Nella citazione in data Sun Mar 11 02:30:43 2012, Arturo Rinaldi ha
scritto:
Nella citazione in data Fri Mar 9 19:50:05 2012, Ben Reynwar ha scritto:
On Thu, Mar 8, 2012 at 8:19 PM, Arturo Rinaldi<arty.n...@gmail.com>
wrote:
Nella citazione in data ven 09 dic 2011 05:55:57 CET, Ben Reynwar ha
scritto:
On Thu, Dec 8, 2011 at 5:33 PM, Arturo Rinaldi<arty.n...@gmail.com>
wrote:
I noticed dramatic changes in the 3.5.0 release in the generation
of the
constellation points of digital modulations. So, if the easy part
is to
again modify the source code to match my needs, i need some help
in using
the new block :
digital.constellation_decoder_cb(arg1)
instead of
gr.constellation_decoder(arg1,arg2)
I usually used the last one where arg1 is a list containing the
complex
values of a generic digital modulation and arg2 is the symbol mapping
(Gray
Coding for instance). Which blocks do i need to put together to
get the
same
result ?
Regards, Arturo
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Simplest solution is probably:
constell = digital.digital_constellation(list_of_complex_points,
[], 1, 1)
decoder = digital.constellation_decoder_cb(constell)
To get the symbol mapping you want, just choose the appropriate order
of the complex points in the list.
The 2nd, 3rd and 4th arguments to the constellation constructor while
not relevant to this example are:
- a mapping to be applied before differential encoding.
- the rotational-symmetry of the constellation
- the dimensionality of the constellation (i.e. number of complex
points that together map to one symbol)
Functions to simplify the creation of commonly used constellations can
be found in digital.bpsk, digital.qpsk, digital.psk, and digital.qam.
Ben
i made some progress in simplyfing the creation of the
constellations but i
still need help in the decoding part.
I'm trying to calculate the modulation BER by using this flow graph :
http://imageshack.us/photo/my-images/819/bersimgrchomeartynetscr.png/
i removed all the unnecessary parameters to my study (excess bw ,
differential coding etc.) because i need only gray coding. and the
decoding
part is this one
http://pastebin.com/wADRx7Hj
could you please help me ? the grc blocks are made by invoking only the
psk_new.py source
http://pastebin.com/kawSfuPg
modified by me. please help me. thx in advance
Regards, Arturo.
I'd be happy to help but I'm not quite sure what exactly your
problem/question is.
Maybe you could post the python generated by grc, along with the issue
you're having?
here it is
http://pastebin.com/hQsPXbjJ
my goal is to perform a baseband simulation for a simple BER
estimation (modulator-channel-demodulator). when i posted the issue
some time ago i used the block
decoder =
gr.constellation_decoder_cb($constellation_points,$symbol_value)
i.e. for a qpsk modulation ----->
constellation_points=[1+1j,-1+1j,-1-1j,1-1j] , symbol_value=[0,1,2,3]
after that i "un-grayed" the symbols by connecting the map block
gr.map_bb([0,1,3,2])
Since i'm usign the 3.5.2 tarball, the new block
digital_swig.constellation_decoder_cb($constellation)
(and not digital.constellation_decoder_cb) that you suggested me takes
as argument a "constellation" object and not a "constellation_bpsk",
"constellation_qpsk" object and so on. So i think i'm unable to assign
the right symbols to the decoded constellation and perform a correct
BER estimation. I tried to use also with the object
digital.constellation($constellation_points)
as you suggested to build my own constellation but the log file says
that it is an "abstract class" so it can't be used. I hope I explained
myself well this time. Please help me because i need to update my work
to the 3.5.x gnuradio version.
PS : I also thought that I could take the old block
gr.constellation_decoder_cb from the 3.4.2 tarball (.h , .i and .cc
files) and build it with gr-how-to-make-a-block-3.5.2...would it be
possible ?
Best Regards, Arturo
i forgot to mention that i deleted any block for RRC filtering and
recovery. my goal is a simple baseband simulation. I attach again my
new version (v2) of the source file "generic_mod_demod" and the grc
image of the flow graph :
http://imageshack.us/photo/my-images/838/bersimulationgrchomeart.png/
http://pastebin.com/i3nxY6u0
Regards, Arturo
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