19 megabits on 3G

haligan writes "Bell Labs research arm announced the development of two prototype chips that would allow mobile devices to receive more than 19 megabits of data per second on 3G networks." Power consumption is low enough for cel phone type applications.

real time pr0n

[batboy78]

now I can stream it directly to my 3G phone, while waiting in line at the video store.

*sob*

[Jucius+Maximus]

I can't even get 0.056 Mbit (i.e. 56K) on a COPPER WIRE between myself and the ISP.

Re:*sob*

[NotAnotherReboot]

Actually, you could if your phone company added the extra infrastructure at their end to support DSL. It's not the copper wire that's the real limiting factor, it's the way you're trying to send and receive data over it.

Re:*sob*

[unicron]

I'm starting to think I'm really lucky to be paying 40/month for 3mb down/256k up line.

Re:*sob*

[0x0d0a]

And the fact that you're sending the signal rather further.

Re:*sob*

[pnatural]

US$ 0 / month for 1024x512.

Working for an ISP has it's perks. :)

Wow...

[CySurflex]

Wow I would actually be able to host a web site off my cell phone and be able to handle a slashdotting...

Re:Wow...

see, the funny thing is, there's more than just bandwidth to hosting a website.
i could set up a p60 at work on a university t3, but i don't think it would survive a "slashdotting", since the fucking machine would melt under the load.

idiot.
-4 not fucking funny.

Re:Wow...

[4444444]

not nessacerialy true it all depends on what type of pages your serving and the webserver and ram (sorry i've3 been drinking )

Re:Wow...

[Kallahar]

or, slashdot itself could run on a shoebox full of them :)

Travis

That's great!

All we need now is an infrastructure to take advantage of it!

That'll be what? 10 more years before see anything like it in the U.S.?

Neat

That's more than 6 megabits per G. Incredible!

Wow...but

[piznut]

What could you possibly do on a cell phone that could fully utilize a connection with that sort of bandwidth? Uncompressed video?

This would rock for grabbing huge files for your laptop or iPaq, however.

Re:Wow...but

[Sabalon]

Simple - Kyocera and Nokia wireless routers

Woohoo!

[funar]

Brain tumors at lightning fast speeds!

funar@multiplayergamers.com

laptops

[4444444]

Build this damn chip into laptops and don't charge me an arm and a leg to use it and I'll be the first to buy one

Re:laptops

[batboy78]

It would be nice to have this in a laptop. I was sitting in the Minneapolis airport for a few hours this morning, and I was noticing all the laptops that are in an airport. Now Minneapolis has 802.11b access through most of the terminals, but the cost is 10 dollars for a day. Now if I could pay for 3G access on my monthly phone bill, and be able to use it on my laptop at no extra charge from anywhere in the country.

Hey I can't dream can't I

Re:laptops

[dirkdidit]

On the Minneapolis Wireless Airport network, you get the first day of access free! Everyday after that is $10 tho, but still if you have a long lay over the $10 is more than worth it. I've used the network several times before and the download speeds aren't too slow(usually 125k and up).

Re:laptops

[mrklin]

Laptops? Every machine should have one of these. I want my alarm clock, when it goes off in the morning, to tell my coffee maker to make me an espresso, TV to tune into CNN, my PDA to check my e-mail and read me my appointments, and the closet door to open - all at 19 megabits!

Re:laptops

[isdnip]

>Now if I could pay for 3G access on my monthly phone bill, and be able to use it on my laptop at no extra charge from anywhere in the country.

Yes, you could pay on your phone bill, but the charge on the phone bill would likely be *more* than the extra charge at the airports.

3G bandwidth is not cheap. Figure a good deal is one that charges regular voice-level minutes. VZW, for instance, offers plan that for $30/month. Another plan doesn't cap minutes but bytes instead, for around $100/month.

These developments (3G, BLAST) are a way to widen the firehose, but they don't reduce the price of the Perrier water coming through it.

Spotty 3G

[FosterSJC]

With the piece-meal rolling out of 3G phones and coverage, when can I really expect to take advantage of these data rates? My supposed 3G phone gets a good deal less than 128 kbit/s, not to mention the obscene $/data rates. Speaking of, does this not seem to you like the chicken and the egg: Expensive per kilobyte/megabyte rates for 3G phone data downloads won't change until more people sign up... but more people won't sign up until the service gets cheaper! Grrrr.

Re:Spotty 3G

[dbarclay10]

Speaking of, does this not seem to you like the chicken and the egg: Expensive per kilobyte/megabyte rates for 3G phone data downloads won't change until more people sign up... but more people won't sign up until the service gets cheaper! Grrrr.

You seem to misunderstand. There's not some "magic" number that they need. What they do is saturate that price point. Right now they're charging lots, and obviously few people will sign up. But most of those people will sign up for 4+ year contracts.

Once they've gotten as many people for that price as they're going to get, they'll take the price down a notch. Lather, rinse, repeat.

In case it gets slashdotted

Bell Labs BLAST Off With New 3G Chips
By Ryan Naraine
Lucent's (Quote, Company Info, News) Bell Labs research arm on Thursday announced the development of two prototype chips that would allow mobile devices to receive more than 19 megabits of data per second on 3G (define) networks.

The Murray Hill, N.J.-based telecommunications equipment maker said the new chips are part of its Bell Labs Layered Space-Time (BLAST) wireless technology.

Lucent, which is working to introduce the multiple input/multiple output (MIMO) technology for commercial use, said the BLAST chops conform to industry standards for size and power consumption and passed lab tests to deliver data on 3G networks at higher speeds.

The fastest third generation (3G) network today offers maximum data transfer speeds of about 2.5 Megabits per second (Mbps) but Lucent said tests prove the new chips can allow data delivery at 19.2 Mbps.

Lucent plans to license the chips' designs to mobile handset, PC card and other device makers looking to integrate MIMO into future 3G products. It also plans to deploy the technology on its family of Flexent OneBTS base stations as part of plans to push commercial implementation.

"The two chips have been tested successfully in four-antenna terminal configuration that also uses four transmit antennas at the base station. These chips, one for detecting BLAST signals and the other for decoding them, are small enough and consume so little power that they could be used in cell phones or laptop computers with minimal impact on battery life," Lucent said.

Bell Labs researchers in Australia and New Jersey designed BLAST, which splits a single user's data stream into multiple sub-streams and uses multiple antennas at the terminal and base stations to transmit the wireless signals at ultra-high speeds.

"All the sub-streams are transmitted in the same frequency band, so spectrum is used very efficiently. At the receiver, an array of antennas is again used to pick up the multiple transmitted sub-streams. Using the multiple antenna technique, the rate of transmission is increased roughly in proportion to the number of antennas used to transmit the signal," the company explained.

Do you know what this means?

19MBps is about exactly what you need for HDTV! Now you can watch HD in all its glory on a 2 inch screen =)

Re:Do you know what this means?

[Jacer]

think how much a 2inch screen would cost that supports higher hdtv resolutions, and how crisp and clear it would be, that is, if you can tell whether that's a person or just a blob

Coverage

[michrech]

For the area in which I have decided to make my home, this won't matter for a while. It would be nice to have, however, if there were a plan with a HUGE pool of minutes (or unlimited, even if after a certian time of day). If the technology really works, I won't half to wait for CenturyTel to get off their collective asses and give the town in which I live the DSL that so many of us have expressed an interest in.

*sigh*

RJ45

[user32.ExitWindowsEx]

So does this mean we might see phones with 10BaseT RJ45 jacks in them?

Using up all the channels.

[Zordok]

In the article, it says they use multiple inputs and multiple outputs... IE, they give an example of using 4 transmitters and 4 antennas. They also say the 4 transmissions use the same band (ie, still 3G, but different channels).

What happens to the cell phone networks when every phone starts using 4 channels instead of 1? There's a limited number of channels in each band...

Re:Using up all the channels.

[mcg1969]

Actually, the 4 antennas do use the same channel---the same frequency band. BLAST uses space-time coding techniques to increase the capacity of a single channel. Each antenna transmits a different signal on the same frequency band; the signal processing on the receive end separates them out.

In general it works well, although it's quite nonintuitive for a number of reasons.

For example, you might imagine that you could achieve similar data rates if you just transmitted 4 times the power with a single antenna instead. Unfortunately, due to multipath (reflections off buildings, trees, etc.), the average received power will vary so much that you can't be as aggressive with your data rate. With 4 antennas, the average received power will be much more even; when one antenna isn't coming in too well, the other three are likely not to have the same problem.

Secondly, amplifier costs don't scale linearly with power. So at those power levels, multiple lower-power amps can be significantly cheaper than one higher-power amp. The cost difference can be large enough that it's worth all the extra signal processing.

Finally, FCC rules are often kinder to systems which distribute power across multiple antennas than they are with a single antenna transmitting the same power. I don't know if that's the case with 3G but I can imagine so.

Those of you who study this please forgive the oversimplification.

3G ISPs?

[Q3vi1]

With all this development of 3G networks for phones, when might we see a true wireless internet over this network instead of the breadth of DSL and Cable companies? Surely there cannot be that much of a technology gap between making the 3G network accesible to wireless services, it would be a great last-mile solution in areas that have cellular coverage, but are outside of the range of an operations center.

new unobtrusive way to bootleg concerts!

[Monofilament]

Hey with a phone that has that good data transfer it probably can transfer some high quality realtime audio over the airwaves. So no say I want bootleg a concert (lets say one thats not friendly to bootlegging). They'll check for recording devices but won't think twice about a cell phone. BWAH HAHA thats where you got them.. All you do is have your phone start downloading the audio to your computer's hard drive and voila! sneaky bootlegging.. thats quality recording. Though I guess this might be limited by the quality of the mic on your phone but hey I just come up with these crazy ideas. If you're hardcore enough and a hardware hacker I'm sure you could fix a crappy mic problem pretty easy :)

This is shared

[mountain_penguin]

Acording to the lecture i attended last year by a very sensior vodaphone engineer this bandwidth is the maximum available. It isnt all used for data in fact they reserve a few channels for voice and a few for data (depending on the area past usage etc) also if you are the only user then things get faster still. However it wtill wont be that fast most 3g implementations relie on doing TCP/IP on top of TCP/IP on top of another protocol or 5 yes there are 2 tcp/ip stacks. This is so the phone network can keep you inside there network

Re:This is shared

[MonMotha]

IP itself is a non-reliable protocol. My guess is that they're not actually doign IP on TCP on IP, but rather IP on IP, or IP on on IP. This way, you're only running one TCP and avoid the "meltdown" problem.

People tunnel IP in IP all the time. It can do ugly things to your routing tables (or it can make them neater), but it works just fine as long as you don't try and throw TCP in the middle. I've even tunneled TCP over IP over UDP over IP (IP in a UDP tunnel to a remote host). Again, no problem since there's only one "reliable" protocol in the mix.

If they are indeed doing IP over TCP over IP tunneling (with a TCP on the top for the final layer), then they could very well be in big trouble unless the underlying network (to the endpoint of that bottom tunnel) is reliable, which I don't believe 3G is.

Health issues?

[Ryu2]

A corrolary of Shannon's theorem on channel capacity is that the greater the capacity of the channel, given an amount of noise, the greater power is necessary for it to maintain a given rate of information transmission. In other words, the faster you want to pump the data, the more power needed to transmit.

Therefore, while these chips may need little power to receive, what about transmissions? Would possibly thousands of 19 mbit/s transmissions floating around in the GHz band possibly have an increased detrimental effect on living things? Sure it's small, but would it be a factor at all?

Re:Health issues?

[mellifluous]

You're not stating the theory clearly. If you look at Shannon's theorem, you'll see that capacity increases linearly with bandwidth, and only logarithmically with increased signal to noise ratio (power output). The easiest way to increase capacity is to simply increase bandwidth (as is the case here). There is no need to increase power.

Lets do the maths ...

[grantm]

Ok, 19 megabits per second is a little over 2 megabytes per second.
And your phone company charges you say 1 cent per megabyte (I wish!).
10 minutes (600 seconds) online could cost you $14.00

Cell Phone and bandwidth

[molywi]

Why would anyone need 19megabits to a cell phone? In Slovakia cell phone users can watch live TV streams on their phones using "only" GPRS which is .1 megabit which is the first service of this kind in the world. Check out the URL to a http://media.a3boot.com/ta3/16102002/mobilvizia.as f . I dont see the need for 19 megabits. This cellphone would require an insane amount of storage to make this even remotely useful. -Keep the Trolls out'-

Re:Cell Phone and bandwidth

[Elwood+P+Dowd]

Why the hell do you want a live TV stream on your cell phone? Is that what you thought cell-phone IP was for? My dad can surf the web/check email/etc on his laptop while he's sitting in the middle of san francisco bay because of his cellphone.

It's a regular modem, though. Every little improvement would help. Isn't laptop use the point of mobile internet?

Intranet?

[davisshaver]

How hard/costly/innefficient would it be to build a LAN out of this? If it is higher than 802.11b, wouldnt it be a better network? I am a kid, so just tell me if this was a stupid idea.

Re:Intranet?

[briancnorton]

I'm not going to tell you that you're stupid, just that you misunderstand the technology. 802.11B wireless ethernet is designed for high reliability at high transfer rates over a short distance. The speed isnt really an issue. (hence why 802.11A and g (54 Mbps) have yet to make any kind of showing) The 19Mbps cell phone networking they are speaking of has teh hurdle of distance to overcome, as you may be several miles from a tower, inside a building, in the rain or whatever. To get the range and penetration, a different frequency is used (900MHz I think). At these lower frequencies, only a limited quantity of data can be sent by conventional means. This technology allows simultaneous usage of multiple channels to achieve a higher bandwidth. (somebody correct me if I'm talking out of my ass) In theory, the technology (MIMO) COULD be used for something like WLAN, but there isnt the same need. It takes a LOT to saturate an 802.11B network.

Re:Intranet?

[rotwhylr]

How hard/costly/innefficient would it be to build a LAN out of this? If it is higher than 802.11b, wouldnt it be a better network? I am a kid, so just tell me if this was a stupid idea.

I suppose it could make sense in certain situations. 802.11a can supposedly give up to 72mbps by using the 5ghz spectrum. If you need wireless connectivity beyond 802.11(x) trasmission range, this might work. Mostly, I'd be concerned about latency more than bandwidth. Every noticed a fraction of a second delay while talking on a cell phone? That fraction is an eternity if you are a CPU. Lastly, allow me to kindly tell you to forget the "only a kid/stupid idea" apology stuff. We'd still be in the stone age if it weren't for kids coming up with brilliant ideas. Don't assume an idea is stupid, simply because stale old farts like me have some preconceived notions about how things are supposed to work. Never apologize for thinking.

Is that good or bad?

[phr2]

If the new stuff can only receive at such high speeds while still transmitting at low speeds, it's the old broadcast model again, with "producers" and "consumers" of content just like television. Phones were supposed to be so people could talk to each other, not have everyone receive the same stuff from AOL-TW. A fast one-way data phone is just another way for TV to follow us everywhere we go. From a human communications point of view, a device with 1 megabit send and receive is a heck of a lot more interesting than 8 kbps send, 20 megabits receive.

Re:Is that good or bad?

[Jester99]

Think of modems though. Houses could suck down far faster than they could upload. (Yes, both were meager rates, but nonetheless.)

Nowadays, broadband is becoming more prevalent in the home.

It's easier to receive quickly than to send quickly. This is a neccessary step before next progression -- when you can send fast and receive fast.

er..

[Scooter]

so my 16K SIM will be full in 0.007 seconds!

wow! I must quickly right a report reccomending my employers ditch all those expensive ATM WAN links and use cell phones - we'll have U's of rackage full of them! Hell we'll run the LANs off of them too - bits the crap out of 802.11b !

Wait! whats that strange bleeping sound? oh right - it's my bullshit detector...

cel phone

[Qwerpafw]

"Power Consumption is low enough for cel phone type applications"

Only with CmdrTaco :)

On the other hand, acronymfinder lists CEL as possibly being "civilian employment level." In context, this would mean that business phones (as opposed to super-duper black-ops slashdot-effect proof military phones) would get this nifty tech.

So, while the possibility of this not being a spelling mistake exists, it is just not likely. Of course, I might just be led to believe that by the super-duper black-ops people who want to keep the existence of their phones, and the correspondingly nifty tech, out of public knowledge. In fact, I myself might be paid off by the military chaps. So take this whole post with a grain of salt ;)

charge by the megabyte

[joe_bruin]

so let's see...
if my cellphone provider charges me 1$ per megabyte like they do now for sms, that means (accounting for overhead) that i can accumulate charges of 1.90$ per minute!

i could get cheaper pr0n by calling a 900 number.

Re:charge by the megabyte

[joe_bruin]

er, per SECOND

One way transmission?

[mobileone]

Note that the article only reports the ability to receive at 19 Mb/s. We still need the functionality to actually have a two way connection.

Transmitting at 19 Mb/s is quite a different task. According to Shannon (the mother of information theory) the power level required is proportional to the bitrate. This means that not only will such bitrates kill your battery - it will most likely also kill your brain.

Besides the 19 Mb/s was achieved in a lab environment. Having this technology work with varying radio conditions and handovers in a 200 km/h train is much more difficult.

For the next many years 3G will be a maximum of 144 kb/s when used in vehicles. For low mobility indoor situations 3G will give you much higher bitrates - but then wouldn't you rather be using 802.11a?

Re:One way transmission?

[Animats]

Shannon's analysis applies to a channel. This new approach treats the transmission medium as a spatial field. It sounds bogus, but the organization it comes from has a good reputation.

With single-frequency systems, multipath hurts you. With spread-spectrum systems, multipath doesn't matter much. With this new system, multipath apparently helps you. Amazing that it's workable for a handheld device.

Upsteam bandwidth concerns...

19 megabits is great... until you consider that there are more mobile phones in use in the UK than PC's. The entire network is based on aerial microwave transmitters which would not get anywhere near the bandwidth required to allow multiple users to actually use the full 19 megabits down to the handset. You'd need gigabit backbones etc. etc, which would need to be fibre or copper using current technology.

Back to digging up roads then...

Re:Upsteam bandwidth concerns...

[Reece400]

I'm not sure about other countries,, but i live in Canada, and all the cell towers in my area have fiber connections, and i live in a small 2000 pop. villeage...

Reece,

How about: You're an idiot

Who uses 2.3mb/sec while browsing the internet?
Lets do the math.

320x240 (which is way better resolution than most full color screens) at 24 bit (RGB) is 230400 bytes at 10 f/s uncompressed video thats about 2.3mb/s. If you want to watch full color video at 320x480 on your phone for 10 minuites, then you deserve to pay $14

Total capacity will be low

[dgmartin98]

A couple of points about this technique:

a.) I'd call this a 4G demonstration. Maximum data rates in the 3G specs/proposals (WCDMA, cdma2000, etc...) are much lower than 19 Mbps. e.g. 2-3 Mbps. e.g. By transmitting at 19 Mbps, they're not using WCDMA protocols.

b.) In a multiple Tx configuration, you're increasing the amount of interference. With 4 Tx antennas, the amount of interference seen by other users just went up by a factor of 4. This means your overall capacity just dropped by a factor of 4.

c.) Tranmitting at a higher data rate in WCDMA limits the number of other users you can have on the channel. You can only have a few users in a WCDMA cell transmitting at near maximum data rate.

3G is more than phones.

[BrookHarty]

I keep reading the slashdot comments "What would I do with that on my phone?!".

Really, the early adopters are public safety and large corporations. To them its worth the money to switch over to the 3G networks. The high speed and location based services are a very good combo for public safety.

Some of the things switching over to 3G data, ATMs, Point of Sale (CC readers), Vending machines, remote cameras, road survey equipment, police tracking equipement, cargo containers, etc.

After the early adopters, its consumer time. /me waits for his wireless dsl to put the local telco out of business. :)

Re:"cell" you moron!

[0x0d0a]

English is rather complex.

I rarely see lengthy documents any more without errors.

tcp/ip ack packets

[papasui]

People tend to forget that sending out ACK packets upstream greatly effects the download speed of a connection. Asychronous connections with low upstreams often become saturated and drag down the downstream to unbearable levels.

Whoah - Expensive

[WeaponOfChoice]

In the UK a 'sensible' and 'affordable' pricing scheme sets the price for GPRS data at around 4UKP per Mb. (Cheaper if you buy a lot in advance). Most of the work involved in getting content to the phones is making sure as little data as possible is actually transmitted. This is to both make the access feel faster (works) and reduce the cost to the user (sorta works) or at least make the barefaced robbery a little less obvious.
19Mbit per second seems to me like I'd be sucking down a little over 2Mb/s (2 3/8) for a present cost of about 8UKP/s. Sheesh.

I can live with paying 5p per minute for GSM net access, perhaps with 3G for 20p p/m but it's stacking up to (non-sensationalist) about 400UKP/m. Even if I was willing to pay 40p p/m I am looking to massively debt-ridden companies to drop their data rate by 3 orders of magnitude... (I'm actually looking forwards to the arguments surrounding the relative pricing of data access on the networks...)

I realise the public won't stand for the extremes of pricing you get using that kind of math but I fear the pricing for these services are gonna remain on the high side of acceptable for a long time after they are available...

$1,425 per minute @ current rates

[JoshMKiV]

That would top out at around $1,425 per minute at current Sprint PCS "Vision" business rates...

Sprint Plans

[Froqen]

I went cell phone shopping this weekend and saw that the sprint plans generally included 2 megabytes, and $.02 /KB after that. At this speed you would finish the standard alotment in under a second, and then be paying $2,850 per minute after that.

Looks similar to Download accelerator!

[krazyninja]

The technology looks like: Take a data stream, split it into 4 streams, transmit them in separate channels, detect and re-assemble them in the same order. Isnt this something we already use in our download accelerator products? If not, how is this different?

Bell Labs is not what it used to be

[Animats]

See their web site. It may take a bit of time to figure it out.

no way

[xo0m]

honestly, i don't ever really believe anything unless its backed up by actual real life proof...sure theorhetically it can happen...but whats up with services like sprint pcs vision? i thought it was supposed to be nationwide 3G! at the very least its supposed be be like 56K...but honestly, it seems slower than their older network when i compare my phone browsing (sprint without vision) with my girlfriend's phone (who has vision).

Actually .. no

yeah yeah yeah 19 mbits.

But how much bandwidth is consumed. how many simultaneous users can there be in a given cell?

Um, what?

TCP/IP on top of TCP/IP? Not really. What you'll find is that yes, there are lots of layers involved in your usual cell telecoms network. For (traditional) data, you would likely have:

1) Top layers from the OSI Model
2) TCP/IP
3) Air-Interface (E.g. TDMA, GSM, CDMA)
4) PDH (E.g. a T1 line from the base station controller to the BTS)
5) The data from that PDH link goes into a SONET network (SDH for us Europeans)

Then onto its destination where the reverse happens to a certain degree and we extract the original data.

So you have 5 layers at least, each of which has some overhead (Packet headers, framing, alignment, synchronisation, various network control data overheads).

Depending on what service you're using, your data may be taken out of the coms network at the PDH level and placed onto a seperate data network such as the Internet. However you may then find that the actual network your data is using is running TCP/IP over ATM over SONET anyway, so thats even more layers.

Telecoms networks are complicated things...

i honestly fail to see the point.

[caveat]

i know this has been raised before, but it really is a pretty valid point...really, who needs 19Mbit downloads onto their PHONE? i peak out at about 5 at home, and that's more than enough for everything including video chats. now, what on earth am i going to do with four times the bandwidth onto a device that has maybe 2% of the functionality of my computer?
the only thing i can think of that this would be useful for with our current paradigm of cell phone size and esthetics is video chat, and even then i'd really rather not use the 2" screen of my phone as opposed to the 17" screen of my desktop. maybe if they come out with a palm/phone combo with a reasonably sized screen, and capabilities to use a 19Mbit connection then i might be interested...but until then, i'm perfectly happy with my old-fashioned trimode CDMA phone. hell, i can even get all the data downloads i want (email, news, scores) perfectly well on my phone.

Minor correction...

[Andy+Dodd]

It's "cell phone" not "cel phone"

"cell" is a shortening of "cellular", which itself gets its name from the word "cell" - A cellular network comprises of a number of small cells with low-power base stations used to provide coverage rather than one extremely large high-power base station. (An example of that case - Police/fire/rescue squad VHF/UHF repeaters and amateur radio (ham) repeaters Many such systems operate at 14+ watts/channel as opposed to most CDMA systems operating around 200 mW/channel)

So....

[giminy]

...with faster networking, does that mean we can make a beowulf cluster of these things?

*rimshot*

more on this

[dirvish]

Over at the Register