Wireless LANs Face Huge Scaling Challenges

BobB writes with this excerpt from NetworkWorld: "Early WLANs focused on growing the number of access points to cover a given area. But today, many wireless administrators are focusing more attention on scaling capacity to address a surge in end users and the multimedia content they consume (this is particularly being seen at universities). Supporting this involves everything from rethinking DNS infrastructure to developing a deeper understanding of what access points can handle. And 802.11n is no silver bullet, warn those building big wireless networks. 'These scaling issues are becoming more and more apparent where lots of folks show up and you need to make things happen,' says the former IT director for a big Ivy League campus."

Re:Hmmm

[Tony+Hoyle]

Technically bits of wire (beyond the first hub anyway) are shared as well.. they just have a much higher bandwidth so you don't notice.

This article could have been written 5 years ago.. don't see what's new - everyone knows wifi doesn't really scale, which is why you keep it to small defined areas like a room per AP (and keep your important infrastructure wired as far as possible). If that's news to an admin then they probably skipped a few classes...

Re:Hmmm

[mikael_j]

I suspect you'd be amazed by the number of supposedly technically proficent individuals who don't understand that with WiFi you have to essentially share bandwidth with every other computer and AP using WiFi nearby.

I used to do first and second line tech support for a line of wireless APs, more than half the calls were from people (who in a lot of cases should've known better) who were pissed at their AP for not letting them connect while there were at least ten other APs nearby...

Unfortunately a lot of people see WiFi as either a necessity or some kind of "solution" to their cable "problem", and lord have mercy on any fool who suggests that they connect their home NAS using a regular wired network and simply hide the cables, no no no, they NEEEEEEEEEEED WiFi for their home NAS.

/Mikael

Re:No

[Stellian]

The solution is "the switch".

In the case of wireless, the role of the switch could be fulfilled by beamforming: a breakthrough that allows the same spectrum to be used by multiple transmitters simultaneously, as long as they are physically separated.
Unfortunately the math there is harry, and one of the upcoming technologies making use of beamforming, namely WiFi has failed to deliver thus far.

Re:So basically

[azgard]

No, I think we are having these issues, because we are going backwards. It's like going from cable TV back to the wireless broadcast. If we were doing that, we would have less TV channels to select from.

Re:Hmmm

[nuintari]

802.11 clients can send and receive pretty much whenever they want to, the access point is expected to work it out, and clients are all expected to behave themselves. 802.11 also makes the assumption that all the clients can see each other, they frequently cannot, which is called the blind neighbor problem. Individual clients will badger the access point like mad, and if they cannot see each other, which is basically how they are supposed to know when to stop transmitting briefly, the AP becomes a single waiter in a huge restaurant, and everyone is ordering at the same time. Stuff gets dropped. The more clients you add, the worse it gets. As the load on an access point increases as a linear function, the performance for each individual station drops exponentially.

The solution is to give the access point all the control over who sends, who receives, and when. Take it one step further, sync all the access point clocks to the same timing system, most non 802.11 alternatives use the GPS timing pulse for this, and now you can reuse frequencies on access points in relatively close proximity.

One of these days, someone is going to realize that 802.11, common as it may be, and as universal as it may be, is not the way to go.

Re:Hmmm

[adolf]

And don't forget microwave ovens. It's likely that everyone reading this has a 2.4GHz radio, of power levels ranging from several hundred Watts to over a kiloWatt, in the form of a small microwave oven in a nearby kitchen. Yeah, sure, it's shielded and lead screened and whatnot. But it doesn't take much leakage to completely trash the signal from a common Linksys WRT54G, which only has a 28milliWatt transmitter.

Further, at these high frequencies, RF can act a little strange -- my own microwave didn't cause any noticeable interference, until I moved to a different house. After the move, with the same microwave, the same access point, the same laptop, and similar SNR, everything ground to a halt whenever the microwave was in use. Both houses have modern wiring and good grounding. The only real difference is that the microwave is now rotated 180 degrees relative to the portions of the house where there is WiFi gear, which seems to indicate that the oven leaks more in some directions than in others. Switching channels seems to have worked around this issue.

For reasons like this, as part of the ongoing remodel and rewire, every room gets at least two Cat5e, at least one RG6, and a polyester pull string to some accessible area. (I'd have run some multimode fiber, but currently don't have anything which needs it, don't have any problems which can be solved with it, and don't have any experience terminating it. The pull string should make it easy to install later if the need ever arises.) The wiring, including coax, terminates at a couple of ICC keystone patch panels in an otherwise-useless alcove next to the basement steps, which is also where the switch, routers, and cable modem live.

Some rooms have more drops than others, like the game room and the library. The office has about a dozen RJ45 jacks, mounted both along the baseboard at regular outlet height and midway on the wall (just above the height of a monitor on a desk) for plugging all manner of things in temporarily for servicing or toying or whatever.

People think I'm nuts, too, but I'll have more bandwidth available to more independent points than any wireless technology will be able to provide for the foreseeable future. I can plug in new gaming systems, or analog/IP telephones, whatever audio or video gear, or about anything else, wherever I want, without worrying about coverage issues, while keeping my WiFi spectrum clean for those tasks that need it, like listening to Pandora way out in the back yard next to the fire ring with an iPod Touch.

Structured cabling isn't a problem which needs solved, but a solution for all manner of things which need connected.