tasks (Operations, Administration and Maintenance). The data is transparently transported over the SDH network in containers. Furthermore, the above factors drive the demand for the global SDH optical synchronous transmission equipment market.
The global SDH optical synchronous transmission equipment market is segmented based on type, application and region.
Owing to the technological advancement in the telecommunication sector in the region supports the global market growth
In general, the North American market for telecommunications equipment, including SDH equipment, is constantly evolving and there are likely to be ongoing developments in this region. The growing demand for high-speed data transmission has driven the adoption of SDH equipment in North America. The increasing use of data-intensive applications such as video streaming and online gaming has driven this demand.
There have been several technological advancements in SDH equipment, including developing more advanced modulation schemes and using more efficient coding techniques. The advancements have led to increased capacity and data rates for SDH systems. Overall, the market for SDH optical synchronous transmission equipment in North America is expected to grow during the forecast period, driven by increasing demand for high-speed data transmission and the deployment of fiber optic networks.
To develop new innovative technologies or systems for data transmission, telecommunications manufacturers around the world are making several strategic decisions in the global SDH optical synchronous transmission equipment market. The primary focus areas include product launches, partnerships, strategic acquisitions and mergers. The key players in the market are Huawei, Ericsson, Cisco, Tektronix, Ciena, Alcatel-Lucent, Fujitsu, ADTRAN, Infinera and ZTE.
Huawei
Overview: Huawei is a multinational technology company based in China specializing in telecommunications equipment and consumer electronics. Ren Zhengfei founded the company in 1987. The company is the leading global telecommunications equipment and smartphone manufacturer. Huawei is also a leading networking and telecom equipment provider and has a strong presence in the global market for these products. Its business segment includes consumer business, carrier business and enterprise business. It operates in Asia-Pacific, EMEA, China and the Americas.
The global SDH optical synchronous transmission equipment market report would provide approximately 53 tables, 50 figures and 190 Pages.
Target Audience 2023
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