Ask Slashdot: Can Any Wireless Tech Challenge Fiber To the Home?

New submitter danielmorrison writes: In Holland, MI (birthplace of Slashdot) we're working toward fiber to the home. A handful of people have asked why not go wireless instead? I know my reasons (speed, privacy, and we have an existing fiber loop) but are any wireless technologies good enough that cities should consider them? If so, what technologies and what cities have had success stories?

Short answer?

[Sycraft-fu]

No.

Long answer?

Noooooooooooooooooooooooooooooooooooooooooooooooooooo.

Sorry, but that pesky little Shannon's Law gets in the way. Fibre provides more frequency and better SNR than you'll get in the air, thus more bits. You can't get around physics.

Re:

[kesuki]

http://www6.sfgov.org/index.aspx?page=246 [sfgov.org]
there are other cities with public wifi too, but off hand i recall SF uses 5ghz directional to carry the 2.4ghz hotspot around the city, the internet archive also has input into the building of the network, as they did it with their own 100 mbit link prior to the city doing it. this is all from memory so if i'm wrong i'm wrong.

Re:

[Pikoro]

I've worked with freespace optic systems (lasers) and they work great. We were bridging a gigabit fiber optic link over a bay with it to provide service on the opposite side where no fiber had been run.

Re:

[GuB-42]

Wireless laser connection is actually old news. A friend of mine live in a campus that used a laser over a valley for its internet connection. It was 15 years ago.
Worked well, except in foggy weather.

Re:

[Mr D from 63]

>Sorry, but that pesky little Shannon's Law gets in the way.....

The real question to me is how good can wireless get? Can it be the last mile answer for the masses? Good enough does not have to mean better than fiber.

Re:

[account_deleted]

Comment removed based on user account deletion

Re:

[RabidReindeer]

I cannot say what would happen if 4 different people were streaming videos at the same time, or even what 4K video would do. But Netflix runs very nicely over the Clearwire 4G wireless net for me and I pull a lot of ISOs and stuff without too much pain.

Unfortunately, it's going away in about 2 months.

Re:

[sims 2]

What you need to be asking is; What if they don't deploy wired broadband and just use wireless for every mile?

Would you be happy with a wireless connection for broadband being your only choice?

Because that's exactly what many people are going to get.

More profits that way.

Re:

[Mr D from 63]

What you need to be asking is; What if they don't deploy wired broadband and just use wireless for every mile?

Would you be happy with a wireless connection for broadband being your only choice?

Because that's exactly what many people are going to get.

More profits that way.

There are plenty of people right now who don't have wired. They would certainly be happy with wireless if it were good enough, which was my question.

As for wireless preempting the availability of much better wired connections, its a plausible theory, but I wouldn't bank on it playing out that way.

Depends on desired service.

[allquixotic]

It all depends on how much bandwidth and how much of a data allowance each customer wants/needs.

If they expect to suck down a dedicated 100 Mbps pipe per household 24/7, then no, wireless anything won't do that, even if you expand outside the scope of WiFi to other tech like 4G.

If, on the other hand, either their desired bandwidth, desired data allowance, or both, are sufficiently low, or the population density is sufficiently sparse, or any combination of these factors that turns out to be "enough", then y

Re:

[sims 2]

"If, on the other hand, either their desired bandwidth, desired data allowance, or both, are sufficiently low"

That's part of the problem.

Step 1 make a service that will not handle projected use.

Step 2 oversell service 3000%.

Step 3 implement usage caps to act like you are trying to fix what was broken in the first two steps.

Step 4 PROFIT!!

Several years ago online video services did not exist and you could get by on 20gb/mo if you had to today you have 50gb/mo limits and Youtube/Netflix/Steam in a few years w

Re:

[allquixotic]

I don't disagree with you. I'm one of those people suffering under Verizon's monopolistic thumb, and my only recourse is to hold on to unlimited LTE for dear life. However, this is the reality of our situation. We are powerless -- completely and utterly powerless -- to effect change in any meaningful way on these issues.

BTW, I was promised by a high-level rep at Verizon that I'd be able to get FiOS in "weeks" in 2007. It's been a few hundred weeks, and I'm still waiting.

Re:

[BadDreamer]

100 Mbps is a standard pipe these days. I can get gigabit where I live, if I wanted to pay for it. The cable in the wall can already provide it.

Wireless doesn't stand a chance against fiber.

Re:

[allquixotic]

A standard pipe for *whom*? The few, the lucky, the elite? People living in small countries with a high standard of living and high median income? Here in the US of A, the vast majority of the population can't get access to a 100 Mbps pipe no matter how badly they wanted it, and they can't even afford to move to a place that would offer it.

You are either among the lucky elite in the US, or you're in one of those countries that's actually forward-looking. In backwards countries like the US, we have to actual

Re:

[BadDreamer]

The country next to mine considers broadband a basic human right. Mine doesn't, but pretty much all urban areas have citywide LAN with 100 Mbit or gigabit.

I'm sorry to hear your country is on par with the third world when it comes to broadband, but it has only 5% of the world population. Today 100 Mbps is a standard pipe. I sincerely hope your country catches up to that soon. Perhaps the government needs to step in to make it happen?

Re:

[gumbi west]

I'm going to have to disagree with the comment about rain. I had a wireless ISP with the base station a few miles from my house and there was no density of rain that change the speed at all. This included an ex-hurricane and several rain fall events that caused flooding in lower areas. I do have to admit I was at 4 Mbps.

Re:

[allquixotic]

Depends on exactly which type of "Wireless" you have. Not all bands are created equal. The lower the frequency, the more likely it is to not be disturbed by rain. I've been in a building that was connected to a larger network via 20 GHz, and 80 GHz frequencies are not unheard of. The 20 GHz network was easily interrupted by heavy rain (though not light rain).

Re:

[phantomfive]

Even if you somehow manage to get good bandwidth through air, the latency is still going to be a problem.

Re:

[garyoa1]

Yabutt George Orwell would be proud.

Re:

[Bengie]

The only thing that can remotely attempt to "compete" is Point-To-Point parabolic dishes or some crazy awesome advancement of MIMO.

Re:

[The-Ixian]

Just out of curiosity, would it be possible to do point-to-point laser beams through the air that could get to gigabit speed? Obviously, they would have to be pretty high powered lasers to get any kind of real distance, just curious if it is being done.

Re:

[Sycraft-fu]

Sure, it is done already. Problem is that it is line-of-sight only, easily interrupted by inclement weather, and has worse data rates due to the higher noise level you get as compared to having it in an isolated fibre.

Re:

[ewhenn]

Not only that, but you can also add more fiber as needed without the concern of interference. Wireless is limited in spectrum, physical connections are limited by our ability to produce them, which for all intents and purposes is basically limitless.

Not true.

[Ungrounded Lightning]

There are airborne optical alternatives that can beat the * out of fiber - provided the weather is clear.

Fibre provides more frequency and better SNR than you'll get in the air, thus more bits

But a single fiber provides ONE PATH. Optics can provide MANY paths.

Imagine ten thousand fibers. Now imagine the ends poking out of a billboard in a 100x100 array - behind a 100x100 array of collimating lenses that beams the light toward your house. At your house imagine a telescope imaging that billboard onto a sli

Re:Short answer?

[Firethorn]

Not just that. I could give fiber speed to ONE user in an area by wireless. To 10% of the population, much less 'everybody'? Not happening.

BTW, 'Shannon's Law' got a snerk from me. Another acronym crossover from two different fields.

Data Transmission: Shannon–Hartley theorem [wikipedia.org]
Firearms: Shannon's Law [wikipedia.org], which forbids firing guns into the air in Arizona. You're living in the wrong area if ballistic lead is interfering with your wireless signal on a routine basis. ;)

Re:Short answer?

[i.r.id10t]

I get online via a RFC1149 compliant system, and first phase dove season starts Sept 26 here in Florida. I'm expecting a lot of packet loss. Of course, the packets that do make it through will be traveling extra fast...

Re:Short answer?

[Solandri]

Data Transmission: Shannonâ"Hartley theorem

It's worth noting that current trends in wifi technology are moving in a direction which overcomes Shannon's law. The theorem assumes a shared communications channel. That is, if you transmit your signal at -45 dB, then everyone else using that same channel sees -45 dB of noise (your signal is noise to them).

Beam-forming and MIMO (multipath) techniques subvert this assumption. For a visual analogy, it's why you can see your smartphone display in the sunlight, even though the sun is much, much brighter (its signal strength at optical wavelengths far exceeds your phone display's signal strength). Although the sun is very bright, the light it gives off is highly directional. By using sensors (the lens structure of your eyes) which can "tune in" to light coming from a narrow angle, you can basically filter out all that sunlight noise and pull out a clear signal from the smartphone display.

We're still a long way from this being able to beat out a direct fiber connection. But with phased array antennas (basically what MIMO does except using a lot more transceivers for much finer angular resolution) acting like a "lens" to "focus" radio waves, it's not outlandish to think that in the future all wireless communications could effectively be point-to-point with little to no interference from other wireless sources. Even though everyone is transmitting at the same frequencies, the highly directional nature of the transmissions would mean Shannon's law almost never comes into play, and you get to use all that bandwidth as if you were the only one transmitting on it.

Re:

[Wycliffe]

Not just that. I could give fiber speed to ONE user in an area by wireless. To 10% of the population, much less 'everybody'? Not happening.

The only reason fiber beats out wireless so bad is because fiber is a private point to point while wireless is a shared medium. That doesn't mean that it's impossible for you to get the same performance with wireless. It's just impossible with the way it's currently implemented today. If you can beam a small laser directly thru the air or have highly directional antennas that don't interfere with each other and therefore don't share a medium then there is no reason that you couldn't get similar performan

Re:

[unrtst]

FTFS:

A handful of people have asked why not go wireless instead? I know my reasons (speed, privacy, and we have an existing fiber loop) but are any wireless technologies good enough that cities should consider them?

So yeah, I think there are plenty of justifications that allow wireless to make as much or more sense.
For example, a backhoe could quickly destroy a large area of fibre coverage, where as, depending on how its implemented, a wireless outage would be more like a brown out in a small location.
Wireless (if it's not highly directional at the last hop) would also have a VERY different level of coverage. Slower than fiber, sure... but fiber would only be fast at that single point of termination, and most fo

Re: Short answer?

[Firethorn]

Most FTTH use cases could be replaced with this, although FTTH can roll tomorrow and this is still vaporware - 15 years is a lot of productivity.

But the speed of fiber keeps marching along, even as that of wireless creeps up. You also run into that wireless transmission effectively takes up a lot more 'space' than fiber - so you're always sharing the medium.

You can do a lot with directional antennas, but still not as much isolation as available with fiber. So you have to consider the bandwidth not in isolation, but when all your neighbors want fast wireless internet as well.

Re:

[Electricity Likes Me]

Any wireless improvement is implicitly a wired a improvement.

Wired vs wireless

[Firethorn]

True, in a sense. However, often the wired improvement came first, and is now being applied to wireless, and note that I used the word 'fiber' as opposed to 'wired'. Not all radio techniques apply to optical fiber. Now coax cable, that's where it probably applies.

Here's a question for you to think about

[Sycraft-fu]

Do those same techniques work on frequencies through all different mediums, or do they only work in the air? (this is a rhetorical question by the way).

Whatever you can get in the air, you can get more in a cable or fibre. Sorry, that is just how it is going to be. Find the fastest wireless technology on the market, and then compare it to what you can get over a copper or fibre. Do it at any given point in history, and you see that it is always behind.

There's a reason for that, and I gave the reason.

Re:

[ShanghaiBill]

Whatever you can get in the air, you can get more in a cable or fibre.

Sure, but OTA doesn't have to be as good as fiber. It just has to be "good enough".

I just need enough bandwidth for my wife and daughter to simultaneously watch two different movies, with enough left over for me to get work done. That's all. Anything more is superfluous.

Bandwidth over time

[Firethorn]

However, consider this. When the internet was just getting going, 320 video was enough, normally downloaded overnight/day to watch later.

Then 320 became 480, moved to 640, 720, and 1080.

Today, we're starting on '2k' and '4k' screens. From interlaced 30hz to progressive 120Hz, 3D, etc...

Re:

[multimediavt]

However, consider this. When the internet was just getting going, 320 video was enough, normally downloaded overnight/day to watch later.

Then 320 became 480, moved to 640, 720, and 1080.

Today, we're starting on '2k' and '4k' screens. From interlaced 30hz to progressive 120Hz, 3D, etc...

First of all, 2K is 1080p (1920x1080), and NTSC was 60 Hz interlaced at 29.97 SMPTE drop-frame frames; one odd, one even at 60Hz (our AC power frequency in the U.S.) to get ~30 full frames per second. The 120Hz number you mention is screen refresh rate not content frame rate, either 24 progressive frames per second (most cinematic titles) or 30 progressive frames per second (29.97 SMPTE drop-frame, still) for television.

1080p

[Firethorn]

First: 1080p is NOT included as per wikipedia [wikipedia.org].
Second: I'm not talking about NTSC, but internet video from the bad, bad old days.
Third: Again, we're moving away from NTSC standards, even movie standards. Higher frame rates are possible. [wikipedia.org]

In short: computer video was lousier than your imaginings in the early days. The improvement is ongoing. 120Hz would indeed be 'the future'.

Re:

[rthille]

Starting on? Hell, I've had 4K for my TV for almost a year now and I consider myself a luddite at this point (of course that was an upgrade from a tube tv :-)

Where the hell is my affordable 8K, 40" curved monitor?

Re:

[Firethorn]

Starting on? Hell, I've had 4K for my TV for almost a year now and I consider myself a luddite at this point (of course that was an upgrade from a tube tv :-)

You're bleeding edge dude; the screens haven't yet reached 'significant' market penetration. Media availability is also somewhat limited.

You'll know they're mainstream when walmart starts stocking both the sets and movies for them.

Re:

[KingMotley]

You'll know they're mainstream when walmart starts stocking both the sets and movies for them.

Like: http://www.walmart.com/ip/3966... [walmart.com] for $450 from walmart?

Re:

[silas_moeckel]

Sure wireless can get that for you but not you and all your neighbors. Not with the little old lady down the streets sketchy microwave. Not during nasty weather.

You could have put fiber in the ground in the 70's and still be using it today. You pull one or more strands per and now you can open it up to competition. Fiber lets a heavy user upgrade while grandma is running off some ancient gear that is good enough for a few bucks a month/free. Fiber lets a city empower business to connect to themselves an

Re:

[Dr_Barnowl]

Yes, but that's in the limited domain of "your house". If you live close to several neighbours who also have wifi, you know the annoyance of finding an uncontended channel.

Now imagine that, but a whole block.

Wireless is a commons - and the tragedy of the commons applies. Everyone wants to use it, no one wants to be responsible. The larger domain you have, the more tragic it becomes - hence the inexorable desire for faster and faster cellular network technologies - not so you can stream full HD 3D to every p

Re:

[Holi]

Microwave relay.
https://www.newscientist.com/b... [newscientist.com]

It's not about the medium, it's about the use. Point to point communications can compete with fiber and copper, but once you start broadcasting to multiple users you lose range and bandwidth as broadcast wireless is a shared medium.

Re:

[jwdb]

You're absolutely right that "multiple users" is the issue. You only have to look at DOCSIS, and what happens to that cable-based shared medium when everyone gets home from work and decides to start streaming. This is why ADSL can often offer better practical performance despite having a lower theoretical bandwidth. If you want consistent speed you need a dedicated channel.

Yes, you can achieve this with a microwave link. It's easier to provide the necessary isolation with a bounded cable medium rather than

Re:

[godefroi]

ADSL is no more a "dedicated channel" than DOCSIS. The only difference is where the sharing happens: at the street with DOCSIS, or at the DSLAM with ADSL. Either way, if your provider crammed too many bandwidth-hungry people on the shared infrastructure, it's going to suffer.

Re:

[jwdb]

ADSL, the access technology connecting you to the DSLAM, is a point-to-point link. It is a dedicated channel for the last mile connecting a single subscriber to the provider backbone. DOCSIS, on the other hand, is by definition a shared medium from the moment it exits your modem onto the coax all the way to it's termination point where it connects to the backbone.

Yes, the backbone is shared, but that is entirely beside the point when we're discussing last-mile. Please do try to keep up with the discussion i

Re:

[Wycliffe]

Do those same techniques work on frequencies through all different mediums, or do they only work in the air? (this is a rhetorical question by the way).

Whatever you can get in the air, you can get more in a cable or fibre. Sorry, that is just how it is going to be. Find the fastest wireless technology on the market, and then compare it to what you can get over a copper or fibre. Do it at any given point in history, and you see that it is always behind.

There's a reason for that, and I gave the reason.

I disagree. That's the way it is now but it might not always remain that way. Copper and fiber are both single channel mediums. You might be able to put more than one frequency on them but they are still a single tiny channel. There is nothing that says you can't have 10000 parallel channels running thru the air. A simple (though impractical with today's technology) example would be a 100x100 array of lasers pointing to a 100x100 array of receivers on the other end. The amount of bandwidth in an array

Re:

[StikyPad]

Any modulation that can be used on OTA transmissions can be used in an isolated medium, whether it's fiber, or coaxial cable, or waveguide, or what have you. The question is the medium, not the media, and isolated mediums will always be more efficient. Always.

Moreover, any OTA communication has to be reduced to an isolated medium for processing, so even if, magically, we could get faster speeds through OTA, we'd still be bottlenecked by those pesky endpoints.

Re:

[rthille]

No idea why you were moderated troll. Probably someone doesn't like you.
Just today at work I went to a presentation where there was a lot of talk about Shannon's law. I don't think that the "rotating and polarizing the waves" is quite so rosy as you say. The noise floor is the issue, and we (humans) are pushing up against Shannon's law with 400Gbit. Of course that's on a 75Ghz channel, and there are lots of frequencies of light, but the more you get away from the "right" frequency, the more expensive the

Re:

[elgatozorbas]

There are ways of rotating and polarizing the waves to get thousands of times more information out of every frequency range. Shannon's Law only applies to each specific modulation

There are two polarisations, horizontal and vertical, or RHCP (right hand circularly polarized) and LHCP (left hand...), that are orthogonal, i.e. they do not interfere with each other. So there are no "ways of rotating and polarizing the waves to get thousands of times more information". You may be confusing with MIMO (multiple-input, multiple-output), in which transmitters and receivers have multiple -say N- antennas. The signals from these antennas interfere, but this interference can be untangled, leadi

Re:

[Wycliffe]

And while there may be some band mangling that works with radio signals and not fiber-optics, there are also some that work the other way. Net result, fiber-optics beats radio with any comparable level of technology.

Today, yes, but that doesn't mean that that will always hold. A fiber line is a fraction of an inch which can carry only a single data channel per frequency. I could easily beat that bandwidth with a 12 inch array of lasers doing line of sight communication. This is with today's technology and although not super practical it's pretty easy to see that a 12 inch diameter chunk of air can carry more data than a millimeter wide cable if you can keep interference to a minimum.

Re:

[threephaseboy]

They are doing that to trade off bandwidth for better latency.

Re:

[Megane]

That is a dedicated link to minimize latency by going literally "as the crow flies". They are not trying to do Facebook and Netflix and BitTorrent over that connection. In other words, it's pretty much the exact opposite of you want in a home internet connection.

Re:

[account_deleted]

Comment removed based on user account deletion

I run a WISP. No.

[hawkeyeMI]

Wireless can do as well as fiber, but it's going to cost a LOT more and you'll have trouble scaling it. I run a small rural wireless ISP, and while wireless is cheap and fast to deploy, it's not fiber, and it's never going to be. That said, with a good high point and backhaul, you can start providing speeds up to 40Mbps for less than $5k.

Re:

[hawkeyeMI]

I should have specified, over a range of up to ten miles.

Re:

[BadDreamer]

I have a wire giving me gigabit (if I want to pay for that; right now I settle for 100 Mbit) coming out of the wall. Such a cable goes to every apartment in the whole block.

Can wireless do that? Gigabit with low latency?

Re:

[hawkeyeMI]

I said for under 5k. If you want to spend $$$$ it can do as well as fiber.

Re:

[jabuzz]

No you can't. If you have a single core of single mode fibre between any two points I can right now today go and buy everything from 100Mbps, to 10Gbps Ethernet SFP's that I can stick on either end for any distance up to 80km. That is a really tough call for wireless to match. You are looking at specialist systems for starters. Not something I can order up with a few mouse clicks and a credit card.

However if I have two cores of single mode fibre (and random single mode fibre layed a decade ago will do) I ca

Re:

[hawkeyeMI]

Around here (rural area) 4G is being backhauled more commonly with microwave and even unlicensed links. I have to concede your point that ultimately fiber can always do better, I was thinking more of the 1Gbps FTTH that people typically talk about. For that there's plenty of stuff out there. When you go to licensed microwave links you can do a lot more, but you're talking $10k minimum and easily quite a bit more. That's what I was trying to say.

Re:

[hawkeyeMI]

For example, this will do up to 4Gbps with good latency. http://www.dragonwaveinc.com/p... [dragonwaveinc.com]

Re:

[mirix]

The biggest thing with the fibre (or copper) is if one core/cable isn't enough, you can run another one.

Whereas with wireless, even with directional setups there is only so much bandwidth in the aether. You can't just run another. So it will only ever be good for significantly less BW than physical lines, because it has to be shared.

Only in rural areas.

[sirwired]

In rural areas unlikely to expand, there are high-speed wireless technologies that could be plausibly used. In even suburbs? No. Once you reach a certain level of density, you need to set up so many base stations that you might as well just run cable (not necessarily fiber) to every house and be done with it.

There are alternatives to WiFi

[sirwired]

WiFi is by no means the only wireless communication technology. There are plenty of candidates (with pretty decent bandwidth even) designed to work over long distances.

Only if you want to cook the people in that home.

[QuietLagoon]

Seriously, the power and frequency range needed to do this will have serious warming effects upon water-based tissue.

A more intelligent way to look at it

[foxalopex]

There's a good reason why wired beats wireless. In wireless your common medium is the air which is common to everyone. Basically it's impossible to transmit without causing interference at some level to someone else in the common area unless you're so far away that wireless is pointless. With a wire, it's now possible to have a dedicated wire strictly for just your communication. In practice this costs too much so it is shared somewhat but it's far better than a common medium for everyone.

Reliability

[Macdude]

Ask them how reliable their cell phone connections are and if they would be happy having that level of reliability with their internet connection.

"Can you ping me now?"

Backhaul?

[TheBrez]

Could you do last mile over wireless? Sure.

Now how do you get the signal from those thousands of towers back somewhere to give them network access? The most common way is via copper or fiber cabling. Push enough towers out deep into every neighborhood to have minimal contention, good enough signal strength, and 99.9% coverage over the area (including all those old houses with nice thick walls that KILL signal) and you've probably spent as much or more than hiring a trenching/construction/OSP crew for a

Nothing New Under The Sun, Except This

[synaptic]

Wireless communications may become more interesting in the future thanks to this pioneering research: http://www.nature.com/articles... [nature.com]

See also the theoretical paper: http://journals.aps.org/prl/ab... [aps.org] (http://arxiv.org/pdf/math-ph/0703059.pdf)

It's not clear what the implications are for signal loss or if this is more of an illusion akin to beam steering.

yes, cable beats fiber. More info. Fixed wireless

[raymorris]

Challenge ftth for what, under what requirements? If the measure is market share, cable beats fiber-to-the-home. Quick deployment? Cable internet service can be activated today.

In the city I recently moved from, fixed wireless was an option that made sense for some people. Fixed wireless means there is a stationary antenna on hour house, similar to satellite, but it points at a local tower rather than a satellite, so latency isn't bad. I used a similar setup in another city, where I pointed a canten

s/mobile broadband/mobile wireless/

[raymorris]

I typed that wrong. I meant to say it can be combined with mobile wireless. A phone will get a weak signal from an AP on a telephone pole some distance away. A stationary, directional antenna mounted on a roof and pointed at the pole will get much better signal and speed.

Also I realized there is some justified dislike of certain cable operators here, so I should be clear:
I'm not actually saying that coax cable is "better" than fiber.

I'm saying that more information about the requirements is needed. _IF

Hypothetical with easy answer

[sjbe]

In Holland, MI (birthplace of Slashdot) we're working toward fiber to the home. A handful of people have asked why not go wireless instead?

Because fiber will almost certainly be faster, probably more secure and likely more reliable and less prone to interference. That said, fiber to the home is not and will not be available to most of the country any time soon so it's a hypothetical question anyway. I'm not aware of any near term likely wireless technology that would outperform fiber. Furthermore once the fiber is laid it's relatively future proof for some time to come. Wireless not so much.

I know my reasons (speed, privacy, and we have an existing fiber loop) but are any wireless technologies good enough that cities should consider them?

The answer currently is no. That may change some

Wireless or not, still need a fat pipe...

[__aaclcg7560]

When I briefly worked at Cisco's wireless division a few years ago, I learned that their ideal customer was a hospital. Medical devices on a wireless network requires a higher level of reliability and uptime than the typical corporate or home environment. If Cisco gets wireless right for the hospital environment, they get it right for everyone else.

Although hospitals are willing replace their wireless access points (APs) with newer models every X years, they're reluctant to upgrade the closet switches that connects the APs into the network. The more bandwidth is pushed through the APs, the more bandwidth capacity is needed for the switch. Higher bandwidth switches are much more expensive. That was the problem for the new 1Gb APs in 2013. You can connect 32 1GB APs to a switch, but the fiber link for the average switch maxes out at 10Gb. If bandwidth is constrained in the closet, the benefits to upgrading to high-speed APs will be limited. A big problem for the marketing department to figure out.

If you think a hospital scenario is bad, trying getting local government to pony up a fat pipe for everyone in the neighborhood to have high-speed wireless.

Re:

[msauve]

"Medical devices on a wireless network requires a higher level of reliability and uptime"

If a hospital is putting medical devices which require life critical reliability and uptime on 802.11 wireless, or any other unlicensed band where the legal requirement is that

(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

, they're doing it wrong, and it's not a hospital I'd want to be a patient in

Re:

[jabuzz]

Its more like the doctor at your bed side looking at all your scans and other results and notes on a tablet with a "retina" display and pulling them off the server somewhere in the bowels of the hospital.

Re:

[__aaclcg7560]

Medical devices on a hospital wireless network includes but not limited to mobile workstations, tablets, phones and/or pagers, and RFID tags. I'm not aware of any medical devices being used for patient critical care on the wireless network. But doctors and nurses expect the wireless to be available at all times, especially when pulling up data while talking to a patient.

Re:

[msauve]

Yes. It's a convenience, as in many other enterprises. Hospitals don't require more reliability and uptime for wireless than any other business. It's just marketing which makes it sound that way.

Re:

[__aaclcg7560]

You obviously have never worked in a hospital environment. Doctors and nurses expect to have access to patient data whenever they need it. If the wireless network goes down, they can't do their job and patient lives might be at risk.

Re:

[msauve]

If they're relying on 802.11 for applications which would put a patients life at risk, they're doing it wrong.

Please at least try to be consistent - either it's life critical or it isn't. You're trying to win an argument by arguing both side of the coin.

Re:

[__aaclcg7560]

I'm not the one losing the argument.

Re:

[msauve]

Since you're arguing both sides, you're definitely winning. Enjoy it, it seems you've found the only way you can win.

Re:

[__aaclcg7560]

And now you're sore loser. Have a nice day. :)

Re:

[msauve]

LOL. You don't know what a Pyrrhic victory is, do you? You only won because you also lost by arguing against yourself. Enjoy your self-defeat.

Re:

[__aaclcg7560]

1. You made an incorrect assumption about medical devices, which two other posters and I corrected you on.

2. You made another incorrect assumption that a hospital wireless network is just a convenience and a marketing ploy, which I pointed it wasn't to the doctors and nurses who needed access to patient data.

3. You made yet another incorrect assumption that I'm arguing to win, which I'm not since I'm only correcting your incorrect assumptions.

Key word, "home"

[pla]

You need to quantify what you consider "good enough" in order to answer that.

First, in strict terms of bandwidth, no, today's best wireless just can't compete with today's best fiber. But how about tomorrow? No, tomorrow's best wireless still won't beat tomorrow's best fiber; but, with wireless, when 7G hits the scene everyone goes out and buys a new $50 modem and trucks don't need to physically roll to every end point on the network to upgrade their tubes.

Second, in more relaxed terms of bandwidth, w

Almost everywhere wireless is better than fiber

[netsavior]

At my home currently, there are 6 wireless providers that offer various crappy speeds. There are zero fiber providers. There are 3 copper providers that offer decent speeds.

Therefore in a wireless vs fiber challenge at my home, wireless wins hands down, but copper is better than either.

Wireless electronics is like pipeless plumbing

[MpVpRb]

Yes, it can be made to work, but a pipe is always better

Need more capacity, add more fibers

Once the spectrum is saturated, it's full

Yeah, clever coding and compression can help, but it's still a finite spectrum

Re:

[Crimey McBiggles]

Extending that analogy, I guess that would make wireless a waterfall or aqueduct.

Uncapped 4G is pretty nifty. However...

[tlambert]

Uncapped 4G is pretty nifty. However... I had an uncapped 4G hotspot from one vendor, and it worked pretty great. Then Sprint bought them, and capped it. Then I had uncapped 4G from Clear. Sprint has bought them, and they start capping it, too, as of November 1st. I expect anyone who offers this service can expect to be purchased by Sprint (hey, built in exit strategy for your new startup!) so they can cap it, and charge metered rates for the inevitable overage (particularly now that Windows 10 does pe

NO: see Shannon’s limit ..

[nickweller]

Fundamentally what Shannon developed can be summarized by the following formula: [wordpress.com]

Explanasion

[Comen]

It may help to start by comparing a wired connection to wireless first. The cable that comes to your home uses much the same frequencies that are used all the time over the air, but cable company can use the same frequencies that are used outside the cable inside the cable but lets them use the whole spectrum or at least most of it because you will always have a certain amount of leakage. Even in a new cable system, you will have lose connections that leak RF, the cable company knows this and the put specia

Already the case

[sociocapitalist]

It's called 4G (or whatever G) and it's often already available where the cost of deploying fiber or even copper would be too high for the user density and economic means of the users (i.e. the mountains of Nepal, the plains of Africa, etc.).

It's not faster but it's better than what they would have without it (nothing).

Re:

[hawkeyeMI]

I know a small company in SF using MonkeyBrains, they've been happy with it since they switched.

Re:

[bobbied]

The only answer...

Re:

[MrBingoBoingo]

But each subscriber gets a different "color" or frequency of light on the fiber. Much less crowded that wireless in a populated area.

Re:

[Bengie]

WDM-PON is backwards compatible with GPON. It is the GPON protocol, it just has multiple lambdas of it. Using a GPON ONT, your GPON head port can be WDM-PON, and your ISP just puts a passive filter on your fiber and your GPON ONT thinks it's talking to a normal GPON head unit. The WDM-PON head unit see 32 ONTs talking on different lambdas. 40Gb/s of total bandwidth and dedicated per ONT. Newer ONTs don't need filters.

NG-PON2 is a different beast.current up to 8 lambdas of 10Gb using a hybrid TDMA/WDM setu

Re:

[Bengie]

But PON can still have guarantees about latency and bandwidth. GPON can be configured to make sure all customers will never have more than 0.5ms of latency at the cost of total bandwidth efficiency. 0.5ms is something like 90% of total bandwidth, but 2ms is like 99%. So everyone gets 0 packet loss and 2ms latency even when the fiber is fully saturated. Bandwidth is configured by setting minimums and GPON will guarantee that an endpoint never gets less than that amount of bandwidth.

Even if GPON is shared,

Re:

[Dr_Barnowl]

This has been speculated as a possible mechanism, although in the depiction I've read, the entanglement collapses for each bit as it's set, so it's a consumable resource... and you can't send the entangled bits via FTL transit because it breaks the relationship. Brings a new meaning to expensive data plans when all your data has to be physically shipped from it's point of manufacture across multiple light years at sublight speeds...

Re:

[SuricouRaven]

You can't send classical information via entanglement. The entanglement does indeed collapse for each bit - but before the bit is transmitted.

Think of it like this: You can take your entangled particle pair, split it up, and send one halfway across the universe. Now you and your remote counterpart poke your magic science instruments your particles, and extract information: A long string of bits, which you can be sure is identical to both ends. But you can't determine what those bits shall be - they will be

Re:

[bobbied]

Sure, if they are streaming the same event you use "broadcast" or "MultiCast" addresses and you transmit it once to everybody.... But that's not the same as having 50gbps pipe to everybody at the same time.