[Bloat] [Starlink] [Cake] [Make-wifi-fast] [Cerowrt-devel] Due Aug 2: Internet Quality workshop CFP for the internet architecture board
Bob McMahon
bob.mcmahon at broadcom.com
Tue Aug 10 13:06:47 EDT 2021
The slides show that for WiFi every transmission produces a complex
frequency response, aka the h-matrix. This is valid for that one
transmission only. The slides show an amplitude plot for a 3 radio device
hence the 9 elements per the h-matrix. It's assumed that the WiFi STA/AP is
stationary such that doppler effects aren't a consideration. WiFi isn't a
car trying to connect to a cell tower. The plot doesn't show the phase
effects but they are included as the output of the channel estimate is a
complex frequency response. Each RX produces the h-matrix ahead of the MAC.
These may not be symmetric in the real world but that's ok as
transmission and reception is one way only, i.e. the treating them as
repcripocol and the matrix as hollows symmetric isn't going to be a "test
blocker" as the goal is to be able to use software and programmable devices
to change them in near real time. The current approach used by many using
butler matrices to produce off-diagonal effects is woefully inadequate.
And we're paying about $2.5K per each butler.
Bob
On Tue, Aug 10, 2021 at 9:13 AM Dick Roy <dickroy at alum.mit.edu> wrote:
> Well, I hesitate to drag this out, however Maxwell's equations and the
> invariance of the laws of physics ensure that all path loss matrices are
> reciprocal. What that means is that at any for any given set of fixed
> boundary conditions (nothing moving/changing!), the propagation loss
> between
> any two points in the domain is the same in both directions. The
> "multipathing" in one direction is the same in the other because the
> two-parameter (angle1,angle2) scattering cross sections of all objects
> (remember they are fixed here) are independent of the ordering of the
> angles.
>
> Very importantly, path loss is NOT the same as the link loss (aka link
> budget) which involves tx power and rx noise figure (and in the case of
> smart antennas, there is a link per spatial stream and how those links are
> managed/controlled really matters, but let's just keep it simple for this
> discussion) and these generally are different on both ends of a link for a
> variety of reasons. The other very important issue is that of the
> ""measurement plane", or "where tx power and rx noise figure are being
> measured/referenced to and how well the interface at that plane is
> "matched". We generally assume that the matching is perfect, however it
> never is. All of these effects contribute to the link loss which determines
> the strength of the signal coming out of the receiver (not the receive
> antenna, the receiver) for a given signal strength coming out of the
> transmitter (not the transmit antenna, the tx output port).
>
> In the real world, things change. Sources and sinks move as do many of the
> objects around them. This creates a time-varying RF environment, and now
> the path loss matrix is a function of time and a few others things, so it
> matters WHEN something is transmitted, and WHEN it is received, and the two
> WHEN's are generally separated by "the speed of light" which is a ft/ns
> roughly. As important is the fact that it's no longer really a path loss
> matrix containing a single scalar because among other things, the time
> varying environment induces change in the transmitted waveform on its way
> to
> the receiver most commonly referred to as the Doppler effect which means
> there is a frequency translation/shift for each (multi-)path of which there
> are in general an uncountably infinite number because this is a continuous
> world in which we live (the space quantization experiment being conducted
> in
> the central US aside:^)). As a consequence of these physical laws, the
> entries in the path loss matrix become complex functions of a number of
> variables including time. These functions are quite often characterized in
> terms of Doppler and delay-spread, terms used to describe in just a few
> parameters the amount of "distortion" a complex function causes.
>
> Hope this helps ... probably a bit more than you really wanted to know as
> queuing theorists, but ...
>
> -----Original Message-----
> From: Starlink [mailto:starlink-bounces at lists.bufferbloat.net] On Behalf
> Of
> Rodney W. Grimes
> Sent: Tuesday, August 10, 2021 7:10 AM
> To: Bob McMahon
> Cc: Cake List; Make-Wifi-fast; starlink at lists.bufferbloat.net;
> codel at lists.bufferbloat.net; cerowrt-devel; bloat
> Subject: Re: [Starlink] [Cake] [Make-wifi-fast] [Cerowrt-devel] Due Aug 2:
> Internet Quality workshop CFP for the internet architecture board
>
> > The distance matrix defines signal attenuations/loss between pairs. It's
> > straightforward to create a distance matrix that has hidden nodes because
> > all "signal loss" between pairs is defined. Let's say a 120dB
> attenuation
> > path will cause a node to be hidden as an example.
> >
> > A B C D
> > A - 35 120 65
> > B - 65 65
> > C - 65
> > D -
> >
> > So in the above, AC are hidden from each other but nobody else is. It
> does
> > assume symmetry between pairs but that's typically true.
>
> That is not correct, symmetry in the RF world, especially wifi, is rare
> due to topology issues. A high transmitter, A, and a low receiver, B,
> has a good path A - > B, but a very weak path B -> A. Multipathing
> is another major issue that causes assymtry.
>
> >
> > The RF device takes these distance matrices as settings and calculates
> the
> > five branch tree values (as demonstrated in the video). There are
> > limitations to solutions though but I've found those not to be an issue
> to
> > date. I've been able to produce hidden nodes quite readily. Add the phase
> > shifters and spatial stream powers can also be affected, but this isn't
> > shown in this simple example.
> >
> > Bob
> >
> > On Mon, Aug 2, 2021 at 8:12 PM David Lang <david at lang.hm> wrote:
> >
> > > I guess it depends on what you are intending to test. If you are not
> going
> > > to
> > > tinker with any of the over-the-air settings (including the number of
> > > packets
> > > transmitted in one aggregate), the details of what happen over the air
> > > don't
> > > matter much.
> > >
> > > But if you are going to be doing any tinkering with what is getting
> sent,
> > > and
> > > you ignore the hidden transmitter type problems, you will create a
> > > solution that
> > > seems to work really well in the lab and falls on it's face out in the
> > > wild
> > > where spectrum overload and hidden transmitters are the norm (at least
> in
> > > urban
> > > areas), not rare corner cases.
> > >
> > > you don't need to include them in every test, but you need to have a
> way
> > > to
> > > configure your lab to include them before you consider any
> > > settings/algorithm
> > > ready to try in the wild.
> > >
> > > David Lang
> > >
> > > On Mon, 2 Aug 2021, Bob McMahon wrote:
> > >
> > > > We find four nodes, a primary BSS and an adjunct one quite good for
> lots
> > > of
> > > > testing. The six nodes allows for a primary BSS and two adjacent
> ones.
> > > We
> > > > want to minimize complexity to necessary and sufficient.
> > > >
> > > > The challenge we find is having variability (e.g. montecarlos) that's
> > > > reproducible and has relevant information. Basically, the distance
> > > matrices
> > > > have h-matrices as their elements. Our chips can provide these
> > > h-matrices.
> > > >
> > > > The parts for solid state programmable attenuators and phase shifters
> > > > aren't very expensive. A device that supports a five branch tree and
> 2x2
> > > > MIMO seems a very good starting point.
> > > >
> > > > Bob
> > > >
> > > > On Mon, Aug 2, 2021 at 4:55 PM Ben Greear <greearb at candelatech.com>
> > > wrote:
> > > >
> > > >> On 8/2/21 4:16 PM, David Lang wrote:
> > > >>> If you are going to setup a test environment for wifi, you need to
> > > >> include the ability to make a fe cases that only happen with RF, not
> > > with
> > > >> wired networks and
> > > >>> are commonly overlooked
> > > >>>
> > > >>> 1. station A can hear station B and C but they cannot hear each
> other
> > > >>> 2. station A can hear station B but station B cannot hear station A
> 3.
> > > >> station A can hear that station B is transmitting, but not with a
> strong
> > > >> enough signal to
> > > >>> decode the signal (yes in theory you can work around interference,
> but
> > > >> in practice interference is still a real thing)
> > > >>>
> > > >>> David Lang
> > > >>>
> > > >>
> > > >> To add to this, I think you need lots of different station devices,
> > > >> different capabilities (/n, /ac, /ax, etc)
> > > >> different numbers of spatial streams, and different distances from
> the
> > > >> AP. From download queueing perspective, changing
> > > >> the capabilities may be sufficient while keeping all stations at
> same
> > > >> distance. This assumes you are not
> > > >> actually testing the wifi rate-ctrl alg. itself, so different
> throughput
> > > >> levels for different stations would be enough.
> > > >>
> > > >> So, a good station emulator setup (and/or pile of real stations) and
> a
> > > few
> > > >> RF chambers and
> > > >> programmable attenuators and you can test that setup...
> > > >>
> > > >> From upload perspective, I guess same setup would do the job.
> > > >> Queuing/fairness might depend a bit more on the
> > > >> station devices, emulated or otherwise, but I guess a clever AP
> could
> > > >> enforce fairness in upstream direction
> > > >> too by implementing per-sta queues.
> > > >>
> > > >> Thanks,
> > > >> Ben
> > > >>
> > > >> --
> > > >> Ben Greear <greearb at candelatech.com>
> > > >> Candela Technologies Inc http://www.candelatech.com
> > > >>
> > > >
> > > >
> > >
> >
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