Return-Path: Received: from post.thorcom.com (post.thorcom.com [195.171.43.25]) by klubnl.pl (8.14.4/8.14.4/Debian-8+deb8u2) with ESMTP id v9PLAeGR024546 for ; Wed, 25 Oct 2017 23:10:41 +0200 Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1e7Sr6-0004cG-Sx for rs_out_1@blacksheep.org; Wed, 25 Oct 2017 22:04:52 +0100 Received: from [195.171.43.32] (helo=relay1.thorcom.net) by post.thorcom.com with esmtp (Exim 4.14) id 1e7Sr6-0004c7-Ce for rsgb_lf_group@blacksheep.org; Wed, 25 Oct 2017 22:04:52 +0100 Received: from omr-a008e.mx.aol.com ([204.29.186.51]) by relay1.thorcom.net with esmtps (TLSv1:DHE-RSA-AES256-SHA:256) (Exim 4.89) (envelope-from ) id 1e7Sr1-0005EJ-Qu for rsgb_lf_group@blacksheep.org; Wed, 25 Oct 2017 22:04:51 +0100 Received: from mtaomg-aaf01.mx.aol.com (mtaomg-aaf01.mx.aol.com [172.26.127.99]) by omr-a008e.mx.aol.com (Outbound Mail Relay) with ESMTP id 0A0EF3800048 for ; Wed, 25 Oct 2017 17:04:45 -0400 (EDT) Received: from core-ace10b.mail.aol.com (core-ace10.mail.aol.com [172.27.23.10]) by mtaomg-aaf01.mx.aol.com (OMAG/Core Interface) with ESMTP id D02F538000085 for ; Wed, 25 Oct 2017 17:04:42 -0400 (EDT) Received: from 188.192.44.165 by webjas-vac031.srv.aolmail.net (10.96.19.34) with HTTP (WebMailUI); Wed, 25 Oct 2017 17:04:42 -0400 Date: Wed, 25 Oct 2017 17:04:42 -0400 From: Markus Vester To: rsgb_lf_group@blacksheep.org Message-Id: <15f5559fe36-c0b-25e91@webjas-vac031.srv.aolmail.net> In-Reply-To: <59EFB304.7030801@posteo.de> MIME-Version: 1.0 X-MB-Message-Source: WebUI X-MB-Message-Type: User X-Mailer: JAS STD X-Originating-IP: [188.192.44.165] x-aol-global-disposition: G X-AOL-VSS-INFO: 5800.7501/122424 X-AOL-VSS-CODE: clean DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=mx.aol.com; s=20150623; t=1508965485; bh=DLVpQydYAX2ND56IjCms3Vi9T2E4uN0h/SfYGn+Szmk=; h=From:To:Subject:Message-Id:Date:MIME-Version:Content-Type; b=5ZShYaeID1XoGd6eX3Pg5d5Gxb/fjU6fwiT5ybGCqgCGrXmrrBX0ks21rDvG7l7q6 h2ayBzkU5XeLPxyvIqP5Oc4a4RrzY1DlQInBT1VhOD40t6NJok+jZT4YED6s6PlsxD DhIT5ZRrPjHcayxvVnflOs0y/0FgdGVcT6aQBJWw= x-aol-sid: 3039ac1a7f6359f0fc6a0b2a X-Spam-Score: 0.0 (/) X-Spam-Report: Spam detection software, running on the system "relay1.thorcom.net", has NOT identified this incoming email as spam. The original message has been attached to this so you can view it or label similar future email. If you have any questions, see the administrator of that system for details. Content preview: Hi Stefan, attached is the result of stacking three days at DL0AO (also appended to table below). Indeed the daytime carrier was well received, with no indication of attenuation towards the afternoon. Daytime SNR was around 15 dB in 1.5 * 424 uHz, equivalent to -17 dBHz. Nighttime Eb/N0 was ~ 6 dB for 5.7 bits in 8.9 hours which is 6+7.5-45 = -31.5 dBHz, or 14.5 dB less SNR than during the day. On average, nocturnal noise was approximately 12 dB stronger, so we end up with a 2.5 dB stronger daytime signal (albeit this small difference is probably within uncertainties). Anyhow this doesn't look like a daytime 1.5 lambda minimum at all. [...] Content analysis details: (0.0 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- 0.0 FREEMAIL_FROM Sender email is commonly abused enduser mail provider (markusvester[at]aol.com) -0.0 RP_MATCHES_RCVD Envelope sender domain matches handover relay domain 0.0 HTML_MESSAGE BODY: HTML included in message 0.0 T_DKIM_INVALID DKIM-Signature header exists but is not valid X-Scan-Signature: 1c1810732145343628345049e9818a40 Subject: Re: VLF: 300 mA on 5170 Hz Content-Type: multipart/mixed; boundary="----=_Part_190913_166367846.1508965482038" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.5 required=5.0 tests=HTML_20_30,HTML_MESSAGE autolearn=no version=2.63 X-SA-Exim-Scanned: Yes Sender: owner-rsgb_lf_group@blacksheep.org Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group X-SA-Exim-Rcpt-To: rs_out_1@blacksheep.org X-SA-Exim-Scanned: No; SAEximRunCond expanded to false ------=_Part_190913_166367846.1508965482038 Content-Type: multipart/alternative; boundary="----=_Part_190912_505678330.1508965482038" ------=_Part_190912_505678330.1508965482038 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: quoted-printable Hi Stefan, attached is the result of stacking three days at DL0AO (also appended to ta= ble below). Indeed the daytime carrier was well received, with no indication of attenua= tion towards the afternoon. Daytime SNR was around 15 dB in 1.5 * 424 uHz, = equivalent to -17 dBHz. Nighttime Eb/N0 was ~ 6 dB for 5.7 bits in 8.9 hour= s which is 6+7.5-45 =3D -31.5 dBHz, or 14.5 dB less SNR than during the day= . On average, nocturnal noise was approximately 12 dB stronger, so we end u= p with a 2.5 dB stronger daytime signal (albeit this small difference is pr= obably within uncertainties). Anyhow this doesn't look like a daytime 1.5 l= ambda minimum at all. Now https://en.wikipedia.org/wiki/Earth%E2%80%93ionosphere_waveguide https://de.wikipedia.org/wiki/Ionosph%C3%A4rischer_Wellenleiter left me confused. The article basically says that for small ranges the simp= le one-hop ray theory is adequate. But it also states that at VLF freequenc= ies, the bottom of the ionosphere should act as a magnetic (i.e. high-imped= ance) wall, inducing a reflection with 180=C2=B0 phase shift. This is the o= pposite of what I had thought - shouldn't the conductivity from the free el= ectrons rather resemble a metal-like electric boundary, like it undisputedl= y does at ELF frequencies? Reversing boundaries would swap minima and maxim= a, but in this case neither seems to fit our observation. Best 73, Markus (DF6NM) -----Urspr=C3=BCngliche Mitteilung-----=20 Von: DK7FC An: rsgb_lf_group Verschickt: Di, 24. Okt 2017 23:41 Betreff: Re: VLF: 300 mA on 5170 Hz Hi Markus,=20 Thanks for the results. So the night/day SNR ratio looks much better than = on 6.47 kHz for us. Am 18.10.2017 11:12, schrieb DK7FC:=20 Am 17.10.2017 22:55, schrieb Markus Vester:=20 As a crude first Approximation to the model, we might look only at groundwa= ve and single-hop skywave. For 230 km range, the geometrical path differenc= e would be 63.3 km (1.37 lambda) for 90 km reflection height (night), and 4= 0.3 km (0.87 lambda) for 70 km (day). For 5170 Hz it is 1.09 lambda during the nights and 1.44 lambda during the= days. That's even closer to 1 lambda or 1.5 lambda, so here we would expec= t an even stronger experessed day/night difference, if this propagation mod= el is reasonable over that distance. We will check that! ...now, can you say something about the daytime / nighttime levels (not SN= R). Actually the daytime signal should be quite invisible when the geometr= ical path difference explains the propagation in that range. But i saw the = signal at up to 15 dB in 424 uHz, actually the best daytime SNR on all band= s tested between us so far. So again, the oppsite to the expected?!? 58 km is an ideal band for us. Also your recent carrier was 'O copy' even = in 424 uHz.=20 Don't you like to send your call or so in EbNaut during daytime? I might c= atch it in less than 5 hours!, e.g. http://abelian.org/ebnaut/calc.php?sndb= =3D10&snbws=3D0.000424&snmps=3D&code=3D16K21&sp=3D15&crc=3D16&nc=3D5&submit= =3DCalculate 73, Stefan Am 24.10.2017 21:37, schrieb Markus Vester:=20 Good nighttime results at DL0AO on this frequency, using only 8.9 hours of = data from the 31.4 uHz western cardioid instance. Decoder output was equal = from the two available nights, so surely correct. Summing both with equal w= eights produced slightly less than the expected 3 dB gain. Carrier-based Eb/N0: =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D 20/21 (no data recorded) 22/23 5.5 dB 23/24 5.8 dB sum 8.3 dB 24/25 6.3 dB sum(3) 10.2 dB Best 73, Markus (DF6NM) -----Urspr=C3=BCngliche Mitteilung-----=20 Von: DK7FC An: rsgb_lf_group Verschickt: Di, 24. Okt 2017 18:58 Betreff: Re: VLF: 300 mA on 5170 Hz ...the message was running on the 20th, 22th and 23th. Today i made a mistake in the SpecLab settings which unfortunetely affecte= t the transmission.=20 I watched the alternating colours (due to the PSK) and saw that it doesn't = switch the phase as expected. Then i quickly restartet SpecLab, it was bit = chaotic but now it should work again. Since the symbol length is 3 minutes = it was easy to delete the first 11 symbols and start this special file at 1= 6:33:00 UTC. All in all just the first 8 symbols are affected. 2 of them we= re transmitted correctly (productive), 2 of them have opposite phase (destr= uctive) and 4 were not transmitted (not really neutral but not so dramatic)= . Fortunately the transmission takes 12 hours, so 24 minutes is just 3.3 % o= r -0.15 dB. The transmimission should now continue as expected. Just a note for those who follow it... 73, Stefan Am 20.10.2017 16:11, schrieb DK7FC:=20 f =3D 5170.1000 Hz Start time: 20.October.2017 16:00:00 UTC (daily) Symbol period: 180 s Characters: 1 CRC bits: 6 Coding 8K19A Duration: 12h=20 Antenna current: 300 mA ------=_Part_190912_505678330.1508965482038 Content-Type: text/html; charset=utf-8 Content-Transfer-Encoding: quoted-printable
Hi Stefan,
attached is the result of stacking three days at DL0AO (also appended to = table below).

Indeed the daytime carrier = was well received, with no indication of attenuation towards the afternoon.= Daytime SNR was around 15 dB in 1.5 * 424 uHz, equivalent to -17 dBHz. Nig= httime Eb/N0 was ~ 6 dB for 5.7 bits in 8.9 hours which is 6+7.5-45 =3D -31= .5 dBHz, or 14.5 dB less SNR than during the day. On average, nocturnal noi= se was approximately 12 dB stronger, so we end up with a 2.5 dB stronger da= ytime signal (albeit this small difference is probably within uncertainties= ). Anyhow this doesn't look like a daytime 1.5 lambda minimum at all.
=

Now
https://en.wikipedia.org/wiki/Earth%E2%= 80%93ionosphere_waveguide
https://de.wikipedia.org/wiki/Ionosph%C3%A4ris= cher_Wellenleiter
left me confused. The article basically says that for = small ranges the simple one-hop ray theory is adequate. But it also states = that at VLF freequencies, the bottom of the ionosphere should act as a magn= etic (i.e. high-impedance) wall, inducing a reflection with 180=C2=B0 phase= shift. This is the opposite of what I had thought - shouldn't the conducti= vity from the free electrons rather resemble a metal-like electric boundary= , like it undisputedly does at ELF frequencies? Reversing boundaries would = swap minima and maxima, but in this case neither seems to fit our observati= on.

Best 73,
Markus (DF6NM)


-----Urspr=C3=BCngliche Mitteilung-= ----
Von: DK7FC <selberdenken@posteo.de>
An: rsgb_lf_group <rsgb_lf_group@blacksheep.org>
Verschickt: Di, 24. Okt 2017 23:41
Betreff: Re: VLF: 300 m= A on 5170 Hz

Hi Markus,

Thanks for the results. So the night/day SNR ratio looks much better than on 6.47 kHz for us.

Am 18.10.2017 11:12, schrieb DK7FC:
=20 Am 17.10.2017 22:55, schrieb Markus Vester:
As a crude first Approximation to the model, we might look only at groundwave and single-hop skywave. For 230 km range, the geometrical path difference would be 63.3 km (1.37 lambda) for 90 km reflection height (night), and 40.3 km (0.87 lambda) for 70 km (day).

For 5170 Hz it is 1.09 lambda during the nights and 1.4= 4 lambda during the days. That's even closer to 1 lambda or 1.5 lambda, so here we would expect an even stronger experessed day/night difference, if this propagation model is reasonable over that distance.
We will check that!

...now, can you say something about the daytime / nighttime levels (not SNR).  Actually the daytime signal should be quite invisible when the geometrical path difference explains the propagation in that range. But i saw the signal at up to 15 dB in 424 uHz, actually the best daytime SNR on all bands tested between us so far. So again, the oppsite to the expected?!?

58 km is an ideal band for us. Also your recent carrier was 'O copy' even in 424 uHz.
Don't you like to send your call or so in EbNaut during daytime? I might catch it in less than 5 hours!, e.g. http://abelian.org/ebnaut/calc.php= ?sndb=3D10&snbws=3D0.000424&snmps=3D&code=3D16K21&sp=3D15&a= mp;crc=3D16&nc=3D5&submit=3DCalculate

73, Stefan


Am 24.10.2017 21:37, schrieb Markus Vester:
Good nighttime results at DL0AO on this frequenc= y, using only 8.9 hours of data from the 31.4 uHz western cardioid instance. Decoder output was equal from the two available nights, so surely correct. Summing both with equal weights produced slightly less than the expected 3 dB gain.

Carrier-based Eb/N0:
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
20/21  (no data recorded)
22/23   5.5 dB
23/24   5.8 dB
sum     8.3 dB
24/25   6.3 dB
sum(3) 10.2 dB
Best 73,
Markus (DF6NM)


-----Urspr=C3=BCngliche Mitteilung-----
Von: DK7FC <selberdenken@posteo.de>
An: rsgb_lf_group <rsgb_lf_group@blacksheep.org>
Verschickt: Di, 24. Okt 2017 18:58
Betreff: Re: VLF: 300 mA on 5170 Hz

...the message was ru= nning on the 20th, 22th and 23th.

Today i made a mistake in the SpecLab settings which unfortunetely affectet the transmission.
I watched the alternating colours (due to the PSK) and saw that it doesn't switch the phase as expected. Then i quickly restartet SpecLab, it was bit chaotic but now it should work again. Since the symbol length is 3 minutes it was easy to delete the first 11 symbols and start this special file at 16:33:00 UTC. All in all just the first 8 symbols are affected. 2 of them were transmitted correctly (productive), 2 of them have opposite phase (destructive) and 4 were not transmitted (not really neutral but not so dramatic).
Fortunately the transmission takes 12 hours, so 24 minutes is just 3.3 % or -0.15 dB.
The transmimission should now continue as expected.
Just a note for those who follow it...

73, Stefan


Am 20.10.2017 16:11, schrieb DK7FC:

f =3D 5170.1000 Hz
Start time: 20.October.2017  16:00:00 UTC (daily)
Symbol period: 180 s
Characters: 1
CRC bits: 6
Coding 8K19A
Duration: 12h
Antenna current: 300 mA

------=_Part_190912_505678330.1508965482038-- ------=_Part_190913_166367846.1508965482038 Content-Type: image/png; name=sum_W_22-24_result.png Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename=sum_W_22-24_result.png iVBORw0KGgoAAAANSUhEUgAAAbkAAAJ5CAMAAAAEir4zAAADAFBMVEUBAQHbkTtdk6Gny7/V59U7 kduLr6vn5+eRt5FJiZOnq6+3//8BAWdVnYeR2/+zucFvna1PlY25u787OwHv7+/19fMBO2e9wcPR 0dv7+/vNzc1dqX2Jnb/h4eFZlZkBO5EBATvz8/H5+fdnt7ft6+tTi51Zo4FTmYm3ZwG/w8V9o7lp j7OPtaM7kZGbscu7v8Hz8e/X19/R0dPt7es7AQGR27f//7dnOzv39/cBZ2fl5eUBZ7drma3t7e2N s6X/t2etr7M7AWdXoYOjw8OhoaFRl4u7vb+/wcX///9jr3eLob3j4+M7ATv3+flZo4NVm4fDw8WL pbtNj5Hx8fHZ2+fR09Xb/9tlZWUFBwnViVGt07dnt/+LsalLi5Opra/b//9Xn4WzucNxo6tRlY2R OwHx7+/39/XBwcPT1d39/f3Ly9Nfq3uJn73j4eFZmZU7O5Hz8/NbpX9nZzvBw8Vpk7GRt6Gdt8m9 v8PZ2+PN0dXv7etnAQGx17OROzv59/c7Z7dtma//25FnAWdnATv//9tpaWlPkY+Np7tTm4m7vcHv 7e35+fnz8fEAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAA4ErXvAAAdA0lEQVR4nO2dCbvkxlWGZYhxwGHCkoAxBJwQYNgSA8aEDMMkMMCF YVdgCAOExeyYsC8xJgz2sCT8aHrRcs6pU4uWkvrr+73Pva1uqapUqrerVJKqpeazBJPmszcEEZpD heZQoTlUaA4VmkOF5lAR5n7jTyU//Od7ZotkEeY+9a8Df/D+93/N/T2zRbIIcz/35V8a+fLHP7ln tq6WZqAo9Mvn6ctOaGHuV//l2/7qF37tv3/oS2++ef9jH+vMvf7WYSVPXn/nzvnDvePr+YPlFPL5 aCZsrLvHoA/u3TzoIj133Jr3lWwONE3wJsXLv/WymGiEub//zPf/w3983R++9IWjuX/qzZ0KvDf3 zjc+CR0MC+90al1srAfHkHefvP6fL45LnouLvxammTs7c8VJcz/7me/7ia/49r9+6Qsf+tD9n/5K 39x7P/+5lLmbp59+MZIHG+sY8qDtKLAXdvhYtDnITDR3tOaL0+a+66t//Y/+52Duzfu//W/G3Htf OzRqhw93T683d5vm3rmWvfOjbx3fdyHffePJzdPXmve9eHh3aGWP7w+vx8kPHhaflrz+zt8dFp9C HrQdrT3oKuqD669yk80d1PnitLnf/a+f+dpfPrWW73mP2M8dSvut7/jc01+8c5Bz/rs5iTqbuyPr 3MHHcfrg+XffeP4U+yDvEO8wee6VO+clr791FnRwdveJNPfu2+7+8+KZ1OmoZO7rv+f3v/tbX/qR g7mPfCRsLe+epdw7vTbNK665t+8cq1lz79xsnl7vPnl6bmPPS/pm8+nnf/OgSph7+sXCjUGmUmv5 Kz/1t3/58y999GDug38cmOuq07tvfOfBwadfPDhyzB0WCGfW3Gleb+7dt487TbGfe+7J5HLAo0oP 5X//7Kt+5yd/4B//4mDuo/93X5s7tHCHcj/Lee2VOw9OjedpV/WKNHdsFs+toWgtD/G61vK0ZOiq PHc8HDinevpKgDaW06hyVPAN3/Lqq6/+zYdf/ZN//2D7gQ/I47nnD72KY0/jXOgHB4fuxzf92KnN /PFTd+VeF/KV4/Jjo3jv9PHUQznOOwTseihja3ncAd6cFp0Tvg09y0pH4p/6+Jlv/t5/Prz+3gvr ZJVUQpj7xAufFLzwiT2zRbLwKg8qNIcKzaFCc6jQHCo0hwrNoUJzqNAcKgdzLUGE5lChOVRoDhWa Q4XmUKE5VGgOFZpDheZQoTlUaA4VmkMlZu40mFN9TiRiwvbhk3HIQiLmToUuS96xMMzyLNFcbVYw d5465khNUua6d6PFvlU8TYcmMgjbN7Xnfz2PrEViP9dNo/+6zqXDsvVcHWXu4Znzh2aoZqr+jAbm mXtIFnMTmjuPcGiNCe/9bHP7Dt64ClxzUto0cwXW2FquQ7m5zH6uyBjNrUfSnO4Ttl7fUjWTar7u W4q4NLcKaXM1oLl12NYcW8v12LjOsbFcje1bS7IONIcKzaFCc6gkze19Zk5+h+qlvBePC4lET5t7 ti+PpLlqKe/F47LzkzPN1T1panhkMOZqpbwX12ROf3y4orlUyntxVeZ01tY0l0h5L2huacp7cTLX 3Sexv2Gic+NEmoumLEldy/AGtkUpCPxYCtP/kgXmuuTHF/tFCVZWo3w7c0NmGrH2cf2Rm32WmtOX rbyFic9TA4s6V8dckKr9omxpTm/e8GXqM+Bt+T7mvMgmwpbmZAE5Kuub61Yc5OBGZWyhuWHaNO1w 1942cpnZnd8PFXCuMfvmZLtWw9yQZk1zY0lFzYU5uFGzJ6as1fXOenP5YRnh/LIxHNXrnNi16AIa zZU/MSHJuTiHr/Asc6n9XCRlz92UATXC2Fi1LsFctM715RTbucw013/vM+aa4QulzCX3c37Kobu5 5sbPF2bO7OfsKtcy1/84YWZrmeqhuCkbaWoXdS3mxsqmi2qlHd06PZR1+pYzzSVby3wPxesyrGNO HQWoiriGuv2PCsZd4dhJ0fuxPlArzTnzS/uWeVY6Epf+bsbd3GbmdGbCru3CI3HlMBdiekgNz1su Tdllgg6auyRzU2zQ3CWZ24K6oxlWs1JUvmasyIrmUimDcknmMuNQaqUMStqcHb+xNdJctZRBSZpb rTbNZsxVvZRB4UhZVGgOFZpDheZQoTlUaA4VmkOF5lChOVRoDhWaQ4XmUKE5VGgOFZpDheZQoTlU aA4VmkPFM0cgCM2tPVaHVCIwR4CgOVRoDhWaQ4XmUKE5VGgOFZpDheZQoTlUaA4VmkOF5lChOVRo DhWaQ4XmUKE5VCLmmvF2j3H8ALGYc29vRnyi5tp8WccFySWJu+KSBaTM5Qp7mjmyLnlz3tMU2rFR NLOFpP5GuF3LG9xWV0UjU8maM//xm1I3Q9RRYek/mY43UrbV5tRNpB1jwT2mx+pUbG3XgadweKPT +3GYus61bcKcWty2rRcxaq1vLfcdeApG8ncF880NPZQic4FzkidvTknI7udsTO7napExJzqLZX1L FVVHDJyzb7mEvX+FRWVz2dMcW8kl7Frn2EouYO/WksyF5nZgwVHcsyERmtuBm9mPWXhIc7ty82hu zPXMlT4ViMgnI12EudVOw109NIcKzaESmGvEyUWau2Acc+PrpZqzT0Qe54fPYhbvV3nU9cWwrTk9 emRtc97zz9VTy2+LuXGsjr2gqa+3TDInk9nWXOQB07Ak9nNyvEfiKugcc9H3R3PiEd/n/w6R635+ 2AJKY3rekISWuu4jzDckWefa1ijT1W+odPPrnL2C+jisObYWHYmaS4mTj3vv/sXkFpgLr1dP3c8l xh08Dts5z9ypuA+vSXGi7t5Ic91bWRO92nvplJuTRwumxGfXueAIxG0tXXNjtZNz9VS8N/u+3txY 767WnFsLZ+/nouN8uh5KrrX0d00JcTdyVznuOId0AbsvyR5K/1lXsxX7lp65kv3cdHP9e1WdVc+z RunWZNuzX545ZVC0ljemXpSYGxtRv645whqam2PO61uSMnjGGRUoc84xeXTu1QNljgikufk/4OFo hh0YS+3ZAtYyR3aD5lChOVRoDhWaQ4XmUKE5VGgOFZpDheZQuUhzBSeQ9spBlbNhs7hMc/mTtjvl oM4Z6FnQ3KQc0FwamiuA5iblgObSnMrNuWi+ubnh4r2YBKMGZ17fr2tOjiCaQy5eZPnjSHGkNtaO 4U2vNBdU1Dk7li32+faYSxTgjDqnRwen8hBbbzB2exQj7djPs8cP1jbXiMl0Ss2ZcLuZc0YjXoM5 O1bam8pw7VCew0SEG17Mr1WGcpthbliZXGUTLlKBZJTQ3OBLilON+dxxbNXNNePrtP++PEvDCub0 UHpBOumJeRE5GLoifV7k2GqE/Zw01wQloUMNxdXo0sqbN8zrW8rqK7KaMtcHdczdjF4wzY2tiGgC bSsZNVH6nTfMPSqQtrLmxiZ1XK5zcKN2bqIKoppLlMZ+5gYJjiB//V7+dA7y5pb8lq/+UcHc/6nx bbnVNpfMhzEnfq+kPi/5Ld925pxWcpw2ZqrLUxWrCJc0N3FjRdd1+DDOEPlNbE9oriKXdfbLafnm hON5ywLWMxfZZ80JR3MFrFjnRCu5MBzNFXCZ1wo4miHPRZojBdAcKjSHCs2hQnOo0BwqNIcKzaFC c6jQHCqbmruIs0Yb5rTqdmxr7hLO1G6X07rbQXP1clp3O2iuXk7rbgfN1ctp3e3Y3Nw4Fic9rbbF k3N6c87WTUmuJ4wm2u8XIbkL2/5oPG+827QxcP4WD2POsxSNuniscyKHfi3L/Z7mUjZlmK3NFW5w TJye99jmBNWct4ml5kS4zNMNdjc3zr8ac2J84tAm6bGUauzl8CJHqra9uWGMaQ1zOpOyBZW/jrBh 2j7LIqfXY27u+GWBGLtcZz93ms7PrsrpdZkL5zVuUSXMDZ20WnWuDbMlNyGcL8dDi5xejzk5ulsW RaxYfHNjb62quXwWvc0Jcnol5iJF4RULgjlneZDTMTfI5ubu50SRdPdc6LoofWH406Xmlu2WzdPZ RCOfzvUFHYn3ncV2aF767bNNzriHOc/wzS2nwJzIqu1bBq2l3CxtrjKXd/bLtJCSPc5bJrKT4NaZ c/ZtEpqbvx0BK9e59LlDmpu/HQEczVAxp1W3gyOIUKE5VGgOFZpDheZQoTlUaA4VmkOF5lChOVRW NrfrKasVmf/A75XIO1jbXKXTq1vzcMkjv1fgEc3N5OGzWpcIXB4ZaG42W5vTHx/S3Gw2N2fWvo85 bxQNzW1uTg4/H8cqRC80B+MUtzJnMrgUfHN6ANcwPOoSzakMTonkcTYXGYtXPDBvR3NdeSTNqc0X v9YBNXeedzIXG/+KYy4sGG949wnxa53dzAXjKPV0fK9+09OozRlay2s05+5Udnvmn8pgbgxzfoxz 3Jw3RrvpP84d8nwSNeyqVzYX9FDcZkn8Wmdrc8Hvd3SPZSiW1hq08Y505sbx6fnfQyz5mcFZ1JDD 9etcK825YysfR7K6UZ1r1ejzeKNuR6q3EXOhAGEqkCVmjguL6ET1Bbp+D6VV5mxxHLkcc3ErYbgw TIE557Oc2b2Z0Fq2p5I+r33towK1he6+Tv5a5zLMTd3PZXoo08zdFNa7qkfidk6qbxmyS2s5dhpV vtW8VN/S210ld2cL93MDPG85Bd2axo/Eo31LL8LU1nJYO82V45krZPnxHc0tYKa5SV3IizZ3LaMZ iutcaYN46eauha2vFZhRKDQ3m43NXcA4lGvhoR0ZsjU0N5NNa5xLNos0hwrNoUJzqNAcKjSHCs2h QnOo0BwqNIcKzaFCc6jQHCo0hwrNoeKZIxCE5va+MkUKCcwRIGgOFZpDheZQoTlUaA4VmkOF5lCh OVRoDhWaQ4XmUKE5VGgOFZpDheZQoTlUaA6VmDl9SyUffRvCRtw8i9QnYi64lWA0kJnS3FbkzKXw 7phIc1uRMje8GW6+qm9eF61z3p1Lycok9nPdtOSmkfq2umw1t8AbKXv+oG+bq43YGyWP06FuNi1H 3tbCG50+jMNsI9Z6nWlzXQL7Die9WpK/K4jWt9gtdl1zpAp1zdFePXL3Thf9R3tj/ya9n2Pfsi7T foVFFZdDuTm2fpfFhDrH1u+i4G9WUaE5VGgOFZpDheZQoTlUaA6V7PPn8gdx04/yRKLjQzTlM8ZE mHA6ZS1O7vPX+PWqhs8q19OyUoOCZz6WDmcoXuif7ZQy09eWCvGLt/iLqJ9X5+X69pgLzkmr5WGJ bWsuniN9zSSe9LYUPiG3FS2GbD3UhQQVNHxdZG4IIdILppqheG3bp3MVu+ZRZs5vkbcgv5/rpmX/ Q5zYQplYF1isolUlbcpLfU6lL1bj60+OlwlyZBIawjR6+dZk+5bjZqStBRsiI+jvZViQKpqtY6a/ YMsvWnKidE3nQjQfqe9VypzO8R4UHBX03/WS+jaEtxFsgm6E1isfUdnG93JW3Jx9VSsIvzt+1Jy5 ncSV9lBK/pORJGlzYSsUs1luzq9zfm5sjuTEMbeXuDXNBVUkFSCcH1YLJ242bYGuKoGoXO7KzO0m rvhI3OwUzv+xvqWM2YdsxVa6EbW5Vq64T050XtypZkg38BDGbsLcWXPeJuo2YlsWnP3aI8OV1rlf zZkPzVVMtipg5iqBuCm8VoAKzaFCc6gUjE5vlvz2O+i4i564PgzQnfugCx4JZw6x5HJ9UC9mBmlA UnatIGUumC9neMeAYeLhga06+E6GC0WEh8xhuvseRK9C6VWeiebiJeVUJeeURHi8HIbT6XnLwpXd OnPDhoYNmnztW9dGlcocc3LuVHNiepvNeSe9+mVuYxiUSKc0UrbivYk7zJy8nwvFtfpc3K0wN077 quXvQsS5P10i1oqKpk5odmH0SU7HnC71+DfBhop9BUGZak5E1eeNZYuqAqkEiutcEC8SzkvPa5Bb mlO4hRH79itzjl7bFJ+n8f1cuAbzzmm2b7W52DxlzmtS55jT73U4rw6n6u2tNtfqGiBLq1GFGdSZ 2EUvPU8UerhDteHi5oJdpcysnuLCs1+o0BwqNIcKzaFCc6jQHCo0hwrNoUJzqNAcKjSHCs2hQnOo 0BwqNIcKzaFCc6jQHCo0h4pnjkAQmtv7gTOkkMAcAYLmUKE5VGgOFZpDheZQoTlUaA4VmkOF5lCh OVRoDhWaQyViruhWt36A3W6Se8uImmtjZkygaEz/p/pkLVLmcgVOc3uSN2fuaSA/NuFsdW8G9ere 5YHMJmvO/MdvMSJui9FGIl/LDUkuAm8cSuvdYyTqQy3uwsiblkSt7TqUAxpv7Fc/yiF6b6CYB12L RMsYhu5by32HcgCTHLU335zqoZR5JtPIm/MkZPdcWXPczy0lY050Fsv6lipq24rdYPCe4hbBMc6o 0BwqNIcKzaFCc6jQHCo0hwrNoUJzqNAcKuXPnxvn+e+nzvOQl/fkybaJ3IrzauXPK7Dz7Pup8zzk +hacl6a5bBHELNn5NLc+U54Rop6gNExUq2avjZfGaeWC6JUjN56X7G24GDHv+XOlV93mxh3ei+KP hL+1FwDnPVEpnK8Nj/FlHQy/BTaMql/OusI0b6e1IzOfhaUulTp1xYlvK4hqSSNxoy3vOI1au+2t 5TiN17cyc7nwWXNO+EjStppeJfNby5IdzFrxEmmVJHeVrNNaDk1Trm/ZDBMdR8RtvWWx8JGssLWs wXWX53bQHCo0hwqvFaBCc6jQHCo0hwrNoUJzqNAcKjSHCs2hQnOo0BwqNIcKzaFCc6jQHCo0hwrN oUJzqNAcKjSHCs2hQnOo0BwqNIcKzaFCc6jQHCo0hwrNoUJzqNAcKjSHimeOQBCa2/uBM6SQwBwB guZQoTlUaA4VmkOF5lChOVRoDhWaQ4XmUKE5VGgOFZpDJWKuaQpuqRsJcO03470Qouba/J1E/eXB DbC9YHS7mJS5XPm6i8OYNFeFvDn/huX2RuVDEznGHG5O372I+5yzQV1O1lzxQwKaTMzb8zyBbfDG obS6/DMPwwmeU+AHc8ztOpYDGW/sVz/KQZf/aCRaeeaY23csBy7JUXubmCPzyJtTz07J7udkVC8m za1FxpzoLJb1LVsZt9VBhreqk0nmsekYZ4paEZpDheZQ4S9CUKE5VGgOFZpDheZQoTlUaA6V8qdS k8uC5lDJmWvEZBq0XZcJ5szlAnfqXDcoGvpHJpM114yv0/5JXaaY02NN5FVUbY11bAuyPZRuuJ0a qWBbyWR9o8k6zDDX6nrHlnIf8kcFS/5JPcrNFfUp/TEppALrnv2ire1YzxxbyG1Zsc6xC7kpvFaA Cs2hQnOo5M9++Xsv70xJZBVhIt2xvTna8NIXy2Qq41k2P2/Oj8IyK5Tz1EpTK9qVkutzXq7NvFTH 0ium4fJD/IyZTdaewynImzaXXmF4Yii/ol1ZaM7b2khQPce//mAjeWfc9OqmmEusMHd6D9lccKJE tEGl5tQ56tnmVFOYMVe6QtdcdkW7UmrO+U9tuaQxtkX8WOM1rtns51Qq6f3cpBXqeaUr2pXyHor9 0qptKapzpoL6BanOesplfpXJtpZZc9GLIfkV7cqE1tJsTtC4FbeW2n66zs0p0Ji5xAqv2JxfCCpg 3lyQFs3NZ+F+zjZlHrYgx9Yw6DTYSJE1TzRXsMJ5K9qVovGW/ffVt9cFiW7auLMUfTVRHGrPFqxZ FXszpCeTja6wKV/hrBXtyg5nvzYvhMsr9TWgOVR4xhkVmkOF5lChOVQy5lL9Ye9odhb6CEBM1cGG 6rDL7A0LEn14e0wmA42n92bmfx8KjueyR9iRz4VoUeLgVx/su6c/dEwzS68jPOQchSU381LZz5ys AP1r3Jx/4ippTtewIIdjlQuShWDKb1abpm+LxgaqbcNzEvKMSSO/7uaDXotnTi6taw5OXMF+7jzp Xm3xBsXdys/ji5pjv+C+OSMuWE2XPbWfU4nJ9MO5yiuguHzfciyPkv8uhjld6FUltYo2sgq7Myqq c0EPJWOuDwEmr+CooNSablqj5lpbsClzouJNbi1t/uPmIBvM0h5KU1b3hkgmslu8ai3F1XiGOWc/ 56ilubDSBHO0AdecrHJhsm7M2Cw1tw1S7j9flbl23Gd4xZvrW4posQ9j0q1Obvi+mCqsytc9Eu9D F5ob115YZBdC8dmvrTcMrSA3p9Tc5gVJcxkKzbEcLw5eK0CF5lChOVQm/35uwR5vclRz2BFdvjQO JFN/hbVks6fG9Q7zveVL42BySeZSJT3FAs2Zkw79eRNxFsR80KdI1DkVL4id0twUFvyuoG3iC1QJ JYIlS7k/JTXNwpw4iJT2UPTZeufUolFgzzjqxeoUowprYZ2LMaXOee/ditXq0gnMNcOlgGgr6cWN LVsjDh57mIul50FzMZbt5+IL5+znbInm9oNrxcFk0u/n+jmxy2164VBAjRdEhom1mjwST7DF2a8r KaoLg+ZQoTlUeK0AFZpDheZQyZmLdqLjfe7+GHA8GJQx1KmuSBe+PwqRAZ0VBTG9Y4R4XhO4EYYc yVyJFQRFNRxTyTLIbGg52fGWcUexmf2LPkjT+dep27WMn2VIuyIb0z+6i+Y1RXzj7Bt9pKo3Yly5 3WC7GXN6cUXnUIpTs+ZURt0tLzTnrSi0upq56DqDN+Hp9rCR2c/c+d3YInQvZq4NP9ecapL0JodN TbBSJ2XZKJmt1/kv3Ti9S5hizkumsrkxW+OLmdvnRoZvmmBDVCbtaTG9JrOfM0UwrCmYFaYSrtnk smTjhpRMiMb/hVjEnFekFfZzQSEPOVffY/2VEhuXMed9VcPaEs4NU0mlLCSbjVdf/+zGuV+jqeYy WZxAeWvZehtng4UbVslctKbFUwkLR6ResHExc8J71pzJdm1ztnwzG5cxF8n8NHNyQwvNOWUjcrSN OZvteuacTNqNC79STXBHyaCcYilHNyhmLrb54fxE4U3ZOBNNbGRoT6/cmq1sbqg0jbcr6JfKzJpg YY2QE5l6kESqhyJ6C+66VEbaMT1TRCKR/MY1jcxauJFOYeiViGxHN7ScOme/ZmRkI1bM2c4bedvM rchVmiP1oTlUaA4VmkOl+OzXjD2y6eyq4wCRXpBuU3hvkqCPPb51E1aHFN6KV2OLzku5uWRuvIXm 6Ck40WCPpmXE4k13ElEHyZGg4UpXpW7qZyqY842Ep4iiiU8w5zUKTeSGlRuaC7JWgbw5cahv26TG e51gbgivE+9myLMrY1xdIHFz5nyKiGpPYthTKdH5rZnnBB03sxGLkgbmUmIu/O/yGF8oI/cfvP3c 9P+oOL2fU+KCvDTBgpJ/EScTVEwu0lxfDKI+5Mw5hVA03/tmtPajttV46Q2LZUW2DULBVtso8rOz CTVYas4xYiPHNiWYF7SMs801ssF045oVT6pz3nY3aucKYC6VRR3Y76FMrW/RSqY+diEj5oq+Hhlz mWD2y1iDlc3FLOQ+i/9swWpDkYRrmmtK93MXZK41HYyuMg0hbcGqz2ECYvkYXxXsEL4xC0UWbMLD 3Eg+TJ514t7WSnPjvKHDaspBZ7OauAs8+5Xd1nqFMZ0dMwto7pLIZbbixlyeOSgyZmp+C2kOFZpD heZQoTlUaA4VmkOF5lChOVRoDhWaQ4XmUKE5VGgOFZpDheZQoTlUaA4VmkOF5lChOVRoDhWaQ4Xm UKE5VGgOFZpDheZQoTlUaA4VmkOF5lChOVQ8cwSC0NwNwSAwR4CgOVRoDhWaQ4XmUKE5VGgOFZpD heZQoTlUIuZWPlvzbOvNugXEzD1ak4c0tz5Rc2uuhOYqQHOo0BwqNIcKzaEyw1xjH+aSheYqMMvc +FoGzVWA5lBZZG78T7eeNFeBlcyl6yDNVWBRD4XmdoR1DhWaQ4XmUJltTnYqaW4HePYLFZpDheZQ oTlUaA4VmkMlZm7dn8fS3PpEzD1bma036xbAMc6oHMwRTP4fyJFcGTyctkwAAAAASUVORK5CYII= ------=_Part_190913_166367846.1508965482038 Content-Type: image/png; name=sum_W_22-24_sym.png Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename=sum_W_22-24_sym.png iVBORw0KGgoAAAANSUhEUgAAAoIAAAH7CAMAAABv6w6zAAADAFBMVEUBAQHbkTsBq6uny7+hoaPV 59W3t///t7eNs6Xn5+cBAWeRt5G3//9JiZNVnYe3ubmjw8OROwGR2//v7+8BO2dPk407kduJnb/1 9fO5u7u9wcNdk6FdqX0BO5H7+/tnAQHR0dtZlZlvna3Nzc3t6+m3ZwHz8/HZ2+NZo4FTmYmNp7n5 +fe7v8Ht7e0BATuLr6vb/7dTi52bscvx8e9nj7MBZ7eR27ePtaMBAav/t2dNj49XoYM7OzuRO2eL pbv39/e5u7+/w8Xt7evh4eHb/9trl687AQE7AWexucFRl4tnt9uLob1jr3c7O5H///9nATvT1d19 obnN0dXt6+tnZztTm4enq6/x8fFnOzu5vb8FBwnViVGt07elp6uLsam325Hb//9Li5FXn4Xx7+87 O2dRlY2Jn7339fXBwcNfq3v9/f2rAQFZmZVxo6nLy9Pz8/PZ2+dbpX+tr7P3+fm9v8Pv7e07ATv/ /7edt8nz8e9pk7E7Z7ex17ORt6H/25FPkY9ZoYNnZ2e3Zztnt/9nAWdnO5GROzv//9trma3X192p ra9Tm4n59/fBw8Xj4eGzucHv6+u7vb8AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAABi5A78AAAgAElEQVR4nO2dif/0tlHGFUOBtuHIWwhnSSBNOdoEKBQ2XIW2pOWo CxRooRzhPswRoBDK8RYIbTgD/Y/Z364tzUgjW7Itabz7PO/nfXdX0mhG468l22vvaz4NQU1lPt1D UEMBQaixgCDUWEAQaiwgCDXWFcFv/FKqr/6T1lFBd6Qrgn/1i1b/+9GP/soLraOC7khXBD/z11Tv faurf+3jj3by9MZTxry+Y39QUxmrpNbPXV+fE1pfEfyf7/j6P/jZH//u//ibN9984X3vK4Pga1/W P/7Ik0DwRmSCN3N67teeIy9cVwT/6NUf+Puf+vY/e/aDH/rQC+/7uzIIPnT2b0DwVpSH4BU+kcAR wS+++gv//s3f9qfP/t8Zwa/5khHBy8r52sff/rJ5uu8fv/ywjD5/XUkf/8OlwWsf/6W3Pfm8Me93 5Q82P/PU633/0ju/98Hy9SfM2fq6Bp8L399P/UEHVyaCD/jJBI4I/uqr3/eVP/z7/3WeBd984df/ cUTwDMwZs2fe+cpLb3vytWde7x//7aNz0Us/+nT/xJWh1565vJ7hs+UXm4d/nn/9Ynmm7Wx9Ke2f OLN66e/c0eqRQ0qUi+CZQZlAOwv+9ud++qv++dlPnI8F3/KWEcHHLz99XYjPf89HcQ9YPf7YK//6 9o99+AtXhC6L6kvGvPjIll9tzuvt518ZLS/WL1+ZfenFRxeb519fP3SomLLOMPZH8Ou+63e+81su s+B73mOPBZ94WIgpgm984Qc//+Ef+62PvXKpvqy9H3nyjS88IuVnm/NseJ4nCYLX0v4yN54/vfEU EDy89l6Iv/jqL//IX/7xzz37rg+9+cG/+F13OvLE0yNEl4X4jOETD8vtv4zHcg91L13XVVJ+pu/x 733qEUfwXPrlT147evrSEXRw7X468vPf85tf8UP/9OfvevPNT3zyhelY0Ji3PTlBdD4defGM0gNu 9lDuOqOZr/3UI1t+sTnPdu/vKYKX0usJzfkU5npqAh1be1+U+Ylv/f7Pfvbd7/7sH/73N3zyHe+g F2XWCQd7N6+9L03/53uv+qaf/Mz5399YRPC1Z8x1upP1eDxYhKBlXRH8wFuZPrCpyzeeehEXXaBk 4WYtqLGAINRYQBBqLCAINRYQhBoLCEKNdUbQQFBDAUGosYAg1FhAEGosIAg1FhCEGgsIQpt0YlrT AxCE1kqAbg2HQBBaoznUMjGkCJ6ge9QqALe3iCCYH0u2xQoTZ9HPtNrmY1NYnqJRqszviqCSTJJp OhaC5SyUhqUQwXRKElseHkFxymkf1lVecCrzm9c+j5Gk1odHcJWFwK2GsPawKIpgPiEJFveJYCMn KgeS0X7VZb9FIyCYahLMnGvDSj2nWuejHILrLjwv2wHBik5OPn6LNCpCcCWAy6YtEMyZBtY5UYvg Kou8fBVCcAOBC8Y3MAvucm6hAsFwJGpmwU0EzpsrQ3CnSywHRXAPizIIbiRwtgNlCDazUBqWEgSX 22w4qgWCFZ2oHEhC+81z4GwnbRAse4DdCsEC57fzFqLD/U/2diEw3k19BBNSdITvtbRa7D8L7kRg tCMsxCWcRHYzlQNZar8bgbGujoFg+SuJcZPyt17NjI5ZpGVhZwR3JDDSWXsElxOrZ89gsd7IdD7f Pqu3fnFrSt1VRbDPNylh0ezio2CxYpPlO9nQftdJUAGCK03uOKw5i17+tCuCOxModggENztJP1BV OZC59rnL8Cp3t4XglAUdYe12e9dSv6yuMoLbzxRvC8H1FmRO2/SM1KxxmYEEV1F3u/Bf5Kpv0GnF hzj7wv3rl84M7IrgshYQ3N5fCZNd16/YbnqarU12soMFjaHpsWBOT71JTp7fbWsEI2FXvwCn9PhA NYK5h4GRblsjqMVCaVgtEUyaK7LbhB7bIrjxK6ddvjvr8000W5RC0FP6Wdtix3c2C8bzpuX8lrte md89Dmlj5blPYC12fWcIFnQS3RauYr+BpN7ZsMFFkdNhqWsgGDFZ3ruFFuu/8d3t9q66CPbsZZ1L 3QiuXY1uZs9oh2BqN/3mlVg3gmstVqRlTVj738bo96gRwd57jb5N9HmbCCqenEs/NlN7Fowp/Uzu VhHMngdLhrX+7olmCCb30pN36+4ZOiiC7e/0bGaxtJ1LI9jL7xMuCES614Dg0pUmletXNYvSz81s nAVHCV/AzwWuDUENFkqP7LQuxP14W0I/f+9HtO4oCOYeQm25Bhwz2fEa8C0haLwFueclWQ/1t0JQ w11RkxQ/VdUKwcRj0Mtc2LNPiWclxEE1BFc/XpNmwS9W3czxAbFYXvLWOUlFkIsf9U13C/ZBVYJX zQtxTYsiF5pbWFRCkClykpzo9RYRzH+EZ4WTOhYVvubJRdAPaXp+Pe+buhtH8IbCUjwL9sIJySqv QLCiE5UD2bYQr71xNYZgT/6wD/mFXvG+0vkkmjqlbbNZBJO/8+inU5F7PhacefAs8ypBop/7nAXF ny7KnwtvEsFtFi32jN18bDJZvxC7C4J9eCiY/i0+EKzoROVAdkDQfU6eDoFgGycqB7LxuiC5Gt1n nBgDwTZOaiz2OyG4gFL0uZl+pkXEKxBcabLm+rfKgeTMgjGu+qRWEQeHRXDXR3z7q0nKr4usd5K9 vK3ysQ+CCb2Q+W55+Z17JuawCO5sMW+yeM/bDj52sqiGIF90vQuCObd210bwZtYvrRYVERzFbo/J vzKNWbCmk1SLEvfeZrZP6MW/M6t392uxJkvdt0Nw3eNWpSxUIbjFohaC4RmIfEQob2YdCOqyUBpW MwTTLweFt6kun52wzoFgRScVB7J5jcnyvOlu37tCMDhwKeGksUX2gc7OCCZ9P9ICQRKX8i1X3WLX C5wrTGLt5/rp3UvPSoLyhK7vahZs7YRYrLh4ke9kU/vkfpJX4chtbjeNoJ4nRdc+2HcEBB8kPkIc feZPJYI7r0a694wCFmTp2wvBpY481qRr0xEGvY6VINjEYtMNJvmnnnW+GKqGIFVCEuJnA/eM4IMi xye73upf1WI/BDMuT4vrcGq3ihBM+jZno489TfIs+go+VplsQHCdFCPY1EJpWE0RLMNg0GnF/wZR t6o/GLrosFZEuyK44jdv7nsWVH/FvO0smNrXtotfahGsTEeRbwGTfex4GNwCwW3u1CIYWJS9zqx0 Totb7EbtbPuV16ezOjwCgpue1S9notNiXwRzewsuRifcDHIEBNdZrP+pp0NbtERwxbmIuWUER228 Z2mmm7tAcMURb25nt4fgumvAdYFa87sXpUyW2qf0t+m+H/0IKv1qtYZFvwLa3RHccFqcdlewfgR3 ssh5snVZtb5uUzALbrw6uPw0YEsEdzpM28VCDVA8KSoQ3OfyYLQTNbNg+hXdhKemqyOY9vN6Kvel lPY7MBjvQg2CjS2UhqUEwe0MznRwcAR3+8WhTWEd+ogirf1GBufMD47gbhbzy+pOTlTmN7F9crdS 8maNVSEYefjv5LfZ4mODSd6Tx3tezC75/Xhq+w3z4LypKgTLWaz76qiwxYqb3POd7Nd+BR5JdneC oA4nKgeS0X4Vg4tGd4DgkY/sdCG4gpAEiztAUI8TlQPJa5/HSFLrm0Bw6WHpXZxosFia0Nd8b5jd fu+DxyMhWPJHMVNNlD1tssNp94qg0q5mp3Z8JARLWigNS91CPNosGmWwpP0hzo1PMuL/7FzWCgSv rKypOyCCUHGtQtDysliUhSAEZWs7zkAQaiwgCDUWEIQaCwhCjQUEocYCglBjAUGosYAg1FhAEGos IAg1FhCEGgsIQo0FBKHGAoJQYwFBqLGAINRYuGv67hUwUdlv9ceXdFooDauNxaoHmtZbAMF6To5i AQRbWCgNCwgW9azKQmlYQLCoZ1UWSsMCgkU9q7JQGhYQLOpZlYXSsIBgUc+qLJSGBQSLelZloTQs IFjUsyoLpWEBwaKeVVkoDQsIFvWsykJpWECwqGdVFkrDAoJFPauyUBoWECzqWZWF0rCAYFHPqiyU hgUEi3pWZaE0LCBY1LMqC6VhAcGinlVZKA3rDhGE7lAhHHX9Yhas5+QoFliIW1goDQsIFvWsykJp WECwqGdVFkrDAoJFPauyUBoWECzqWZWF0rCAYFHPqiyUhgUEi3pWZaE0LCBY1LMqC6VhAcGinlVZ KA0LCBb1rMpCaVhAsKhnVRZKwwKCRT2rslAaFhAs6lmVhdKwgGBRz6oslIYFBIt6VmWhNCwgWNSz KgulYQHBop5VWSgNCwgW9azKQmlYd4ggdIcK4ajrF7NgPSdHscBC3MJCaVhAsKhnVRZKwwKCRT2r slAaFhAs6lmVhdKwgGBRz6oslIYFBIt6VmWhNCwgWNSzKgulYQHBop5VWSgNCwgW9azKQmlYQLCo Z1UWSsMCgkU9q7JQGhYQLOpZlYXSsIBgUc+qLJSGBQSLelZloTQsIFjUsyoLpWEBwaKeVVkoDQsI FvWsykJpWECwqGdVFkrDukMEoTtUCEddv5gF6zk5igUW4hYWSsMCgkU9q7JQGhYQLOpZlYXSsIBg Uc+qLJSGBQSLelZloTQsIFjUsyoLpWEBwaKeVVkoDQsIFvWsykJpWECwqGdVFkrDAoJFPauyUBoW ECzqWZWF0rCAYFHPqiyUhgUEi3pWZaE0LCBY1LMqC6VhAcGinlVZKA0LCBb1rMpCaVhAsKhnVRZK wwKCRT2rslAaFhAs6lmVhdKw7hBB6A4VwlHXL2bBek6OYoGFuIWF0rCAYFHPqiyUhgUEi3re2WLY 5EPRQNpbAMF1FjeM4LDQag8f2/oAgoMBght9bOsDCCYiOLcpdQxEtlCD4EwgrRAclGy5GQQHI7/P d9LOoimCiQm8cwSH4SEUkp/bQnDIQzCntfURL1GCYCwJAYIJw9+45SQPw/hHshh4s1gX6WENwZtk Le9LosWQ46okgmMgm/I32NcsBKM5GAaNCA7FEGQLfnS3jOowCEZmvq0I0vTthOC5PAlBNokKPhaS Ri3E+VhGcPDbZyIoNDv3NkQQHEibmJIQHGh/KxDMWrblqE4kT0ICV+ePpi8bQdltIoI8hfsjOJgZ BEnnQ5jUubCEFDI/vJ+BtImJDURqQBG8dL8GwbTWjrIFBIMErs4fSx9ZQHdGMDZJzca6L4LDFcEh D0Fxn5UcyQiSvZvQODcQwfngEBwIHiUQJBPaPggm5I+lLw9BdgTEK+YRtGsKXQCjCEYzx47sdkBQ 9DT478Jmg6E5lBHkhzte19F9acqAKgRjCVybP56+VQhKC5NX6LkdeLPrmAIfs4dongUBzQuD1gwi goP9uwFB8nIa3KeBVgYITrgtIuhSZRweYuqjWkDQCzOCIJntwgRuQdC4hKUfCw7OdeBZRtAB5aY3 MhrfxzCwxsKYFhC0xm7sJ2nKK4TghIwDUpgFB38gbOVmwbJ+ZhEUS5cQtPHavB0HwejCxEoEBAf+ VzqBkchw3ZxomZtahB6mCAIEiX95iw6OJ5cqKSCCINkeDB2P1QiC3M8wXV7ni3E+gtHW1mSgu00q gjy/QseL+ePpy0KQHMQLWHMMbQ7p7sKayRezJTLcmKIIDqyH0eU8grMpHOhwOFXhmwlBgjZHcAgq TqSDQfBjTxl9BKO0iYVsxIIJdRxHMLYPZ+Yvkr44gqHOh43D+Hp9Q6rGfwZSMlwaTnZTC/vX72L8 PHj9ELPBK5s+D5OnwbUenM3AOrCxiOOYisdGU0MvYjrKqX5gPqjp1JvrZRiY6YkEZDM2BUqb0Y7D kMNSmwyWn2AQJ5eVEMHTQJLBE5ibv0j6qF95FiRHKuR8VZgFT/Ri7XVFsfPXQHeeyCxIpkxhFhz4 7uLtY26d93e4E/E97Z6k9yHo7npkNwhzNzvXZTGTsLz1YHDFUzoun06uR9fatbDzIMtKdBaUD57p dMVn8aCbIWEWFBOYk79I+uKzIAnOth+YoTegGIIklwPvR0Yw7H4ZwejWyUFweh9NIeeKxJyHoFlE cHJOUj54HfNRehXsyNvlszCCi/nbD0FxCDZa1joZQZL8MFuLCAbROVuKINmy3jjogeGYQtfSRU12 QWa9D4IkNB/Bh2tnLDMhQXzLshFbBzPbLwlBIYHp+YulbwnBIJvhECbf6Qja3YV053aRKIJmYEfx iQhSJthBMrOmWY4jKMTGB8JP/Elwg6Gb7oLgtG2JCZ9fmIWPoBcETXAKgl6uxkBkBFl3fgLT8xdL 3yyCbFwJCNJiRzxxLSLoxTWEcW5AkC9gcQRpLyd2AMH6X0KQj5QUDF5hBEHSdQCtNwuS/sbYeF9j VAyDNQiymTqKYEL+1iHIcAiiZglwCA4DO6YR0AsRpKkXERwLydxMBkej8MURDJtwZpYQFLcA3XR8 i7j+AwTdwRLDhva8hKBF1iLIV8yTHX+AoJ+HwR/HJB/BIIHp+YukbzALsyAdtOzbHuNYBEmoLLPS l9V0MwTeCLIJCIoE8q8shCYe8EOQwsFV0MEQ83DTeQgO/ijzETQBgv7u4dpPaSWLzBKCkXFYBOMJ zMufkL5ZBN0eKEWdg+D4oSSCkbs2FgDNRtAdtNIBSt80sgZeAKOPwW0TYfsMCwiy8AmCdsQhgt4m 9dMQQZCbSoYZu3CQvh0QtIlit3IQW745Yl14jehe6zbFECBID9iNpL0RFOxnEbScJSEY9EwQZJmV EOTnpfyalxYEQ/MkBH03rpBcQt0NQdI74SeK4BDN6jgQMlJJfgoHw1Pouo8hOEgLMXsvI0i/yVqN 4GRotza5ssCiognNQ3DqLqhzhuvzR27HfdBqBGn83mQ0CMPlXYQ2riqCIOV7K4L+xo+lMDrLshTK LcK9bGiB4MAyJ2kFgun5i1rHEeSzlzxP0YFFEIwTOF1AksKzmbVjubw7sVj8w0jRx1IY21JIncw4 8PMynOjgwijGIo6gGPDgtSS5OQKCnt99EPSbrUNwShlb6msgaPiB/8xJZOBkVqsQpFZxBMlkyvw1 QdBsyh9DkJ66iBt6GtM2BGfIGJwbhyD7NnR2ip18LLUUUki/5NgNQf7JPhw5f+sHKcpE0MwhGBvL Tgiuz1/0fkF5rhm8pSKyHTYjyJaZSgi6mmUPZicEJU/JCEpXvBoi6Gry8he/ZVUMoCaCboOtRDDe MNz4LIWLDpyTWXkIDt677QiGpgKCZGSSZhCc24X3y98MgnJ6BiMerCTrNDsyEUHG3S4Ihr3cOIIR V8xHUDK7D7dD0JtoVyEYrWN3zsQQTBjg3SJoIggOEVeBBStpj6DougGCp5oIpit76HeBYLoiCC5q GKJPLeygwT53MHAvg3v2IN35XMshrCw1KOLTeyc/hiHbnrzHL8QncQSr6TmSmcYhHEHAYc875G8l gtDtKYpgJb8UQQhqICAINRYQhBoLCEKNBQShxgKCUGMBQaixgCDUWEAQaiwgCDUWEIQaCwhCjQUE ocYCglBjAUGosYAg1FhAEGosNQhWulVXp1onn6vyoBUhGK2pUFHFyYqwmmhNOGueYxsFBOs5AYKi BRCs5wQIihZAsJ4TIChaAMF6ToCgaAEE6zkBgqIFEKznBAiKFkCwnhMgKFoAwXpOgKBoAQTrOQGC ogUQrOcECIoWQLCeEyAoWgDBek6AoGgBBOs5AYKiBRCs5wQIihZAsJ4TIChaAMF6ToCgaAEE6zkB gqIFEKznBAiKFooQvGO1Tj5X5UErQjBaU6ECsyDR/c6C0ZoKFUCQCAgGNRUqgCAREAxqKlQAQSIg GNRUqACCREAwqKlQAQSJgGBQU6ECCBIBwaCmQgUQJAKCQU2FCiBIBASDmgoVQJAICAY1FSqAIBEQ DGoqVABBIiAY1FSoAIJEQDCoqVABBImAYFBToQIIEgHBoKZCBRAkAoJBTYUKIEgEBIOaChVAkAgI BjUVKoAg0f0ieMdqnXyuyoNWhGC0pkIFZkGi+50FozUVKoAgERAMaipUAEEiIBjUVKgAgkRAMKip UAEEiYBgUFOhAggSAcGgpkIFECQCgkFNhQogSAQEg5oKFUCQCAgGNRUqgCAREAxqKlQAQSIgGNRU qACCREAwqKlQAQSJgGBQU6ECCBIBwaCmQgUQJAKCQU2FCiBIBASDmgoVQJAICAY1FSqAIBEQDGoq VABBovtF8I7VOvlclQetCMFoTYUKzIJE9zsLRmsqVABBIiAY1FSoAIJEQDCoqVABBImAYFBToQII EgHBoKZCBRAkAoJBTYUKIEgEBIOaChVAkAgIBjUVKoAgERAMaipUAEEiIBjUVKgAgkRAMKipUAEE iYBgUFOhAggSAcGgpkIFECQCgkFNhQogSAQEg5oKFUCQCAgGNRUqTNfS+w0gGM3fshcgeFUXyyEQ TFI0f8tegOBVlxSyNHaiiWsCBKmi+fOaCV4OiaBMx5zFUgUQJLpfBNPV7f8sTdf5/cpO0l3nBNk6 +VwZgbvRpuWPFk7uFCEYFEUnu71nwe66F3fLs2CXPguGR0cnOgt0vEKTssOZyx9vqHwWDIrWI9iR VqxCbt+Z7mzSeSnsBJPNCNpCGqJCBIN1dU5z+TOxMr0IkiCvAXfBBuoSEOwyEOzGFDKL6dOJl80g 2PGKcBPQiaIzxKFKBLtkBGfzx4sOimDnVywi2DEEpWG7pmPz02hEKlYi2NmB+AF0pFA5gl0nxC9p MX+86BgIkqFzBN0aRrecdHS1FkHGv4ygaxJBsJtD0Lm4SQSl/BleJOzC6hG0cXMEHz4sI+gfE4oI XjxEU0hLWQ6DHE97zC0hGDuotlrKXyx9nUoEp1lkAcGRr85HkCzYcQT9bHYkhUZK4eTLFpHgvOPN TATJSA+EoLDbzeYvkr7uGAh2xiLYGc7EiCAZXxxBdvzhnyNsRzA8bmAI8r+HRJDlzEvgLSPYpSLo EXDtoCObOAHBCzczCNq3IYLCoeuJh+++ODgcgmECZQRn8hdJn3oEr9s2juCYHovguO0N6cB1Qb86 Ighy4JcQ7GyRfzxA19upKzeLTMO5tD3ZDUZG8fCqDcFuQjBIIL2qNH6cz18kfcoR7GywCwhOq4Bh x/YTgp1hGbzUZiFoybZvDQ0jXIiTECTBHgtBO+yrEvMXSZ9OBKf9g26h6fO0Ea8NLIJT04m2awd2 DZEQ9HZny/lpdE6AmpJlc+vWUGPmEezcn2lSjyLYqURw3MdnEEzLXyR9h0HQbmS7cplFBLvrLtnR NuOMmYagy1QGgh3J+QyC/gC1IjguQmECExDk+TsaggS6a2HntiRHsJsmfwuCRYMgaOIIkinWCCl0 8+4sgp3jSECQHRMcEsEggYSwlPxF03dgBO12vg5bRNAwBAkJdKFITKHNvXPgkuj6MDR4EcFLxVEQ dLFHE5iHYJA+nQhORyD7IWgtggx2lAzjUjhGMLlzDfwcdtcju9UIds6ZYgRNLIGp+Yukr2ODVoig m+0FBLsAQZIHY6IITjbUZCaFdh9wb+YRJN2fbL92FaNJnw4ND4agS2BG/iLpOwCCLlp/pD6CfDUY TWcRtK9skstGsDPJCNqJT0Swo2uSDqUgaJLyF0PwupFG6UKwiyHoFlA7TToEabbiCBoRwQn6NQiy PYAi2FHHPoLOqZ0hj4GgkRCcz9/hEDw9EMYeMTh/vP4Zi7rrMwrjv9MTC93UYmzXkYa2F9egY8Wd 98ADfwiim952rHDspJvcWsfXgLvRcAz/WkDNyWguDVonn2sai5zAnPxF0nftYnKnCUE7d9kd5jpH dG4WZAeLp2la64wr7cx1N7bHk4ZPiWQXnduLif8pIlIozIJkObZLrZ0Fr9bkplzls6AhIzd+AjPy F0mf3lkwiqAhHztikoigyUCQHlaaaA4pgvQIIEDQrV1GQHA6zNCOoElHkOfvwAhaPQS7hKDbSScY x29pWS/ulR/odbYv0tUaBMcIKILGbSziw5arRtCYWAIz8neTCNIGFkG7PEcQtIng+3cKgh05hyDd zSPo3N8IgoSkPAQdi0dBMCj1EDQxBMfGCwiSyyLWjqeQlRmCIFuYZhBk//DNeAMIjh+S89dR7sjb IyFoFhAcixyC3VRRBUG/ahWCGm9ZfRAQvCoFQdMGQSMgaLsHgrSlgKDO74gFAjMRHN9VQNDMIEh8 AEFazt7eJoLTu5Pxk8Ys+LLJ+0pDcORmPYJTN8dEcHpdzJ+I4PhORLB/0PR2LEiIOGyVZseViiA1 oa0MENxL7RC8cEPZO/+TyOByyaKUIGgPVaYmQNB/n5G/7FnwQSN7Dy8EyXndHILE0J24sdKIRT6C nVTRWJsRdO997sjbGIJ09gsQ7Dma/TRLTuu3W8j9zwmqiKAt3QvBjrW5eQRtYQkELXXjX7YSs8X5 iqBl0kPWvU1mcCcEbUUqgkJfMoK+oYSgc3Y3CHIbE0Uw6ExGkExeV6x6bxZ0L7SeYEgRzFuOj4Sg SUYwEq+1A4L+GTF7G85iPZvdFhHMOjMuimBocWkvp5ClHgjGtZy/XAT9CU9aSPmx4BKCORMhEFSj xgiGi63x61MR3O1YMGqysaIQgiehTAxLOYKLKoFgT89tTbCQ9q64p8ixcm6+eRY0QLC62iGYpRVX /ublP4VQQbJDVhqJiZdKjVIG001PuGhDMFHL+Yu0OLFBr0RwdwJX/X8rN6O9k7lNlQe9AsGs9RWC FqTmThnoXgUEocYCglBjAUGosYAg1FhAEGosIAg1FhCEGgsIQo0FBKHGAoJQYwFBqLGAINRYQBBq LCAINRYQhBoLCEKNBQShxgKCUGOtQzD34ZFNj5oIzsizpH1Q7puGzWJx7f1MjN+f+9Un9hr8riO1 yH0eezkKoWRp4Au/TLAtbVWeoNu4ZSMplMgMWxqyHRc67hN/TzFVfn/8ZwDkn4MKf7xiM4Jiohab iLWxZpvSdkQE+wiCwmSXi+C2+Tri2/scew0H4P80heglMZD5kkQEN7SIS/qh3+mnEtymln8twbML 2tlyXu/+BpkgJuYAAAS9SURBVD8YEtpP4xO2jTDscOGTEOQ/ChFYS3F4M5Y43hhy/ucogsEszBEU DjzCcfWsPSfbmYt5In9Z/p1b3o9tF3aYJeE3ZegW8zeBlCq2mSN79zRS2n+QUs/ej8kELoMtEmxB vuv4Df3mYZw8XkLz7Hide+mz/zoNJLKn2TyF9T6BxouHssI2hZgn0sbG7TXnm5QEtBOCtDu26Rzy cioor147qWO69YIc8tTx2TD0KG8z3p0JAiZ7tdhrZLzBrkMRNMSX6y4NwakyMi1H0YmMnqC4+Mtn NE/C7uXnqTiCpg96p2n1tpDx7cRNEuSGTyAygp6fnRF0H2cQFMbrZT0FQfGz/yr5pIV8u0eHa+j2 24ygnKfyCEbSvYggD6sAgjFY7gvBJQK9MR8QQZqaKIKk3rfzh8ri9cJdRJCahOnnqQg2JOtuHsFg IPHxBjmJjtf1x7aQ0NYPXNopYv2LRPK+90PQ2xs8BLcQGDsjnl6v3m1MrHzOjr1eLVg/kU0W8y+0 63n/tJy0m+L3cu5S6nVLX2PxkM/G+yw4IvGZXn7tSTuBQYcU7z/Y7F4cJEZve0TyIWxvnqcgH5zZ lYpcF1zV6bZIttsXVHJoWsagJY4EAcEkpYamZQha4kiRjGB4DpqgVUY72hdUUmj+MtxKWuJIFe6U gRoLCEKNBQShxppHcDqkiB1b+MW5ByH2YkReP0H1Upw7iVybkK7JzVvNlSzlLXF8hzoEtJpFsF8Y eli8DsHMfrzLkstx7qTeXemNBRCzWypJ7GBpfIdkMA3B5Pp1OchH0GQQsJcYet613WXD+ZJchre3 1KOZb0fcxXj+5QC7SD5z1d1v766+G7/f3n3RYDwHhnUoXYyfjVOw790XLt545xdE6lucBMk4ps78 8cvTPh8/i0sYXxAvGefBEXSpMzzfxpBU0BySf21OXNd+e7aI0Q7IBxqDjxvZtLEjMRZnzN6y4XYJ Xh5R777TDhCS8mfHH44nINjLT9b9evFd4xiS/g86PmL7xm4CsldSO2YqtE9F0P3l05hnawyvCeIM 7b1A/E3o9S34F77YDoZBUaxzv56fo4NJ/M9gg/XC27TCLGhCOvz2+QjyUPMRnGvleRf7zfVPjhO2 IiilKYag6Xt/aEfSzP9HDARl/2EzuvO2QDAY0qG0dCxIciAiSNpvQlBoRzcHDUJEMBLnrH06gnS4 Qb+0Cy8fVe7Xi/V7FM3dL2hneH6mZ3qSkp7bRTa5fJ+d8fx4pwkkDhZfeDoSj3POnnqP9MuGwobr NfXzwE6HgryGcdFxs6zQPBuvH4ehf8x4KFX+gu6YSVqhuxnodlVEcH6tuy3dyzj3UM1ZcGaluyWF yzQ0J9wpAzUWEIQaCwhCjQUEocYCglBjAUGosYAg1FhAEGosIAg1FhCEGgsIQo0FBKHGAoJQYwFB qLGAINRYQBBqLCAINRYQhBoLCEKNBQShxgKCUGMBQaixgCDUWEAQaiwgCDUWEIQaCwhCjQUEocYC glBjAUGosYAg1FhAEGosIAg1FhCEGgsIQo0FBKHGAoJQYwFBqLGAINRYQBBqLCAINRYQhBoLCEKN BQShxgKCUGMBQaixgCDUWEAQaiwgCDXWGUEIaqr/BxdM6no6eh7EAAAAAElFTkSuQmCC ------=_Part_190913_166367846.1508965482038--