N2EY wrote:
In article , Mike Coslo
writes:
wrote:
Michael Coslo wrote:
I felt kinda bad about being mean to Len,
When were you mean to Len, Mike?
Unless you count disagreeing with him and proving him wrong as
"being
mean", you've been nothing but nice to him.
Well, he probably thinks so!
Mike Deignan had him pegged. Len's really ticked that somewhere, out
there,
somebody is having fun with ham radio.
so I'll try to meet him
halfway with a Morse code topic.
His definition of meeting halfway is that you agree with him 100%.
That is certainly possible...
It's self-evident...
So maybe we can ressurect this old one...
I hear lots of Hams declare that Morse code is a binary mode.
It is most certainly not.
Depends how you define "binary".
One state equals "0" or "off".
The other state equals "1" or "on".
You have to define "state". If "key up" and "key down" are the
states, it's
binary. Time isn't the factor you make it - look at how Baudot works.
Let us look at the situation.
Is the Dit a "0"?
No.
Is the Dah a "1"?
No.
Is the space between characters a "0"? and the Dih a "1"? Oh wait,
what is the Dah then? Oh, and what about the space between words?
Key up is "0". Key down is "1". Also known as "space" and "mark",
respectively.
Unfortunately, there are two separate "1" states, and the zero state
is
not a constant thing.
Doesn't have to be. It's a time code.
There is the matter of time. A zero might me the space between
letters,
or one half of a dit. It might also mean the space between words.
All
different things.
No. The characters are built from the basic elements, which are key
up and key
down, just like, say, Baudot RTTY.
That Morse code can be turned into binary is not at argument here.
It
obviously can, just as images, emails and everything else we do on
the
computer. Are they binary because someone has written a program to
turn
them into strings of 1's and 0's?
Their basic transmission form is binary, same as Morse.
A non-binary code is one that has more than two *transmission*
states, like
QPSK. Which is typically implemented as 0, 90, 180 and 270 degrees
shift. Four
transmission states rather than two.
It isn't binary,
Depends on how you define "binary".
and the way our noodles process it isn't binary.
Different subject.
Not really. If you look at the string of 1's and 0's that Doug
posted
as the binary result of my hypothetical CQ, is that something that
you
would recognize as that CQ? That string IS binary.
I would recognize it easily.
Why does the - and . method of typing out the code convey the
information? the dashes and the spaces convey time information to
the
person looking at them. I'm counting more than two states here.
It's not the simplest way, though. It shows the time differently.
It's not binary.
Most Morse operators with any skill (that excludes Len) process a
complete character as one "sound". "didahdidit" is recognized as
"L",
in the same way that when you hear the word "cat", you think of
the
animal. The Morse operator does not think in terms of dits and
dahs any
more than a person thinks in terms of the consonant and vowel
sounds
(phonemes) making up "cat".
Of course *really* skilled Morse ops hear entire words as units of
sound. And at some level, they begin to think in Morse, just as
fluent
speakers of a language think in that language.
Of course Len wouldn't know about that...
The big question is: what does it matter if Morse is binary or not?
. . . finally . . of course not. But you already knew that . .
73 de Jim, N2EY
w3rv
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