Designed to Let Us Down (by David Brin)
Introduction
This article is being reprinted from Contrary Brin with the permission of the author, David Brin. Although the original text is copyrighted, permission has been granted by the author to copy it and make modifications in order to clarify points and otherwise strengthen the argument.
The following text and its derivatives are (tentatively) available under the Creative Commons Attribution-NonCommercial 2.5 license.
Usage
- For significant amplification on any of the ethical and social issues raised in this article, please feel free to start new pages and link to them; the editor will clean up any formatting details.
- Technical discussion of the proposed peer-to-peer cellphone technology can go here: htyp:peer-to-peer cellphone technology
Article
Designed to Let Us Down: |
Dr. Andrew J. Viterbi, an expert on communications theory at USC, spoke up recently in support of one of the concepts I have been pushing. Based upon the obscene situation that we saw during the Hurricane Katrina Crisis, when tens of thousands of victims found themselves cut off from the world, even though they had, in their pockets, sophisticated radio communications devices – cell phones that betrayed folks the very moment they were needed most. Viterbi commented (and apologies for the embedded self-quotation):
Viterbi says: | |||
Brin goes on to say that the teachable moment provided by Katrina was lost, and that the cellular industry could make a relatively simple, inexpensive change that would allow cell phones to still function to network survivors in a crisis :
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These pushes of mine have not gone completely ignored or unnoticed. As Viterbi's riffs on the topic show, there have been some fascinating and insightful exchanges, discussing how the nation and public might benefit by adding peer-to-peer supplemental capabilities to the present cell system.
Some object that this development could cost millions. But that is not any real obstacle in an industry making hundreds of billions in the United States alone. If either the government or the cell companies saw a clear benefit model, it would be trivial to justify the relatively small expense. Certainly far smaller than incorporating web browsers and MP3 players!
The problem is that top-down hierarchy mentalities do not easily grasp the potential of flattened networks... and this despite the clear example of the Internet itself as a super-empowering, hierarchy-flattening phenomenon.
(Indeed, I believe that there are underlying PSYCHOLOGICAL REASONS that the twin examples of the Internet – and citizen competence on 9/11 – may have prompted an immune reaction against citizen empowerment, on the part of some members of the Paid Protector Castes. But that's another story.)
One more-cogent objection to the notion of augmenting cell phones with Peer-to-Peer capability: it takes a lot more energy to transmit than to receive. Most cell phones are actually very weak transmitters that function poorly without energetic base towers nearby.
The answer to this objection is simple. In order to use P2P effectively in a crisis, when the towers are down, personal cell phones do not have to carry voice. In an emergency, text messages can make a tremendous difference, e.g. in calling for help, or informing loved-ones that you are okay, or in passing crucial information to authorities. Especially since text messages can be transmitted with multiple repetition-redundancy, simple calculations show that pocket transmitters (cell phones) could pass these along at trivial power expenditure.
Obviously, this same answer deals with objections that P2P (peer to peer) does not carry voice well. So? The algorithms for passing along text messages are very little different from classic packet switching for email, on the Internet. Implementation ought to be trivial.
How to explain why this simple augmentation has not been implemented, even though it is clearly in the national and public interest? One theory is that the cell companies may feel threatened by P2P capabilities. Or that they see no way to make money off them. But this needn't be a problem. For one thing, it should be easy for each hand set to track passed-on messages and inform the network, for billing purposes. Or else the P2P system can be turned off, whenever there is a fully functional cell tower nearby! Thus, automatically reverting to P2P only under circumstances when the capability is actually needed!
Moreover, there is an added allure to this approach, one that could help the cell-cos make real money. By developing P2P capability, companies may open the door to a new method for solving their "last mile problem" - or how to extend coverage into dark zones, just beyond reach of their current network of towers. Think. Why not let customers who happen to be at the edge of the coverage area get a small pay-back fee for every text message that they pass through, from people who are just outside the covered zone? The same way people with solar or wind generators can make their meters run backward, feeding power into the grid.
If such customers had a more sophisticated home-cradle unit, they might even be able to pass through voice calls from a nearby dark zone. Reducing their own bill, helping the company, and making our entire communications system more robust.
Indeed, can anyone doubt that someday, somebody will realize there is a business plan in this? An entirely peer-to-peer wireless network, in which, customers home-cradle units make up the bulk of an alternative cell system? But we'll save that futuristic sci fi scenario for another time. What I am talking about, here, is something that could be implemented in just one year, if anyone (like FEMA) were actually serious about fostering a more resilient and robust society. A pretty big "if" - apparently.
The fact that cell phones served the national defense so well on 9/11, yet failed in Katrina, should have been enough to tell us that serious work is needed, work that has been entirely lacking while we let ourselves be distracted on other adventures. I mean, isn't it a no-brainer for Homeland Security and FEMA to support this kind of capability, in the national interest?
After thinking about it, how do YOU feel about the sophisticated little tranceiver radio in your pocket, now that you know that it was designed almost perfectly to let you down, someday, at the very moment that you might need it most?