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802.11b and 802.11g in same channel

kfarrington
Level 3
Level 3

Hi All,

Lets say I had an enviroment like this.

I have a coporate access point in channel 11.

Then in close proximity

There is a home network that is in channel 11.

Will my G network slow down to B rates, and if i could not change channel, would I just have to put up with it?

Can I change the Radio policy for the WLAN and nic card both to G only. But would this still make a difference?

Please see attached digram?

Also, If you have a WLAN and you change the radio policy from ALL to G only, what happens exactly? Does the SSID stop be broadcast and stop accpeting traffic in the A band, and what charateristics would be different if you changed it from b/g to G only in the 2.4 band?

Many Thx indeed,

Ken

3 Accepted Solutions

Accepted Solutions

Hi Ken,

You are most welcome my friend! I don't think the non-associated B client should have any effect, have a look at this clip;

When 802.11b clients are **associated to an 802.11g access point, the access point will turn on a protection mechanism called Request to Send/Clear to Send (RTS/CTS). Originally a mechanism for addressing the "hidden node problem" (a condition where two clients can maintain a link to an access point but, due to distance cannot hear each other), RTS/CTS adds a degree of determinism to the otherwise multiple access network. When RTS/CTS is invoked, clients must first request access to the medium from the access point with an RTS message. Until the access point replies to the client with a CTS message, the client will refrain from accessing the medium and transmitting its data packets. When received by clients other than the one that sent the original RTS, the CTS command is interpreted as a "do not send" command, causing them to refrain from accessing the medium. One can see that this mechanism will preclude 802.11b clients from transmitting simultaneously with an 802.11g client, thereby avoiding collisions that decrease throughput due to retries. One can see that this additional RTS/CTS process adds a significant amount of protocol overhead that also results in a decrease in network throughput.

In addition to RTS/CTS, the 802.11g standard adds one other significant requirement to allow for 802.11b compatibility. In the event that a collision occurs due to simultaneous transmissions (the likelihood of which is greatly reduced due to RTS/CTS), client devices "back off" the network for a random period of time before attempting to access the medium again.

Note that the throughput increase for 802.11g when in mixed-mode operation is relatively modest when compared to 802.11b, and is a fraction of the throughput provided by 802.11g when not supporting legacy clients."

It is nicely described in this great doc;

http://www.cisco.com/en/US/products/hw/wireless/ps430/products_white_paper09186a00801d61a3.shtml

Hope this helps a little!

Rob

View solution in original post

Protection will be enabled if:

1) There is a 11b STA associated to an 11g AP

2) An 11g AP on the same channel has protection enabled.

If your 11g (not in g-only mode) AP is on channel 11 AND you have a neighboring AP that is also on channel 11 that AP is either 11b only or is an 11b/g AP with a B client associated AND the two APs can hear each other , then your AP will go into protection mode.

There are two forms of protection RTS/CTS as stated above, or CTS-to-Self. RTS/CTS has more overhead because there is an exchange of two packets RTS and CTS, whereas CTS-to-Self is only one packet. CTS-to-Self is the method most commonly implemented. I do not know of an AP today that ships using RTS/CTS as the default protection mechanism.

A couple of other points:

Protection does not force the AP to 11b rates. It makes the 11g clients send an 11b RTS-to-Self reserving time for transmission of an 11g packet. Assuming no other traffic, with standard 11g you can get a max of 24.5 Mbps. With RTS-to-Self you will get ~16Mbps. With RTS/CTS you will get ~12Mbps.

Setting your AP to 11g-only will probably make things worse. If you AP is only sending at 11g rates the neighboring 11b AP will not be able to see those packets and will transmit at the same time causing collisions. Collisions are much mores costly that the over head of data rate protection.

Protection is enabled and disabled depending on the state of the air. If no 11b clients are associated to an 11g AP protection will not be used. If an 11g client is far enough to use 11b rates, protection will be enabled on the 11g AP because it is using 11b rates.

If you want to do something, the easiest thing to do is to set the APs closest to the neighbor to different channels. The problem is that beacons travel long distances and your neighbors AP is probably seen by many of your APs so trying to channel plan around it may be difficult.

My recommendation is to not worry about it.

View solution in original post

Hi Ken,

Yes, the "Protection Mode" is not segmented by SSID's only by the radio itself, so the "B" client on the Guest SSID will effect the Corporate "G" clients

"When 802.11b clients are **associated to an 802.11g access point, the access point will turn on a protection mechanism called Request to Send/Clear to Send (RTS/CTS)."

Hope this helps!

Rob

View solution in original post

28 Replies 28

Rob Huffman
Hall of Fame
Hall of Fame

Hi Ken,

The Home "B" client won't be associated to your Corporate AP's so they shouldn't have any effect. The bigger problem will be the competing signals on Channel 11 (Channel Overlap). You will need to move the Corporate AP to a non-overlapping Channel preferably 1 or 6.

Hope this helps!

Rob

Hi Rob,

Many thx for the fast reply.

Thats interesting. As I am not really a Radio man, I must have mis-understood.

Say corporate user is associated and working using 802.11g standard. Then the home user is probing the corp network even though he is not associated using the 802.11b standard. Cant this probing and other managment traffic slow down the corp user as he is using G and the home user is using B?

Many thx, and sorry if this does not make sense? :)

Many thx

Ken

Hi Ken,

You are most welcome my friend! I don't think the non-associated B client should have any effect, have a look at this clip;

When 802.11b clients are **associated to an 802.11g access point, the access point will turn on a protection mechanism called Request to Send/Clear to Send (RTS/CTS). Originally a mechanism for addressing the "hidden node problem" (a condition where two clients can maintain a link to an access point but, due to distance cannot hear each other), RTS/CTS adds a degree of determinism to the otherwise multiple access network. When RTS/CTS is invoked, clients must first request access to the medium from the access point with an RTS message. Until the access point replies to the client with a CTS message, the client will refrain from accessing the medium and transmitting its data packets. When received by clients other than the one that sent the original RTS, the CTS command is interpreted as a "do not send" command, causing them to refrain from accessing the medium. One can see that this mechanism will preclude 802.11b clients from transmitting simultaneously with an 802.11g client, thereby avoiding collisions that decrease throughput due to retries. One can see that this additional RTS/CTS process adds a significant amount of protocol overhead that also results in a decrease in network throughput.

In addition to RTS/CTS, the 802.11g standard adds one other significant requirement to allow for 802.11b compatibility. In the event that a collision occurs due to simultaneous transmissions (the likelihood of which is greatly reduced due to RTS/CTS), client devices "back off" the network for a random period of time before attempting to access the medium again.

Note that the throughput increase for 802.11g when in mixed-mode operation is relatively modest when compared to 802.11b, and is a fraction of the throughput provided by 802.11g when not supporting legacy clients."

It is nicely described in this great doc;

http://www.cisco.com/en/US/products/hw/wireless/ps430/products_white_paper09186a00801d61a3.shtml

Hope this helps a little!

Rob

Rob,

Most brilliant.

Many thx mate :))

Ken

Hi Ken,

You are most welcome! Have a great weekend.

Cheers!

Rob

Protection will be enabled if:

1) There is a 11b STA associated to an 11g AP

2) An 11g AP on the same channel has protection enabled.

If your 11g (not in g-only mode) AP is on channel 11 AND you have a neighboring AP that is also on channel 11 that AP is either 11b only or is an 11b/g AP with a B client associated AND the two APs can hear each other , then your AP will go into protection mode.

There are two forms of protection RTS/CTS as stated above, or CTS-to-Self. RTS/CTS has more overhead because there is an exchange of two packets RTS and CTS, whereas CTS-to-Self is only one packet. CTS-to-Self is the method most commonly implemented. I do not know of an AP today that ships using RTS/CTS as the default protection mechanism.

A couple of other points:

Protection does not force the AP to 11b rates. It makes the 11g clients send an 11b RTS-to-Self reserving time for transmission of an 11g packet. Assuming no other traffic, with standard 11g you can get a max of 24.5 Mbps. With RTS-to-Self you will get ~16Mbps. With RTS/CTS you will get ~12Mbps.

Setting your AP to 11g-only will probably make things worse. If you AP is only sending at 11g rates the neighboring 11b AP will not be able to see those packets and will transmit at the same time causing collisions. Collisions are much mores costly that the over head of data rate protection.

Protection is enabled and disabled depending on the state of the air. If no 11b clients are associated to an 11g AP protection will not be used. If an 11g client is far enough to use 11b rates, protection will be enabled on the 11g AP because it is using 11b rates.

If you want to do something, the easiest thing to do is to set the APs closest to the neighbor to different channels. The problem is that beacons travel long distances and your neighbors AP is probably seen by many of your APs so trying to channel plan around it may be difficult.

My recommendation is to not worry about it.

Nice explanation of protection and its impact. I would only add that protection only propgates one hop, so it doesn't go beyond the AP evoked into protection by the home AP.

Believe it or not, its my understanding that controllers implement RTS/CTS, not CTS to Self, and I don't think its modifiable (same with RTS retries).

As I see you work for Vocera, would you happen to know the specific reasons why 4.2.130 is mandated for badge support? Are there specific bugs resolved in this version of code?

Regards,

Bruce Johnson

Bruce,

We are running at 4.2.x code and I only see CTS-Self. The only time I see RTS-CTS is after the AP retries a packet 8 times. It then follows that up with up to 32 RTSs.

-r-

Thanks Robin,

This is good news. I will confirm on our controllers - we're on 4.2.112. Any reason we can't use badges on this code rev?

Regards,

--Bruce

Hi Rob,

Many thx for this. That is most helpful indeed :)

All the best,

Ken

Guys,

Sorry, here is another similar questions then. Before I was taking about a slightly different scenario, but what about this one.

I have my WLCs broadcasting two SSIDs, one for corporate and one for guest access. AP1 is broadcasting both SSIDs (corp one hidden)

The Corporate is running a G only policy

Guest is running B/G

If someone connects to the guest SSID on AP1, using 802.11b and then someone connects to corp SSID on AP1 using 802.11g will the AP1 run in protection mode and thus bring the overall thruput for corp SSID down?

Many thx indeed, for the great help,

Kind regards,

Ken

Hi Ken,

Yes, the "Protection Mode" is not segmented by SSID's only by the radio itself, so the "B" client on the Guest SSID will effect the Corporate "G" clients

"When 802.11b clients are **associated to an 802.11g access point, the access point will turn on a protection mechanism called Request to Send/Clear to Send (RTS/CTS)."

Hope this helps!

Rob

Hi Rob,

That is fanatstic. At least I know what the procedure is now.

Many thx as always,

Ken

Hey Ken,

You are always welcome!

Cheers!

Rob

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