Five Things to Consider When Building a Commercial Wireless Network

July 10, 2013 — netequalizer

By Art Reisman, CTO, APconnections,  www.netequalizer.com

with help from Sam Beskur, CTO Global Gossip North America, http://hsia.globalgossip.com/

Over the past several years we have provided our Bandwidth Controllers as a key component in many wireless networks.  Along the way we have seen many successes, and some not so successful deployments.  What follows are some key learnings  from our experiences with wireless deployment,

1) Commercial Grade Access Points versus Consumer Grade

Commercial grade access points use intelligent collision avoidance in densely packed areas. Basically, what this means is that they make sure that a user with access to multiple access points is only being serviced by one AP at a time. Without this intelligence, you get signal interference and confusion. An analogy would be if  you asked a sales rep for help in a store, and two sales reps start talking back to you at the same time; it would be confusing as to which one to listen to. Commercial grade access points follow a courtesy protocol, so you do not get two responses, or possibly even 3, in a densely packed network.

Consumer grade access points are meant to service a single household.  If there are two in close proximity to each other, they do not communicate. The end result is interference during busy times, as they will both respond at the same time to the same user without any awareness.  Due to this, users will have trouble staying connected. Sometimes the performance problems show up long after the installation. When pricing out a solution for a building or hotel be sure and ask the contractor if they are bidding in commercial grade (intelligent) access points.

2) Antenna Quality

There are a limited number of frequencies (channels) open to public WiFi.  If you can make sure the transmission is broadcast in a limited direction, this allows for more simultaneous conversations, and thus better quality.  Higher quality access points can actually figure out the direction of the users connected to them, such that, when they broadcast they cancel out the signal going out in directions not intended for the end-user.  In tight spaces with multiple access points, signal canceling antennas will greatly improve service for all users.

3) Installation Sophistication and Site Surveys

When installing a wireless network, there are many things a good installer must account for. For example,  the attenuation between access points.  In a perfect world  you want your access points to be far enough apart so they are not getting blasted by their neighbor’s signal. It is okay to hear your neighbor in the background a little bit, you must have some overlap otherwise you would have gaps in coverage,  but you do not want them competing with high energy signals close together.   If you were installing your network in a giant farm field with no objects in between access points, you could just set them up in a grid with the prescribed distance between nodes. In the real world you have walls, trees, windows, and all sorts of objects in and around buildings. A good installer will actually go out and measure the signal loss from these objects in order to place the correct number of access points. This is not a trivial task, but without an extensive site survey the resultant network will have quality problems.

4) Know What is Possible

Despite all the advances in wireless networks, they still have density limitations. I am not quite sure how to quantify this statement other than to say that wireless does not do well in an extremely crowded space (stadium, concert venue, etc.) with many devices all trying to get access at the same time. It is a big jump from designing coverage for a hotel with 1,000 guests spread out over the hotel grounds, to a packed stadium of people sitting shoulder to shoulder. The other compounding issue with density is that it is almost impossible to simulate before building out the network and going live.  I did find a reference to a company that claims to have done a successful build out in Gillette Stadium, home of the New England Patriots.  It might be worth looking into this further for other large venues.

5) Old Devices

Old 802.11b devices on your network will actually cause your access points to back off to slower speeds. Most exclusively-b devices were discontinued in the mid 2000’s, but they are still around. The best practice here is to just block these devices, as they are rare and not worth bringing the speed of your overall network down.

We hope these five (5) practical tips help you to build out a solid commercial wireless network. If you have questions, feel free to contact APconnections or Global Gossip to discuss.

Related Article:  Wireless Site Survey With Free tools

Posted in Business Advice, Network Capacity, Wireless Internet. Tags: . 1 Comment »

How Many Users Can Your High Density Wireless Network Support? Find Out Before you Deploy.

April 29, 2013 — netequalizer

By

Art Reisman

CTO http://www.netequalizer.com

Recently I wrote an article on how tough it has become to deploy wireless technology in high density areas.  It is difficult to predict final densities until fully deployed, and often this leads to missed performance expectations.

In a strange coincidence, while checking  in with my friends over at Candela Technologies last Friday , I was not  surprised to learn that their latest offering ,the Wiser-50 Mobile Wireless Network Emulator,  is taking the industry by storm.  

So how does their wireless emulator work and why would you need one ?

The Wiser-50  allows you to take your chosen access points, load them up with realistic  signals from a densely packed area of users, and play out different load scenarios without actually building out the network . The ability to this type of emulation  allows you to make adjustments to your design on paper without the costly trial and error of field trials.  You will be able to  see how your access points will behave under load  before you deploy them.  You can then make some reasonable assumptions on how densely to place your access points,  and more importantly get an idea on the upper bounds of your final network.

With IT deployments  scaling up into new territories of  densities, an investment in a wireless emulation tool will pay for itself many times over.  Especially when bidding on a project. The ability to justify how you have sized a quality solution over an ad-hock random solution, will allow your customer to make informed decisions on the trade -offs in wireless investment.

The technical capabilities of Wiser-50 are listed below.   If you are not familiar with all the terms involved with wireless testing I would suggest a call to Candelatech network engineers, they have years of experience helping all levels of customers and are extremely patient and easy to work with.

Scenario Definition Tool/Visualization

  • Complete Scenario Definition to add nodes, create mobility vectors and traffic profiles for run-time executable emulation.
  • Runtime GUI visualization with mobility and different link and traffic conditions.
  • Automatic Traffic generation & execution through the GUI.
  • Drag-and-drop capability for re-positioning of nodes.
  • Scenario consistency checks (against node capabilities and physical limitations such as speed of vehicle).
  • Mock-up run of the defined scenario (i.e., run that does not involve the emulator core to look at the scenario)
  • Manipulation of groups of nodes (positioning, movement as a group)
  • Capture and replay log files via GUI.
  • Support for 5/6 pre-defined scenarios.

RF Module

  • Support for TIREM, exponent-based, shadowing, fading, rain models (not included in base package.)
  • Support for adaptive modulation/coding for BER targets for ground-ground links.
  • Support for ground-to-ground & satellite waveforms
  • Support for MA TDMA (variants for ground-ground, ground-air & satellite links).
  • Support for minimal CSMA/CA functionality.
  • Support to add effects of selective ARQ & re-transmissions for the TDMA MAC.

Image

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Posted in Bandwidth Monitoring, Topics, Wireless Internet. Tags: , , , , . Leave a Comment »

NetEqualizer News: April 2013

April 18, 2013 — netequalizer

April 2013

Greetings!

Enjoy another issue of NetEqualizer News! This month, we discuss our new 7.0 Software Update, announce our FlyAway Contest winner, and preview our new “Equalizing Explained” video. As always, feel free to pass this along to others who might be interested in NetEqualizer News.
A message from Art…
Art Reisman, CTO – APconnections

art_smallSpring has sprung! As I write this today, it is raining in Colorado, which is great for my garden. Grass is greening up here, and soon everything will be budding out or in bloom. Just like our spring release, Software Update 7.0, which is now ready! We talk more about the release, and how to get it, in this month’s newsletter.

And with April Fool’s Day just past, I got a little creative and updated a Beatles song with a NetEqualizer spin. Check it out below. It is featured as our “Poem Of The Month”.

We love it when we hear back from you – so if you have a story you would like to share with us of how we have helped you, let us know. Email me directly at art@apconnections.net. I would love to hear from you!

7.0 Software Update: NDI and 64-Bit Release

We recently released our latest NetEqualizer Software Update, further improving our existing technology. The update from 6.0b to 7.0 has the following enhancements:

NetEqualizer Directory Integration (NDI) 

Level 1
Level 1 of NDI is now GA. This version allows you to view directory user names in the Active Connections table so that you can associate each connection with a particular user.

ad

Level 2
Level 2 of NDI is now in beta testing. This version allows you to view directory user names in quotas and set quota restrictions for users based on directory user name.

quotas

NDI requires a one-time setup fee of $1,000. This includes activation and setup of the NetEqualizer to prepare for incoming directory results via our API. Because each directory implementation varies drastically, gathering the required information on the directory side will require some development work.

64-Bit Processing

As part of our commitment to keeping our product supported on the latest hardware, we have upgraded our Linux kernel and re-certified the NetEqualizer software.

This kernel upgrade was also undertaken to take advantage of 64-bit processing. This will position us to offer enhanced capabilities to our core equalizing platform, without sacrificing speed and response times.

In previous releases, as we moved to multi-core hardware, we have split out key processes across cores, so that equalizing does not have to compete with other processing. With this 64-bit processing release, we will see increased speed for all processes across all cores.

Remember, Software Updates are available for free to customers with valid NetEqualizer Software & Support (NSS) – the NDI setup, however, has an initial fee.

At this time, most customers likely DO NOT need to update to 7.0 unless you are interested in NDI and/or are a NE4000-10G customer who needs faster performance.

For more notes on this Software Update, check out our release notes.

If you are not current with NSS, contact us today!

sales@apconnections.net

-or-

toll-free U.S. (888-287-2492),

worldwide (303) 997-1300 x. 103

New NetEqualizer Demo Video

Our previous “Equalizing Explained” video was great, but we felt it was necessary to create a new video that only focused on Equalizing and was short and to the point.

So, here it is on our YouTube channel.

equalizing

Even if you have already seen our old video, go ahead and take a look! It never hurts to have a quick refresher!

We will continue to develop and enhance this video over time – please feel free to send us your thoughts!

And the FlyAway Contest Winner Is…

Every few months, we have a drawing to give  away two round-trip domestic airline tickets from Frontier Airlines to one lucky person who’s recently tried out our online NetEqualizer demo.40

The time has come to announce this round’s winner.

And the winner is…

Michael Bamsey of Santel Communications.

Congratulations, Michael!

Please contact us within 30 days (by May 9, 2013) at:

admin@apconnections.net
-or-
303-997-1300

to claim your prize!

Best Of The Blog

The Wireless Density Problem

By Art Reisman – CTO – APconnections

Recently, we have been involved in several projects where an IT consulting company has attempted to bring public wireless service into a high density arena. So far, the jury is out on how effective these service offerings have fared.

The motivation for such a project is driven by several factors.

1) Most standard cellular 4G data coverage is generally not adequate to handle 20,000 people with iPhones in a packed arena. I am sure the larger carriers are also feverishly working on a solution, but I have no inside information as to their approach nor chance of success.

Note: I’d be interested to learn about any arenas with great coverage…
Poem Of The Month

To the tune of “Imagine” – by John Lennon

Imagine there’s no congestion
It’s easy if you try
No hidden fees surprise us
Above us high speed guy
Imagine all providers, giving bandwidth away

Imagine there’s no quotas
It isn’t hard to use
No killer apps that die for
A lack of bandwidth too

Imagine all the gamers living Layer-7 free
You may say, I’m a streamer
But I’m just gonna download one
I hope some day you’ll join us
And your speed concerns will be done
Posted in Newsletters. Tags: , , . Leave a Comment »

Wireless is Nice, but Wired Networks are Here to Stay

December 24, 2012 — netequalizer

By Art Reisman, CTO, www.netequalizer.com

Art Reisman CTO www.netequalizer.com

The trend to go all wireless in high density housing was seemingly a slam dunk just a few years ago. The driving forces behind the exclusive deployment of wireless over wired access was two fold.

  • Wireless cost savings. It is much less expensive to strafe a building with a mesh network  rather than to pay a contractor to insert RJ45 cable throughout the building.
  • People expect wireless. Nobody plugs a computer into the wall anymore – or do they?

Something happened on the way to wireless Shangri-La. The physical limitations of wireless, combined with the appetite for ever increasing video, have caused some high density housing operators to rethink their positions.

In a recent discussion with several IT administrators representing large residential housing units, the topic turned to whether or not the wave of the future would continue to include wired Internet connections. I was surprised to learn that the consensus was that wired connections were not going away anytime soon.

To quote one attendee…

“Our parent company tried cutting costs by going all wireless in one of our new builds. The wireless access in buildings just can’t come close to achieving the speeds we can get in the wired buildings. When push comes to shove, our tenants still need to plug into the RJ45 connector in the wall socket. We have plenty of bandwidth at the core , but the wireless just does can’t compete with the expectations we have attained with our wired connections.”

I found this statement on a Resnet Mailing list from Brown University.

“Greetings,

     I just wanted to weigh-in on this idea. I know that a lot of folks seem to be of the impression that ‘wireless is all we need’, but I regularly have to connect physically to get reasonable latency and throughput. From a bandwidth perspective, switching to wireless-only is basically the same as replacing switches with half-duplex hubs.
     Sure, wireless is convenient, and it’s great for casual email/browsing/remote access users (including, unfortunately, the managers who tend to make these decisions). Those of us who need to move chunks of data around or who rely on low-latency responsiveness find themselves marginalized in wireless-only settings. For instance: RDP, SSH, and X11 over even moderately busy wireless connections are often barely usable, and waiting an hour for a 600MB Debian ISO seems very… 1997.”

Despite the tremendous economic pressure to build ever faster wireless networks, the physics of transmitting signals through the air will ultimately limit the speed of wireless connections far below of what can be attained by wired connections. I always knew this, but was not sure how long it would take reality to catch up with hype.

Why is wireless inferior to wired connections when it comes to throughput?

In the real world of wireless, the factors that limit speed include

  1. The maximum amount of data that can be transmitted on a wireless channel is less than wired. A rule of thumb for transmitting digital data over the airwaves is that you can only send bits of  data at 1/2 the frequency. For example, 800 megahertz ( a common wireless carrier frequency) has  800 million cycles per second and 1/2 of that is 400 million cycles per second. This translates to a theoretical maximum data rate of 400 megabits. Realistically though, with imperfect signals (noise) and other environmental factors, 1/10 of the original frequency is more likely the upper limit. This gives us a maximum carrying capacity per channel of 80 megabits on our 800 megahertz channel. For contrast, the upper limit of a single fiber cable is around 10 gigabits, and higher speeds are attained by laying cables in parallel, bonding multiple wires together in one cable, and on major back bones, providers can transmit multiple frequencies of light down the same fiber achieving speeds of 100 gigabits on a single fiber! In fairness, wireless signals can also use multiple frequencies for multiple carrier signals, but the difference is you cannot have them in close proximity to each other.
  2. The number of users sharing the channel is another limiting factor. Unlike a single wired connection, wireless users in densely populated areas must share a frequency, you cannot pick out a user in the crowd and dedicate the channel for a single person.  This means, unlike the dedicated wire going straight from your Internet provider to your home or office, you must wait your turn to talk on the frequency when there are other users in your vicinity. So if we take our 80 megabits of effective channel bandwidth on our 800 megahertz frequency, and add in 20 users, we are no down to 4 megabits per user.
  3. The efficiency of the channel. When multiple people are sharing a channel, the efficiency of how they use the channel drops. Think of traffic at a 4-way stop. There is quite a bit of wasted time while drivers try to figure out whose turn it is to go, not to mention they take a while to clear the intersection. Same goes for wireless users sharing techniques there is always overhead in context switching between users. Thus we can take our 20 user scenario down to an effective data rate of 2 megabits
  4. Noise.  There is noise and then there is NOISE. Although we accounted for average noise in our original assumptions, in reality there will always be segments of the network that experience higher noise levels than average. When NOISE spikes there is further degradation of the network, and sometimes a user cannot communicate at all with an AP. NOISE is a maddening and unquantifiable variable. Our assumptions above were based on the degradation from “average noise levels”, it is not unheard of for an AP to drop its effective transmit rate by 4 or 5 times to account for noise, and thus an effective data rate for all users on that segment from our original example drops down to 500kbs, just barely enough bandwidth to watch a bad video.

Long live wired connections!

Posted in Network Capacity, Wireless Internet. Tags: , , , . 2 Comments »

Finally a Bandwidth Control appliance for under $1500

April 9, 2009 — netequalizer

Lafayette Colorado April 9th 2009

APconnections today Announced a small business bandwidth control device that  lists at $1499. (for single unit orders)

This new offer  handles up to 10 megabits and 100 users with room to spare for some expansion. It comes complete with all the standard features of the NetEqualizer, but in a smaller  low power format  with Power over Ethernet.

Demand for this new offer came from two sources

1) There was huge demand for an affordable traffic shaping device to  help small business run their VOIP concurrent with their data traffic over their internet link.

2) There was also a need  for a low end unit, with POE,  for the WISP market .

In  a large wireless network, congestion often occurs at tower locations.  With a low cost POE version of the NetEqualizer,  wireless providers can  now afford to have advanced bandwidth control at or near their Access distribution points.

According to Joe DeSopo from NetEqualizer, “About half of wireless network slowness comes from p2p (bittorrent)  and video users overloading the access points. We have had great success with our  NE2000 series  but the price point of $2500 was a bit too high to duplicate all over the network.”

For a small or medium sized office with a hosted VOIP PBX solution the NetEqualizer works like a genie in a bottle. It is one of the few products on the market that can provide QOS for voip over an Internet link. And now, with volume pricing approaching $1000,  it will help revolutions the way offices use their Internet connection.

The NetEqualizer is a plug-and-play bandwidth control and WAN/Internet optimization appliance that is flexible and scalable. When the network is congested, NetEqualizer’s unique “behavior shaping” technology gives priority to latency-sensitive applications, such as VoIP and email. It does it all dynamically and automatically, improving on other available bandwidth shaping technology. It controls network flow for the best WAN optimization.

APconnections is a privately held company founded in 2003 and is based in Lafayette, Colorado.

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