From: <hvanesce@comcast.net>
To: <rsgb_lf_group@blacksheep.org>
References: <15be6ff3416-71b7-20de5@webprd-a30.mail.aol.com> <3f469a46-15c4-97a9-f571-785c13e9ee70@abelian.org> <b1699965-7c4c-9dea-5dd9-4191480fd249@abelian.org> <02e701d2c7d9$b05ea8f0$111bfad0$@comcast.net> <fae6be9d-8fbd-1ad9-3779-7ba20f743948@abelian.org> <Pine.LNX.4.64.1705081004240.2565@plato.ucs.mun.ca> <d32d9c7a-9fdb-674a-d00a-534fe98f2b23@abelian.org>
In-Reply-To: <d32d9c7a-9fdb-674a-d00a-534fe98f2b23@abelian.org>
Date: Tue, 9 May 2017 13:55:05 -0400
Message-ID: <03b201d2c8ed$64c06360$2e412a20$@comcast.net>
MIME-Version: 1.0
Thread-Index: AQK0Ud8o3Zloh7Exq4f2Rpd7en6ZrwFMNc+8AVuGaeYCtLmPbgD+x2U8ATrt814Ayef3yJ/mGEoA
Content-Language: en-us
Subject: RE: LF: NA VLF
Content-Type: multipart/mixed;
	boundary="----=_NextPart_000_03B3_01D2C8CB.DDAEC360"
Sender: owner-rsgb_lf_group@blacksheep.org
Precedence: bulk
Reply-To: rsgb_lf_group@blacksheep.org
Status: RO

This is a multipart message in MIME format.

------=_NextPart_000_03B3_01D2C8CB.DDAEC360
Content-Type: text/plain;
	charset="utf-8"
Content-Transfer-Encoding: quoted-printable

Paul,=20

Thanks for very good AoA validation of Joe's signal.

Not sure if Joe's antenna is pure vertical and remain intrigued by VLF =
AoA error with VLF TX antennas that have non-vertical E components due =
to (a) non-vertical slope of TX antenna or (b) infrastructure near TX =
antenna (or RX antenna).

I noticed that you used phase with Watson-Watt, and wondered if you used =
phase as in attached .png file [which presumes crossed loops and a =
second antenna (omni) for blanking to implement unambiguous Watson-Watt =
solution]; or if you used phase as part of the time dependent complex =
amplitude signal of a center antenna for a four-element (e.g. Adcock) =
array.  [asking because I'm very unfamiliar with Watson-Watt particulars =
and have not seen a Watson-Watt reference to a phase term used with a =
single (2-element) crossed loop except in the above/attached context =
which presumes an omni (2nd antenna, in addition to crossed loops) for =
blanking]

The following describes in agonizingly long form why the above question =
(how phase is used in your Watson-Watt calculation of the bearing of =
Joe's signal) is related to my interest in Stefan's experiments at 970 =
Hz and 2970 Hz:
In recent spare time I measured VLF phase from distant sources with a =
rotating single-axis air-core VLF loop in various proximities to various =
familiar infrastructure elements including large/small metal items, =
vehicles, water, buried utility conductors, and buildings (interior and =
exterior), and phase effects of loop rotation have been small except =
with unusually close proximity, and still well-behaved albeit larger =
phase variation with loop rotation in unusually close proximity to =
large/long conductors (for example, vehicles or very long conductors). =
These results are (directly or indirectly) not consistent with reports =
of large AoA errors with (in some cases) amplitude-based and (in other =
cases) phase-sensitive VLF AoA measurements (including Tkalcevic =
"...1400 km distant" and Horner "Accuracy of Location of Sources..."). =
Tkalcevic makes an interesting case for AoA error given horizontal =
components from the VLF TX, and some AoA elevation-angle sensitivity at =
the RX is indirectly implied in Tkalcevic and corroborated in a =
different context in Horner; but some other examples which include =
sensitivity of phase to small changes in loop orientation or loop =
position leave me wondering about the RX antenna cables etc. in those =
high-sensitivity cases, because I haven't observed much phase =
sensitivity to small changes in position or orientation of a single-axis =
air-core loop.

Much of my interest in the phase aspect of your Watson-Watt AoA =
measurement of Joe's signal is related to Stefan's 970 Hz and 2970 Hz =
experiments, wherein the high elevation angles of experiments at =
sub-wavelength distances, and a modal particularity at 2970 Hz,  may =
exacerbate the effects (on AoA and near-threshold amplitude) of any =
horizontal components from the TX antenna. So, given the good AoA result =
with your phase-included Watson-Watt calculation of the bearing of Joe's =
signal, any basic description (a few words) on how you used phase would =
be helpful and appreciated, as it might enlighten potential phase =
considerations in Stefan's 970 Hz and 2970 experiments (and AoA in the =
6.95 KHz and 8.27 kHz experiments).     =20

Thanks!

Jim AA5BW
=20

-----Original Message-----
From: owner-rsgb_lf_group@blacksheep.org =
[mailto:owner-rsgb_lf_group@blacksheep.org] On Behalf Of Paul Nicholson
Sent: Monday, May 8, 2017 11:46 AM
To: rsgb_lf_group@blacksheep.org
Subject: Re: LF: NA VLF


Watson-Watt calculation from the antenna amplitudes and phases of the =
overnight signal gives 244 degrees which is reasonable given the =
background noise from the south west (pulling the apparent bearing =
southwards from the great circle 280 deg).

Without any calculation, I can see from the relative antenna phases that =
the signal is from the west: the E/W H-field is very obviously inverted =
(relative to the E-field) from its familiar polarity on European =
signals.

Joe wrote:

 > The carrier was generated with an undisciplined 10 MHz DOCXO  > =
clocking an ad9851. As Markus points out, the maths puts it  > high by =
92.5 uHz.

Overnight signal peaks at 8270.0070625 Hz +/- 0.5 uHz.
Therefore about 3.6 ppb low of the DDS nominal frequency of =
8270.0070925...

If I align the FT bins with that frequency, the overnight signal becomes =
a sharp line -

  http://abelian.org/vlf/tmp/170508e.gif

with a respectable S/N of 13.9 dB in 46.296 uHz.

I'm now confident that this little peak in the spectrum is 10uW from =
VO1NA.  Distance is 3545 km.

The signal amounts to about 2.6 electrons on the E-field probe.
How's that for a signal report Joe?

Also getting a bit of a signal visible at Forest, Virginia.
Not a very significant peak but it has the same offset.
Only visible on the overnight signal, nothing yet on the daytime.  =
Distance to Forest is 2442 km so that's very good for a land path.

  http://abelian.org/vlf/tmp/170508d.gif

Forest is E-field only so no rejection of the South American nighttime =
sferics.

--
Paul Nicholson
--

------=_NextPart_000_03B3_01D2C8CB.DDAEC360
Content-Type: image/png;
	name="Watson-Watt DF Solution with Correction for  ''DF-Solution-Ellipticity g....png"
Content-Transfer-Encoding: base64
Content-Disposition: attachment;
	filename="Watson-Watt DF Solution with Correction for  ''DF-Solution-Ellipticity g....png"

iVBORw0KGgoAAAANSUhEUgAAApEAAAB9CAIAAAB1UK9MAAAAAXNSR0IArs4c6QAAAARnQU1BAACx
jwv8YQUAAAAJcEhZcwAADsMAAA7DAcdvqGQAACkQSURBVHhe7Z19QFP1/scPc167QZDd6Da0NPEq
gg+lYmqYI2hYml6p4ROgYSlCV8UHjLIYalniQ6iQj2iKoKBolikEiT8RSdQUAYGkNIGVdFVgVF7H
/J2H74Bt5+yJ7eyc7fP6ozxftn2/O/ue7/v78HlwevDgAQYAAAAAAOcRoP8DAAAAAMBtQLMBAAAA
gB+AZgMAAAAAPwDNBgAAAAB+AJoNAAAAAPwANBsAAAAA+AFoNgAAAADwA9BsAAAAAOAHoNkAAAAA
wA9AswEAAACAH4BmAwAA8BsnEnTBCuzXCFCAZgMAAAAAPwDNBgAAMAf215rs1whwDdBsjtBSX5go
21RUrkLXgM1oLjgik606U69E1wAAAFwBcnHaHlVdxtaZR8s2bkn2dkNFgI1pqS9aMGN9YPyuEPEj
MK8F6KGWvGwOoUw1cqclgLUBzbYtSkXF4tBAF0lJfFSPv6EygBPATwMYADQb5IN9YA1hQ0AVuIzQ
xXtdWp6iyHNudEUjKgMAALApoNm2ghDsyKFNPfJiQbC5CiHbW07dyxKvTan7HyoDAACwHaDZNkKR
tVn8/a9frUqCM2xOI3R5fvsPm3MWLcvIbwb7QPtGfvWIbPtCDyc1XcMTP/jcaLNQVUn2TBcnp+H+
ub+jEsPUfLfEzclpQsj3d1GBhVDVymbj38PjvZRGozttY8oy/C3+G7IU0M+5zQPABtws+ai3++ri
W+gS4Dat5w6FusLvZc805WUtEKExUQtxXHzFXfQyTai/o4sH9xtzA/CPEC7Nr0clhribHIu/QbLz
ZCsqMIhmje3olF/LX+yKYcPEOQ2owABU40WibVfvoxID6NTII+43l23JSPDu8HsP9E74YmVhnZHf
3baAZrPP/ebiaX7Cd5PvGv2kAram9WqUBJNGXf0TXQP2BD4nC3cmhm5xbNSxq+qZWf3VY1FL/YRk
+frMZpqnlfhTR91qTl+Dv14UZ9yjTcnkwMGZ142XCu0a1eiUE4OM2IQJBKnxouj4m/dQgSF0auQN
rTfjpaLF6nnY/eby9Z9MJX99TOS+JKeM86MyaDbrtObt8O9m/HwW4AY3Sz7qKYw4dBkmWvaGovaA
L7HkohPm1tqkdwnZpl+AkgN9xyG0sWqLJ75oM0qGqYmCsQKP0KkRQVPemrczAJ9AGCXDuIxFiEzZ
IeCxZt86t8pTe/uh+dh2JNs8mJfDeTbLKJvyV0eejlke0o+cwAN8oefQ4Ikvpe7fWv0XKgDsA1Vx
zrYf5NgwcVyY1EV7PBT0mPVmaC8Mkzf8WN+AyvTg2ndskAQrK92RX2joUFhVvXvrnhZhaOBkN+sM
wgJfP2kvTJ697fhPhqIDNV07lpYqH+YXOJjheMCucHJqvd3YonFPXF6NWLt5HS7b4lHinly3CAbN
ZhfVD3l7StxTZs6x0oMKWA2B16Jli3O2pRbJUQFgFzRXVVUoMZFE+vxjqESDh5/s0xtXMuXl61VG
2GYJ+s2ai6+ec09kGZjbNV07lZOLjZ/8+lCryaRr3/GhESK5/GCRgQmEqqQw6wYmnhE1mvYO2Bnu
Q4NfdZ/+QXiRvKNs45OzRRmKBydjdOdtXAOUg1WIyXVa0OQxvWGRbSocMIXtNTzIF9vw7WHjGwBw
H4H3qDnx8XETxuoNeCcc0ru/MYOl4LnA0JEirPDw6ev6VreUTEqCo3wfRSVWQNAzbMZ0V4MTCFV1
9oF8d9H0VyZbXK6aC75JjYwd0xUZ4jsF+W86nFXL6Dapqs3a/0XIzHbL/UE+K/bojSKsVJRv3b/C
p/0d/sui9xbrN/UXeK3Zc+y/8hckQ1YcL+CjMwjaIwfYgDzuMsVMFOiA1U1hDXM3ealwkNENYIf7
zRXxpKkUmMhZA329iH4IpazBGczWSCgDMXN6Jn2NjOWo8XpdHghDDTM6D0ONbSjqCmeF0+8hSAJy
a3W+uKIu51UxeoEWIveYgyebdG9m/dUU+s18YdjuPJrXd+R+c/l8onmicOnXlfzyBwHNZpMLB2d0
6/ZpyV/oEjAJq5vCGgHxmSaZ6liX1rJzKWL1SAeabQX0WopR9x1dtENZoumZXJrfMxlqZFZQZInG
bOlGzjDMMK5krJEAPaqkD1VacpnaU661rHivlFRKre/eJtj46zMz2/7UWnZ271zKdF+nheoqcNHd
W6w29m4zAjduPqR28BOGrUsqp3fn4yCg2SzCxVUar7CyKawR/FV/YCgndkrahjNR+LQzF3OJHQjQ
bItDmZQzCgChMnS6RXoGMvc9SibN6plMNTKVG5pAUAtx4/eu2mGuUe3zRr+eRgvcjl+felQZXt9m
uq9ljc/4vdCnGX5IFXWn1+zdTc4hCCTijDY3P04Dms0e94ulnjCwdgrqQTVmEm1wrWMm5HA8N97G
0RfQfXCP2U0uSqhTA+haFgZN+5jXoNRgjy46om91a75M4jDVyFSOo3cCQa34TfM3o2CuEU10mDfk
tSpVd2bG16uX1BoyzNznDW4tPKiv/GpamLCfeg+gbY8d/LMBDcglmmdipm1He55j7CSaem71nSma
C7FZ4ictbkaXtqHx6q7ZHaJ/gGZbAbQrrm9Thxjn6XWLEmZaR23yxzK3ZzLVyFROQmkk3RchOrPQ
vAB/jDVSj56+3qg5nzb8etrXqI/q6Y+6mWm9nLeYGEE01/Rtsm1aiBubAJrNGrdKVrtj4YfK0CVg
HkbpE7m2MMfGxzCtedtfdPbO/AVdcgLQbEuDRvbx0uI7qIQOUrYYhlCGuKSd7JlMNTKVkyB506mU
0k4zuw1jjdQXN37tbtTr6bbN0G+EIxFvTIs/XGHEzIN5D6AtFp5Zuw5sAr5erHHzRllTN5+n+6JL
wDwIhysRVph15DJzjIvai9lHczE/q/jUCXr38e1S8/Nv99A1YH/IK7eGha0bFJC7Nf15c32x3IKC
aPysKLds6/RMRoSuI4LDdB21kb/ZOGm/h1CJJVDJyy/JMWxQX2+9vnNtmPL6+qobv7f7fQkGB6y9
UHH03U+mnimYH5ow2fsJKq3LumOMHlyNX2xcWCLH/KT/HuKOitQInpNETSR24OWZybl1VBk3Ac1m
C9Wdu/XYY91duqBrwDyErgFxqwIaGjZ+mcXkJ914NGtzrTBi6lyLDkZqXF0f73av/Jdr6BKwM+SV
n497KepJ79zUEy/36ISyeorfCpVoOWqTMmm1nsmMW+jseE+tCQTplu01+K0APx6LgGjAa6uXZSge
NJ08snb5tgUi5d7YVUsm+Pd/my7nvbLpXPZefH7gOULcV/f+C128/EYQ6/Yajs/IQbPZQnX7v0VY
90edWZxf2ykoKGNu1ve3UYkG1JM5zG/Ki4Ot0ru7uXZ3Rf8E7A1LCTaBoF/wlIAGefrxw+qQPqRM
DrFaz9QDFVS14+4UueIXvTZX8pRlRySByOdZXPmuXKswLlyJca9vqP0Rb7hH/16P07f2EfGkxSvf
/qweeT/KU1MCP9UJvtTacueOviCGbiNHvNQN/ZvDgGYDvIMagC4U5pXSPYE3zueUyBlDUXaebo90
d8PO/FShL8wVwEcsKdgEgpFBc54TFexLKaImlzUFO9Jyrdgz9UEGVW1q351qTNuZUGOVaOeP9O/v
LcTk18rlTPHOmqq39nVyComuJBf9hl+PT3auX7/0B4b18X7aRV1SXrRJJjtyVfuATODjO+/rtAO+
Ipo5/b3mO7qLb108PZ/5J5elGzSbLW6Vl98b5fN0d3QJdAIy9LerMi17q24cxMacE0l/uM+fJIWI
7oAJWFqwCZx7BM0KE6knl7btmVRQVaRk1F6UdaKdU9tg+ixOyEWzqK+PiMzGgV6fxRzJv6XuYNzy
fKXG0XvzqS9XJyR8fpYuTCk+q3bVPvwmQKHjsZpr5bfoZtyNxee+u4dhQ8WDtA+7OQWMawAfIS3R
aHIWNVXvX5+onExjYwIATKhK85cMG2BhwSYhLdGUaXmHGwmZTLNlz6Qs0YgJxG1qL8pa0c6pbTB5
Q9yH076t09HGlvrc+SvXOXeYu7j2m7ooVoQpExeMy7qhq6Wq2sQPCcOx8dIVweI2vUImftkpJXdR
STu/VpdUyWk20qk7gP/j/Kky3XcpFZWF5+Qi99WLZV7sWhuYCrIfB6xNXXw4Jra1X68dQetLQ/lx
Gg6B1Bk46GcPvl6dgApgKYqIMj16pRFDKBUPZODgzLNErLpO90ymGpnKNblJhBYXRcdf3r1UKOyk
J6TeGtvdnTVilzadzNlIhtoVy5JrOzqLd4xdqvH6EyhOGY13FgrVoBEw/H5zWfI2Mhwpgwd8W650
rQagFNpGBCq3PaDZbAGabWFovEtJ51drR0UAzbYnKN9lY6C5vdQf0AUT1DxytNiv0zKJw1QjU7kW
lHf4Y/0eE3W6txiqkTGBB8P0qL4yI4CUbV0Gen98mi48GXNaEXFcfAXTDEzdMHHs/LNUOEMqSrmr
yeFZbATsjQM8hT1TWAAwH+q8tqig0H3p8pB+tu2ZlCn77erbDUsjl1t3B1jkNe9CddmWDgG9yTXx
7tyTVduTvd1QSTui/lPz8m9mZnR8PREsJSO5rLA8zs+HRqmcPSTH8LdkJni3v0McG7XjxMmjq2QD
dKugQA3L8P86a1QPMkvo0312/P3PKcXl618XG+dTbmOQdgPWBtbZFkcr51InUi+YAqyzAYQlhlAi
Z2WYsF/HzSFi11cYQJuygqlGpnJToLbxtQKhE4V+wnm6cU8tUSNgDrDOZoufC85gl87SWEwA5sKa
KawG9+pOVmK/nDoLgdAAC+Ds8cLm1fvcKqZ/uopyglCVHInb8NXKjzKnerFrrSZ08Y35T3ilpgvl
jXNZx4pj3pjbk7TxBjgAaDbAX1gzhQUA6+Hc440dJxYc+Sj+61LVf89/Ejzlb7vyYp+3gXk5OQnG
Nhxsd6Ek/NMC50SMtvI8GDAB0GyAz7hNlL7TU5mWvbG08ETSH6I3RvM5ECPgqAgGB8jWfXR1eqA0
Iib+tfcTJrAeKI2CCAy8ZUyq2oWypS5n94ax4y0bkBzoJCx2DUVG4hjyyN8/IaWOOeSNvfKM+AXs
2VGwCrQwPYcGT5TIszdJF6UpJ7OSeqFbD38v7Omxo3gQ5RDgDy7SyAQ/YXZJTcr85TbciBaMHBc5
uOEAmU1EVXw8scYvdmK7VzTAAdj6NVSl+bLF7z2zI+/ulUNPJy748OtSPcFlrY+qMjqImD4w4DEz
5Iu0VWfq6YLlANxCvymsqm73+mkuXWdnt/c3VUl2mNsTiw4xJv8BANZR1a6KeRUb9b6nZ1TiApr8
FqxBxG6LOfVZQt7vqurs/Zfm2CTSKqAPZItmXQhPdqFfPHJjb07/ZIir9+elRqQ7tRakn6JBTE+o
rgewG7cRpBVum10u1RXX0cVbMBKwGwcQ1DCBLjpD87Htwe54F22lwp7QxwMhYKqRqdwsiDYIl+45
EPOYHodyi9YImAALN53wfNfyFqCcGQJya2017iHNpk9vfr+5bEsGFa+HNju6efBUs5tOHt81LSCl
gkMKZTJtPfBPJscVU+CgZvMQe+hXltItUiMjDl2mhqLm9DV+wvZLTZhqZCo3D/WSRt8skKwQNNsG
OOhN16vZFPeby+eT3v0WWr7wUrOpKFGizsdvsjXU8mX61CGunY6SBprdeeykX5Gy1ckhlAjL1b4H
SULtDNEG/2KqkancXIidG/2hDixdI2AsYF3AhNDFe/7M6a6YVtZ6gJf0HB4dF1uVvv+fG5Je7wVR
0gDOIPKad/n+aVlUj3a7M0FP2c77VQzBv1iBcPHq5RfIEHwUsCmg2YADoCrJfidu19T4xb/FRG+7
wpAiEAAAHMrFa2F84OOoAOASoNkG0c3pRtFSX/jJ9oUeyNTcyalreOIHX+rkYO88qvLitMhYyk2O
YJDPin0p5TSWpcgYPii1QIWparOyNvn7E6/38NheqblPoFSUb92P/krivyx6b3GHTLRUUnqcrm6S
fDkml88ZgKr3eC+FypnfhlnN034XYah/OEs3GbZlkFdufWu6MDVv7YeyreOfmBcX/T1Eo+vYQ0iI
n+BbOlt6qjMQvUil0edDoiv/Qi9ByK8ekXV4IjyeWLRF0/nChH5lRvPwirTeRTySnxfRpVgGmFEc
3fdZqfsUCHXAVdAeuYNh1Hk2EX2X4TVU/j4aRO5LcuhS0Jh7nk1miEOfrQFd9iqUnnLb2VLqJJ5C
89Swtezsxx1C6nekPT8dlTKLDq27YU7zdl75JeldP7pZkCi6c9ZhtGgFTCYPtjtVkR2cZ7fZauhA
c2fazp6LyjQyNWnYebTW7lpH3xM6PhFG9ivzmnepliHLE5M9lz1BfVN0wQrs1whQWPmmt5YV723L
06KZG/XBrZLVZHi+8ENlqIQ99Gq2ou70mgyUK4ZOe6jUFDji2KhjbXH8668ei1pKSBFDLkgzNBtV
hN+3zMy2oaotB61u4ylRJLP+ucds73Cr2yAVi3gvmWBH7cbWqs6NozO66bUVMq954ulh+F3CG7C3
WD2UK+rOxH9CjviWHl6J0T9My0OBbLYwbHO6VgJdY+G9ZrcnHm7/CdoTD+tYHqE+QCZwlIg35tB4
P5KmzsR7w9YsP1KhfiLaflbdJ0JfvzKvee7BE/Fehzcg/gyVYBH/oLbBh+GRtCPwL4mDLliB/RoB
Cive9NZaajklUSeoIVQtxv15NIBSaWWZ9MDKqJ0Z9IKPGu3Z1Nugxgh8dKDJjo6+Mu1UwHTNphpJ
J2PUekUrA49aFOnfgqPeOdDN905ApZXVzuqjb2w1t3n0y1z0V+47GfNds6lfh3YySj6S2r0XdXhm
5btJTgQZdpionRj6z6TtV2Y3j7Yrqv8q2XlSt212BHkDQLMdAqvddDT11n72cFVbLJqDD9lq1bTN
GG1Ys2l1FwdNNZiaTY0ROnKFUzjWE3u056ab6NIwDMpHgvRSa82hX/bQsni8tPgOKtGCfLvmZxoc
W81oHtPQTwUGof9ALtFYEvkw1nVCjAJd8wx65aOg/U0NyB5aFjOGAaF9Ipj7ldnNYzrvoHod0+MM
AHzDSmYGtec3xsYWKjHRa3MlTxG7ZmoEPaJkh5u3rT1RcionF7+WjDM2AH29bCayLDGOmdnl6J3M
0D/J5J7e2I3RA96cXiTX8vJSVWcfyFcKGTPGt2ea6pDPzjxc+8299uDB+ZMSE603RX19RDTxilXV
u7fuacH0ZL56pH9/b6EyLe+wlpUZPeY2DxvgN+ifHbuEGvee/3LHf+aqG7/z37PunjxzGOqHRtHX
J+smequ1EQRE5N1/UP9xlJtpz75wSO/+NO9ounYsLVUuEk1/ZbIL7QcKXZ7qPwgz+okwt3nYoKFi
D7ow3WSvxuTXyuWOl+MAsEeso9mNR7M21+L/F4YGTtZ+9oQuvrNXFL+1JPUGLi8mJGLykH2BNNU4
vgj2Qe80FWeP0bJl27ev8UzPeGPTNg0BUypuVl3BRO7/8tCfKU95+XqVhaxVVbVZm2QyDTNvJ6cu
A1KIGQ8tg/p6P6J7T6mWM428JGYNlyY3j2FKgWEPP9mnN7Fgsge6iUIuoH5oFNfKpU+ht7JES31h
4rp1H3R0fHBycusfWYP+rg1Tn2+o/bGB2beCQOCVnIMvh9e8ZMqPa2rzmDu2oHfvZx9G/wYA/mPC
6Gw8Knn5JXJS3eVxV5oA84KxISsH15zDV1P6HnUb4zJ+UmgvTJ6b9f1tVELwx68/XdfwUdHl0eg1
+He/cq2i8ykomvMPLvTo8lTI/ISEafMLClCpeVAtNzzbMAHzmkc/pWAE3VW2QLVyDNQ4s0Af0Y5S
cVUWO+bRHmNilyxZNSepc/tBquvXL/2BYX28n3ZBJZ3FvOaZ3LHR3QEAvaDuwiWso9mNDeR82NPz
mX/qy1goknA4aQy17LPdVi0RBmSSFB+zCBvvvSsL1dawJIbP460Nx5sHMKCqXbUgICGxUEnYeK/d
027wT0AdGNsSjjcPAGyOVTTbEDfO55Tg82e6nXOuIW/4sb5DmBRKyI2wdTfjQE4DZVN+3Dt7Wgjr
9KpdmTNDl7/g0bkNCarlWl/HbCzePEbQ/WQLVCvHQI0zC/QRiJqCzzakygd6f15av2fpysVh0k6m
akY7zz9V/KJAJZ3C0s1jBt0dANAL6i5cwiqSKXBz1zcfbszJSW/CV+H9fP/F4fNLynZG62QaFeqj
MWWZh1PX2O86t+dITWuG+YWOD2A+nDYF2q+jiSo/NbArilNmAIs3D2AF6tETvRY9zYf5cNokDFsO
kvHvdIPx0WH55gGAvWEdzRb5PEuocU3Nz7/do4raUTady95LCFpNdcmPJgibNezG9aL+FhqQhXJ5
+vHDClplo76dRY+NaaAOp01D0C94SoAQy81OKWGI3NlcVVWh1GekZizmNM++4LDduB7Q4bRJuPYd
GyTB9D0R5ATOEpYr5jQPAOwNq2g25jZR+g4Rb+tefulZrQdZdergp6fwJZp4Y8K0Dd+q3YqaKhet
y9I/D2fPblwTLWsy6qsVJEYn5NHEMVZkbV1xSi4KnvNKn86NUGj5Un6xRndloarbvSvtBrowHoGv
n7QXhh3LejcppU7H70VVmr9y1Rr5+MmvDzVi88MKzbMruGo3jhyfSgsqm1BJOy31eev35ptsvIHm
ggxPhKouZTX+RIhnRI02wnLFCs0DADvDOpqN9RwaPpuItKC9qmupOxi3PF8pjHhv17wXXhyRkpxR
3oCpFBUfxGa5ulupLWZD79nZc/j8NWv8GhrWBj07q2NSEHnlN9Gxr4THFrq7zw+L7uw5nGvf8aER
InlD3Fvijik3yNQa705d/EkhMXiZ6FHm2m/GRiIoVYEs2vftDhkXlIrylO2LxgWuw9yXzI+n8d7G
V1EHtmnIvDWaB1gfwcigOc+J8Hnb5AUdU26QqTUmzAj6hjT+N9HuUjA2ZGNUON4Z6J4IsjO8FPBe
CJ33tk6/skbzAMDOQBN9y6MO9N8eAbS+MiOAjAlMRf1U1B7wVS/pjLDqsijIsNlAdCSmyFz3myvi
ydDiujDnCDE5DpqijiHnASaKiCr9PyJclFZoKirkk/4wjYxZPeijsbaFklbTFmTN4s3TE3ONU/A9
DtrlvMXqx04TvAOUnp0r0f4JjPldmLN6YIRBmU4AYOZ+ZfnmUU+xbeItWpfWsnMpZGx/As2w/4D9
Yr21rdDFO2nXucyM1X/+/W2vJ4hDOw+vrcO895y9tHsmabjk3OONXdlEjilc53Z/O9urs8ddlqfX
8CB8VnGh8MD/lWqsF4UuA2RrTl0q2rGUymxBInKP+Xxl4fn6RImFMtU7e0i+/KpsSwaVcoNCHBu1
48TJqu3JPuYGdXJ59a2MHysOrVQnQSGgUjvU76F+F01cpPO2runwNduwTvMAayMYHLD2QsXheCrl
BgnRdeMPEx3A59EuqMw0iIf9i6qTRzd3fCKonECF5ZGDaGw7mPqVVZpnj6hKst98fkTmqLEVRCqg
1trFs6++GRKWnEVvVQDYD074743+CViVM+K+fpfvbbpykzzpB3hL0/l5It+dL8Xc+Wo9/YYFAFgd
VWX0KwO+/1/OibbgwbolgF1ivXU2AAAAYA2UiuvCf+xaHT+q3bJP4Or+JHb3VuOf6NohaKk/uyh2
DApK2TU8UVZUb/e2DqDZAD9Q1cpmezg5ebyXYlQKExLSV97Jf4Mdbhg2F3yTGtk2Wjk5DfJZsWfV
GfsfsDgCddPRBSto1ih0HZeUPutlcYfDLFVTw6/YUDHdQYSd0lKX6T98dHlJ9BXCYKK17PSA3dte
mDP9ewZfVnsBNBvgB4KeYTOmu+pEgNcD8pVnTjnFU8iI3K++PH721kTSPp+krCJ+5gd+wz0WHWoz
twYcCFXJkdVffBcxda6RaRLtAFVxzrYfGpYuS5/qRcxTBD4jl21cFZBz+NBF+w4OAZoN8IVeI6Tj
xcZndaSCtVnAV55bqCNyu7vHbE8uI+yPCJpO5hDGgPKGDf8JSS6BaGEORkvdwegp6eHvJ0wY7Dgj
evPNhic+T5o5rN3NQNDd7ckuyt/uGjmp5yvomQesTV18OCaWFjejS8AMWvMIFzJRdLwRPi2tN+Mj
RJhwaX49KrAUf9UfGIp5JmbaxCOt9dyhcGfClHp1sY4DVZv3nT36NXEMcuxkdfBkrpFwtAsTBgTk
1rLcJZmbZC0M1Niat8O/G+edRTsLrLMB/kCFcpNnbzv+k6GD26Zrx9JS5cP8AgfTe/vyE1X17q17
WjDRLNk8X51zS2ePwEVh+JzGYhk7AB5A7LsMOXE5feeJl3vY036S6RABuyJPR9jZvpouoNkAj0Dx
1+QHiwr1H9qqSgqzbmBGhszkDSj5CmNCPJRlCyKFOQqquo1xEzYUbzqYJ+3l2IKNz10SP5zR6J2+
bLnVcsFxBNBstvi54Ax26SxTfg7AOJAlWu6JrOq/UBEdqursA/nu1rE+u1d3shL75dRZnew3LCDw
kM6Jj4+fRBrdMGKJhBwA11EqKhbM6p38dWRhAW3UGodC8U3q0g1fLdyU/rr9z11AswF+QQWnK8w6
cpnZ0qr2YvbRXMxv8pje9vUAC1185spkMkPZyvt4P+2C/gnYJ7hgL44acuLCpoMg2ERIuOiQeQ/v
yvvUUjEoOQ1oNsAvhK4BcasCGho2fpnF5KjdeDRrc63QofxeSFS1e/elNwmXRi73cqwv7ni0NpcV
7lVWV8wbTIaFbuehNedtsQFkO1Sl+bGTpjxIPvHZvx3EZh40G+AbyBKNyVGbcsse5jflRQfye8FR
lRx5f22qXDonYrQ9md3xAtYD/jAme/0rdng39Bp2wRe7M12cnIb75/6OSgxT890SNyenCSFmR0FR
fLNjxuhxt1afSA6jyZVgp4BmA7zDte/YIAmjozblli2RPm9P1mcGITx039nzzODMxCRYZLMOBPzB
BM8Fho4kMioZGz4Bn7Xk5KQ3YZLgKJr8v0aAC/bbIfO6JjuUYOOAZgP8Q+C1aNliV2Va9tZanQRi
jTknkv5wnz9JSmtZbacQRrMLSxoiEvY6gA0OJ4GAP0LXUbNj/ITKtLzDRm02ULOWgYPfCvAz70lt
Ond6f4ty76xA1y7oYICi79osu/aaAM0G+AhpiUbjqN1UvX99onKy9N9DHMcwR1W38f1pH6X2X5+e
5ChHetxD6OI7OywAVyy6eaQOyPIgNHiuPTkmuYyfFNoLk3+1NfemYdFU/ZCXViwXvTZX8pSZsxYP
2RfoQECTa0ukdj1vhUcc4CNC1xHBYbqO2pRbtmSc1HGszxTfpC557xPh8uS0aKldhVXnGw4f8Ed9
aFVWuiPfQPgE/EklowMxRhoAmIH7BfATt9DZ8Z5ajtqkW7aX+bttvIM80nv716XJaXFRPew8lATn
cfCAPwSCfrPmhjsbDJ9AzFpO5eRi4ye/PhTsJU0FNJstnJ3/jrXea3YsRwxrQk3qOzpqkwNBZ3bb
+AUINsfgQMAfW4Ms0QoPn76ub7MB7YeZa33m2IBms8XDzt0w5T2FQ2Wkty7kpL6p3VG7MW1nQo31
d9uaf731P+yhx2x8EAmCzUUcOeAPhfrQKv34YUYfNqWiZOdefNbyxmhH2Q+zKHDP2KLv3MgXBT2f
dUOXQOehJvXIwYYyQ2Vht+1vT/p2xyZPCuqKrm0ACDZHgYA/6kOrgn0pRUxubzfOZR0rsLskuawB
ms0Wgu7dn1LW/PwbbI5bDmpSTzjY3KacZ9jYbbt5o6ypm8/TfdEl2xBpIV6ZBILNUSDgj4HwCcgt
295s5lkENJs1nuo10PVe+S/X0CVgCdwmSt/pqUzL3lhaeCLpDzZ225Q1P51sfay7Sxd0zSZKxVXZ
u1MXr31mR97RD0CwOQkE/MEE/YKnEG5vtI7a6lmLvdnMswdoNmu49ujzFPbr3Qb9NqWAafQcGjxR
Is/eJF2UppzMxhnhrfKy+iE2Spx149zODYmFSpo4EloEpRZAN7MREPAHE4x9Y9lYEb2jNjlrsUeb
edYAzWaNbu69PD1zzxX8ajjeAGA85KS+4Xb17QZWcmMob1acwYaPHQj2rgATEPCHOrSicdRWVa7/
dJ2zfdrMswXcOPYQeomDhUWnyiCFtkURBETk3X/w4MH9NS/p7LYpFd9P99fOW0AUjukaJTMiXpUO
TT9dulgjGSF+0ibWM54vrW2kYj0ZICdCDE+2zYCAPxjmFhRE4/ZGuWXbq808S8CTzSJuI0e+8VPV
jd9hoc0WQhffmP+EV2oeLhJmq8Uxb5hlAtNQ+2ODcEjv/vDcAHrgdMCfi4dCH0JnKEYRKas3Y8Ty
FL8VKtFy1CZnLQ6YJNeywNjDJn0Hip80HCYJsCCkPxi24WD74SJxphhoZsJK4r29wHwGMASXA/4M
fT3tL7QfYxRbZB7mNJk6tOroqE3OWoY4XJJcSwM3j03IJ9lwYD/AghAus1vGpKoPF1vqcnZvGDve
rP1JwuR1AzbewbJ8AuZgo4A/XEIwMmjOc6J2R+2agh1puQ6XJNfygGazCj73DPE/qjdMEmBpBCPH
RQ5uOEBub6iKjyfW+MVONOu4lzB5xWJehqwGgGFsE/CHUzj3CJpFhU8gTqYcMkmuNYDbxy6CsdI4
vzsfHGEMkwRYHmLsiDn1WULe76rq7P2X5pg30yfyJ5q9qQ44HDYJ+MMxSEs00lGbmLWkOViSXCsB
ms0y1FbthlWZ1WCJxh5uE0MS7hTmHT+4bX9Fysw55sz0ay/u2bknfAaYzwDGwn7AH87Ra4R0vJhw
1D7/PTFrcaQkuVbD6cGDB+ifAEsom74d949X+73/82cyiN7HFqrK6FcGpORi0qire5JNd+NW1cre
fubKQ1f2mfFewP5wcnLC/2tw8CR73eHz/e51qw6YbFbHa8PIGtnEqCap8lMl42b/6ed3rrAm5cov
b3t1xgSPgzeBfWCdzT74Unv1gan7UtJ+gFNt1qCiUwnNi7uiKjkSt+GrlbEyEGzAFPQG/LF48ABO
QgVgLyoodF+6PKSfjmC31J95M7xr/yFZN9r2HfH58eyugf77K2F4pAefswDs01qbtMT9+YDcWiIa
CMACd5OXCgeJcxrQpQkoag/4dpuxO6+pFRUADo9lBs/Wc4fCnYVL8+vRNc61fGJm2bEEYZkaLYqF
mkQ8X0LhvPib94gr/J6EurqvLr5F/k0LC9XIb2Bv3FYoFRWLI4c2uV38LNkbEnRam5a6TP/e2yK/
zTU1QBi+7gnv85qn7AfIyQG0Y6FNWp1jssaU2MfzW+iOYPi6N24MqtL82HHj7my+sH3s/z55dlRN
0oXtwbQ+3LA3jgN747ZC6OK9bstF17rANSl19rIPxlkUR/d9Vuo+xVQjIHJeNbabtGAJCDZgBSwY
PIDPCAYHyNZ9dHV6oDQiJv619xMmQNAVPcA627YQqhAa6CIpiQdV4Bjw0wCMWG7B12EHCMvf8XzI
vo+qTkoeR3/sgD2vswmILQcvSQW27Ts9dmqwzsaB+YxtwVfbSdklA51mzoyuaERlgO1pqS+KfO3D
UQurVoJgA9bEMsED+I6qdlXMq9io9z09oxIXwEioF1hnc4SW+sKUbT+8II0e7QPzKNvSXHBkXUHZ
y3PefcGsOMuAA2DRBV/t+Y9Hjbr78T7lwoUDzjCtMu15na34ZsfMWZumlvwg7XLx41G+3y7K/GqB
lC5ZJ6yzcUCzAQAATMOy4mFM8AD71WxyytJmd6bISHwl/L1+B2jN0ECzcUCzAQAATMPS4lHz3ZKh
QYLDv9DkgEfYqWbLKz8fNyh9ctL+99oOocj4RRnFK3ZmLvPT2nQEzcYBzQYAADANC4sH4eK1peTY
d7TWZxR2qtmmAZqNA2enAAAANoRy8VoYH8go2ADQBmg2AACA7TAzeADgoMDeOAAAgGnAtjAO3ASb
AFM7AAAAwGRw7WRZPtmvkYOAZgMAAAAAPwDNBgAAAAB+AOfZAAAAAMAPYJ0NAAAAAPwANBsAAAAA
+AFoNgAAAADwA9BsAAAAAOAHoNkAAAAAwA9AswEAAACAH4BmAwAAAAA/AM0GAAAAAD6AYf8PT+3+
AgUeltQAAAAASUVORK5CYII=

------=_NextPart_000_03B3_01D2C8CB.DDAEC360--