Why don't you try THINKING before you dismiss a GOOD posting as bollocks.

Look at what I posted, what Robert has posted, at previous posting you also
dismissed and try THINKING.

Chimera.

At the accepted risk of stirring up the Twitterers Of Twaddle from their
slumber.....

-----OOOOO-----

The conversion from the continuous time world of analogue
to the discrete time world of digital causes some mathematical problems.

The action of sampling is to multiply an incoming analogue waveform
by a series of unity amplitude spikes (ideally of zero width) to yield,
still
in the analogue world, a set of samples of the incoming waveform, again
of zero width.

How do we represent these samples mathematically? In particular, how
do we analyse their frequency spectra?

The calculus available to us in the analogue world holds these samples to be
zero-integrable
and therefore their application into any integral transform (Fourier,
Laplace, etc)
will yield a zero spectrum.

However, we know that this is not true of the systems into which this
sampling takes
place, for after processing of these samples and re-application back to the
analogue
world through a DAC, the whole of the works of Mozart re-appear in all their
glory.

So, what is the nature of these samples, and how shall they be represented?
We have a mathematical model, integral calculus, that is failing us because
of a zero-integrable result in an area where the results (Mozart, above) are
far from zero!

The approach taken, (and we are free to adopt any approach that may appeal
to
us to model an aspect of engineering for which conventional mathematics has
failed us) is to model the sampled spikes as though they are a
multiple of the Analogue Unit Impulse (not to be confused with the Discrete
Unit Sample, more of that later). We need to be very cautious when we do
this,
because if we claim that the action of our sampling is to multiply the
incoming waveform by a Unit Impulse, there are many, many valid
mathematical objections that can be raised against such a claim, not the
least of which is the lack of the order of infinity in a sample that is only
a volt, or so, high.

So, the model (and it is only a model and not a REAL representation)
that we take is to say that the unit of unity that was the continuous
analogue world has become the unit of infinity in the discrete analogue
world. This
resolves our problem of zero-integrability, the properties of the Unit
Impulse, Dirac's Delta function, being well established.

It may help to think of some fiddle factor that has caused this huge
multiplication of size. I had previously referred to a non-specific,
"Big-K", although what I am implying now would, in fact, be the reciprocal
of what was previously posited as "Big-K". Such a fiddle factor would be
justified because even if though the scale of our analogue samples in unity
and not infinity, the shape of our sampled pulses is isomorphic with the
Unit
Impulse. We must, however, remember to remove this fiddle factor, this
Big-K, this reciprocal of Big-K; and we do this when applying the outputs
of our DSP to the DAC from which comes out our Mozart once again
in signals that are of the order of unity.....
The transfer function, or impulse response, of the combined effect of the
DAC and the sample-and-hold is taken to be a single pulse of unity
value(existing
till the time of the next conversion from the output of our DSP).
So, in response to a voltage spike of no width and of unity height, the
sample-and-hold
responds with its pulse lasting as long as the sample time. Now, in reality
we
have a spike of one volt high which we have been analysing as though it was
infinity
volts high. How do we mentally model this removal of Big-K?

Think of this......if a network responds with an output that is it impulse
response, then
what it was triggered with must have been an impulse!

-----OOOOO-----

IT IS IMPORTANT TO REMEMBER THAT THE ACTION OF SAMPLING
IS NOT TO MULTIPLY THE INCOMING ANALOGUE WAVEFORM BY A
COMB OF UNIT IMPULSES AND THEIR DELAYED SIBLINGS; IF THAT
WERE TO BE CLAIMED THEN IT COULD BE EASILY KNOCKED DOWN.

The action of sampling is only _REPRESENTED_ by such a multiplication and
only then to resolve the specific problem of zero-integrability.

-----OOOOO-----

In response to the OP.....

On the whole, it seems to me that despite your
undoubted standing in the DSP community, you
were one of those who swallowed the plausible story
about sampling, and because you understood well at that
point all that you had needed to know about the Delta function
up to that time, that you, as did so many others, accepted
statements made about the Delta function without objection and without
query.

It is only now, much later on, that you have allowed yourself to be
drawn into a challenge that was not aimed at you personally, and I
suspect that you cannot accept that there is a flaw
in your underlying knowledge; causing you to react with Freudian
Rationalisation by interjecting a rather silly adaptation
of the integral calculus, as quoted from you below.

-----OOOOO-----

This has, however, been an interesting series of threads over the
last few years. It is not an area in which I am yet professionally
involved, and with so many other things to occupy my time, the
ugly head got reared again whenever I drifted back round to the topic.

Based upon the explanation given above, I am satisfied. However, I
also remain satisfied that all the objections and protests that I raised
against the glib throw-away-lines of the text-books were also correct!

It is interesting that in response to my claim that the text-books were
dubious was that so many of you responded by indignantly requoting
the text-book position and thereby contributing nothing to
the discussion. More Freudian Rationalisation, perhaps?

-----OOOOO-----

I leave it to the Twitterers Of Twaddle to now exhibit their playground
habituation.
No doubt there will be an indignant mass fart of, "I told you so" when, in
fact, they told nothing of the kind.

Typical - "I'm no longer winning this argument" response from
Airy Arsehole!

that was just too easy, but gratifying nonetheless (like hitting that final
E major power chord with the Marshall cranked up to "arc-weld").

BTW, guys, from 1968 to about 1975, i used to be a ham, too. WB0CCA ("CCA"
was "Casselton's Commie Adolescent".)

r b-j
no, i guess you're right and the calculus does not submit itself to the
axiom called "the associative property of multiplication".

(instantaneous_value*pulse_height)*pulse_width does not really equal
instantaneous_value*(pulse_height*pulse_width) , does it, Mr. Bean? and it
is absolute bollocks to say that

pulse_height * pulse_width = pulse_area

i'm learning so much.

You need to quote something else to make 1 watt = 1 volt.

How many dB would that be?

Judging by the quantity of crap you have posted over the years I consider
that a true statement.
...(_!_)...

No, in your case the midwife went wrong and threw the wrong bit away.
...(_!_)...

actually, thanks guys (I.R., Steve, and jim). i think Steve is right and
i'm leaving the Beanie alone. i'm usually not one to back away from a fight
on comp.dsp when i think i'm likely to be correct (and this Dirac thing has
been a topic of heated conversation in the past - Google "Jay Rabkin" and
myself to see). but this time it's different. (did you see his attempt to
do an integral with a Dirac impulse in it? "integrating by parts...."
whooo, boy! it's embarrassing.)

anyway, it seems that Beanie has a history with the U.K. ham radio guys, and
on occasion comp.dsp attracts someone crossing over from another group where
that person's rep suggests to us comp.dspers that maybe we should learn from
their experience.

anyway, i thought i'd give him a chance. ya know, first give the benefit of
doubt until you learn differently. (now i know differently.)
it looks like Leigh got it pretty much correct (except i didn't see Beanie
*ever* winning the argument, but maybe he was in his own mind).

r b-j

As usual, Robert's post was thoughtful and written with style. The
snag is, it was in the wrong place. Would you try to extinguish a fire
with gasolene, or starve it of its fuel?

Regards,
Steve