Cease and Desist!

My ISP (Speakeasy) sent me a nice letter recently informing me the Eurpopean Union's copyright infringement division was displeased with me. The said that based on these allegations, I would be in violation of the Speakeasy Acceptable Use Policy. "How can that be?", thought I. I buy my music on iTunes, I do not partake in bittorrent, limewire or any other version of the now dead Napster (old school version not the new subscription based system) music/file-trading system Hell, I pay for stuff!. I have encoded all my purchased CD's and boxed them away but I keep them to myself. In fact I am a true supporter of "legitimate" digital music use via iTunes or any other service that, in some way, supports the artisits that create the music I love. This includes freely distributed music a la Radiohead.

So why was the European Union comin after me? Speakeasy's Tech Support and Security groups were very helpful in pointing out to me that they could track streams of file sharing originating at my IP address. So I thought deeply about this (for 2 seconds) and arrived at the most logical conclusion. My neighbors were connecting to me via Free The Net, the Meraki based San Francisco free wifi network and uploading/downloading music to their hearts content. I have 2 repeaters on my roof and 4 others in houses nearby providing firewalled access to the Internet. This made me sad. I was very pleased to provide an un-asked for service to my neighbors who may not have - or may not be able to afford - Internet access. I wrote to Meraki explaining my dilemma and asked of there was someway to restrict my neighbors from conducting file trading on my network.

People in my hood are sharing music over my wireless network and
abusing my speakeasy acceptable use policy. Speakeasy.net has warned
me that any continued abuse will result in disconnection of my
service. Therefore I must inform you that unless you can lock it
down so only port 80 is being used I will have to disconnect the
Meraki repeaters and access points from my network.

I am very sorry. This seems like a real shame. I was very eager to
participate in "Free the Net" but now I am a bit saddened that folks
are abusing it.

Please get back to me and let me know if there is anything you can do
on your end.

They replied back with...

Hey Bruce,

grr. that's really irritating. but actually what's surprising is that
we haven't had to address this issue so far. as far as blocking
everything but port 80: I don't think any of us would be happy with a web-only Internet connection, so that doesn't seem like a good answer. to me it seems the real solution here would be to figure out who the culprit is and block them.

I looked on your gateway and didn't see anyone transferring an
inordinate amount of traffic. do you happen to have any idea who it is? do you know if it is bittorrent they are using? maybe they are using a different gateway at least part of the time (probably mine, hehe).

next week I guess we can figure out how to set up the right counters on your gateway so that we can figure out who it is (any insight or additional info you can provide would obviously be super helpful). hopefully Speakeasy can wait that long. if you need to unplug, we understand, but leaving your repeater plugged into power would at least soften the blow.

ugh,

So far they have found no way to track or stop the activity and I love my Speakeasy service. So I have no choice. Until such a time as I can trust my neighbors not to conduct activity that the European Union deems as illegal or until Meraki finds a way to filter this traffic out, I must disconnect my network from "Free the Net". I still have repeaters on my roof but they are no longer connected to my network, file traders now siphon off some other guys pipe or tube or truck that backs up and unloads Internet.

Comments and suggestions, as always, are very welcome.

Meraki - Staunton, VA

Another great grass roots wifi project is being lead by a group of folks out in Staunton Virginia. With 19 nodes up as of today, the 3rd of May, it looks like it is doing well.

Again, I must say, citizens and grass roots efforts beat out commercial or governmental efforst all the time. Less bloat, less waste. These efforts are similar to the way we as world citizens take it upon ourselves to act responsibly on the road, or by taking the effort to recycle our bottles and cans. It is also parallel to the user created content wave sweeping the Internet. Not only do we want to get news and opinion our own way we want to get services our way too. And just like we don't mind spending some of our time to create that content we do not mind spending some our time and bandwidth to add wifi services.

Drop in on Staunton VA and take a look at http://www.stauntonwifi.org/ and let them know what a great job they are doing!

My Meraki Mesh Node - Update

Meraki is a pretty cool company. I don't say that just because I am some bleeding heart liberal (even though I am) and they have a rather humanistic desire to get inexpensive Internet connectivity out to "the next billion people". Nor do I say it because they like to be polite network citizens and not go for the capitalistic jugular. But also because they have their head in the right spot and treat people decently and still make money doing it. nice. Liberals want to get rich too!

Not long after getting the free (as in "beer") Meraki node set up I purchased two new minis. I purchased these to learn about how they work and for fun and to "hack-on". I mean, heck, they were pretty inexpensive. Soon after I put these nodes up using the same SSID as Meraki's project so they would associate to it and I gave them to my neighbors. At this point Meraki contacted me. I guess they were monitoring the "Free the Net" WLAN and they sent the following note...

Hi Bruce,

We noticed that you ordered a couple of Meraki Minis and have set up your own network with the name "Free the Net". We are very psyched that you're so motivated and excited to help out with the project, and we'd love to help out. :) For starters, you definitely don't need to spend your own money, we'd be delighted to provide Minis for any of your neighbors who you can get involved. We would also really love to have the repeaters in the "Free the Net" project be in our existing network in Dashboard, so that they'll all show up on our one network map and we can see the aggregated usage numbers and all of that in one place. I totally understand that as a WiFi guy you'd probably like to play around with Dashboard some yourself -- could we offer to send you a couple more Minis to play with, and let us add your neighbors' repeaters to our existing network?

Thanks a bunch, and again, we appreciate your help with the project!

What great folks! A few days later 2 more nodes showed up and now I have two to "Play" with and two that will soon be migrated to the "Free The Net" project. I have all four up now on a new SSID and when I attach my laptop to them I get a nifty splash page from Meraki. This is of course because my new mesh of 4 (lets call them "Unchained") automatically saw another Meraki node ("Free The Net") and linked to it. as an aside, I think, if I plug one of my "Unchained" nodes into my Internet connection they will dis-associate from "Free The Net"

Now here is the real surprise, After you click the, "Take me to where I was going" link you get a new bar at the top of your browser window that scrolls advertising for local businesses. Now, I have no idea if these businesses are paying for this. I assume they are, but who knows. But think of the revenue opportunities.


The bar is very discrete. Thin and lean. the rotating text ads are very low key and I didn't even notice it for quite a few days. Also there is a request for input in a box if you click the "?" icon.


Lastly, there is a "search local" box that allows you to search for businesses and other stuff in your local area based on your Latitude and Longitude (actually, the Lat Long of the node you are associated with). Very hip.


The Result then takes you to a Google Local page. Nice.


All in all, when you add this idea and the strategy to get a percentage of money that Meraki makes off of your monetizing you own mesh hotspot, the large orders of nodes going to other cities and countries desiring a quick and easy way to get their citizens connected to the Internet and the fact that Google buys Meraki nodes to extend their mesh into peoples homes and businesses, Meraki is poised to pay off that Sequoia investment in nothing flat.

Meraki AirMagnet Stats

Some folks have requested more technical details on the Meraki nodes so I am uploading some AirMagnet Laptop Analyzer images for your perusal. Let me know what you think.

(Click an image to enlarge it)

Here, for example is the AirMagnet Start screen showing the 3 nodes I have up

And here we have the Infrastructure page showing how they are viewed.

But the details that most folks have been asking for is here on the Channel Page (notice the bytes and frames. Very good data speeds for the most part. Since the beacon interval is set to 500ms I have the channel scan time set to 750ms)...

...and here on the main portion of the Infrastructure page. I also had the Spectrum Analyzer integration enabled. For this image I selected the main "root" node to analyze.

Meraki - Dallas freenet

Entrepenuership in action. If you want to see how another mesh deployment is going, cruise on over to http://www.dfwfreenet.org/ and see how they are doing. they have a great wiki and a node map up and running. So far they only appear to have 5 nodes up and running but I could see this going big. Support them by laying out a measeley $49 bucks for your own node and go to town!

Meraki Node - Management Details

The Meraki mesh node I got has been up for a week now and here are my thoughts. Well, first of all, It is pretty neat. 'nuff said. I had some questions that I posed to Ben Chambers of Meraki and here are the answers.

The first thing I wanted to know was why it beacons every 500ms instead of 100ms. Twice per second did not seem very much and considerably off the norm. Ben stated that, "As far as the beacon interval goes, the reason is basically that if you have a fairly high number of repeaters (say, 20) within range of each other, 10 beacons per second per node gets pretty excessive." This makes total sense to me.

The next question was whether there was a way to configure the node or at least monitor it. I was told that because it was a free node belonging to the Meraki "Free the Net" project I would not be able to configure it but I would be able to monitor it in a variety of ways:

1. I can see if it is up by associating with it and browsing to http://my.meraki.net/ where I would see a splash page. Click on each image to see a larger version of the image.
2. I can Select the "Advanced" link in the upper left and get a page that lets me run a throughput test to the internet.

3. I can select another link on the advanced page that allows me to set a static IP and some other functions.

4. I can also get to a page that is just for my repeater at http://sf.meraki.net/myrepeater/00:18:0a:01:10:b3 which looks like this:

5. I can also get more data from a more public view of the Meraki network from this URL http://sf.meraki.net/overview which shows me connected to another mesh node way over in Potrero Hill, at least a mile away.


6. I was also pointed to a site where there is XML data for Google earth. http://sf.meraki.net/earth . You must save the source as a KMZ file on you hard drive and open in Google Earth.

After which, it now looks like this in Google Earth. Notice the mesh links (I made them yellow, the better to see them with.)

Which now allows me to go down to sea level and see the line of site to the other link

Pretty impressive. My next step would be to get some Meraki Minis and connect them to the mesh and see how they work out. More fun for next time :-) Talk to you then.

My Own Mesh Node - Meraki comes through!

Here is the view from my roof of downtown San Francisco. Looks like a good place for a Mesh Node!


Last Thursday, Ben Chambers and Jessica showed up on my doorstep from Meraki Networks with APs in hand. I was psyched! We were about to hook up an outdoor node to the Meraki San Francisco trial.

They brought over a Meraki outdoor AP, a toolbox and a lot of cable and got right to work. We went up on the roof to check it out and find a spot to put it. Then we went indoors and talked about how/where to bring the cable in. The unit is powered by a proprietary POE (Power over Ethernet) injector which I plugged and hooked up to my switch.


Ben went back up onto the roof and connect the AP to a plumbing vent pipe. It came with what appears to be a 12dbi antenna (I will check and get back with the details).


It got link and pulled a DHCP address from my home router and started broadcasting the SSID FreeTheNet and we were done.














We chatted awhile and then they left. The were super nice and obviously loved their jobs. Later the unit started upgrading itself and is now running a newer OS than what it originally had. I checked that evening and found I was up on the website at http://sf.meraki.net/ but unfortunately none of my neighbors had a Meraki node close enough to attach to mine. I am going to drop in on Ritual Coffee later this week and get them to join the network as well as some of my neighbors.

Meraki Wireless Repeater Makes Extending WiFi Easy!

Meraki is now offering a great way to extend you WiFi network. Inexpensive repeaters. The Meraki Mini is a $49 (there is also an outdoor model for $99) AP you just put in your window and connect it to a MuniWiFi network or your own internet connection and then, according to their site, you just add more repeaters to make a mesh, "The more Minis that are out there, the bigger the network. And you can plug right into the repeater instead of going wireless."

I like this idea a lot. So much, in fact, that I use something somewhat similar myself. But is has a few drawbacks that are not mentioned on the website.

In my house we have one AP/Basestation/Router at the DSL D-marque and 3 WiFi repeaters throughout the house. I use the Apple Airport system so I have one Airport Extreme connected to my DSL router and 3 Airport Expresses connected using WDS (wireless distribution system) which mean none of my Airport Express units need a cable drop. It works really well, I can connect to any of the APs and surf the internet and I can stream music from my desktop or any connected laptop to any of them using Apple's AirTunes, even my Dell. The drawback is that every hop from the repeater reduces the bandwidth considerably as each device, with only one radio, has to spend half it's time talking to your laptop and half forwarding the signal. Wikipedia states, "...throughput in this method is inversely proportional to the number of "hops", as all traffic uses the same channel. For example, client traffic going through one relay station before it reaches the main access point will see at most half the maximum throughput that a directly connected client would experience." For me, this is fine as I only have 3Mb/s internet access but for larger mesh networks it begins to be a problem. Meraki suggests, "To boost the signal, connect every tenth one to the Internet." It is unclear from Meraki's documentation if the use separate channels or radios for the back haul.

The system also has a really great web-based management application called Dashboard which they give away for free. Dashboard allows the Network admin to monitor the network, change it's configuration and it has a built in billing feature if you wish to setup a hotspot or be your own neighborhood service provider.

The last really great thing about the Meraki solution is the ability to repeat the relatively weak MuniWiFi signal and project it into your home. This will allow users of these networks, especially one's in older homes with Lathe and Plaster or Stucco and chicken-wire construction to get a lot more signal strength and thus increased speeds. In fact, Meraki is already working in San Francisco to implement a Mesh network in and around my neighborhood. I have signed up for it and we will see where it goes. I will blog about it as it happens. Check it out at http://sf.meraki.net/

Anaheim Muni-Fi and Earthlink ready for Wi-Fi Phone Beta Testing - We need details!

The New Earthlink VOIP service is now ready for beta testing. Users in Anaheim may sign up now and get a free handset with the service during the tsting period according to Glenn Fleischmann over at WiFiNetNews

Good news for those of us watching the VoWLAN emergence but I have some questions:

It appears as if the service is tied to their phone. There is this quote in the release, "'What separates our Wi-Fi phone from others is its ability to work over EarthLink's municipal Wi-Fi networks,' said Steve Howe, EarthLink's senior vice president of voice."

• Does this mean that other SIP phones or dual band phones will not work?
  
• Is this an attempt to control the hardware and service.
  
• Has anyone tried using a different phone over the Anaheim network?

If this is true and we are locked into an Earthlink/Accton solution, it could spell doom for rapid adoption and raise the hackles of the "Free the Airwaves" folks.

Later on it also mentions that the Accton system is and ATA (Analog Telephone Adapter) based system. This would be similar to Vonage's home adapter. Again, more questions, can you use the handset while roaming about the network or just when in range of your own ATA base station?

Lastly (and in my opinion, most importantly), is it encrypted or are folks going to be able to sniff my call and play it back with VoiPong or something similar? Why do people always think of security last?

There are many questions we still have no answers to. If you know any, drop me a line.

The Ripple Effect - Problems with Cisco’s Radio Resource Management (RMM)

Introduction:

In its Unified Wireless Network architecture, Cisco has developed patent pending technology for dealing with interference detection and avoidance, dynamic channel assignment, dynamic power adjustment, coverage-hole detection and correction, rogue detection and client load balancing. This system is known as RRM or Radio Resource management. The stated goal of which is to avoid problems in the fixed ISM band of 802.11b/g where only 11 channels are available to U.S. WLANs. This system, though sound in theory, has problems when applied to large WLANs in urban areas or locales that have heavily deployed WLANs such as Metro WiFi, skyscrapers, hospitals, universities and businesses near residential neighborhoods.

Background on Channel Overlap:

Anyone who has configured their own home access point (AP) knows they are allowed to choose a channel for the AP to transmit on. Since APs use Dynamic Spread Spectrum technology they actually utilize 5 channels per AP.

If an admin were to configure APs to use all channels in the 802.11b/g spectrum, a serious decrease in available bandwidth would occur and users would experience sever throughput loss. Thus an admin is restricted to only configure his/her APs to 3 non-overlapping channels; 1, 6 and 11. In some cases an admin may opt, out of necessity, to go for a slight overlap and configure a 4 channel plan consisting of channels 1, 4, 7 and 11.

WLAN planning and Site Surveying:

Administrators need to then plan out their deployment so that each AP avoids overlapping its coverage with another AP on the same channel. APs must have their power adjusted to compensate for walls and coverage gaps that may ensue when a building is not a standard rectangular shape or when neighbors move in and configure their AP on a channel used by the organization the admin works for. This adjustment in power may increase or decrease the size of the cell of each AP and the additional adjustments to all the other APs will now be needed. Lastly, the admin must plan for areas where usage may change very dynamically such as in conference rooms and auditoriums. As one can see, this is really an art and a whole industry has evolved around designing wireless networks. Usually a Site Survey is needed to map out the existing neighbor APs as well as to plan where to place and map the new APs. Surveys are also recommended from time to time to adjust to changes that may happen around the organization as well as within it.

Cisco's Solution:

The Cisco Unified Wireless Network (UWN) architecture hopes to avoid this problem by sensing the types of problems that occur in WLANs and automatically compensating. Problems such as:

• A neighbor moving in next door or upstairs and implementing APs that overlap yours
  
• Coverage gaps that occurs when walls, cubicles and other furniture are moved, added or removed
  
• Loss in throughput when people, who are 78% water, move around in a company and group together in conference rooms or other areas (water attenuates or "blocks" radio waves)
  

Cisco has a brief description on their website at HERE and a much more in depth description HERE

On that second page Cisco describes how this works under the section entitled, "Radio Resource Monitoring"

Management of an RF network requires strong visibility into the factors affecting the air space. Cisco lightweight access points are specially designed to not only offer service, but to also monitor all channels at the same time. This is a result of the extensive development work Cisco has performed on the 802.11 MAC layer as part of its split MAC architecture.

In addition to offering service, Cisco lightweight access points can simultaneously scan all valid 802.11a/b/g channels for the country of operation, as well as for channels valid in other geographies. This provides the highest level of protection-the system will discover rogue access points that might be imported from other countries, or a hacker that knows how to change the country of operation such that the rogue would be out of band and not detected by most WLAN intrusion detection systems (IDSs).

The Cisco lightweight access point goes "off-channel" for a period not greater than 60 ms to listen to these channels. Packets collected during this time are sent to the Cisco Wireless LAN Controller, where they are analyzed to detect rogue access points (whether service set identifiers [SSIDs] are broadcast or not), rogue clients, ad-hoc clients, and interfering access points.

By default, each access point spends only 0.2 percent of its time off-channel. This is statistically distributed across all access points so that adjacent access points are not scanning at the same time, which could adversely affect WLAN performance. This enables administrators to build a picture of what is happening in their WLANs from the perspective of every access point, and increases network visibility beyond what an overlay network can provide, eliminating the "hidden node" problem that can result when air monitors are deployed for every three to five access points.

I will not debate the issues around part time scanning in this article; many others have addressed that already. But I will address the next issue which is how Cisco responds once it has discovered any of the aforementioned problems.

When a station has something to say, it announces it to the media. An access point will allow the station to send its data if the medium is open. If not, the station will be told to wait to transmit until other stations using that medium are finished with it. This prevents two clients from transmitting on the same channel at the same time, which would result in corrupted frames.

With CSMA/CA, two access points on the same channel (in the same vicinity) will get half the capacity of two access points on different channels. This becomes an issue, for example, when someone reading e-mail in a café affects the performance of the access point in a neighboring business. Even though these are completely separate networks, someone sending traffic to the café on Channel 1 can cause data corruption in an enterprise using the same channel. Cisco wireless LAN controllers address this problem and other co-channel interference issues by dynamically allocating access point channel assignments to avoid conflict. Since the Cisco lightweight solution has enterprisewide visibility with its RRM tools, channels are "reused" to avoid wasting scarce RF resources. In other words, Channel 1 will be allocated to a different access point far from the café. This is much more effective than not using Channel 1 altogether, which is what other WLAN systems often do.

Figure 2. Dynamic Channel Assignment

Later in the same document it describes a similar situation as Interference.

"Interference" is defined as any 802.11 traffic that is not part of the Cisco WLAN system, including a rogue access point, a Bluetooth device, or a neighboring WLAN. Cisco lightweight access points are constantly scanning all channels looking for major sources of interference (Figure 3).

If the amount of 802.11 interference a predefined threshold (the default is 10 percent), a trap is sent to the Cisco Wireless Control System (WCS).The Cisco Wireless LAN Controller will attempt to rearrange channel assignments to increase system performance in the presence of the interference.

Figure 3. Dynamic Channel Assignment Reacting to Interference

Again I will refrain from diving too deep on interference sources as Cisco does not even have a way to detect much less respond to such non-803.11 interferers as Cordless phones, baby monitors, wireless cameras, DECT phones and headsets etc.

The Problem:

When you have a large number of APs implemented and you are covering a large area, the Cisco system will adjust to compensate for rogues, neighbors and interferers almost continuously. As you add more and more interferers in and around the WLAN, more and more adjustments must be made to compensate for these. As the compensations take place they run into adjustments coming the other direction from the other side of the building and you get a huge ripple effect that will in some cases cancel out adjustments and in others build up over adjustments. The WLAN starts to behave like a wave phase experiment.

Example:

Let us say that we are in a hospital in San Francisco where the average number of APs per block is around a hundred. The hospital has 20 APs per floor and 10 floors in the main building. That's 200 APs, which is quite a large number. This hospital, since it is in an urban setting has many neighbors, many of whom also have APs.

In a typical situation a neighbor to the hospital puts an AP on Channel 1. The Cisco architecture senses this and adjusts to compensate, moving APs from adjacent channels to ones farther away. At or around the same time but on the other side of the hospital, another neighbor appears but this time the AP is on Channel 11. A similar situation occurs there. At some point the two waves of adjustments meet or cross in the middle. This is made possible because the split MAC architecture of the Cisco UWN has many decisions made in its WLAN controllers. These controllers are distributed and can act semi-independently. By the time the wave reaches the other side of the hospital, the system realizes it is again being interefered and readjusts.

This wave or ripple action, because it moves across floors and up stories may go on forever. As more neighbors or interferers come on line more waves are sent out. The larger the implementation the worse the problem gets. The effect is readily visible and measurable to anyone with a WLAN analyzer. They will see MAC addresses hopping from one channel to the next on a second by second basis. They will also be changing output power continuously so the signal will be rising and falling.

Effects of the "Ripple"

The net effect of this phenomenon is a serious decrease in throughput and a large increase in latency. If you use your WLAN for applications that need low latency or high throughput such as VOIP over a WLAN (known as VoWLAN or VoFi) or you have low power handhelds such as the kind used for barcode scanning, this network is unusable. The VoFi traffic will be filled with jitter and conversations will be choppy at best. The handhelds will never be able to sleep or go to low power as they will always be probing for changes to the environment. If the system had been statically mapped to specific channels that do not change, the WLAN would have had problems, for certain, but these problems would be affecting just the few APs that face the neighbors. Now that all the APs are reconfiguring continuously, the whole WLAN is affected all the time.

WLAN STAs that are associated and attempting to pass data will continuously be probing for new channels and APs to associate with. The amount of roaming will go up dramatically. Roaming takes a few seconds to complete so the problem will be very serious for the end user.

Cisco even mentions this problem in one of their release notes for the CB21AG card found here: HERE

CSCse49324-CB21AG retransmission mechanism has problems with RRM in LWAPP network

A CB21AG client that is operating in an LWAPP infrastructure loses connection for small periods of time. When the AP is performing radio resource management (RRM), the AP goes off channel. During these periods, the AP cannot hear and answer ACK and RTS frames from the client. The client card initiates a scan for another AP, and network traffic for the client is affected.

Workaround: Increase the HwTxRetries value from 4 to 14 (registry entry) so that the client card continues to retry for the 20 to 30 milliseconds that the AP is off channel.

SpectraLink and other VoWLAN vendors specifically warn their customers not to deploy their Cisco UWN architecture with RRM enabled. When a WLAN needs to support voice, the requirements for stability increase dramatically.

Conclusion:

The idea behind automatically adjusting and configuring networks is a good one. Maybe sometime in the near future Cisco will program their controllers to avoid this type of effect but in the meantime, unless you have a pretty small network or are located far from interference sources and neighbors, admins are urged to complete a thorough site survey and statically map all their APs to a channel and resurvey from time to time.

What are some undiscussed issues surrounding San Francisco's Metro WiFi plans?

I am a San Francisco resident and I have been pondering this Google/Earthlink deal for quite awhile. I authored a couple of postings at Glenn Fleischman's WiFiNetNews site and Om Malick's GigaOm and I am just reposting because I feel that I did not get a sufficient answer to them , although there were some interesting comments later. Here are some open questions to the world at large:

How does the SF WLAN look to affect existing WLANs? What about the businesses that are in and around SF that already have WiFi? Is this new network going to stomp all over the existing networks? Causing co-channel and adjacent channel interference? Are employees of these networks going to connect to the free network while still connected to the wired Ethernet cable of their company's network. Possibly opening up a security hole? What if your company has a "No Wireless" policy, will you be able to just sit by a windows and connect to the MetroWLAN to check your stocks, Gmail account etc? What kinds of security/ authentication system (if any) are going to be used in the big Muni wireless deployments like Philadelphia and San Francisco to ensure the privacy of your internet communication.

Many companies have invested a great deal of time and money into putting up wireless networks in their offices. Some financial companies spent up to a million dollars on their WLAN. This new network may cause a whole host of problems for them. Did anyone consult with any of the existing businesses in downtown SF and/or Mountain View as well? [Editorial Note: I later learned there was an open forum and the results were hilarious. I have also learned that the City's Board of Supervisors is less than optimistic about the whole plan, regardless of the PR steamroller that The SF Chronicle has implemented] Should citizens and businesses have a say in how their "airspace" is used?

It sounds honorable and good to provide free WiFi to the community. I live here in SF and nobody asked me nor did they put up a votable resolution, They are just doing it. This was proposed years ago for a fraction of the cost it would take to implement now by the BARWN folks but was dropped. Why?

I still have to pay for Water, Trash, Phone, Streets, Schools etc. Why should I get free WiFi? I would rather get free trash pickup, or lower local taxes. (We liberals love taxes ;-)

If Gavin Newsom, Mayor of our fine city, has so much buy-in, or Mountain View as well, then why are so many of the companies in these areas scared to death that their investment of hundreds of thousands of dollars might just have been for naught. I have personally spoken to several IT people in Mountain View that really do not want Google's WiFi to tempt their users to connect to it instead of the encrypted and authenticated network that is provided for them.

I also have heard that people who are near one of the Metro WLAN APs cannot use their internal WLAN because the free city WLAN is MUCH LOUDER than their own (Caps are intended). So now what do they do? The Tropos APs that are being implemented in Mountain View and are being considered for San Francisco, are 1 watt (4 Watt effective output) transmitters. thats 40x more powerful that a default configured Cisco unit (which comes at 100mw). Additionally, there are only 3 non overlapping channels, so chances are 100% that this network will stomp all over the internal WLANs of Wells Fargo, PG&E, Charles Schwab and whoever else has offices downtown.

Similarly, in SF we already have around 100 APs per block, residentialy. We have been unwired for years. Heck, every coffee shop in town, of which there are legion, has free WiFi. So why do we need all this other WiFi drowning everything else out?

I actually asked a gentleman that works for a Mesh AP firm about this, He said not to worry about it, that the skin of the building would block a majority of the signal. Then after I distracted him with a tangential question I brought him back around with this question, "how do get access to the signal from my house, this is supposed to provide the community with Internet Access. will I be able to hear it from the core of my building?" and he replied, "...of course you will we will be transmitting at 4W (effective). It will be like I was right there in your living room."