Global Optical Fiber Monitoring Market – Industry Trends and Forecast

_{By Component (Laser, Photodiode, 1xn Photonic Switch, Submodule, Controller, Display, Operator, Others), Monitoring Type (Active Fiber Monitoring, Dark Fiber Monitoring), Technology (Distributed Acoustic Sensing, Distributed Temperature Sensing, Real Time Thermal Rating, Others), Mode Type (Multimode, Single Mode), Vertical (IT & Telecommunication, Aerospace, Healthcare, Power & Energy, BFSI, Food & Beverage Industry, Oil & Gas, Automotive, Others), Country (North America, Europe, Asia-Pacific, South America and Middle East and Africa).}

_{Market Definition}

_{Optical cabling supports communications infrastructure of our related creation. By nature, this same optical cable is inherently brittle and prone to water intake, misplaced building digs, rodent infestations, safety intrusions, and many other possible dangers. To maintain optimal fiber condition and efficiency, sophisticated fiber monitoring procedures are required to rapidly identify and respond to issues. An advanced technology and network extension continue to push the fiber optic surveillance capability limits. Submarine cables are incredibly lengthy fiber optic which permits laid in trenches on the ocean floor. These are installed at a speed of 200 kilometers or more per day by specialized ships. Most importantly, optical fiber runs is evident, as it can be of a significant cost to install and maintain them. When issues arise, it may be necessary to explore and repair flaws by divers or robotic vessels. Robust fiber surveillance can lead to prior detection and accurate location along with reduce response and repair times. The fiber optic monitoring system is utilized for detecting the potential faults in fiber optic cable and continuously monitors the fiber optic cable. The optical fiber has various advantages such as high bandwidth, long distance transmission capability, low security risk and compact size.}

_{Global optical fiber monitoring market is projected to register a substantial CAGR in the forecast period of 2019 to 2026.}

_{Market Segmentation}

_{Global optical fiber monitoring market is segmented into five notable segments which are based on the basis of component, monitoring type, technology, mode type and vertical.}

_{• On the basis of component, the market is segmented into laser, photodiode, 1xn photonic switch, submodule, controller, display, operator and others}

_{• On the basis of monitoring type, the market is segmented into active fiber monitoring and dark fiber monitoring}

_{• On the basis of technology, the market is segmented into distributed acoustic sensing, distributed temperature sensing, real time thermal rating and others}

_{• On the basis of mode type, the market is segmented into single mode and multimode}

_{• On the basis of vertical, the market is segmented into IT & telecommunication, military & aerospace, healthcare, power & energy, BFSI, food & beverages, oil& gas, automotive and others}

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Pico Introduces First Pure Optical Backbone Network

Pico, a leading provider of technology services for the financial markets community globally, is pleased to announce the launch of an optical dark-fiber network with capacity of up to ten terabits per second (Tbps), initially connecting Wall Street liquidity centers Equinix NY4 (Secaucus), Nasdaq (Carteret), Intercontinental Exchange NYSE (Mahwah), and Cyxtera NJ2 (Weehawken).

The transition to dark-fiber is the latest investment Pico has made in PicoNet^TM, a private and proprietary global financial markets network that allows clients to excel in today’s competitive markets by providing low-latency, resilient connectivity to hundreds of liquidity sources, information providers and counterparties around the world.

Pico’s terabit per second optical backbone significantly enhances the profile of PicoNet, leveraging the combined power of the fastest dark-fiber routes available and the lowest-latency active optical equipment in the industry. PicoNet uses full ROADM functionality to route traffic optically between sites, instead of traversing multiple switches, reducing latency and operational complexity.  In conjunction with its full suite of offerings, the core backbone capacity allows Pico to provision dedicated 100Gbps capacity links directly to clients. Together, this provides capital market participants with the highest bandwidth and most performant network to reliably deliver the enormous amount of market data required to make informed trading decisions.

“With ever-rising market data rates and an increasing need for global data sets, it is important to provide clients with a solution that allows them to keep ahead of the bandwidth curve and retain their operating edge.” said Jarrod Yuster, Pico founder and CEO.  “We built this leading-edge network with best-of-breed and trusted technology partners to create a new performance benchmark for network solutions in financial markets.”

The fully redundant, resilient dual-fiber mesh network provides clients with the capability to access multiple data centers for trading and market data.  This new solution offers abundant capacity to support growing market data message rates and data microbursts, and delivers improved latency and network performance by utilizing optical routing.

Pico has deployed Corvil network performance monitoring and analytics on top of this multi-terabit per second optical backbone, to ensure clients receive the industry-leading real-time visibility and intelligence that assures the speed, transparency, and compliance their businesses require.

“It is critical to have sufficient bandwidth to mitigate the risk of high volume, bursty data feeds causing excess latency and data gaps that result in poor outcomes for modern electronic trading strategies,” said Donal Byrne, Pico CTO. “The tremendous capacity available now on the new Pico optical backbone, coupled with Corvil analytics to continuously monitor and analyze the traffic in real-time, uniquely assures the quality, integrity and capacity delivered to our clients.”

The transition to a multi-terabit per second optical backbone for the northeast US markets is the latest step in a series of initiatives that Pico has undertaken to enhance the profile of its network offering.  This latest innovation follows the launch of Pico’s global connectivity ring earlier this year delivering high capacity, resilient access to all major financial market centers globally.

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What Are the Benefits of Dark Fiber Optic Cable?

Have you heard the buzz about black fiber optic cables and wondered exactly what everyone is referring to? Because it can be difficult and expensive to lay underground fiber optic networks, cable companies often lay in additional capacity for future use. Thus fiber optics that are not being used are, by definition, dark. Get it? When data is passing through the fiber optic light travels with it. When no data is being moved, there is no light, hence the term “dark fiber optic”.

So what are the benefits of using dark fiber optic networks, and how can they benefit your company?

When Data Moves At Light Speed

Traditional fiber optics can transfer 15.5 terabits just about instantly. However, some dark fiber optics can perform at even higher rates. Dense Wavelength Division Multiplexing (DWDM) has been a catalyst in developing the dark fiber network.

DWDM is the process of sending multiple bundles of data across the same optical fiber at the same time. Dark fiber can also be used to create a private network that is separate from the main network. There are some clear advantages to this option for any business.

The Birth of the Dark Fiber Network

In the early days of optical fiber networking, many businesses decided that more was better. They had far more fiber optic cable installed then they needed to offset the cost of adding fiber optics down the road when demand for their business grew.

Thanks to some leaps and bounds in how data is packed, many of these networks were never used at their full capacity. Dark fiber optics were born to take advantage of the unused capacity.

How Does This Help You?

Here is what the buzz is all about, the benefits that dark fiber optic networks bring to businesses like yours. Some of the key benefits include:

• Client controlled network
• Higher capacity
• Improved performance
• Higher security
• Lower costs

You can control your network without worrying about the main fiber optic network. This can be a huge boost to your organization and how you move data around.

Faster Than Ever

The sheer speed of data connectivity and capacity on the dark fiber networks is tremendous. Data is transferred instantaneously and the amount that can be transmitted at one time is astounding.

It Delivers a Higher Level of Security

At a time when data security is of paramount importance, dark fiber networks deliver the improved security that is necessary. Dark fiber optic delivers a more secure environment than traditional fiber optic networks.

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Dark fiber network : The best solution for your business

According to recent research findings, it is estimated that the fiber optic cable industry has grown by 11.8% in the last five years. With that growth, there is a good chance that you have heard the term "dark fiber." Lately, there has been a lot of interest in the use of this technology. If you are interested in expanding your network with better data speeds, it is time to learn more about dark fiber companies.

So what exactly is dark fiber?

The dark fiber cable is a lightless fiber optic cable that has been placed, but has not yet been activated. The lease or transfer of the amount of fibers is marketed raw, so that it is the user himself who applies the most appropriate transmission technology to his needs.

Benefits of using dark fiber companies

Many different types of organizations and businesses are interested in dark fiber optic cables due to a number of benefits that it presents. Here are some of the main reasons why the use of dark fiber operators should be considered.

Help in the control and scalability of your network

The dark fiber gives private operators the freedom and total control over their equipment, the configuration of the connection and the network, since it is possible for them to decide the type of transmission technology, the characteristics and the protocols they prefer to use, according to the business of the end customer. Dark fiber can help build your network while maintaining complete control over how it works and you won't need to share your service with other companies. This means that your speed and data capabilities will only be limited by the equipment you use to connect to the dark fiber network.

Costs control

As the operator will be responsible for the administration and operation of its dark fiber network, it will have control over many things and not just technology and equipment. Fiber optic services are also known for offering high performance and reliability, which can result in greater long-term cost savings.

Privacy & Security

As the operator will handle the point-to-point networks securely, the transmitted data will be safer and will never enter the public Internet. This may specify the standards and security protocol you will use, including the configuration and encryption standards.

High volume data transfer

These fiber optic cables are capable of lighting up to 100 Gbps at a wavelength. However, this will depend on the distance of the fiber cable. Being the operator who manages the network, you can always have it optimized for speed by selecting the transmission protocols and updates of appropriate equipment.

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The Where, When and Why of Dark Fiber

Enterprises looking to improve connectivity across the internet of things and other wide-area data ecosystems basically have two choices when it comes to fiber optics: purchasing leased line services from a telecommunications carrier or implementing its own network using dark fiber.

Both approaches have their advantages and disadvantages, but in terms of cost and flexibility many organizations are finding that utilizing dark fiber is an effective means of supporting critical and non-critical enterprise workloads.

According to Jerry Gilreath, senior director of IT engineering at Raging Wire Data Centers, the more the enterprise comes to rely on cloud and colocated data facilities, the more attractive dark fiber becomes. Not only does dark fiber provide high levels of scalability and flexibility, but it allows for greater network customization than most leased services and comes in at a lower cost as bandwidth needs grow. This could become critically important as the IoT gathers steam and the number of connected devices scales into the billions.

Still, he adds that it is best to do your homework when it comes to leveraging dark fiber. For one thing, a thorough mapping of your unique IT connectivity requirements is essential. Low-bandwidth, long-haul services are probably not cost-effective for dark fiber, considering the upfront hardware investment involved. As well, dark fiber is strictly point-to-point. If you require multiple end-points, it’s best to do a cost comparison between available lit services and multiple dark fiber paths.
The most common use case for dark fiber is high-capacity local or regional connectivity, says attorney C. Douglas Jarret of law firm Keller-Heckerman. Dedicated high-bandwidth (1 GbE or higher) on metro networks are fairly expensive on a cost/Mbps basis, even under special access service rates. And since fiber typically has a 20 to 30-year lifespan, derivable bandwidth will increase over time due to advancements in underlying transmission technologies.

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How to Know if You’re Ready to Deploy a Dark Fiber Network

If you’re in charge of your organization’s IT network, you may have considered whether switching from a commercial internet services provider (ISP) to a dark fiber network could improve performance and lower costs. Or maybe you’ve heard of dark fiber networks but aren’t clear on the value they might add or whether they’re a viable alternative for your situation. Here, I’ll offer an overview of what dark fiber networks are and how they work, along with eight optimal use cases for these networks.

If you’re in charge of your organization’s IT network, you may have considered whether switching from a commercial internet services provider (ISP) to a dark fiber network could improve performance and lower costs. Or maybe you’ve heard of dark fiber networks but aren’t clear on the value they might add or whether they’re a viable alternative for your situation.

Here, I’ll offer an overview of what dark fiber networks are and how they work, along with eight optimal use cases for these networks.

Dark fiber network use cases

This is by no means an exhaustive list of scenarios where dark fiber networks can be useful, but I’ve found that it’s often easier to communicate the benefits of these networks by offering examples. So here are eight common scenarios where a network might benefit from dark fiber.

1. Your bandwidth needs have increased significantly (beyond 1 Gbps) and are likely to continue to do so.

2. You have plans to significantly grow or scale your business and want to future-proof your network.

3. You want to expand an existing network or build a new one between geographically separated buildings.

4. Your budget allows for purchasing termination equipment at both ends of the network.

5. You want a network that is private, customized, or has extremely low latency.

6. You want a highly secure network.

7. You’re in an area where fiber-optic cables are already laid.

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What is Dark Fiber and why do we need it?

Have you ever heard about dark fiber? Traditionally, the term refers to a dark or unused network infrastructure. In fiber optic networks, when data is being transmitted, light is passed through the cables. If no data is being transported, there are no light waves traveling along the cable, therefore the fiber is dark. Simple, isn’t it?

In the beginning, many companies had the tendency to future-proof their fiber optic networks by installing more cabling than what was actually needed for their current requirements, just to be prepared in case they will face an exponential data growth. Because of this overestimation and some technological developments concerning the way data is being packed, many fiber optic networks are not used at their fullest capacities. Therefore, dark fibers were created to take advantage of this extra capacity.

At the moment, dark fiber can be leased from the network providers and operators. Clients will use the dark fiber lines to create their own privately-operated optical fiber network. Dark fiber networks are separated from the main network they and are controlled by the client.

Dark fiber provides high levels of performance, security and superfast speeds. They can be set up in multiple ways, including point-to-point or point-to-multipoint configurations, or even dark fiber rings.

Dense Wavelength Division Multiplexing – DWDM (where multiple data signals are being transmitted at the same time over the same optical fiber) has been essential in the development of the dark fiber. Even if the signals are transmitted at the same time, they use different wavelengths to keep the data signals separate. DWDM helps in increasing the bandwidth and allows a bigger volume of data to be transported via optical fiber.

Because of the use of DWDM, the dark networks have a higher capacity, require less power and is generally more immune to interference than traditional networks.

*This post is part of the series ”PeakOptical Fiber Optic Definitions”. The articles that are to come have the purpose of explaining the general terms used in the field of fiber optics.

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