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Re: [TowerTalk] Takeoff Angles and Non-Reciprocal Propagation

To: "Richard (Rick) Karlquist" <richard@karlquist.com>
Subject: Re: [TowerTalk] Takeoff Angles and Non-Reciprocal Propagation
From: David Gilbert <xdavid@cis-broadband.com>
Date: Fri, 02 Nov 2007 16:17:02 -0700
List-post: <mailto:towertalk@contesting.com>
Rick,

I don't see how your 2-port S-parameter example is analogous at all.  If 
anything, a directional coupler might be a closer analogy to this 
discussion. 

Also, I know that reciprocity does not require the takeoff angle of the 
transmitted signal to be the same as the arrival angle of the receiving 
station at the far end, and I did not say or imply that it was.  I'm 
also not implying differences in noise levels on the two ends of a path, 
I'm not implying differences in path loss for the two directions, and 
I'm for sure not referring to station A working Asia from the east side 
of a hill while station B works Africa from the west side of the same hill.

I'll try to simplify the hypothesis.  Assume Station A in Colorado has a 
yagi pointed east and it is located a few thousand feet west of an 
asymmetrical hill (steep on the west side, blunt on the east side) high 
enough to cause diffraction products that bend his signal lower than it 
would be without the hill.  Let's say the partially diffracted signal 
has a takeoff angle of 4 degrees.  Station A's signal travels from the 
hill upward at that 4 degree angle where it interacts with the 
ionosphere and eventually returns to earth (at some arbitrary angle 
depending upon propagation) at Station B in Spain.  Station B is 
identical to Station A in terms of power, antenna gain and efficiency, 
ground conductivity, and whatever other factors may normally affect 
signal strength.  Station B receives the signal from Station A and sends 
a reply.  That reply travels back toward Station A along the same path, 
suffering the same path losses, and presumably arrives at the 
asymmetrical hill at the same 4 degree angle that Station A's signal 
left it.  However .... the signal from Station B is not "processed" by 
the asymmetrical hill the same way that the signal from Station A was.  
The asymmetrical hill (blunt on the east side) does not bend Station B's 
signal downward toward Station A's antenna the same amount as the signal 
going from A to B was bent. 

It seems to me that a good portion of Station B's signal arriving at the 
hill could overshoot Station A because it wasn't diffracted enough.  The 
path taken by the signal from B to A would be identical to the path 
taken by the signal from A to B EXCEPT for the portion between Station A 
and the hill.  Think directional coupler.

So where am I wrong?

By the way, I'm not pursuing this thought just for the sake of 
argument.  Here in Arizona MOST of the terrain features are 
significantly asymmetrical, and I would think many large (in terms of 
wavelength) building structures in population centers would be as well.

73,
Dave   AB7E




Richard (Rick) Karlquist wrote:
> Reciprocity does not mean the takeoff angle of the transmitting
> station is the same as the takeoff angle of the receiving station.
> It simply means the path loss is the same in either direction.
> Suppose there is an asymmetrical hill with station A on the west side
> and station B on the east side.  It is not a violation of reciprocity
> to say that if station A works DX stations via skywave to the east,
> he will experience different propagation than if station B works DX
> stations via skywave to the west.  For the purposes of this discussion,
> assume that the DX stations are all at sea level on flat terrain,
> and that propagation effects of the ionosphere are uniform in all
> directions.  What reciprocity says is that if A transmits to B, the
> path loss will be the same as if B transmits to A.  Now if there are 
> noisy power lines running along the west side of the hill, it is 
> possible that A will report that he can't hear B, but B will report that 
> he can copy A, even if A and B have identical stations.  This apparent
> "one way propagation" is not a failure of reciprocity.
>
> There is an analogy to circuit theory.  It is very common for a 2
> port network to be reciprocal but asymmetrical.  Therefore, the
> input impedance at the two ports will differ, ie s11 does not
> equal s22, but the transmission loss is the same in both
> directions, ie s12=s21.
>
> Rick N6RK
>
> David Gilbert wrote:
>   
>> I don't mean to be dense (although it is a distinct possibility that I 
>> am) and I am most definitely not trying to be contentious, but if signal 
>> strengths versus takeoff angle are at least partially a function of 
>> terrain diffraction products, and if diffraction is not the same from 
>> different directions for asymmetrical terrain, how can there be full 
>> reciprocity for signals going both ways (i.e., transmit and receive)?  
>> Please explain.
>>
>> 73,
>> Dave   AB7E
>>
>>
>>
>> Richard (Rick) Karlquist wrote:
>>     
>>> You have disproven the statement:
>>>
>>> "Diffraction is the same, regardless of asymmetries in the terrain".
>>>
>>> But I didn't say that.  I only said it was RECIPROCAL.
>>> Meaning the same on transmit as receive.  If it wasn't, HFTA would
>>> ask you whether you wanted to do a transmit analysis or a receive
>>> analysis.
>>>
>>> Rick N6Rk
>>>
>>> David Gilbert wrote:
>>>   
>>>       
>>>> Richard (Rick) Karlquist wrote:
>>>>
>>>> "Diffraction is reciprocal, regardless of asymmetries in the terrain."
>>>>
>>>>
>>>>
>>>> HFTA would seem to suggest otherwise.
>>>>
>>>> I generated four arbitrary terrain profile files and fed them into HFTA 
>>>> last evening.  Each of the four terrain profiles had a peak 660 feet 
>>>> high (I said it was arbitrary) 5,000 feet distant from the antenna.  The 
>>>> peak for the first profile was broad and smooth on both the near and far 
>>>> side.  The peak for the second profile was sharp and steep on both near 
>>>> and far side.  The peak for the third profile was sharp on the near side 
>>>> and smoothly broad on the far side, and the peak for the fourth profile 
>>>> was smoothly broad on the near side and steep on the far side.  I 
>>>> assumed a yagi antenna on 14 MHz (8 elements to get more gain 
>>>> visibility) at 70 feet above ground.
>>>>
>>>> HFTA shows markedly different takeoff angle profiles for the four 
>>>> terrains.  In general, HFTA says a peak with a steep near side slope and 
>>>> a sharp peak will diffract the signal lower than a more rounded near 
>>>> side slope and a broad peak.  A peak that is symmetrically sharp appears 
>>>> to bend the signal the most, although not much more than if only the 
>>>> near side is steep.  A peak that is broad on the near side and steep on 
>>>> the far side is almost identical to a peak that is broad on both sides.  
>>>> For the heights, distances, and terrain shapes I arbitrarily chose, 
>>>> either of the terrain profiles with a steep near side slope gave at 
>>>> least ten db stronger signals than either of the terrain profiles with a 
>>>> broad near side slope at all takeoff angles of six degrees or less.  At 
>>>> higher angles, the plots tended to be similar with lots of crossing back 
>>>> and forth among them.
>>>>
>>>> I played around a bit with different antenna heights and the decibel 
>>>> difference between the plots varied somewhat, but the general 
>>>> relationships held.  I haven't tried to change the distance or height of 
>>>> the peak to see what combinations might have the most effect ... I 
>>>> simply picked some numbers for a first pass comparison.
>>>>
>>>> Unless I messed up (probable), the two relevant plots from HFTA should 
>>>> (might) be available by clicking on the links below:
>>>>
>>>> http://www.mediamax.com/ab7e/Hosted/Diffraction1.jpg
>>>> http://www.mediamax.com/ab7e/Hosted/Diffraction2.jpg
>>>>
>>>> The links for the four terrain files are:
>>>>
>>>> http://www.mediamax.com/ab7e/Hosted/rnd_near-shp_far.PRO
>>>> http://www.mediamax.com/ab7e/Hosted/round_symmetric.PRO
>>>> http://www.mediamax.com/ab7e/Hosted/sharp_symmetric.PRO
>>>> http://www.mediamax.com/ab7e/Hosted/shp_near-rnd_far.PRO
>>>>
>>>> If those files aren't accessible, someone please let me know and I'll 
>>>> try to fix the links.  I can also send them as attachments directly to 
>>>> anyone who asks.
>>>>
>>>> I'd appreciate any comments on this quick and maybe questionable 
>>>> analysis, but it seems to suggest that signals approaching a 
>>>> non-symmetrically shaped terrain feature from different directions could 
>>>> skew differently, and therefore that a signal going one way along a 
>>>> specific path might have a different strength than a signal going the 
>>>> other direction along that exact same path.  It has occurred to me that 
>>>> a signal approaching a terrain feature from slightly above the horizon 
>>>> might behave differently than a signal approaching that same feature 
>>>> from below, but since HFTA won't handle negative takeoff angles I can't 
>>>> really check that out, and at six degrees or less I wouldn't think the 
>>>> difference would be large anyway.
>>>>
>>>> Simple diffraction aside, real life terrain contains more than one 
>>>> feature that would make full reciprocity even less likely, in my 
>>>> opinion.  According to the algorithms built into HFTA,  the net energy 
>>>> leaving at any particular angle is the result of multiple combinations 
>>>> of reflections and refractions, refractions of reflections, reflections 
>>>> of refractions, and so on.   Intuitively, it seems impossible to me that 
>>>> a ray arriving from a distance at that same angle can somehow split 
>>>> itself into those same components in reverse.  As a minimum, some of the 
>>>> reflecting surfaces available to the outgoing ray might be totally 
>>>> shadowed to the return signal by secondary terrain features.
>>>>
>>>> But again, if I'm wrong here I'd appreciate someone correcting me with 
>>>> enough explanation that I can understand it.
>>>>
>>>> 73,
>>>> Dave   AB7E
>>>>
>>>>
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>>>>         
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