future proof network infra


Empowering Connectivity: A Step-by-Step Mini Guide to Building a Future-Proof Network with Fibre Deployment

Empowering Connectivity: A Step-by-Step Mini Guide to Building a Future-Proof Network with Fibre Deployment

future proof network infra

The construction of a fiber optic network plays a crucial role in connecting the digital infrastructure and enabling the transmission of optical telecommunications traffic. By deploying fiber optic cables, data can be transmitted over long distances with minimal signal loss and high bandwidth capabilities. This helps ensure that end users receive the data and services they require in a cost-effective manner. Fiber optic networks have revolutionised communication by providing faster and more reliable connectivity compared to traditional copper-based networks.

While the deployment of fiber optic networks is indeed expanding globally to deliver high-speed internet, the extent of coverage and construction methods can vary from region to region. Some areas may still rely on other types of internet connectivity, such as cable or DSL, or may not have access to fiber optic infrastructure yet. Additionally, while aerial and underground methods are common for fiber optic construction, there may be other deployment approaches depending on local regulations, geographical considerations, and existing infrastructure.

The communication service provider market has become highly competitive in the past few years. They are racing against one another to be part of the gigabit economy and to deliver a standout experience for customers. However, despite this race and competition, there are significant challenges that lie ahead for these providers.

With the introduction of the 5G network, there is indeed a high chance of increased demand for a more agile network that can handle the growing data volumes and support a large number of connected devices. The legacy network infrastructure that is commonly used by many businesses was not initially designed to handle the high-bandwidth applications and requirements of the current era. Therefore, there is a need for network upgrades and advancements to meet the demands of the evolving digital landscape.

Therefore, fibre deployment is the silver lining to help communication service providers implement future-proofing for their network infrastructure. In this article, you will get a step-by-step insight into how to build an efficient network infrastructure with fibre deployment.

Why is it necessary to build a fibre-based network?

Telecommunication service providers across the globe are increasingly focusing on enhancing their digital connectivity by expanding the availability of high-capacity networks. To future-proof their networks, they have prioritized the transition from legacy copper-based networks to fibre deployment. This strategic shift allows them to boost network performance and accommodate the growing demand for high-bandwidth applications.

The intensive backhaul of fibre optic technology within the network is crucial for telecommunication service providers. It enables seamless streaming and running of high-bandwidth applications while supporting advancements towards achieving speeds of 10 Gigabit/sec, 40 Gigabit/sec, 100 Gigabit/sec, and beyond.

At present, optical fibre network deployments are underway worldwide as telecommunication providers recognize the necessity to transform their legacy network infrastructure. Those who have successfully migrated to fibre technology are experiencing higher revenue and significant cost savings from both residential and non-residential end-users.

Several key factors drive the need for telecommunication providers to implement fibre deployment and secure their network infrastructure for the future. These include:

  1. Increasing Data Demands: The proliferation of data-intensive applications, such as video streaming, cloud computing, and IoT devices, requires higher network capacities that can only be adequately supported by fibre optic networks.
  1. Scalability and Future-Proofing: Fibre networks offer scalability and the ability to accommodate future technologies and increasing data volumes, ensuring that the network infrastructure remains relevant and efficient in the long term.
  1. Enhanced Speed and Bandwidth: Fibre optic technology provides significantly higher speeds and greater bandwidth capabilities compared to copper-based networks, enabling faster and more reliable communication services.
  1. Lower Latency and Improved Reliability: Fibre networks have lower latency, reducing delays in data transmission and enhancing overall network performance. They also offer improved reliability, minimising disruptions and downtime.

  2. Cost Efficiency: While the initial investment in fibre deployment may be higher, it brings long-term cost savings by reducing maintenance and operational expenses associated with aging copper networks.

By embracing fibre deployment, telecommunication service providers can position themselves to meet the evolving demands of digital connectivity, deliver superior services to customers, and stay competitive in the market.

Steps for Implementing Future-Proof Network Infrastructure with Fibre Deployment

To ensure an optimal network infrastructure, deploying fibre requires assessing current needs, capacity, new applications, and future growth. Telcos can make this investment to extend the operational lifespan of their service efficiency. The steps for building a future-proof fibre-based network are as follows:

Step 1: Network Planning and Design

Begin by dimensioning and designing the infrastructure, specifying the required count of links and nodes to handle targeted traffic. Determine the appropriate method of deploying fibre-based networks, such as distributed networks, LANs, or point-to-point links. Collaborate with network planning engineers, field-maintenance engineers, and other professionals for structured planning.

Step 2: Identify Transmission Equipment

Assess distance, bandwidth, and speed requirements to select suitable transmission equipment for building the network infrastructure. Work with equipment providers to determine the right equipment for the purpose.

Step 3: Check Layout Preparations and Obtain Regulatory Permissions

Create the design layout for fibre deployment with a focus on redundancy. Conduct site visits and inspections. Seek necessary permissions from the government or private agencies, considering future fibre demands to minimize the need for additional construction.

Step 4: Deployment of the Fibre-Based Network

Deploy skilled resources for laying out the network, including the transport network and equipment. Inform site owners or impacted customers about the migration or deployment.

Step 5: Customize Existing Tools

Customize tools such as inventory management, network management, and OSS to align with the successful deployment of the fibre-based network.

Step 6: Conduct Necessary Tests

Perform end-to-end network tests and functional tests to ensure effective operation. Identify issues such as micro-bending, connector damage, contamination, or loose connections. Test the functionality of all components to assess service quality.

Step 7: Decommission the Legacy Network

After completing the fibre network deployment, begin the process of decommissioning existing copper lines. Remove or turn off devices connected to the copper switches.

Step 8: Consistent Support & Maintenance

Maintain active monitoring of the network and provide timely maintenance to address field issues, service degradation, or outages caused by faulty connectors or adverse weather conditions.


A common strategy for telecommunication service providers to transition to fibre-based networks is through partnerships with suitable collaborators. It is crucial for them to join forces with experienced and resourceful partners who can effectively meet the requirements of end-users. Collaborating with a reputable optical and digital solutions company can expedite their time-to-market, optimize costs, and ensure the highest network quality.

STL is a renowned global company specializing in optical and digital solutions. With its advanced offerings, STL empowers the construction of 5G, Rural, FTTx, Enterprise, and Data Centre networks. Operating across four continents and serving customers in over 100 countries, STL is dedicated to transforming billions of lives through worldwide connectivity. Telecom operators, cloud companies, citizen networks, and large enterprises acknowledge and depend on STL for its cutting-edge expertise in Optical Connectivity, Global Services, and Digital and Technology solutions. This ensures the creation of ubiquitous and future-ready digital networks. To learn more, click here!


1. Why is fibre deployment essential for telecommunication service providers?

Fibre deployment enables high-speed and reliable connectivity, supports increasing data volumes and future-proofing networks, and provides cost savings in the long run.

2. How can telecommunication service providers implement fibre deployment?

Telecommunication service providers can implement fibre deployment by conducting network planning and design, identifying suitable transmission equipment, obtaining necessary permissions, deploying the fibre-based network, customising existing tools, running necessary tests, decommissioning the old network, and ensuring consistent support and maintenance.

3. How can telecommunication service providers collaborate with the right partners for fibre deployment?

Telecommunication service providers can collaborate with reputed global companies, such as STL, that possess the resources, skills, and experience to accelerate time-to-market, maintain network quality, and keep costs low.

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Empowering Connectivity: A Step-by-Step Mini Guide to Building a Future-Proof Network with Fibre Deployment

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