A novel new approach to underwriting the costs of next generation high speed Internet - fiber to the home while addressing the challenges of reducing energy consumption and CO2 emissions and providing new revenue model for service providers.
Executive Summary
One of the significant challenges facing network operators today is the high capital cost of deploying next generation broadband network to individual homes or schools. Fiber to the home only makes economic sense for a relatively small percentage of homes or schools. One solution is a novel new approach under development in several jurisdictions around the world is to bundle the cost of next generation broadband Internet with the deployment of solar panels on the owners roof or through the sale of renewable energy to the homeowner. Rather than charging customers directly for the costs of deployment of the high speed broadband network theses costs instead are amortized over several years as a small discount on the customer’s Feed in Tariff (FIT) or renewable energy bill. There are many companies such as Solar City that will fund the entire capital cost of deploying solar panels on the roofs of homes or schools, who in turn make their money from the long term sale of the power from the panels to the electrical grid. In addition there are no Energy Service Companies (ESCOs) and Green Bond Funds that will underwrite the cost of larger installations.
Wednesday, February 10, 2010
Google to deploy Fiber to the Home in Selected Communities
http://www.google.com/appserve/fiberrfi/
Given how important broadband capability is to economic growth and job creation, it's no surprise that it's become a major topic of discussion in Washington.
The FCC is currently finalizing its National Broadband Plan to present to Congress next month. Recently we suggested that as part of its Plan, the Commission should build ultra high-speed broadband networks as testbeds in several communities across the country, to help learn how to bring faster and better broadband access to more people. We thought it was important to back up our policy recommendation with concrete action, so now we've decided to build an experimental network of our own.
Today we announced plans to build and test ultra high-speed broadband networks, delivering Internet speeds more than 100 times faster than what's available today to most Americans, over 1 gigabit per second fiber connections. As a first step, we're asking interested local governments to complete a request for information, which will help us determine where to build. Our goal is to experiment with new ways to help make broadband Internet access better, faster, and more widely available.
We're excited to see how consumers, small businesses, anchor institutions, and local governments will take advantage of ultra high-speed access to the Net. In the same way that the transition from dial-up to broadband made possible the emergence of online VoIP and video and countless other applications, we think that ultra high-speed bandwidth will lead to many new innovations – including streaming high-definition video content, remote data storage, distance learning, real-time multimedia collaboration, and others that we simply can't imagine yet.
This project will build on our ongoing efforts to expand and improve Internet access for consumers – from our free municipal Wi-Fi network in Mountain View, CA, to our advocacy in the 700 MHz spectrum auction, to our work to open the TV "white spaces" to unlicensed uses.
In building our broadband testbed, we plan to incorporate the policies we've been advocating for in areas like network neutrality and privacy protection. Even on a small scale, building an experimental network will also raise other important legal and policy issues, from local environmental law to rights-of-way, so we'll be working closely with communities, public officials, and other stakeholders to make sure we get this right.
By several measures, no matter who you ask, the U.S. in far too many places still lags behind many countries in Europe and Asia in terms of broadband speed, availability, and uptake. While it's unlikely that our experiment will be the silver bullet that delivers ultra high-speed Internet access to the rest of America, our engineers hope to learn some important things from this project. We can't wait to see what developers and consumers alike can accomplish with access to 1 gigabit broadband speeds.
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