Monday, February 17, 2020

Is Mobile Internet Access "More Valuable" than Fixed?

Looking only at the cost per bit, one might conclude (incorrectly, perhaps) that mobile data access is deemed more valuable than fixed network access. One might also argue that the value of mobile bits is in some sense "greater" than fixed access precisely because it represents "access at any time, anyplace" instead of "at one place."

It is somewhat impressionistic, but mobile service adoption rates do suggest there is something consumers consider quite valuable. Consider adoption rates: mobile got adopted explosively, compared to fixed network service. That suggests a clear and strong sense of value on the part of consumers.


It also is suggestive that mobile cost per bit has been 10 times higher than that of fixed access.

On the other hand, most surveys show relatively balanced levels of data consumption--mobile or fixed--on a global basis. Some consumption is mobile-only; some is fixed-only.

About half of consumption is untethered devices using fixed network resources (Wi-Fi in particular). 


Nor is it easy to compare the value of fixed access compared to mobile access. Mobile access costs more, per bit, but consumption also is far less than on a fixed network. Fixed network consumption costs less per bit, but consumption levels are higher than on a mobile network.

Basically, 80 percent of device traffic demand is from fixed networks, though roughly half of all device traffic demand is from mobile devices. In part, that might be because mobile users know they can save money by offloading to Wi-Fi.

It is difficult to say how much that disparity is driven by perceptions of value and how much from the sheer disparity in transmission network bandwidth. Mobile bandwidth is highly restricted by the amount of spectrum available for mobile networks to use. Cabled networks have virtually unrestricted capacity upside.

Still, to the extent that value and price are directly related, mobile access might be deemed to be more valuable than fixed bandwidth, per-bit, when consumed "on the go," where fixed connections are not possible. The high use of Wi-Fi as a mobile network offload mechanism speaks to the cost differences between mobile and fixed networks.

The value of data access is not necessarily directly proportional to the volume of data consumed. A relatively small amount of data used for a navigation app or social network might have high value, while a large amount of data consumed by a video might have relatively lower value.

So the value of mobile internet access is not directly related to the volume of consumed bits.

Some might argue that “most” consumers will have little need for internet access on their phones. Many of us would strongly disagree with that notion. Some even have argued that only about 35 percent of phone users would be willing to pay for internet access on their devices. 

It is safe to say many of us believe a standard Bell curve of demand is the more likely outcome, where nearly every user buys some mobile data access. 

All internet access seems to be deemed valuable by consumers. It also is possible to argue that mobile access "anywhere" continues to enjoy a cost premium compared to fixed network access, as important as that is. 

Sunday, February 16, 2020

T-Mobile Sprint Merger Means More Fixed Wireless Competition

How much market share 5G fixed wireless might actually get in the United States is a highly-contentious matter. Incumbents say fixed wireless is not a threat to cabled network market share and revenue. Attackers believe 5G fixed wireless will be material. Some have called 5G fixed wireless an existential threat to cable operators. 

The recent approval of the T-Mobile merger with Sprint boosts prospects for aggressive new competition, in a couple of years. And though T-Mobile has indicated it could capture 9.5 million fixed accounts by about 2024, for example. That alone would potentially reduce cable market share by nine to 10 percent, a huge shift. 


Add in competition from other providers and a nine-point shift in market share is a reasonable expectation. 

Both sides could be right about the relatively small market share shift, and yet the impact could be quite substantial. There are several reasons. incremental sales--at the margin--that often provide a disproportionate share of profits. So fixed wireless could be highly relevant if it shifts accounts at the margin. 

One example might be that fixed wireless slows cable operator revenue growth in the business or customer segments. Fixed wireless might capture enough share to slice incumbent growth rates or cap growth rates. 

There are roughly 99 million fixed network internet access accounts active in the U.S. market. If fixed wireless manages to shift about 12 million accounts, that is a potential gain of 12 percent.

If 80 percent of that shift is from cable operators to telcos, implying a shift of 9.6 million accounts, that would mean a loss of 15 percent cable TV market share in internet access

To the extent that internet access is the cable operator  growth engine, that could have outsize financial and strategic impact. 

Another potential issue is possible average revenue per account hits, as incumbents attack cable services on the price dimension. So it might not be only the lost direct revenue loss but the impact on overall ARPU that emerges. 


In recent quarters, for example, U.S. fixed network internet access net additions net additions have totaled about six tenths of one percent of the installed base, with cable gaining eight tenths of one percent while telcos lost about two tenths of one percent. 

In other words, a shift of about two-tenths of one percent per quarter halts the telco decline. A shift of perhaps six-tenths of one percent--from cable to telco--actually causes cable share to begin a decline. 

That is what the stakes realistically are: a chance for telcos to halt, and perhaps reverse, the long-term decline of their market share in internet access. 

Cable TV executives in the U.S. market naturally express as much skepticism about the dangers 5G fixed wireless services pose for their consumer broadband business as telco execs say they are optimistic. Basically, it will no scale, or will scale too slowly to keep up with cable’s own planned bandwidth plans, cable execs tend to say. 

It is very subtle stuff. Verizon, for example, only has to gain about 7,000 5G fixed wireless accounts per quarter to halt its customer losses. T-Mobile US and Sprint have virtually zero fixed network market share, so even smallish gains represent new accounts with average revenue possibly double what they get from mobile internet access accounts. 

The point is that skeptics and proponents alike can be right that 5G fixed wireless only shifts a small amount of market share. But it is precisely at the margin that fixed wireless could be significant. Fixed wireless could halt a 20-year decline in telco fixed network internet access share; choke off the cable operator growth engine and attack cable profit margins.

Saturday, February 15, 2020

Effectiveness or Efficiency; Insight or Automation? What Do We Measure, and How Do We Apply What we Think We Know?

It is fair enough to argue that some organizations make better use of resources than others. It follows that some connectivity providers (mobile or fixed) will perform better than others, using any chosen set of key performance indicators, on business or network performance measures.

Firms also will tend to perform differently on different KPI measures, which can be set on business outcomes or network outcomes, for example. Financial metrics might be one thing, customer satisfaction or lifetime value another matter. 

Business KPIs can include revenue per account, revenue per cell site, subscriber counts, market share, market share growth, margin per customer or account or subscriber acquisition cost, churn rates, lifetime account value, inquiry conversion rates, capital expense per account or operating cost per account, for example. 


Consider the net promoter score, a measure of customer willingness to refer a company to others. Sometimes the scores are described on a scale of zero to 10, other times on a scale of -100 to +100. Either way, the NPS score tries to determine brand effectiveness at customer experience, boiled down to a willingness to recommend the product to others. 

Aside from the potential word of mouth impact, NPS studies tend to find that detractors spend less, promoters spend more. That stands to reason. Any customer that is unhappy will tend to look for other substitutes. Any customer that is quite satisfied will tend to keep buying, might tend to buy more and also look more favorably upon a brand’s other products. 

Having taken many such surveys, I would say the results are somewhat misleading.  Normally one is asked how willing one would be to recommend a product to others, or sometimes whether one would be proud to work for a certain company, or recommend that someone else work there.

It is a brute force methodology, in many respects. I might recommend a particular product, from a particular company to some people, and not to others. Some buyers are price conscious, some are value conscious and some are brand conscious, irrespective of price. 

Some products have a wide zone of tolerance--in terms of value or effectiveness--while others might require more discernment. Flour, sugar, gasoline or salt might not be products where brand matters. For a gourmet cook, spices and meats might be products where high discernment is required. 

Most people likely have high preferences in fragrances, clothing, personal electronics, cosmetics, pets,  transportation or housing. Most other products, though, might have high zones of indifference and high product substitutability. 

I would make different recommendations to each type of buyer, so I often question the relevance of NPS rankings. Some products have very high value for segments of the population; others have relatively low value, or no value. Many products arguably have high substitution potential, simply because the products are commodities, or are items about which a particular customer has no great preferences. 


“What to measure” and “what we can do with what we measure” are key issues for efforts to apply artificial intelligence to business processes and network management. Consider the discipline of AIOps, the effort to apply machine learning to network management. 

Whether AIOps is about insight or automation often is unclear, especially because the stated goal of AIOps to gain insights that lead to automated action, supervised or unsupervised by humans. Ericsson, for example, talking about applied artificial intelligence in communications networks, prefers the “automation” label. 

In large part, that might reflect the particular challenges of the connectivity service provider industry, where many revenue and business problems grow from unhappy customers and poor customer experience (dropped calls, no coverage, slow internet speeds, poor connection quality). 

“Previous Ericsson research shows that almost 50 percent of consumer network perception is based on personal experiences of the network, indicating the huge importance of network quality as the key to customer satisfaction,” Ericsson says. 


Customer satisfaction, in turn, is believed to be causally related to word of mouth referrals, prospect perceptions of quality and value, customer churn, customer acquisition and therefore revenue, profits and market share. 

“Whether customers give you US$2 or $20 ARPU, if you do not provide the quality they expect, they will churn,” says Vicente Cotino Director of Network Operation Maintenance, Orange Spain. 

To be sure, network performance is not the only driver of satisfaction. “At least one-third of the total NPS (net promoter score, a measure of customer willingness to recommend a product or service to others) score is derived from network performance.” 

Of the service providers surveyed by Ericsson, 80 percent use NPS as a key metric in operations. Also, several service providers indicate that 40 percent to 60 percent of operations key performance indicators are business-related.

Service providers, in other words, must do many things right, beyond ensuring that the network works as it is supposed to work. What is hard to untangle is the percentage of benefit that AIOps might provide, and whether it is automating changes or detecting issues that is “more important.” 

Clearly the two are related. Action is not possible without insight; nor is insight useful unless changes can be made fast. 

In surveys undertaken by Ericsson, 80 percent of respondents say automation is key for the cost and customer experience. About 90 percent of operations personnel say AI is important in protecting customer experience. 

As always, methodology matters. I do not know how the questions were framed. It is not clear how the responses might have been different if poll takers were asked about whether better network and consumer behavior insight and prediction would protect customer experience

But Ericsson frames the issue as one of “automation.” That might simply be a reflection of our general confusion about effectiveness and efficiency. People often speak about the importance of efficiency, which might be expressed as getting work done faster, with fewer people, at less cost or with fewer mistakes and rework. 

Less common are evaluations of effectiveness, which might be expressed as “doing the right things” to produce value or desired outcomes. A traditional way of illustrating the difference is to note that an organization gains little to nothing by automating things that should not be done. 

In principle, AIOps as applied to a communications network requires automated insight to produce proactive network responses. So far, we seem to have gotten better at insight, while IT managers still debate the value of unsupervised action by AI-driven systems to correct and modify network operations. 

Still, there already are instances where radio resource management, for example, is made both more effective and efficient because AI allows the network to apportion capacity where it is needed most, “right now.”

It is inevitable that human managers are going to want to start small and apply AIOps in narrow areas, gaining confidence to apply more generally. Put simply, “nobody trusts the system to behave autonomously” at the moment.

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