Resolving the Key Challenges of Wireline Engineering in Telecommunication Networks.pdf

11/29/23, 3:25 PM Resolving the Key Challenges of Wireline Engineering in Telecommunication Networks
https://techwave.net/resolving-the-key-challenges-of-wireline-engineering-in-telecommunication-networks/ 1/11
WIRELINE ENGINEERING
RESOLVING THE KEY CHALLENGES OF
WIRELINE ENGINEERING IN
TELECOMMUNICATION NETWORKS
INTRODUCTION
The rapid increase in digital activity has triggered an unending demand for bandwidth within our
telecom network. The culprits? Mass migration to remote work, the ubiquity of online video
streaming, the emergence of virtual reality and immersive gaming, and the Internet of Things (IoT)
revolution. Together, they have fueled the growing need for bandwidth. In 2023, the United States
saw 311.3 million Internet users, that’s 91.8% of the population.
Wireless technology has ushered in a new era of expansive coverage and seamless connectivity.
Yet, it cannot meet the soaring demand for high bandwidth and increased usage alone. The next
decade promises an unprecedented surge in internet users and the challenge of providing
universal digital connectivity. The solution? Wireline Network.

THE RESURGENCE OF WIRELINE SOLUTIONS
Wireline technology, specifically Fiber to the X (FTTx), is experiencing a resurgence, leading to a
significant transformation in the telecommunication network.
FTTx, where ‘x’ symbolizes diverse endpoints such as homes or businesses, presents a more
robust and adaptable connectivity solution than traditional copper-based networks. This
technology is attracting renewed interest as governments globally have concerted efforts to
bridge the digital divide. The objective is to ensure the delivery of affordable, high-quality
broadband services to the country’s remote corners where wireless technology is inaccessible or
provides poor connectivity.
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FTTx supports the backhaul of 5G networks. The Market Research Future (MRFR) report predicts
that the FTTx market will grow significantly, reaching $13.7 billion by 2030, with a compound
annual growth rate of 7.1%.
The Asia-Pacific region currently leads the FTTx market, followed by Europe and North America.
However, the telecom industry faces challenges in achieving universal fiber connectivity. In the
following sections, we will delve into these challenges in detail.

THE CHALLENGES OF WIRELINE NETWORK ENGINEERING IN
TELECOMMUNICATION NETWORKS
1. Network Planning and Engineering :
The network planning and engineering process in a wireline network is intricate and demanding. It
necessitates selecting optimal technology and carefully considering its potential effects on
performance, reliability, and scalability
Failure to adequately assess or properly study the following factors before deployment could lead
to the next:
● Geographical Area of Service: Misjudgments in the physical location and size of the area
where the network services will be provided can lead to inadequate coverage or
overinvestment.
● Anticipated User Demand: Underestimations or overestimations of the expected number of
users and the volume of data traffic they will generate can result in network congestion or
underutilized resources.
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● Nature of Services to be Offered: Misalignment between the type of services provided over
the network, such as voice, data, video, etc., and the chosen technology can lead to poor
service quality or user dissatisfaction.
● Future Expansion Plan: Lack of foresight in the network’s projected growth and expansion
plans, including potential increases in user demand and geographical coverage, can lead to
scalability issues and possible costly network upgrades. For instance, in urban areas, FTTH or
FTTB may be ideal for high-speed connectivity, while in rural areas, cost-effective solutions like
FTTN or FTTC may be more suitable.
2.
FTTx Rollout Strategy :
The successful deployment of FTTx networks requires meticulous planning and execution, as
various challenges arise throughout the process.
● Design Phase – Delivering Optimal Service: Creating an FTTx network that optimally serves
end-users during the design phase is crucial. Several factors must be considered, such as
distance from the central office to customer premises, customer density, and service types.
For example, densely populated areas can require intricate network designs to handle the high
demand for bandwidth, leading to increased deployment costs and technical intricacies.
The research, performed by RVA LLC Market Research & Consulting (RVA), shows that fiber
providers passed 7.9 million additional homes in the U.S. in 2022, representing the highest
annual fiber broadband technology deployment ever, even with challenges in materials supply
chain and labor availability.
● Build Phase – Addressing Practical Obstacles: The build phase encompasses the practical
aspects of network construction, considering existing infrastructure, geographical conditions,
environmental considerations, and regulatory requirements.
Alternative deployment methods like aerial fiber may be considered in rural areas with
challenging terrain. However, this introduces challenges regarding infrastructure availability
and regulatory compliance. For instance, gaining the necessary permissions for installing
aerial fiber and ensuring structural integrity can be time-consuming and pose logistical
difficulties.
● Operation and Maintenance Phase: Sustaining Network Performance: The operation and
maintenance phase involves monitoring network performance, troubleshooting issues, and
conducting regular maintenance activities. However, this can be resource-intensive for network
operators. It requires skilled personnel, robust infrastructure, and proactive measures to
maintain optimal network performance.

3. Operational Support and Preparations :
Moving from old network systems to FTTx is a massive undertaking in itself. One of the biggest
challenges is managing outdated and inefficient legacy systems while preparing to transition to
FTTx. Compatibility issues often arise due to differences in technology, hardware, or software
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during this migration. The industry must ensure minimal disruption to existing services during this
transition to avoid customer dissatisfaction and potential loss of business.

4. CAPEX and OPEX Regulations :
Procuring equipment and establishing the network infrastructure constitute the initial expenses
encompassed by CAPEX. In contrast, OPEX comprises ongoing maintenance, upgrades, and staff
salaries. Underestimating these expenses can hamper overall progress, leading to budget
overruns and project delays.
Furthermore, CAPEX and OPEX regulations complicate matters. When a telecommunication
network company aims to expand its fiber network into rural areas, it must allocate funds for
substantial CAPEX requirements, including laying new fiber lines. Simultaneously, the company
must effectively manage OPEX, encompassing maintenance tasks for the fiber network and
providing adequate customer support. Adhering to financial regulations, including accounting
standards and tax laws, is necessary to ensure profitability while meeting regulatory obligations,
which is usually a big struggle.

5. Skills and Capabilities :
Wireline Engineering is wrestling with a substantial skills gap that the ongoing Great Resignation
has exacerbated. Amidst this mass exodus of talent, there’s a notable shortage in the skill sets
required for top network engineering and operations roles. According to a recent report by
Eightfold AI, a staggering 33% of these roles lack the necessary skills to address emerging trends
in telecommunications, particularly in areas such as 5G and FTTx.
Further complicating this issue is the lack of adequate training opportunities for professionals in
the field. This could be due to budget constraints, time limitations, or a simple unawareness of the
importance of continuous learning in this fast-paced industry. This skills gap underscores the
urgent need for strategic talent management and investment in continuous learning and
development.

6. Disruptive Wireless Competiton :
Wireline technology offers numerous advantages but faces obstacles such as longer deployment
times and expensive implementation processes that restrict its widespread use. On the other
hand, wireless has become popular, although it does not provide high-speed internet, low latency,
network reliability, and security at par with wireline. However, wireline engineers can effectively
compete with wireless by embracing innovation and adopting hybrid models that combine both
technologies’ strengths. This integration enables optimal speed, reliability, and reach even in the
most challenging locations and enhances communication capabilities.

7. FTTx Network Implementation :
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Implementing FTTx networks entails various obstacles impacting the deployment’s cost,
feasibility, and efficiency. Some obstacles include:
● Geographical Terrain : Mountainous or rocky regions require extensive drilling and trenching,
significantly escalating expenses and time requirements. Such geographical obstacles make
the deployment process arduous and resource-intensive.
● Connection Topology : The choice between point-to-point (P2P) and point-to-multipoint
(P2MP) connection topologies presents a challenge. While P2P offers dedicated fiber links to
each end-user, ensuring high performance, it demands substantial cabling. In contrast, P2MP
shares a single fiber among multiple users, potentially compromising individual bandwidth
capacity, although it can be more cost-effective.
● Installation Technique : The selection of an appropriate installation technique becomes
crucial. Though widely employed, traditional trenching is often associated with drawbacks
such as prolonged disruption, high costs, and resource utilization. Alternative methods like
directional drilling, micro-trenching, or aerial installation offer potential solutions. Still, they
require specialized equipment, skills, and consideration of factors like weather conditions and
permissions for pole usage.
● Regulatory and Permit Issues : Navigating the regulatory and permit landscape is critical to
FTTx network implementation. Complying with numerous regulations governing safety,
environmental impact, construction standards, and data protection is essential. However,
ensuring compliance can be time-consuming and intricate, as it involves obtaining multiple
permits and approvals from various authorities.
In addition, leveraging existing infrastructure, such as ducts, conduits, or poles, offers cost
savings and accelerated deployment. Acquiring legal rights and permissions to access and
utilize these infrastructures presents challenges. Ownership issues, agreement complexities,
and limited space available within the existing infrastructure can cause delays and
complications, adding to the implementation complexities of FTTx networks.

8. Field Service Management
● Latest technology : In field service management, the limited use of the newest technology
poses challenges in managing inventory, supplies, and equipment, disrupting smooth field
operations. With robust technology solutions, organizations can rely on manual processes,
which leads to difficulties in accurately tracking inventory levels, predicting demand, and
ensuring the availability of necessary materials.
Furthermore, effective collaboration with field technicians, project managers, and other
stakeholders relies on real-time updates, data collection, and reporting. However, field
technicians cannot provide them efficiently due to the absence of robust applications and
proper workflows. The failure to promptly communicate critical information to the appropriate
stakeholders further delays the resolution of field issues. The lack of real-time insights and
data-driven decision-making hampers the ability to identify and resolve problems swiftly,
potentially impacting project timelines and customer satisfaction.
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● Field Coordination : Optimizing field resources, including technicians and equipment, is
another challenge. Coordinating the allocation of field technicians to multiple locations for
tasks such as surveys, installations, splicing, testing, and maintenance requires careful
planning to ensure timely and cost-effective completion. Inefficient resource allocation can
lead to delays, increased costs, and customer dissatisfaction.
TECHWAVE WIRELINE ENGINEERING SERVICES – THE COMPLETE
SOLUTION TO WIRELINE NETWORK CHALLENGES IN TELECOM SYSTEMS
Rolling out fixed-line networks, especially FTTx and HFC networks, is demanding and comes with
many challenges, as previously detailed. However, Techwave has a broad range of services and
solutions to tackle these challenges head-on. Here’s how we can assist you in overcoming these
obstacles
1.Market Analysis
Techwave’s field services and
wireline solutions offer a comprehensive package that combines
expertise, analytics, and service management software. Utilizing advanced survey technology, we
rapidly capture field data and ensure its quality through multiple validation points.
This high-quality data forms the foundation for meticulous planning, considering the geographic
area of service, anticipated user demand, and future expansion plans. This strategic approach
enables us to accurately address the multifaceted challenges of FTTx network design and
planning, ensuring a robust and efficient network infrastructure.
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Moreover, our field service technicians help capture and audit data using handheld tech devices,
drones, and LiDAR. This allows for a thorough market analysis to understand the needs and
requirements of the telecom systems.
2.Network Plan and Design
Designing and rolling out an FTTx network is complex and requires a comprehensive
understanding of various factors. Techwave achieves this by conducting feasibility studies,
making build drawings, and doing cost analyses. This method makes the process easy and the
execution dependable, all based on correct data and useful insights.
● Feasibility Studies: These studies help determine the viability of the proposed network in a
specific region. They consider factors such as the existing infrastructure, the geographical and
demographic characteristics of the area, and the potential demand for services. This helps in
making informed decisions about the network design and rollout.
● Build Drawings and Cost Analysis : These visually represent the proposed network and
estimate the costs involved in its implementation. This allows for better planning and
allocation of resources, ensuring that the network is effective and cost-efficient.
● Data Consistency : Techwave ensures data consistency across various data collection
methods, whether image, drone, thermal, LiDAR, 2D, 3D, video, or aerial. This ensures that the
data used in the planning and design process is reliable and accurate, leading to more
effective network designs.
● Integration with Analysis and Design Platforms : Techwave leverages advanced tools and
methodologies in the network design process. This can lead to more efficient and innovative
network designs, improving the quality of the network and the services it provides.
3.
Efficient Field Services
Techwave’s end-to-end expertise in field service operations directly addresses the challenge of
field service management in
wireline services by:
Coordinating field service operations – from data collection to analysis and everything in
between.
Streamlining field activities, reducing costs, and ensuring business continuity. We provide
project-specific executive dashboards with a quick view of metrics and field team
productivity.
4.
Inbuilding Field Engineering
The challenge of FTTx network implementation, particularly in the design and build phases, is met
by Techwave’s in-building field engineering services. Our custom-configured database built to
specifications and construction standards ensures efficient and optimal service delivery,
considering factors like customer density and service types.
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5. Sustainable Operations and Maintenance
We provide a network operations center for field technician remote support and monitoring. We
also employ a custom-configured database built to specifications and construction standards.
This ensures sustainable operations and maintenance of the telecommunication network.
6. Regular Database Updates
Techwave’s Geographic Information System (GIS) telecommunication services help manage
legacy systems during the transition to FTTx. Regular updates and maintenance of databases
ensure accurate and relevant information for the telecommunication network, aiding in seamless
integration between the new FTTx systems and the existing infrastructure.
7. Cost Analysis and Optimization
Our cost analysis service addresses the challenge of CAPEX and OPEX regulations. Techwave
helps optimize cost and ensure that the telecom systems are aiding project success by visualizing
the future of telecommunication networks and making calculations simple and efficient.
8.Overcoming Physical Infrastructure Limitations
Using advanced survey technology and multiple tools allows Techwave to understand the physical
infrastructure and design solutions that can overcome its limitations, ensuring a robust and
capable network.
Wireline networks present many challenges, but within these challenges lie immense
opportunities.
Reach out to Techwave to learn more.
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