Thursday, November 29, 2007
3G iPhone Next Year
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.
Wednesday, November 28, 2007
Will Google Bid?
The deadline for filing an application for the 700-MHz auction is Dec. 3. The actual auction starts Jan. 24; the names of the bidders will be disclosed on Jan. 14.
Prediction: Google will submit a bid of $4.6 billion. But maybe no more than that, and the winning bid will certainly be higher. Now that Verizon has agreed to open up its mobile network to any compliant device or software, and having already gotten working agreements with Sprint, T-Mobile and Clearwire, Google might not need to secure spectrum simply to ensure that its open approach to the mobile Web has a place to develop.
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.
European Commission, FCC Disagree on Competition
As U.S. competitive local exchange carriers and cable companies await key decisions from the Federal Communications Commission, the quantitative tests of "effective competition" are key. And on that score the FCC and the European Commission do not see eye-to-eye. In the video arena, the FCC targets the 30-percent market capture level as denoting "effective competition." In the voice services area the test seems to be 20-percent share loss by incumbents. The EC doesn't even think 50-percent loss of market share by incumbents is sufficient.
The disparities in thinking about what marks "effective" levels of competition leaves at least some room for new thinking on what measures might be required to stimulate even more robust levels of competition. In mass markets, 30 percent quite often is the share held by the market leader.
The disparities in thinking about what marks "effective" levels of competition leaves at least some room for new thinking on what measures might be required to stimulate even more robust levels of competition. In mass markets, 30 percent quite often is the share held by the market leader.
Labels:
access,
att,
CLEC,
comcast,
EchoStar,
FCC,
forbearance,
loop unbundling,
Time Warner,
UNE,
Verizon
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.
Verizon Wireless Takes Reasonable Gamble
One might argue that Verizon Wireless is gambling with its whole business model in allowing use of technically-compliant devices and software on its network next year. But one can point to the experience of wireless operators in Europe, who have used this "open" model for years, to see it is not so dangerous.
In fact, Verizon gains more than it might potentially lose, just about any way you want to spin the matter. First off, it gets great press for breaking the "closed" mobile model on a voluntary basis. Also, it is betting, likely reasonably, that the overwhelming mass of buyers still will prefer the old model of "discounted phone, two-year contract."
Verizon also uses the CDMA platform, which already means there is less handset choice than possible on a GSM network, since the GSM market is so much larger, globally. Verizon just might stimulate a bit more handset and software choice by going open.
Also, open is inevitable. The 700 MHz spectrum requires such device and software openness, so it is coming to the market, in any case. Verizon might as well "look good" rather than resisting the inevitable.
Open also means Verizon has a shot at creating a more robust developer community, a helpful asset indeed as more innovation moves to the software realm.
There's very little, if any, downside and lots of upside. Not since AT&T launched its "Digital One Rate" has any leading mobile provider taken a step that will reverberate throughout the whole industry. Sometimes, innovation is not just something small companies pull off. Sometimes very large companies do it as well. And maybe, sometimes, only a very-large company can cause a major change. On occasion, innovation may require the push only a very-dominant firm can supply. This appears to be such a case.
Labels:
open networks,
unlocked phones,
Verizon Wireless
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.
Tuesday, November 27, 2007
$2.4 Billion CLEC Decision Near
Sometime between now and Dec. 5th, the Federal Communications Commission is slated to make decisions that could significantly raise wholesale access and transport tariffs in six markets, including Boston, New York, Philadelphia, Pittsburgh, Providence, and Virginia Beach.
Customers can anticipate an additional $2.4 billion in extra charges for communications services, according to a study by QSI Consulting, if the rules are relaxed.
Basically, Verizon argues that market competition in each of the six markets is equivalent to that found in the Omaha, Neb. market, the benchmark used by the Federal Communications Commission to deregulate wholesale access rules and rates that have been favorable to competitors.
Up to this point, competitors in the six markets have been able to buy wholesale access and transport at rates below “retail” special access rates. Should Verizon prevail, it would be free to raise prices as it sees fit, with the likely result that wholesale rates would rise to just about what the retail special access rates are.
QSI estimates increased telecommunications expenses incurred by consumers for retail mass market, enterprise, and broadband access services would be $1.054 million, $747 million, and $565 million.. This amounts to a rate increase of $114 annually for an average household, QSI says.
Users in New York would wind up paying as much as $1.4 billion extra. In Philadelphia costs could rise $345 million; $380 million in Boston; $104 million in Virginia Beach and $177 million in Pittsburgh.
Consumers would wind up paying as much as $1 billion more for services; enterprises $751 million and broadband access users $565 million.
Opponents of the plan tend to think they have done what is needed to make the FCC commissioners aware of how woefully undeveloped access competition is in the six markets. But one never knows.
“The concern is that though the numbers are clear, there are media issues also on commissioner minds,” says Covad VP Angela Simpson. The danger is that the forbearance issue might wind up being a bargaining chip as commissioners grapple with the broader media deregulation issues.
Customers can anticipate an additional $2.4 billion in extra charges for communications services, according to a study by QSI Consulting, if the rules are relaxed.
Basically, Verizon argues that market competition in each of the six markets is equivalent to that found in the Omaha, Neb. market, the benchmark used by the Federal Communications Commission to deregulate wholesale access rules and rates that have been favorable to competitors.
Up to this point, competitors in the six markets have been able to buy wholesale access and transport at rates below “retail” special access rates. Should Verizon prevail, it would be free to raise prices as it sees fit, with the likely result that wholesale rates would rise to just about what the retail special access rates are.
QSI estimates increased telecommunications expenses incurred by consumers for retail mass market, enterprise, and broadband access services would be $1.054 million, $747 million, and $565 million.. This amounts to a rate increase of $114 annually for an average household, QSI says.
Users in New York would wind up paying as much as $1.4 billion extra. In Philadelphia costs could rise $345 million; $380 million in Boston; $104 million in Virginia Beach and $177 million in Pittsburgh.
Consumers would wind up paying as much as $1 billion more for services; enterprises $751 million and broadband access users $565 million.
Opponents of the plan tend to think they have done what is needed to make the FCC commissioners aware of how woefully undeveloped access competition is in the six markets. But one never knows.
“The concern is that though the numbers are clear, there are media issues also on commissioner minds,” says Covad VP Angela Simpson. The danger is that the forbearance issue might wind up being a bargaining chip as commissioners grapple with the broader media deregulation issues.
Labels:
Angela Simpson,
CLEC,
Covad,
FCC,
UNE
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.
Metro Ethernet, Optical Access: Still Far to Go
In the enterprise high-capacity access markets, one has to distinguish between the financial and operating markets. Of late there has been renewed interest in the financial value of scarce optical assets, particularly in smaller markets.
But the allocation of new capital to the access business, if welcome, is not the same thing as deployment of capital to support alternate optical access facilities to the places most businesses are located, which is, simply, in the larger markets.
There is no “silver bullet” in the optical access market; just determined, steady, slow progress in lighting new buildings with at least one fiber cable. To be sure, global carriers very much want to connect large enterprise locations with 1 Gigabit-per-second to 10 Gbps optical connections.
The problem sometimes is that such connections don’t exist, or sometimes simply that sourcing such facilities is laborious because there are so many small providers in local markets. The problem for a global carrier is simply the need to source really high bandwidth access all over the world, easily.
In part, it’s a Layer One issue. In the U.S. market, for example, only 12 percent of business sites have fiber connectivity. Only 20 percent of North American cell sites have fiber connectivity.
That explains the continuing attraction wireless and Ethernet-over-copper alternatives represent. To be sure, programs such as Verizon’s FiOS will solve those problems for consumers, and almost incidentally for many branch office, small office or smaller business executives.
In the second quarter, for example, Cogent Communications added 1,208 on-net connections, up 53.5 percent from the 787 added in the first quarter. In the third quarter Cogent added 30 buildings and expects to have added 100 on-net buildings by the end of the year.
The company expects to do so again in 2008, adding 100 new buildings to its network.
“As of September 30, 2007, we had 1,189 buildings directly connected to the network, representing over 520 million square feet of rentable office space, out of an addressable inventory in North America of about 6.2 billion square feet,” says Dave Schaeffer, Cogent CEO.
“We are currently utilizing a little bit less than 22 percent of the lit capacity in our network,” says Schaeffer, illustrating the issue nicely: fiber isn’t the problem, access to customers with fiber is an issue.
At the end of June Time Warner Telecom had 7,884 buildings connected on its own facilities. At the end of September the company had 8,109 buildings on network, an increase of about 225 buildings, or about three percent. On an annual basis, on-network buildings increased about 19 percent.
RCN has something in excess of 800 buildings on network. Optimum Lightpath has about 2,500 buildings on network with fiber connections.
Nationwide, there are some 95,000 fiber-fed buildings, says GeoResults. And of course, compounding the problem is the fact that lots of the fiber access to lit buildings is in a common cable sheath, no matter who the retailer of record is. For many desirable buildings, the issue is that most of the suppliers actually use fiber in the same cable sheath.
There is progress. It simply is progress of the persistent, gradual sort.
The point is to separate the legitimate financial plays—rolling up and aggregating optical access assets in tertiary markets, such as Zayo Bandwidth is doing, from the operating situation, which continues to be that optical connections to more buildings is the gate.
One would think optical connections to wireless towers are an obvious, slam dunk sort of opportunity. With broadband demands growing rapidly, and locations so easy to identify, replacement of copper-fed T1 or microwave connections, the typical solution these days, would seem to be a fairly easy business proposition.
There are perhaps 2.2 million wireless base station sites globally, including 250,000 in North America alone. Assume half those base stations use wireless backhaul, while the other half use leased T1s or optical connections.
The Chinese market is unusual in the sense that most of China Mobile’s base stations already are fiber connected. Observers tend to note that in Europe, the Middle East or African markets, it wouldn’t be unusual to find that 60 percent of connections use microwave technology while 25 percent use optical connections and just 15 percent or so are based on copper E1 connections.
In the U.S. market, perhaps 10 percent to 20 percent of towers and other transmitting locations use fiber connections, accounting for 25,000 to 50,000 optical backhaul locations. And though microwave backhaul is popular in other markets, it rarely is used in the U.S. market.
That suggests as many as 225,000 wireless tower sites, or as few as 200,000, are fed by T1 connections over copper media. Depending on which carrier is involved, backhaul can represent 20 to 40 percent of recurring operating cost.
Verizon and at&t obviously are in position to use their other assets to slice this cost of doing business, while Sprint Nextel and T-Mobile obviously face higher costs. But the fiber access opportunity isn’t necessarily contingent on replacement of copper-fed T1s with optical replacements.
Indeed, voice works pretty well when the backhaul is based on T1 technology, so carriers might well not want to complicate their operations by moving all that traffic over to optical access. It might in fact make just as much sense, or more sense, to use the optical facilities for the rapidly-growing IP traffic demands, leaving T1 facilities in place for voice.
In other words, use the Time Division Multiplex network for voice traffic that is highly sensitive to latency, and use optical Ethernet for bursty data traffic. Of course, thinking is bound to change once any appreciable amount of usage and revenue is generated by video.
At some point, optical will be the best choice. The issue is when that will happen, and what the optimal choices are in the meantime. The point is that optical Ethernet, though the long-term answer, doesn’t cleanly address all the operational issues carriers think they face.
Encapsulating TDM traffic for Ethernet transmission worries carrier technologists for any number of reasons, for example.
The bottom line is that optical Ethernet, and business optical access, continues to grow every quarter. It just isn’t the sort of transformation that can happen much faster, given the need to balance revenue from the first customer account with the cost to construct an optical lateral connecting that customer.
In the old days, when carriers were the primary customers, matters were simpler. One simply built out to carrier hotels, data centers and key central offices, knowing that most of the high-bandwidth termination demand would be at such locations. That isn’t so easy when the customer base primarily is enterprise customers.
But the allocation of new capital to the access business, if welcome, is not the same thing as deployment of capital to support alternate optical access facilities to the places most businesses are located, which is, simply, in the larger markets.
There is no “silver bullet” in the optical access market; just determined, steady, slow progress in lighting new buildings with at least one fiber cable. To be sure, global carriers very much want to connect large enterprise locations with 1 Gigabit-per-second to 10 Gbps optical connections.
The problem sometimes is that such connections don’t exist, or sometimes simply that sourcing such facilities is laborious because there are so many small providers in local markets. The problem for a global carrier is simply the need to source really high bandwidth access all over the world, easily.
In part, it’s a Layer One issue. In the U.S. market, for example, only 12 percent of business sites have fiber connectivity. Only 20 percent of North American cell sites have fiber connectivity.
That explains the continuing attraction wireless and Ethernet-over-copper alternatives represent. To be sure, programs such as Verizon’s FiOS will solve those problems for consumers, and almost incidentally for many branch office, small office or smaller business executives.
In the second quarter, for example, Cogent Communications added 1,208 on-net connections, up 53.5 percent from the 787 added in the first quarter. In the third quarter Cogent added 30 buildings and expects to have added 100 on-net buildings by the end of the year.
The company expects to do so again in 2008, adding 100 new buildings to its network.
“As of September 30, 2007, we had 1,189 buildings directly connected to the network, representing over 520 million square feet of rentable office space, out of an addressable inventory in North America of about 6.2 billion square feet,” says Dave Schaeffer, Cogent CEO.
“We are currently utilizing a little bit less than 22 percent of the lit capacity in our network,” says Schaeffer, illustrating the issue nicely: fiber isn’t the problem, access to customers with fiber is an issue.
At the end of June Time Warner Telecom had 7,884 buildings connected on its own facilities. At the end of September the company had 8,109 buildings on network, an increase of about 225 buildings, or about three percent. On an annual basis, on-network buildings increased about 19 percent.
RCN has something in excess of 800 buildings on network. Optimum Lightpath has about 2,500 buildings on network with fiber connections.
Nationwide, there are some 95,000 fiber-fed buildings, says GeoResults. And of course, compounding the problem is the fact that lots of the fiber access to lit buildings is in a common cable sheath, no matter who the retailer of record is. For many desirable buildings, the issue is that most of the suppliers actually use fiber in the same cable sheath.
There is progress. It simply is progress of the persistent, gradual sort.
The point is to separate the legitimate financial plays—rolling up and aggregating optical access assets in tertiary markets, such as Zayo Bandwidth is doing, from the operating situation, which continues to be that optical connections to more buildings is the gate.
One would think optical connections to wireless towers are an obvious, slam dunk sort of opportunity. With broadband demands growing rapidly, and locations so easy to identify, replacement of copper-fed T1 or microwave connections, the typical solution these days, would seem to be a fairly easy business proposition.
There are perhaps 2.2 million wireless base station sites globally, including 250,000 in North America alone. Assume half those base stations use wireless backhaul, while the other half use leased T1s or optical connections.
The Chinese market is unusual in the sense that most of China Mobile’s base stations already are fiber connected. Observers tend to note that in Europe, the Middle East or African markets, it wouldn’t be unusual to find that 60 percent of connections use microwave technology while 25 percent use optical connections and just 15 percent or so are based on copper E1 connections.
In the U.S. market, perhaps 10 percent to 20 percent of towers and other transmitting locations use fiber connections, accounting for 25,000 to 50,000 optical backhaul locations. And though microwave backhaul is popular in other markets, it rarely is used in the U.S. market.
That suggests as many as 225,000 wireless tower sites, or as few as 200,000, are fed by T1 connections over copper media. Depending on which carrier is involved, backhaul can represent 20 to 40 percent of recurring operating cost.
Verizon and at&t obviously are in position to use their other assets to slice this cost of doing business, while Sprint Nextel and T-Mobile obviously face higher costs. But the fiber access opportunity isn’t necessarily contingent on replacement of copper-fed T1s with optical replacements.
Indeed, voice works pretty well when the backhaul is based on T1 technology, so carriers might well not want to complicate their operations by moving all that traffic over to optical access. It might in fact make just as much sense, or more sense, to use the optical facilities for the rapidly-growing IP traffic demands, leaving T1 facilities in place for voice.
In other words, use the Time Division Multiplex network for voice traffic that is highly sensitive to latency, and use optical Ethernet for bursty data traffic. Of course, thinking is bound to change once any appreciable amount of usage and revenue is generated by video.
At some point, optical will be the best choice. The issue is when that will happen, and what the optimal choices are in the meantime. The point is that optical Ethernet, though the long-term answer, doesn’t cleanly address all the operational issues carriers think they face.
Encapsulating TDM traffic for Ethernet transmission worries carrier technologists for any number of reasons, for example.
The bottom line is that optical Ethernet, and business optical access, continues to grow every quarter. It just isn’t the sort of transformation that can happen much faster, given the need to balance revenue from the first customer account with the cost to construct an optical lateral connecting that customer.
In the old days, when carriers were the primary customers, matters were simpler. One simply built out to carrier hotels, data centers and key central offices, knowing that most of the high-bandwidth termination demand would be at such locations. That isn’t so easy when the customer base primarily is enterprise customers.
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.
Verizon Wireless Goes Open
In a historic move, Verizon Wireless says it will provide customers the option to use wireless devices, software and applications not offered by the company. Verizon Wireless plans to have this new choice available to customers throughout the country by the end of 2008.
In early 2008, the company will publish the technical standards the development community will need to design products to interface with the Verizon Wireless network. Any device that meets the minimum technical standard will be activated on the network. Devices will be tested and approved in a $20 million state-of-the-art testing lab which received an additional investment this year to gear up for the anticipated new demand. Any application the customer chooses will be allowed on these devices.
“This is a transformation point in the 20-year history of mass market wireless devices, one which we believe will set the table for the next level of innovation and growth,” says Lowell McAdam, Verizon Wireless president and CEO.
That isn't to say Verizon will stop bundling devices, plans and features, as it believes most consumers prefer to buy that way. Still, Verizon is bowing to the inevitable. Open wireless networks are coming.
One has to say that Google already is winning much of what it seeks: an open mobile Internet.
Labels:
open networks,
Verizon Wireless
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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