K3 - Revolutionary Noise Reduction

>          K3 - Revolutionary Noise Reduction
>
>      It was announced today, by Professor Morsig at the Institute of
> Ljubljana, that the K3 has been chosen to test a revolutionary new
> approach to combating receiver noise and improving HF reception.
>      The basic principal behind this approach is the shifting in
> frequency of noise by a few mHz (that's milli-hertz) away from the tuned
> frequency. This in effect produces a hole in the noise spectrum where
> weaker signals may be detected. The residual noise is directly
> proportional to the bandwidth of the hole. Therefore, for wider signals,
> such as SSB, a modified approach is required. The hole is moved
> progressively over the required signals bandwidth and the signal is
> sampled at each step and integrated to reproduce the original wideband
> signal.
>      A second feature associated with this algorithm deals with
> variations in propagation. We all know that propagation is largely
> dependent on the solar flux. Propagation is changed due to the effects
> of the solar wind. A little known fact is that the remnants of the solar
> wind that reach the receive antenna modulates the noise. When the noise
> is detected this modulation can be interpreted to give information about
> the condition of the D, E and F layers. This can be used to produce a
> real-time table of MUF and critical frequencies for each layer. At night
> some kind of remote sensing with suitable location corrections has to be
> used.
>      The third and more revolutionary feature, which depends heavily on
> the previous features, involves the generation and use of virtual
> transceivers or individual ionosphere layer repeaters. As an example we
> will assume a distant CW signal is transmitted on 21.110Mhz and the MUF
> is around 15.000Mhz. The signal will not be refracted to our receiving
> station and most of it is lost in space. If we transmit a heterodyning
> carrier pulse on 14.110MHz, which is below the MUF, then it will mix
> with the transmitted signal and produce a weak signal pulse at 7.000MHz
> which is reflected back to the receiving station. There is a time delay
> between the sending of the pulse and receiving the return pulse. The
> transmitted pulse length is made less than this delay so that the
> 7.000MHz return pulse may be received between transmit pulses. This
> process is repeated and the received signals integrated to reconstitute
> the original signal sent.
>      There are some operating problems to be worked out with the
> transmission of multiple heterodyning carriers. Thus only a few K3's are
> expected be loaded with the new firmware until these problems are
> resolved (spread spectrum has been suggested).
>      New menu items may be added to include these features in a future
> K3 DSP firmware update. MUF OFF/AUTO and 1-10 will vary the effect of
> received signals using simulated MUF values. This can improve signals on
> all bands. Unfortunately this enhancement is not reciprocal and only
> works on receive. Thus K3 to K3 contacts should have a distinct
> advantage. The algorithms used are not open source as these features are
> expected to have a huge affect on the whole radio communications
> industry. It is still in the early beta-test stages.
>
>      The above is a rough summary of the original unwinese language
> document submitted by Professor G. E. T. Morsig who is the 1st Associate
> Professor of Radio at the Institute of Ljubljana. He will be very
> interested in your assessment of this system and may be contacted via
> F(zero)OL (qrz.com).
>
>      My apologies if I have made a minor slip or two in the translation.
> Unwinese is not an easy language to translate.
>
>      Please do not contact Elecraft for this firmware until there is an
> official statement!
>
> 73 and Enjoy
>      Tony Fegan VE3QF (anxiously awaiting further developments!)
>  

>          K3 - Revolutionary Noise Reduction
>
>      It was announced today, by Professor Morsig at the Institute of
> Ljubljana, that the K3 has been chosen to test a revolutionary new
> approach to combating receiver noise and improving HF reception.
>      The basic principal behind this approach is the shifting in
> frequency of noise by a few mHz (that's milli-hertz) away from the tuned
> frequency. This in effect produces a hole in the noise spectrum where
> weaker signals may be detected. The residual noise is directly
> proportional to the bandwidth of the hole. Therefore, for wider signals,
> such as SSB, a modified approach is required. The hole is moved
> progressively over the required signals bandwidth and the signal is
> sampled at each step and integrated to reproduce the original wideband
> signal.
>      A second feature associated with this algorithm deals with
> variations in propagation. We all know that propagation is largely
> dependent on the solar flux. Propagation is changed due to the effects
> of the solar wind. A little known fact is that the remnants of the solar
> wind that reach the receive antenna modulates the noise. When the noise
> is detected this modulation can be interpreted to give information about
> the condition of the D, E and F layers. This can be used to produce a
> real-time table of MUF and critical frequencies for each layer. At night
> some kind of remote sensing with suitable location corrections has to be
> used.
>      The third and more revolutionary feature, which depends heavily on
> the previous features, involves the generation and use of virtual
> transceivers or individual ionosphere layer repeaters. As an example we
> will assume a distant CW signal is transmitted on 21.110Mhz and the MUF
> is around 15.000Mhz. The signal will not be refracted to our receiving
> station and most of it is lost in space. If we transmit a heterodyning
> carrier pulse on 14.110MHz, which is below the MUF, then it will mix
> with the transmitted signal and produce a weak signal pulse at 7.000MHz
> which is reflected back to the receiving station. There is a time delay
> between the sending of the pulse and receiving the return pulse. The
> transmitted pulse length is made less than this delay so that the
> 7.000MHz return pulse may be received between transmit pulses. This
> process is repeated and the received signals integrated to reconstitute
> the original signal sent.
>      There are some operating problems to be worked out with the
> transmission of multiple heterodyning carriers. Thus only a few K3's are
> expected be loaded with the new firmware until these problems are
> resolved (spread spectrum has been suggested).
>      New menu items may be added to include these features in a future
> K3 DSP firmware update. MUF OFF/AUTO and 1-10 will vary the effect of
> received signals using simulated MUF values. This can improve signals on
> all bands. Unfortunately this enhancement is not reciprocal and only
> works on receive. Thus K3 to K3 contacts should have a distinct
> advantage. The algorithms used are not open source as these features are
> expected to have a huge affect on the whole radio communications
> industry. It is still in the early beta-test stages.
>
>      The above is a rough summary of the original unwinese language
> document submitted by Professor G. E. T. Morsig who is the 1st Associate
> Professor of Radio at the Institute of Ljubljana. He will be very
> interested in your assessment of this system and may be contacted via
> F(zero)OL (qrz.com).
>
>      My apologies if I have made a minor slip or two in the translation.
> Unwinese is not an easy language to translate.
>
>      Please do not contact Elecraft for this firmware until there is an
> official statement!
>
> 73 and Enjoy
>      Tony Fegan VE3QF (anxiously awaiting further developments!)
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html
>
>
>  

>         K3 - Revolutionary Noise Reduction
>
>     It was announced today, by Professor Morsig at the Institute of
> Ljubljana, that the K3 has been chosen to test a revolutionary new
> approach to combating receiver noise and improving HF reception.
>     The basic principal behind this approach is the shifting in
> frequency of noise by a few mHz (that's milli-hertz) away from the  
> tuned
> frequency. This in effect produces a hole in the noise spectrum where
> weaker signals may be detected. The residual noise is directly
> proportional to the bandwidth of the hole. Therefore, for wider  
> signals,
> such as SSB, a modified approach is required. The hole is moved
> progressively over the required signals bandwidth and the signal is
> sampled at each step and integrated to reproduce the original wideband
> signal.
>     A second feature associated with this algorithm deals with
> variations in propagation. We all know that propagation is largely
> dependent on the solar flux. Propagation is changed due to the effects
> of the solar wind. A little known fact is that the remnants of the  
> solar
> wind that reach the receive antenna modulates the noise. When the  
> noise
> is detected this modulation can be interpreted to give information  
> about
> the condition of the D, E and F layers. This can be used to produce a
> real-time table of MUF and critical frequencies for each layer. At  
> night
> some kind of remote sensing with suitable location corrections has  
> to be
> used.
>     The third and more revolutionary feature, which depends heavily on
> the previous features, involves the generation and use of virtual
> transceivers or individual ionosphere layer repeaters. As an example  
> we
> will assume a distant CW signal is transmitted on 21.110Mhz and the  
> MUF
> is around 15.000Mhz. The signal will not be refracted to our receiving
> station and most of it is lost in space. If we transmit a heterodyning
> carrier pulse on 14.110MHz, which is below the MUF, then it will mix
> with the transmitted signal and produce a weak signal pulse at  
> 7.000MHz
> which is reflected back to the receiving station. There is a time  
> delay
> between the sending of the pulse and receiving the return pulse. The
> transmitted pulse length is made less than this delay so that the
> 7.000MHz return pulse may be received between transmit pulses. This
> process is repeated and the received signals integrated to  
> reconstitute
> the original signal sent.
>     There are some operating problems to be worked out with the
> transmission of multiple heterodyning carriers. Thus only a few K3's  
> are
> expected be loaded with the new firmware until these problems are
> resolved (spread spectrum has been suggested).
>     New menu items may be added to include these features in a future
> K3 DSP firmware update. MUF OFF/AUTO and 1-10 will vary the effect of
> received signals using simulated MUF values. This can improve  
> signals on
> all bands. Unfortunately this enhancement is not reciprocal and only
> works on receive. Thus K3 to K3 contacts should have a distinct
> advantage. The algorithms used are not open source as these features  
> are
> expected to have a huge affect on the whole radio communications
> industry. It is still in the early beta-test stages.
>
>     The above is a rough summary of the original unwinese language
> document submitted by Professor G. E. T. Morsig who is the 1st  
> Associate
> Professor of Radio at the Institute of Ljubljana. He will be very
> interested in your assessment of this system and may be contacted via
> F(zero)OL (qrz.com).
>
>     My apologies if I have made a minor slip or two in the  
> translation.
> Unwinese is not an easy language to translate.
>
>     Please do not contact Elecraft for this firmware until there is an
> official statement!
>
> 73 and Enjoy
>     Tony Fegan VE3QF (anxiously awaiting further developments!)
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html