For some observers, a tablet that supports only Wi-Fi connections is defective. Maybe not. At least so far, the overwhelming percentage of tablet usage occurs at home, with the balance of usage at public hot spots or at work.
If 88 percent of tablet use occurs in a living room, where Wi-Fi is assumed to be present, there are only 12 percent of other locations where a tablet might conceivably be used, and one might argue that a smart phone will suffice for most of those use cases.
Some 24 percent of tablet users say they likewise use tablets at work, where Wi-Fi reasonably also can be presumed to be available.
The point is that the hope mobile service providers have of more consumers adopting mobile broadband for their tablets remains largely an expectation.
Of course, some will argue that the current usage pattern is shaped by the fact that most people have purchased devices without native mobile network support. What people cannot do, they do not do.
But that seems to ignore the more obvious conclusion, which is that tablets get used mostly in situations where Wi-Fi is available. In that case, lack of direct mobile connectivity is not such a big problem. For users who normally carry a smart phone with personal hotspot service, there is virtually no problem at all.
Monday, July 23, 2012
Is "Wi-Fi-Only" Really a Tablet Shortcoming?
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
Wireless Now Leads Global Broadband Growth
The focus of global broadband adoption now has shifted to the wireless domain, a dstudy suggests. Wireless broadband subscriptions showed growth of over 13 percent in the last six months and Korea (100.6) and Sweden (98.0) have wireless penetration above or near 100 percent.
The global number of wireless broadband subscriptions in OECD countries totals 667 million, up from 590 million in June 2011, according to the Organization for Economic Cooperation and Development (OECD).
Switzerland tops for the first time the Organization for Economic Cooperation and Development (OECD) fixed broadband rankings for fixed broadband "density," with 39.9 subscribers per 100 inhabitants, followed closely by the Netherlands (39.1) and Denmark (37.9). The OECD average is 25.6, according to new OECD statistics.
Fixed wired broadband subscriptions reached 314 million in the OECD area at the end of 2011, although growth slowed to 1.8 percent in the second half of 2011, the study suggests.
OECD Fixed (wired) broadband subscriptions per 100 inhabitants, by technology, December 2011
The overall share of DSL subscriptions continues to decrease (55.8 percent), to the benefit of cable (30 percent) and, especially, fibre-to-the-home subscriptions that now represent 13.7 percent of the total number of fixed broadband subscriptions.
Data and charts for the December 2011 broadband statistics are available here.
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
China Shows Broadband is a Product, Like Any Other, and can Mature
For more than a hundred years, fixed network voice seemed to be a product that defied the "product life cycle." Demand only seemed to grow.
As it turns out, fixed network voice now is behaving as a normal product. Demand in some markets is declining, while substitute products arguably are taking share.
The question therefore is whether fixed network broadband access also will turn out to be a product, with a life cycle. In China, the answer already might be "yes."
Internet users reached 530 million over the past six months, but its broadband subscriber base actually shrank as mobile became the most popular way for users to get online for the first time, the study suggests.
Of those users, some 380 million were fixed broadband users, down from 396 million in December 2011, and 388 million were mobile internet users, up from 356 million, according to the report by the Chinese government. :
As it turns out, fixed network voice now is behaving as a normal product. Demand in some markets is declining, while substitute products arguably are taking share.
The question therefore is whether fixed network broadband access also will turn out to be a product, with a life cycle. In China, the answer already might be "yes."
Internet users reached 530 million over the past six months, but its broadband subscriber base actually shrank as mobile became the most popular way for users to get online for the first time, the study suggests.
Of those users, some 380 million were fixed broadband users, down from 396 million in December 2011, and 388 million were mobile internet users, up from 356 million, according to the report by the Chinese government. :
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
Sunday, July 22, 2012
75% of Planet's People Have a Mobile Phone
Some 75 percent of all the world’s people now have a mobile phone, according to the World Bank and infoDev, its technology entrepreneurship and innovation program. In fact, the number of mobile subscriptions in low- and middle-income countries increased by more than 1,500 percent between 2000 and 2010, from 4 to 72 per 100 inhabitants, the World Bank says.
The number of mobile subscriptions in use worldwide, both pre-paid and post-paid, has grown from fewer than one billion in 2000 to over six billion now, of which nearly five billion are in use in developing countries.
Ownership of multiple subscriptions is becoming increasingly common, suggesting that their number will soon exceed that of the human population, the World Bank also says.
Before the expansion of mobile networks, agricultural producers were often unaware of these prices and had to rely on information from traders and agents to determine whether, when, where, or for how much to sell their crops.
The resulting “information asymmetry” often results in price dispersion—drastically different prices for the same products in markets only short distances apart—and thus lost income for some farmers and higher prices for consumers.
Numerous studies have shown the benefits of communications in promoting access to price information, including increases of up to 24 percent in incomes for farmers and up to 57 percent for traders and price reductions of around four percent for consumers depending on the crop, country, and year of study, the World Bank says.
One study conducted in Niger from 2001 to 2006 found that the introduction of mobile phones had reduced grain price dispersion by 6.4 percent and reduced price variation by 12 percent over the course of one year, the report says.
Applications now are moving to the forefront as "access" becomes nearly universal, the report also maintains.
Download the report here.
The number of mobile subscriptions in use worldwide, both pre-paid and post-paid, has grown from fewer than one billion in 2000 to over six billion now, of which nearly five billion are in use in developing countries.
Ownership of multiple subscriptions is becoming increasingly common, suggesting that their number will soon exceed that of the human population, the World Bank also says.
Before the expansion of mobile networks, agricultural producers were often unaware of these prices and had to rely on information from traders and agents to determine whether, when, where, or for how much to sell their crops.
The resulting “information asymmetry” often results in price dispersion—drastically different prices for the same products in markets only short distances apart—and thus lost income for some farmers and higher prices for consumers.
Numerous studies have shown the benefits of communications in promoting access to price information, including increases of up to 24 percent in incomes for farmers and up to 57 percent for traders and price reductions of around four percent for consumers depending on the crop, country, and year of study, the World Bank says.
One study conducted in Niger from 2001 to 2006 found that the introduction of mobile phones had reduced grain price dispersion by 6.4 percent and reduced price variation by 12 percent over the course of one year, the report says.
Applications now are moving to the forefront as "access" becomes nearly universal, the report also maintains.
Download the report here.
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
Do People Really Want to Use Mobile Broadband for Their Tablets?
Mobile service providers hope that tablet users will want to connect their tablets using the cellular network, instead of using Wi-Fi. New shared mobile data plans are intended to encourage such choices. Will it work?
Some don't believe so. The share of tablets with built-in cellular connectivity will decline over the next four years despite the expected proliferation of multi-device data plans designed to encourage their adoption, according to a new forecast by CCS insight.
The study suggests 48 percent of tablet shipments in 2011 were cellular-enabled. The firm expects the share of cellular-enabled tablets will slowly diminish to 37 percent in 2016.
"Most users do not regard cellular connectivity in tablets as a must-have, especially given the current price of tablets and mobile data subscriptions," says CCS Insight,
For most users, that is because tablets mostly are used inside the home, where a Wi-Fi connection is available.
Some don't believe so. The share of tablets with built-in cellular connectivity will decline over the next four years despite the expected proliferation of multi-device data plans designed to encourage their adoption, according to a new forecast by CCS insight.
The study suggests 48 percent of tablet shipments in 2011 were cellular-enabled. The firm expects the share of cellular-enabled tablets will slowly diminish to 37 percent in 2016.
"Most users do not regard cellular connectivity in tablets as a must-have, especially given the current price of tablets and mobile data subscriptions," says CCS Insight,
For most users, that is because tablets mostly are used inside the home, where a Wi-Fi connection is available.
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
Mobile Money Represents 13% of Safaricom's Total Revenue
If you want an indication of how big a deal mobile money services could be for some mobile service providers, consider that M-Pesa, operated by Safaricom, now accounts for 13.3 percent of Safaricom’s total revenue.
It is estimated that up to 364 million low-income individuals globally will be utilizing mobile money by the end of 2012, which would generate $7.8 billion in revenue.
M-Pesa’s gross revenues amounted to $157 million in 2010, up 56 percent from the previous year.
In 15 African countries, more than 10 percent of adults used mobile money in 2011. Globally, there are 137 live mobile money deployments, with 95 mobile money services in the planning stages, according to CSC.
It is estimated that two billion people have a mobile phone but do not have a bank account, suggesting the size of the potential market. Perhaps half of the world’s "un-banked" people can become mobile money users.
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
Friday, July 20, 2012
You Might Not Recognize U.S. Telecom in 10 Years
"Every place we have FiOS, we are going to kill the copper," Verizon CEO Lowell McAdam recently said. "We are going to just take it out of service." That should hardly be controversial statement. The whole idea behind fiber to the home is to replace the copper access network.
Other Verizon assertions raise more issues, but should not. "Areas that are more rural and more sparsely populated, we have got LTE built that will handle all of those services and so we are going to cut the copper off there," says McAdam.
For some, that means "dooming" rural users to slower services. At some level, it is hard to challenge the assertion. Rural areas have long loops. Long loops mean poor DSL speed, and costly fiber upgrades. The former means that where copper exists, broadband access speed will be limited.
But the business case for optical fiber on long rural loops, without benefit of subsidies, is challenging, and always has been. Some will argue that Verizon, and other incumbent telcos, have an obligation to upgrade their fixed networks that use wires.
Others would argue that doesn't make sense in a world that offers other options, some that are vastly cheaper, but not as fast as an urban fiber to home network. Other alternatives are moderately faster, and moderately costly, but less costly by far than a rural FTTH network that features mostly long loops.
Shorn of politics, the rational technology solution would be to use a mix of technologies, none of them perfect substitutes for FTTH, but each making eminent financial sense if the objective is getting the fastest feasible broadband to all users, in a variety of situations, right away.
With the launch of new high-power satellites by the likes of HughesNet (Echostar) and ViaSat, rural users will be able to get service at significantly-higher speeds, perhaps up to about 15 Mbps downstream. It won't be as affordable as urban cable modem services or DSL, but rural areas have different economics. What is financially possible in an urban or suburban area is not possible in a very-rural area.
Verizon is banking on faster Long Term Evolution networks in areas with enough users to support mobile service. Whether downstream speeds will be as fast as 15 Mbps remains to be seen, in each area.
But the point is that LTE will be feasible in many areas where it might simply be impractical to build FTTH networks without government subsidies. The first generation of LTE will not run as fast as later generations, but even first-generation LTE will provide much higher speeds than 3G networks are capable of providing.
In other cases, where cable operators are upgrading to DOCSIS, cable might always have the "speed" advantage. If telcos choose not to compete, they will lose customers. But, shorn of politics, that might be the best outcome in some markets.
As European and North American communications regulators already have discovered, in real life, there might be a trade off between maximum feasible competition and maximum feasible capital investment in networks.
And that's only part of the story. It is not entirely clear whether other alternatives, such as white spaces, might emerge as a significant factor in rural areas. White spaces might provide a new wave of competition in rural areas.
The other problem we will have worked through, in a decade, is the division of roles between fixed and mobile networks. Some services that today make eminent sense might not be so logical in a decade. Which network supplies those features, apps or services might also be less obvious today, than will be the case in a decade.
Everywhere in the world, mobile networks are getting faster, and application development has moved to the mobile realm as well. In a decade, we might all be very surprised at how the business, and consumer behavior, have changed.
In the future, more than today, fixed networks will be recognized as "better" at some roles, while mobile is seen as "better" for other roles. Beyond the matter of which access network is used, we are likely to be surprised by the way former "telcos" make their money, as well.
The point is that the way Verizon chooses to supply applications and access should not be viewed through the lens of the past, but the prism of the future.
Other Verizon assertions raise more issues, but should not. "Areas that are more rural and more sparsely populated, we have got LTE built that will handle all of those services and so we are going to cut the copper off there," says McAdam.
For some, that means "dooming" rural users to slower services. At some level, it is hard to challenge the assertion. Rural areas have long loops. Long loops mean poor DSL speed, and costly fiber upgrades. The former means that where copper exists, broadband access speed will be limited.
But the business case for optical fiber on long rural loops, without benefit of subsidies, is challenging, and always has been. Some will argue that Verizon, and other incumbent telcos, have an obligation to upgrade their fixed networks that use wires.
Others would argue that doesn't make sense in a world that offers other options, some that are vastly cheaper, but not as fast as an urban fiber to home network. Other alternatives are moderately faster, and moderately costly, but less costly by far than a rural FTTH network that features mostly long loops.
Shorn of politics, the rational technology solution would be to use a mix of technologies, none of them perfect substitutes for FTTH, but each making eminent financial sense if the objective is getting the fastest feasible broadband to all users, in a variety of situations, right away.
With the launch of new high-power satellites by the likes of HughesNet (Echostar) and ViaSat, rural users will be able to get service at significantly-higher speeds, perhaps up to about 15 Mbps downstream. It won't be as affordable as urban cable modem services or DSL, but rural areas have different economics. What is financially possible in an urban or suburban area is not possible in a very-rural area.
Verizon is banking on faster Long Term Evolution networks in areas with enough users to support mobile service. Whether downstream speeds will be as fast as 15 Mbps remains to be seen, in each area.
But the point is that LTE will be feasible in many areas where it might simply be impractical to build FTTH networks without government subsidies. The first generation of LTE will not run as fast as later generations, but even first-generation LTE will provide much higher speeds than 3G networks are capable of providing.
In other cases, where cable operators are upgrading to DOCSIS, cable might always have the "speed" advantage. If telcos choose not to compete, they will lose customers. But, shorn of politics, that might be the best outcome in some markets.
As European and North American communications regulators already have discovered, in real life, there might be a trade off between maximum feasible competition and maximum feasible capital investment in networks.
And that's only part of the story. It is not entirely clear whether other alternatives, such as white spaces, might emerge as a significant factor in rural areas. White spaces might provide a new wave of competition in rural areas.
The other problem we will have worked through, in a decade, is the division of roles between fixed and mobile networks. Some services that today make eminent sense might not be so logical in a decade. Which network supplies those features, apps or services might also be less obvious today, than will be the case in a decade.
Everywhere in the world, mobile networks are getting faster, and application development has moved to the mobile realm as well. In a decade, we might all be very surprised at how the business, and consumer behavior, have changed.
In the future, more than today, fixed networks will be recognized as "better" at some roles, while mobile is seen as "better" for other roles. Beyond the matter of which access network is used, we are likely to be surprised by the way former "telcos" make their money, as well.
The point is that the way Verizon chooses to supply applications and access should not be viewed through the lens of the past, but the prism of the future.
Gary Kim has been a digital infra analyst and journalist for more than 30 years, covering the business impact of technology, pre- and post-internet. He sees a similar evolution coming with AI. General-purpose technologies do not come along very often, but when they do, they change life, economies and industries.
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