This report studies the global Dense Wave Division Multiplexing market size, industry status and forecast, competition landscape and growth opportunity. This research report categorizes the global Dense Wave Division Multiplexing market by companies, region, type and end-use industry.
Dense Wavelength Division Multiplexing (DWDM) is an optical multiplexing technology used to increase bandwidth over existing fiber networks. DWDM works by combining and transmitting multiple signals simultaneously at different wavelengths on the same fiber. The technology creates multiple virtual fibers, thus multiplying the capacity of the physical medium.
Over the last decade, fiber optic cables have been installed by carriers as the backbone of their interoffice networks, becoming the mainstay of the telecommunications infrastructure. Using time division multiplexing (TDM) technology, carriers now routinely transmit information at 2.4 Gb/s on a single fiber, with some deploying equipment that quadruples that rate to 10Gb/s. The revolution in high bandwidth applications and the explosive growth of the Internet, however, have created capacity demands that exceed traditional TDM limits. As a result, the once seemingly inexhaustible bandwidth promised by the deployment of optical fiber in the 1980s is being exhausted. To meet growing demands for bandwidth, a technology called Dense Wavelength Division Multiplexing (DWDM) has been developed that multiplies the capacity of a single fiber. DWDM systems being deployed today can reach to a throughput of 100 Gb/s. This cutting edge technology—when combined with network management systems and add-drop multiplexers—enables carriers to adopt optically-based transmission networks that will meet the next generation of bandwidth demand at a significantly lower cost than installing new fiber.
The global sales of Dense Wave Division Multiplexing increased from 128074 Units in 2012 to 1059976.939 Units in 2022, with a CAGR of 23.53%.
In 2017, the global Dense Wave Division Multiplexing market size was 9090 million US$ and it is expected to reach 18700 million US$ by the end of 2025, with a CAGR of 10.9% during 2018-2025.
Get a PDF Sample of this Report @ http://orbisresearch.com/contacts/request-sample/2134822 .
This report focuses on the global top players, covered
- Adva Optical
- ZTE Corp
- Mitsubishi Electric
- Huihong Technologies
Access the complete report with TOC & List of Tables @ http://orbisresearch.com/reports/index/global-dense-wave-division-multiplexing-market-size-status-and-forecast-2025 .
Market segment by Type, the product can be split into
Market segment by Application, split into
- Communication Serevice & Network Operators
- Military & Government
If you have any special requirements, please let us know and we will offer you the report as you want.
Enquiry before buying report @ http://www.orbisresearch.com/contacts/enquiry-before-buying/2134822 .
Some Point from TOC:
- Chapter One: Industry Overview of Dense Wave Division Multiplexing
- Chapter Two: Global Dense Wave Division Multiplexing Competition Analysis by Players
- Chapter Three: Company (Top Players) Profiles
- Chapter Four: Global Dense Wave Division Multiplexing Market Size by Type and Application (2013-2018)
- Chapter Five: United States Dense Wave Division Multiplexing Development Status and Outlook
- Chapter Six: EU Dense Wave Division Multiplexing Development Status and Outlook
Orbis Research (orbisresearch.com) is a single point aid for all your market research requirements. We have vast database of reports from the leading publishers and authors across the globe. We specialize in delivering customized reports as per the requirements of our clients. We have complete information about our publishers and hence are sure about the accuracy of the industries and verticals of their specialization. This helps our clients to map their needs and we produce the perfect required market research study for our clients.
Senior Manager – Client Engagements
4144N Central Expressway,
Suite 600, Dallas,
Texas – 75204, U.S.A.
Phone No.: +1 (214) 884-6817; +912064101019
Email id: firstname.lastname@example.org