08-20-2020 04:20 AM
I am looking for any pointers to get the absolute maximum performance and smooth roaming on a small network in a setting with low ceilings and thick walls (which I cannot put wiring in to). I have read all the documentation I can find, but hearing from people with on the ground experience would be appreciated.
It is a small unleashed network 2x R710 APs (cabled at 1Gb) and 3xR510 & 1xR610 all meshed to one of the R710s. There are around 35 mobile client and IoT type devices which are reasonably up to date and support either 'n' and 'ac'. The network is static; I rarely add/move APs. I do not need to support old kit.
I am interested in anything to squeeze performance out. I am particularly curious in two main areas, AP placement/orientation and Unleashed settings.
With regard to APs placement the documentation seems a little contradictory. Broadly, there is one AP per room, which have low ceilings and brick walls.
My specific questions are:
1. Does AP orientation (horizontal/vertical) matter as long as the device isn't facing the back of the AP?
2. For meshing, should the fronts of the APs be facing each other or doesn't it matter? Is it just the distance apart that makes the difference assuming that the radiation patterns overlap?
3. Is there any performance difference between the different models of AP with the exception of volume of clients? I have cabled the R710s, assuming they have faster processors, to handle the meshing but I cannot find any information to support that theory. Does it matter? I have spare 510s and can get more 710s if that will make a significant difference.
4. Would getting one or more R750s with WiFi6 make any major difference?
Below are my Unleashed settings. Are they sensible? Optimal?
Are there any other points I should consider to increase performance and deliver smooth handover between APs?If anyone has experience they can share I, and I am sure others, would be very grateful.
08-20-2020 09:17 AM
08-20-2020 09:20 AM
08-20-2020 09:36 AM
08-20-2020 09:45 AM
08-20-2020 09:58 AM