Opportunities for fibre network operators

4G/5G densification and the growth in edge end points will place fresh demands on telecoms network infrastructure to deliver high bandwidth connections to new locations. Many of these will be sites on the streets of urban centres without existing connections, where installation of new fibre cables is costly. This will require careful planning and optimum selection of existing infrastructure to minimise costs and strengthen the business cases for fibre deployment.

While much of the growth in deployment of small cells and edge end points will be on private sites, their deployment in public areas, in support of public network services, will pose specific challenges to providing the broad bandwidth connectivity required. This includes both backhaul from cell sites and edge end points to the fibre transport network, plus any fronthaul needs for new open RAN deployments, from baseband equipment to radio units and antennas. In almost all cases this will entail installing new fibre in areas where laying a new duct is at its most expensive, although in a few cases fixed point-to-point radio links could be deployed instead.

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Global deployments of small cells and non-telco edge end points
in public areas

Source: Small Cell Forum, STL research and analysis

In addition, operators of 5G small cells and public cloud edge sites will require access to fibre links for backhaul to their core networks to provide the high bandwidths required. In some cases, they may need multiple fibres, especially if diverse paths are needed for security and resilience purposes.

Many newer networks have been built for a specific purpose, such as residential or business FTTP. Others are trunk routes to connect large businesses and data centres, and may serve local, regional, national or international areas. In addition, changing regulations have encouraged the creation of new businesses such as neutral hosts (also called “open access” for wholesale fibre) and, as a result, the supply side of the market is composed of an increasing variety of players. If this pattern were to continue, then it would very likely prove uneconomic to build dedicated networks for some applications, such as small cell densification or some standalone edge applications.

However, provided build qualities meet the required standard and costs can be contained there is no reason why networks deployed to address one market cannot be extended and repurposed to serve others. For new fibre builds being planned, it is also important to consider these new FTTX opportunities upfront and in some detail, rather than as an afterthought or just a throw-away bullet point on investor slide-decks.

This report looks at the opportunities these developments offer to fibre network operators and considers the business cases that need to be made. It looks at the means and scope for minimising costs necessary to profitably satisfy the widest range of needs.

The fibre market is changing

FTTH/P has been largely satisfied in many countries, and even in slower markets such as the UK and Germany, the bulk of the network is expected to be in place by 2025/6 for most urban premises, at least on the basis of “homes passed”, if not actually connected.

By contrast the requirement of higher bandwidth connectivity for mobile base stations being upgraded from 3G to 4G and 5G is current and ongoing. Demand for links to small cells needed to support 5G densification, standalone edge, and smart city applications is only just beginning to appear and is likely to develop significantly over the next 10 years or more. In future high speed broadband links will be required to support an increasing range of applications for different organisations: for example, autonomous and semi-autonomous vehicle (V2X) applications operated by government or city authorities.

Both densification and edge will need local connections for fronthaul and backhaul as well as longer connections to provide backhaul to the core network. Building from scratch is expensive owing to the high costs associated with digging in the public highway, especially in urban centres. Digging can be complex, depending on the surfaces and buried services encountered, and extensions after the initial main build can be very expensive.

Laying fibre and ducts are a long-term investment and can usually be amortised over 15 to 20 years. Nevertheless, network operators need to be sure of a good return on their investment and therefore need to find ways to minimise costs while maximising revenues. In markets with multiple players, there will also be a desire by potential acquisition targets to underscore their valuations, by maximising their addressable market, while reducing any post-merger remedial or expansion costs. Good planning, including watching for new opportunities and trends and the smart use of existing assets to minimise costs, can help ensure this.

Serving multiple markets through good forecasting and planning can help maximise revenues.
Operators and others can make use of various infrastructure assets to reduce costs, including incumbents’ physical duct/pole infrastructure sewers, disused water and hydraulic pipes, neutral hosts’ networks, council ducts, and traffic management ducts. Obviously these will not extend everywhere that fibre is required, but can make a meaningful contribution in many situations.

The remaining sections of this report examine in more detail the specific opportunities offered to fixed network operators, by densification of mobile base stations and growth of edge computing. It covers:

Market demand, including drivers of demand, and end users’ and the industry’s needs and options
The changing supply side and regulation
Technologies, build options and costs
How to maximise revenues and returns on investment.

Executive Summary
Introduction
- The fibre market is changing
Small cell and edge: Demand
- Demand for small cells
- Demand for edge end points
Small cell and edge: Supply
- The changing network supply structure
Build options
- Pros and cons of seven building options
How do they compare on costs?
Impact of regulation and policy
How to mitigate unforeseen costs
The business case
Conclusions
Index

Related Research

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Introduction

Network sharing is well established

Network sharing has become well established as a useful means of reducing capital and operating expenditure by mobile network operators and sharing of passive infrastructure such as towers has become commonplace. The main reasons for sharing are a need or desire to:

reduce capital expenditure
reduce operating expenditure
achieve faster rollout or upgrade
extend coverage at a lower cost
improve operational and/or organisational efficiency
more efficient use of spectrum efficiency
as a precursor for possible merger or acquisition.

The speed at which operators wish to roll out their 5G networks will depend on a number of factors, including their need for additional capacity to meet market demand, respond to or pre-empt competitive actions by other operators, and their overall business strategy. Minimising the costs of doing so will be important, although some dominant and well-funded operators, such as Verizon, may choose to avoid sharing to put pressure on weaker competitors. Operators choosing to share have several options which may include mergers or acquisitions.

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Where are the largest current costs?

Analysis of data from mobile operators in both developed and developing countries shows that network operating costs are split between three main areas:

the radio access network (RAN)
the core network
IT systems and service platforms.

While the proportions of the total operating costs taken by each of the three areas vary between operators, the overall pattern is the same for all. Typically, the RAN accounts for over half of operating costs, and the core network from one eighth to a quarter. IT and platforms account for the rest. Average operating cost splits for mobile operators are shown in Figure 4. Most operators find that around half of the RAN cell sites generate insufficient revenue from the traffic they carry to cover their operating costs, although such a simple measure does not take account of the benefit that wide coverage brings to overall business revenues. Nevertheless, it is important to manage the costs of the RAN effectively to ensure that resources are used in the most efficient manner. Typical cost splits are shown below.

Typical top-level split of network opex costs

Source: STL Partners

5G is bringing changes

5G is designed to cater for the rapidly growing demand for mobile broadband and for new use cases that require higher speeds and lower latency while at the same time minimising capital and operating costs. To cater for these requirements the use of higher frequency bands is being introduced, together with network slicing and wherever possible the use of standard computing equipment. The use of mid band frequencies of 3.5GHz and above and millimetre wave (mmWave) will enable much higher speeds, but these frequencies have shorter range and are less able to penetrate most buildings. The impact of the poorer propagation will depend on several factors.

Where very high levels of traffic are concentrated in a small area the extra bandwidth provided may permit the replacement of a number of low frequency base stations by a single mid-band or mmWave base station. In other cases where traffic is more thinly spread but still heavy enough to warrant the use of and investment in high capacity high frequency base stations then it is likely that more base stations will be required to provide equivalent coverage, placing greater demands on the availability of suitable sites and provision of associated infrastructure for backhaul and power.

In more remote areas use of low frequencies will be required to provide wide area coverage, but their use may place limits on the bandwidths that can be economically delivered.

In-building coverage may well prove more difficult to provide, and although some tests suggest the problem may be less severe than initially feared, in many cases it will require the provision of alternative means of delivering in-building coverage. Options include the provision of indoor base stations, potentially meaning multiple installations to support different carriers, the use of neutral hosts or increased reliance on Wi-Fi. The requirements of different industries, large and small businesses and individual householders or tenants will vary enormously, and means will need to be found to meet a wide variety of situations in an economic manner. Neutral hosts for 4G already exist in some venues and products are appearing that connect an internal network to an antenna installed externally.

With rollout of the first 5G networks beginning soon, operators need to ensure that they can deploy their networks fast enough to meet market demand and any regulatory targets whilst at the same time containing costs to a level consistent with their revenues. However, in some cases plans for sharing, especially active and spectrum sharing, may result in delays caused by the time required to reach agreements with prospective partners and to gain any necessary regulatory approvals. They will also wish to ensure that they at least maintain or preferably improve their position relative to their competitors.

Technical changes that can be expected to affect the need for and viability of sharing therefore include:

Use of spectrum in higher frequency bands:
- shorter range of higher frequencies
- densification and the availability of sites and backhaul links – and ease of access.
- availability of sufficient low frequency spectrum for rural areas
- spectrum sharing
- regulatory factors
Changes in architecture for:
- slicing
- NFV, cloud
- use of off-the-shelf IT components and their reliability and availability.

Contents:

Executive Summary
Introduction
Network sharing is well established
5G is bringing changes
Obstacles: MNO fear of sharing
Other Issues
Structure of report
How will 5G drive demand for sharing?
Overview
Spectrum: Use of higher frequency bands
Options for sharing
How will 5G affect costs of sharing?
Current costs
How will networks costs be split in the future?
NFV, Cloud and Slicing
How soon does the market need 5G?
Other options for MNOs
Neutral host
Implementation: Lessons from experience
Timing is important to obtain best results from sharing
Lessons from existing sharing arrangements
Conclusions & recommendations
Recommendations for telcos

Figures:

Figure 1: Types of network sharing
Figure 2: Typical network cost splits of no sharing versus sharing active RAN
Figure 3: Modelled effect of 3.5 GHz RAN sharing on 5G rollout speed in UK
Figure 4: Typical top-level split of network costs (opex)
Figure 5: Losses from building penetration as frequencies increase
Figure 6: MORAN sharing
Figure 7: MOCN Sharing
Figure 8: Shared spectrum efficiencies
Figure 9: Examples of spectrum sharing
Figure 10: Range of typical network costs as percentage of total
Figure 11: Typical breakdown of RAN opex costs
Figure 12: Network and IT costs
Figure 13: Effect of increased number of cell sites on proportion of network cost in RAN
Figure 14: Population and coverage data for the UK
Figure 15: Capex and opex infrastructure costs
Figure 16: Population coverage for different levels of gross annual capex
Figure 17: Base case coverage (£2 billion per annum)
Figure 18: The effect of sharing small cell layer on rollout
Figure 19: Effect on regional rollout of sharing small cells
Figure 20: Ericsson mobile data growth forecast
Figure 21: Ericsson forecasts data traffic growth 2018–2023 by region
Figure 22: Growth in traffic for different applications
Figure 23: Neutral host configuration for US 3.5GHz CBRS
Figure 24: Red Compartida coverage targets

Tag: neutral hosts

Fibre for 5G and edge: Who does it and how to build it?

Opportunities for fibre network operators

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The fibre market is changing

Table of Contents

Related Research

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