суббота, 25 июля 2009 г.

Updating of SA to version 6.0.5.4: new mode and the yellow historgam.

Version 6.0.5.4: new mode, the yellow historgam and more.

Preliminary tests of possibilities of the phase detector, have seemed to us very promising, in result the improved analogue of AOF module has been developed on the basis of the phase detector. I would not tell that the developing process of this module was easy, but the main technical problems were managed to be solved, the tool has become Functional enough, flexible and it has number of possibilities, which are unavailable in old AOF module. New module also solves The primary goals of definition ofparametres of frequency characteristics of MFSK signals.


The switch "SUM" is added in WF module. Activation of that switch leads to construction(in the displaying window) of the histogram of that part of the signal, which is currently displayed on the screen.

New fields are added:
  • 1 - switch of the histogram's represantion. It is swtiched off by default
  • 2 - frequency, on which the upper horizontal marker is located
  • 3 - frequency, on which the lower horizontal marker is located
  • 4 - difference of frequencies between upper and lower marker

Precision of measurments of the frequencies is 0,01 Hrz. It is the very serious value. Although in some cases such accuracy is not required, but nevertheless, it is provided in overwhelming majority
of cases.

Work is in the histogram mode, or in the accumulation mode. Per se these modes are same.


As it was already spoken,
swtiching ON of "SUM" mode leads to construction of the yellow histogram.


The visible part of signal is used as the data for histogram's construction. It seemed to us that there is a sense do not overlap the visible part of the Signal completely by the histogram, thus we only reduced its brightness. This allows to see, by moving the sliders, which part of the signal is currently represented as histogram. In general it is necessary to notice, that all elements of the window do work in absolutely regular mode that gives extreme flexibility and efficiency.

As it is better to see once, than hundred times to hear, we have prepared some videoclips from which, You will understand the main principles of work in "SUM" mode.

Some words about accuracy of measurements, and some additional possibilities which are accessible in the new Mode.

You must realize that if You are working in the small window, or reduce by scaling buttons the histogram image to one hundred pixels by vertical, then the declared accuracy in 0.01 hertz loses any
meaning. Anyhow the pixel consist several tens or hunreds of Hertz. Thus, the declared and provided accuracy is realised only on full-scale images, which are having the greatest possible size, at least by vertical.

Accuracy of measurements depends on the signal bar and sampling rate of the file. It is also necessary to understand that the frequencies, which are above then half of sampling rate and below zero do not exist. But the scale on vertical axis allows to reduce the graphic, at an intersection of these natural boundaries, Indications of markers do not vary, and are fixed on the level of boundary conditions.

Important: The histogram mode can be switched ON at any time and on any file, but, it is possible to adequate display the frequencies only on files, which were prcocessed by the phase detector, and these files should be received directly after operation of the phase detecting in the program.

In the mode when the histogram's construction is active, but the file does not grow out of operation of the phase detector, the frequencies are not displayed and fields for these values will be empty. The histogram, in this case, represents allocation of amplitudes in loaded wav file. Sometimes it is useful, because it allows to detect files with amplitude limitation, files, which are made with 8 bit coding and files with various anomalies.

Several screenshots:

Signal CHINESE-32


Signal WSPR by K1JT - it is indeed that case, when the declared presicion of measurements is fully realized.



Attention please, it is nessesary to watch these videoclips and most of things have become clear.

This new mode, basically assumes further development, but these are future questions. It seems to us that current implementation is more than adequate and take the place of extremely not fast AOF module,
although we do not remove AOF module for some time. Probably further it will be liquidated, time will show.

The second visible update addition, I underline visible (because internal solutions are vary very strongly) addition - is the displaying of the line's frequency into that line the signal is spreading out in VMW. Sometimes it is convenient, especially for raster methods of studying of phase-manipulated signals.


Good Luck!

пятница, 24 июля 2009 г.

Chinese Mixed Mode (MFSK-4+OFDM-20/1) MFSK-4 Br-100, Shift-400 OFDM Br~72.2, Shift~100

The signal is here

Author: SergUA6 6.0

Band Width ~2200-2250 Hz
Low Range ~450 Hz, the shift is possible. Recieveing is in SSB
Baud Rate For MFSK ~100 Hz, For OFDM ~72.2 Hz
N-Ary (PSK/MPSK) mixed, pi/4 dqpsk and PSK-4
Count of Carriers For MFSK 4, for OFDM 20 + pilot
Step between carriers For MFSK ~400, for OFDM ~100 Hz
Pilot tones: spacing, frequencies (Pilot tone(s)) One pilot ~513 Hz, the shift is possible, Recieveing in SSB
The modulation in which the signal was recieved (RX mode) SSB

Sonograms:

pic.1 the signal's generall look



pic.2 Manipulation speed for MFSK




pic.3 Manipulation speed for OFDM


Diagrams:

pic.4 The graphical spectrum of the signal



pic.5 Detalization of the preamble



Pictures:

pic.6 Constellation of the upper channel OFDM



pic. 7 Constellation of the lower channel OFDM



Chinese Mixed(MFSK-4+OFDM-20/1) - Chineese modem. The classical OFDM signal with CP duration about ~ 3.85 msec. The interesting moment is that this signal is the classical OFDM with MFSK preamble. Nevertheless It is characteristic for China, and it is not big surprise. The record's quality is excellent, that allows to define easily all parametres of the signal with high reliability.

вторник, 21 июля 2009 г.

Analysis of the real Chinese Serial Modem signal.

The signals analysis. Practical approach.
The real signal 7970.wav.

It is always necessary to spent estimation of the current record's quality before the analysis of the signal. It is very essential and important step. This step, in many cases, allows to avoid useless
work with problematical records as: the records with overloads, with the distortion of amplitudes, compressions and etc. There is lot of information about records quality, but as practice, the very small amount of people take this information into attention.


In our case, any of specific problems are not observed. The signal is "live" and it "breathes", the noise level is small enough, that allows to hope for the successful analysis. The best fragments by
the spectrum are the first and the third. The second and the fourth fragments have the visible selective distortions, althoguht it is the not the reason for denial of 2 and 4 fragments, but we are choosing the best fragments. By the first look, this signal seems like founded OFDM. The typical mistake in such cases, is the orientation on the searches of the signal's parametres as OFDM, that is the other versions are not even considered. It is the mistake in the sense, that even if any disparities will be detected, it will be very hard to stop consider the signal as OFDM. All the attention will be paid to signs in favour of the OFDM version, and the signs, which are not in favour of this version, most likely will be recognised as accidental and ignored. As I always say, even if
the signal seems very "familiar" or "clear" the approach to it should be always standard and same as to absolutely unfamiliar and unknown signal, to which all arsenal of knowledge and abilities is
applied. And only then, having gathered the various data, it is possible to do conclusions and to check all the versions, co-ordinating the results, received earlier. Lets gather, without going deep, the data in favour of OFDM.


The spectrum's sort/look on the sonogram, especially in the first part of the signal is very similar to OFDM, it is possible to distinguish "channels" and "pilots-tones". The second part is lesser
similar to OFDM, but nevertheless is does create the strong enough impression of the block-channel transmission, and the "pilots-tones" between the blocks. ACF is bad and does not give the clear answer, besides, it is visible on the waveform, that the signal "is slightly beaten" by the impulse interferences. So it is not clear what ACF is that. The graphical spectrum also does not give any special pluses in favour of OFDM, the whole spectrum has not clear ejections through each ~50 Hz, and it is hard to to say is that the result of creation of the signal or something else.
In that way, there is no any forcible arguments in OFDM favour, except the first impression. The situation with "pilots-tones" brings even more suspicions: the pilot-tone, even in OFDM without CP, should be located in relatively pure space. In this signal, we hardly can recognise that condition, but ofcourse it is possible to recognize if You have great desire to believe that the first OFDM
impression is correct, and if You ignore all the disparities, which are not in OFDM favour.

Lets take envelope of the signal.


There is bright enough and obvious line on the position of expected line of the clock frequency. That line can say that the signal is already not OFDM, but FSK, PSK or QAM. The FSK is denied very fast
after using of Phase/frequency detector. But to define is the signal is PSK or QAM is problemcaticaly enoguh. Methods allowing to detect QAM, in current SA version do not exist, whether I'm also not
assured if these methods are exist in general. It is possible to define QAM or PSK on the signal's constellation, but it assumes the absolute high quality of the signal's record, and knowledge of the
carrier frequency of the signal.
It is not possible to receive the carrier frequency on this signal assured, because the signal has distortions. SA allows to restore the signal, by the clock frequency, from supposition that it is PSK.
That is, the semi-automatic corrector, in AM mode, attempts to restore the signal being orinted not on the concrete PSK order, but on the signal's belonging to PSK class basically, and also oriented on value of the clock frequency. It is not such trivial task, it also does work far not in all cases, but this only thing that we have. To check this version, I have taken the third fragment.


The work with the semi-automatic corrector, was described earlier, both in the program's Help and in other articles, so i won't consider the work of the semi-automatic corrector in the detals. I will result screenshots after attempts of restoring the signal by the semi-autmatic corrector. Here is also the video-clip, which shows the process course of how semi-mode corrector works with this signal.


Literally after four-five passeges of the semi-automatic corrector in AM mode, the classical picture is appeared in the eighth degree. After getting of the classical picture, it is possible both to
continue correction in AM mode, and to switch into X^N mode, or to combine both modes. This is the deal of technique results are usually reached very fast.


The question is: maybe it is just the fortuity or the comdination of incredible coincidences, and the corrector has distorted the signal into PSK? Theoretically it is possible. But in practice, it is very
improbable, athough sometimes it happens. For detection of such cases, it is necessary, periodically to inspect/controll waveform of the signal in the first degree: the absence of deep failures in the
signal's bar or the absence of obvious distortion of the waveform, atleast guarantee the absence of obvious distortions of the signal, unless guarantee 100% total accuracy of the corrector's work.


It is necessary to save the signal and to compare it with initial signal, essential differences should not be present. Ofcourse after the semi-automatic corrector's work the signal will be another, with
more correct spectrum, with its much more regular allocation. But the signal after corrector's work should not be the absolutely another signal, the main features and structure should stay same.


Good luck!

The author of this article is SergUA6
All rights reserved © http://signals.radioscanner.ru

пятница, 17 июля 2009 г.

Updating SA to 6.0.5.3 version : Now SA updates will be also described in our BLOG.

SA updating to 6.0.5.3 version.

This isn't final update in 6.0.5.3 series, not all things which were planned are finished yet, but there is cathegory of errors, which were removed as fast as possible. Once of such mistakes is reflected on the screenshots, which were sent by several users.



Under Windows Vista, the transgression of SA windows structure is observed at some user settings.

It makes impression of the extremely careless appearance of the program. In our opinion it is simply not acceptable for commercial products.

In version 6.0.5.3 this problem is solved.

Some additions are added in the work of WaveForm module aswel.




1) The filter switch - You have just to click simply on it
The default mode is LowPassFilter, the frequency cutoff of it is manually specified from the list.

In MedianeFilter mode, the Mediane filter does work. The mediane filter has no equivalents in the analogue technique, it has special characteristics. Part of users insisted to add this Filter. The Area of Application of Mediane filter is relative enough. Generally that filter allows effectively to suppress sharp and strong impulse interferences, without distortion of fronts of the signal. In practice, on the Real signals it is necessary to estimate results
visually.


The principle of work of Mediane filter is simple enough. The signal is passed through the window, the size (2) of Which is setted by user and that size should be odd. Then the received array is sorted and as output counting the average one is taken.

Thus, if the impulse-interference has the duration, which is lesser then the window size/2, then this impulse is fully supressed.

For the absolutely qualitative work of Mediane filter it is necessary that impulses-interferences would have distance among themselves not lesser than the window size, in practice it is occuring very seldom, but nevertheless, sometimes the results of Mediane filter work are very impressing. The maximum size of the window is limited by 301 counting, further this size will be increased.

It is possible to enter any number of countings, automatically it will be added to the nearest odd number(to the bigger side) or installed at the level of 301 limit. On the big sizes of the window
speed of processing is decelerated, however it will be optimised in the near future, so this problem is not strongly serious and has the solution.


3) The oprative stepback into intial state is added. That is cancellation of all actions spent earlier with the signal. It allows quickly and effectively to pick up the necessary filter, to choose the necessary cutoff frequency and etc.

As distinct from the previous versions, the work of filters in WF module is optimised, and the resulting signal takes of precisely the same position in the displaying window as well as the initial signal.

It is nessesary to show some care In LPF mode. The frequency of a cutoff filter, as it is accepted, is setted at level -3 Db from the pass-band. For the decision of the problem of signals preservation on former positions the double-sided scheme of filtration is applied. That scheme leads to weakening on the cutoff frequency on 6 Db already. In some cases, it is not acceptable, that's why it is better to take the cutoff frequency upper and to do some passages, before recieveing the necessary result of filtration, in other it is obvious things.

Some minor problems of the whole programm are removed aswel. It is usual process thought and there is no sence to describe all the details, as it is hardly noticeably and does not have the great importance.

Good luck!

среда, 15 июля 2009 г.

CHINESE SERIAL MODEM - is the very interesting signal

Chinese Serial Modem
PSK-8, Br~1630

The signal is here

Author: SergUA6 6.0
Band Width ~1800 Hz
Low Range ~470 Hz, the shift is possible, recieveing is in SSB
Baud Rate ~1627 Hz, possibly that it is 1630 in reality
n-Ary (PSK/MPSK): PSK-8
Carrier frequency ~1415 Hz, the shift is possible, recieveing is in SSB
The modulation, in which the signal was recieved (RX mode): SSB

Sonograms


pic.1 The general look



pic.2 Manipulation speed



pic.3 The signal in 8th degree




Diagrams


pic.4 The phase constellation with accumulation



pic.5 The phase constellation in dynamic


CHINESE SERIAL MODEM - is the extremely interesting signal. As the sample the record restored by corrector is used.
It is difficult enough to believe, that the signal having so obvious OFDM signs and characters, is not OFDM signal in reality.

However the record quality is high enough and allows to identify PSK-8 with the very high
probablity.

The very difficult regular data structure is very strongly change the
spectrum, in that way, it is creating illusion of the multi-channel transmission.

However the examples of such signals are exist, and it should not
be a big surprise.

This signal is the very intresting one. And the detailed analysis of CHINESE SERIAL MODEM will be considered in the next blog post as separate article.