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PUBLISHER: Knowledge Sourcing Intelligence | PRODUCT CODE: 1378118

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PUBLISHER: Knowledge Sourcing Intelligence | PRODUCT CODE: 1378118

Dense Wave Digital Multiplexing (DWDM) System Market - Forecasts from 2023 to 2028

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The global dense wave digital multiplexing (DWDM) system market is expected to grow at a CAGR of 2.79% from US$3.210 billion in 2021 to US$3.893 billion in 2028.

The bandwidth of modern fiber networks is increased using dense wavelength-division multiplexing (DWDM). It combines data signals from many sources using a single pair of optical fibers while maintaining complete stream segregation. Fiber optic cables are the industry standard for telecommunications infrastructure and frequently serve as the backbone of carriers' interoffice networks. A single network link can carry vast amounts of data thanks to DWDM since it multiplies the physical medium's capacity by creating several virtual fibers.

Market Drivers:

Data center expansion and 5G integration to raise the demand for DWDM systems.

Integration with 5G Networks: High-capacity and low-late communication technologies will be needed for the rollout of 5G networks. In 5G networks, DWDM technology can be essential for allowing efficient and smooth communication, offering the DWDM system market substantial potential opportunities. The demand for high-speed and dependable data transmission is being driven by the quick development of technologies like driverless vehicles, virtual reality, and artificial intelligence. Moreover, a rising need for data processing and storage capacity. In data centers, DWDM systems can offer effective connectivity solutions that enable faster data transfer and improve overall performance.

Rising technological development and growing traffic

The global dense wave digital multiplexing (DWDM) system market size is predicted to be accelerated by the development of high-capacity optical communication technologies like DWDM networks is necessary due to the exponential expansion of data traffic, which is being driven by the increasing popularity of digital content, cloud services, and loT applications. A strong and effective data transmission infrastructure is needed to meet the increased demand for bandwidth-intensive services like video streaming, online gaming, and HD video conferencing. DWDM systems can provide this infrastructure. To address the increased need for high-speed data transmission, governments, and telecommunications service providers are investing heavily in enhancing and expanding their network infrastructures, which is helping to promote the use of DWDM systems.

Growth in WDM spending

Voice, data, and video technologies are increasingly converging to form metro optical transport networks. They are shaped by the expediting of service requirements and changing business strategies that aim to reduce overall OPEX. The necessity for scalable and flexible infrastructure gear that can adapt to shifting bandwidth requirements has arisen among many urban service providers and companies. Important market players are developing platforms that are optimized for competitive and autonomous exchange carriers, large businesses, and suppliers of networks for research and education.

Rising demand in the telecom sector

Due to its capacity for handling large amounts of data, it is well-liked by cable and telecommunications providers. It is also appropriate for data centres with a lot of users. The operators of the hyper-scale cloud services are colocation or infrastructure as a service company with several multi-tenant spaces. Due to the demand from providers of services who utilize them in their long-haul transmissions, WDM devices are widely employed in the IT industry. High-speed internet uses a wavelength division multiplexer (WDM) in optical transmission. On long-distance optical fiber networks, the use of multiplexing with wavelength division technology helps to improve bandwidth and save costs.

Enhanced data transmission and improved network performance

A single optical fiber may carry several light wavelengths thanks to DWDM technology, greatly enhancing the speed and efficiency of data transmission. Further, organizations may improve network performance, lower latency, and guarantee reliable connectivity for bandwidth-intensive applications by using DWDM. It also makes it possible to optimize network infrastructures, which eliminates the need for additional fiber installation projects. They also enable organizations to simply increase their network bandwidth as needed and respond to changing network requirements. Moreover, businesses can gain a competitive edge by implementing DWDM systems and providing their clients with high-speed and dependable data transfer options.

Market Restraints:

High investment and complexity in network management

Small and medium-sized businesses may face financial difficulties because of the adoption of DWDM systems, which necessitates considerable upfront investments in optical machinery, network infrastructure, and specialized personnel. Further, the widespread deployment of DWDM systems may be hampered by the restricted availability of optical fiber infrastructure. In such places, fiber network expansion can be time-consuming and expensive. DWDM system management and upkeep can be complicated and demand specialized knowledge and abilities. Organizations with low resources could be discouraged from implementing DWDM solutions due to this complexity which is limiting the global dense wave digital multiplexing (DWDM) system market share.

North America is projected to become a significant global dense wave digital multiplexing (DWDM) system marketplace.

The North American region is anticipated to lead the global dense wave digital multiplexing (DWDM) system market during the projected period. Technological improvements, the presence of significant industry participants, and the rising demand for data transfer at high speeds are the main market drivers in North America. Due to growing expenditures in telecommunications infrastructure and the deployment of cutting-edge optical networking technologies, Europe is seeing substantial development. urbanization that is occurring quickly, increased internet usage, and an increase in data center deployments. Due to the rising need for better connection and digital services, the markets in Latin America, the Middle East, and Africa present untapped prospects.

Market Key Developments:

  • In August 2021, to build a leading, a scaled global provider of end-to-end fiber networking solutions for communications service providers, enterprises, and government customers, ADTRAN, Inc., and ADVA announced the signing of a business combination agreement. The merger combines the global leadership of ADTRAN in subscriber connectivity, fiber access, and fiber extension with ADVA's strength in metro wavelength division multiplication, data center interconnect, business ethernet, and network synchronization. Both businesses have pioneered open, disaggregated technologies and a similar outlook on fiber networking.
  • In June 2021, Televes S.A.U. announced the signing of a technological alliance with Padtec, a Brazilian technology giant. The DWDM solutions, which are based on Padtec's developments, through the technological partnership, will become a part of the former's product portfolio for Televes' new business area, specializing in Optical Transport domain. The main markets targeted under this partnership is the Europe, Middle East and Africa (EMEA) markets.

Segmentation:

By Type

  • Synchronous Optical Network Data (SONET)
  • Internet Protocol (IP)
  • Asynchronous Transfer Mode (atm)

By Application

  • BFSI
  • It & Telecommunication
  • Healthcare & Life Sciences
  • Automotive
  • Manufacturing
  • Others

By Geography

  • North America
  • United States
  • Canada
  • Mexico
  • South America
  • Brazil
  • Argentina
  • Others
  • Europe
  • United Kingdom
  • Germany
  • France
  • Spain
  • Others
  • Middle East and Africa
  • Saudi Arabia
  • UAE
  • Israel
  • Others
  • Asia Pacific
  • China
  • Japan
  • India
  • South Korea
  • Indonesia
  • Thailand
  • Others
Product Code: KSI061615494

TABLE OF CONTENTS

1. INTRODUCTION

  • 1.1. Market Overview
  • 1.2. Market Definition
  • 1.3. Scope of the Study
  • 1.4. Market Segmentation
  • 1.5. Currency
  • 1.6. Assumptions
  • 1.7. Base, and Forecast Years Timeline

2. RESEARCH METHODOLOGY

  • 2.1. Research Data
  • 2.2. Assumptions

3. EXECUTIVE SUMMARY

  • 3.1. Research Highlights

4. MARKET DYNAMICS

  • 4.1. Market Drivers
  • 4.2. Market Restraints
  • 4.3. Porter's Five Force Analysis
    • 4.3.1. Bargaining Power of Suppliers
    • 4.3.2. Bargaining Power of Buyers
    • 4.3.3. Threat of New Entrants
    • 4.3.4. Threat of Substitutes
    • 4.3.5. Competitive Rivalry in the Industry
  • 4.4. Industry Value Chain Analysis

5. GLOBAL DENSE WAVE DIGITAL MULTIPLEXING (DWDM) SYSTEM MARKET BY TYPE

  • 5.1. Introduction
  • 5.2. Synchronous Optical Network Data (SONET)
  • 5.3. Internet Protocol (IP)
  • 5.4. Asynchronous Transfer Mode (atm)

6. GLOBAL DENSE WAVE DIGITAL MULTIPLEXING (DWDM) SYSTEM MARKET BY APPLICATION

  • 6.1. Introduction
  • 6.2. BFSI
  • 6.3. It & Telecommunication
  • 6.4. Healthcare & Life Sciences
  • 6.5. Automotive
  • 6.6. Manufacturing
  • 6.7. Others

7. GLOBAL DENSE WAVE DIGITAL MULTIPLEXING (DWDM) SYSTEM MARKET BY GEOGRAPHY

  • 7.1. Introduction
  • 7.2. North America
    • 7.2.1. USA
    • 7.2.2. Canada
    • 7.2.3. Mexico
  • 7.3. South America
    • 7.3.1. Brazil
    • 7.3.2. Argentina
    • 7.3.3. Others
  • 7.4. Europe
    • 7.4.1. Germany
    • 7.4.2. France
    • 7.4.3. United Kingdom
    • 7.4.4. Spain
    • 7.4.5. Others
  • 7.5. Middle East And Africa
    • 7.5.1. Saudi Arabia
    • 7.5.2. UAE
    • 7.5.3. Israel
    • 7.5.4. Others
  • 7.6. Asia Pacific
    • 7.6.1. China
    • 7.6.2. Japan
    • 7.6.3. India
    • 7.6.4. South Korea
    • 7.6.5. Indonesia
    • 7.6.6. Taiwan
    • 7.6.7. Others

8. COMPETITIVE ENVIRONMENT AND ANALYSIS

  • 8.1. Major Players and Strategy Analysis
  • 8.2. Emerging Players and Market Lucrativeness
  • 8.3. Mergers, Acquisitions, Agreements, and Collaborations
  • 8.4. Vendor Competitiveness Matrix

9. COMPANY PROFILES

  • 9.1. ADVA Optical Networking SE
  • 9.2. Cisco Systems, Inc.
  • 9.3. Alcatel-Lucent
  • 9.4. Ciena Corporation
  • 9.5. Fujitsu
  • 9.6. ZTE Corporation
  • 9.7. Huawei Technologies
  • 9.8. Infinera Corporation
Have a question?
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Jeroen Van Heghe

Manager - EMEA

+32-2-535-7543

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Christine Sirois

Manager - Americas

+1-860-674-8796

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