Yes I think your right Mal,
Of course no one in there right mind would design something anyone
could use , selective fading ? Gary and I observed that even 100 Hz
qsy was enough to loose the signal on 500k , that's why we picked
23 or 85 Hz shift for rtty , 5 years ago and as the path is
stable , there is 'no' spreading gain , hence ROS -MF (invisible) only
needs 100 Hz b/w , live path tests are all ways good for post test
debate
Like one one of the US stations commented , No one over there cares
if Opera is 'kippers banged on a kettle' its fun mode to use , in
fact there is now a Face book page
http://www.facebook.com/groups/operadatamode/ courtesy of KB3LSM and a
user guide http://www.obriensweb.com/operaguide.html by K3UK , we
where a bit slow off the mark there ,
Guess that's confirmation of a TA decode though ?
G..
--------------------------------------------------
From: "mal hamilton" <[email protected]>
Sent: Thursday, October 25, 2012 12:16 PM
To: <[email protected]>
Subject: Re: LF: WSPR vs. Opera
There does not seem to be much in it but overall maybe Opera has the
advange
because it is more easily generated by a simple old CW TX
keyed on/off
Meanwhile I will stick with CW or in some circumstances QRSS at the faster
speeds ie 3 - 10
G3KEV
----- Original Message -----
From: "wolf_dl4yhf" <[email protected]>
To: <[email protected]>
Sent: Thursday, October 25, 2012 9:20 AM
Subject: Re: LF: WSPR vs. Opera
Hello Jay and John,
Thanks for the detailed, and carefully laid-out test. Very interesting
reading.
IMHO Opera was a bit over-hyped in the beginning, making claims which
were not justified by *fair* on-air tests, and a test like yours
(simultaneous transmission at equal power levels, using the the same RX
and TX antennas) brings it back to reality. Testing one day (or even
one hour) with one mode, and the next day (or hour) with another mode
isn't fair considering changing conditions (diurnal effects, path loss,
QRN, etc).
All the best,
Wolf .
Am 25.10.2012 04:14, schrieb [email protected]:
> Here is some further info for discussion on WSPR vs. OP.
>
> On 8/23/12 WD2XES and WD2XNS conducted a 'heads up' test of WSPR vs
> OP4 on 136 kHz. The test started at 2230Z on 8/23/12 (in daylight),
> continued throughout the night, and concluded at 1030Z on 8/24/12 (in
> daylight). Conditions were normal for a summer evening with typical
> amounts of static. Distance between XES and XNS is 72 miles.
>
> At the WD2XES transmitting end John combined both WSPR and OP4 signals
> into a common phasing transmitter, amplifier and transmitting antenna.
> Transmitted power levels were identical for each mode and very QRP -
> 60 mW or less. WSPR and OP4 frequencies were within a kHz of each
> other.
>
> At the WD2XNS receiving end a common receiving antenna was used
> feeding a single GPS disciplined receiver. Audio output from the
> receiver was applied to a single sound card / computer setup which ran
> an instance of each program.
>
> Results can be found at http://www.w1vd.com/WSPROP4082312A.pdf .
>
> Notes:
>
> 1) At 0230Z John made a significant reduction in transmitted power
> level to better explore the weak signal performance of the two modes.
> This produced the desired results with 'at the threshold' receptions
> through 0420Z. No receptions were noted between 0420Z to 0902Z and
> were probably due to an increased static level during that period.
> Signals climbed back out of the noise again at 0902Z and reception
> continued through the testing period.
>
> 2) The OP4 results were 'time shifted' to align with the corresponding
> WSPR start times.
>
> 3) There are a few instances where the OP4 results are not spaced on
> exactly 4 minute intervals ... this is likely caused by Opera
> reporting 'slipping' into the following minute.
>
> Conclusion:
>
> WSPR has an advantage over OP4 in weak signal performance. Also, keep
> in mind that WSPR requires half the amount of transmission time and
> transmits more information. In our opinion, OP8 would be more in line
> with WSPR in terms of weak signal performance. In that case WSPR gets
> the job done in one fourth the time taken by OP8 and transmits more
> information.
>
>
> Jay W1VD WD2XNS WE2XGR/2
> John W1TAG WD2XES WE2XGR/3
>
>
>
>
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