DOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOSDOS!.iming is more precise (less jitter)\} \{ \tc Red - \} \{ \wr \lc Cut FAX memory requirements about 40%\} \{ \tc Red - \} \{ \wr \lc Panning only redraws now if the pan \{ \ts i moves\} \} \{ \tc Red - \} \{ \wr \lc Added live justification of incoming FAXes by using the FKEYS. F1-F5 \{ \ts i push \} the image left; F6-f10 \{ \ts i push \} the image right. The keys in the center push one pixel; each FKEY further towards the edges pushes four times further.\} \{ \ce \tc DarkB"D{lue \ln 1000 1 2\} \nw \{ \tc Green BETA v0.01 / March 11th, 1994\} \{ \tc Red - \} \{ \wr \lc Changed designation to \{ \tc Red Beta\}\} \{ \tc Red - \} \{ \wr \lc Save file requester worked, but said "load"\} \{ \tc Red - \} \{ \wr \lc In FAX mode, now saves 8-bit IFF greyscale images\} \{ \tc Red - \} \{ \wr \lc Software now defaults to advanced File Requester\} \{ \tc Red - \} \{ \wr \lc New \{ \ts b filereq \} parameter for .prefs file\} \{ \tc Red - \} \{ \wr#bh \lc Panning available with Arrow keys in FAX mode\} \{ \tc Red - \} \{ \wr \lc Pressing the \{ \ts b C \} key generates colorbars in the current mode\} \{ \tc Red - \} \{ \wr \lc AVT Transmit now sends \{ \ts b 3 \} VIS codes \} \{ \tc Red - \} \{ \wr \lc FAX Phasing now works for 240 LPM\} \{ \tc Red - \} \{ \wr \lc We try to "eat" Phasing pulses so you'll get more image\} \{ \tc Red - \} \{ \wr \lc Button behaviour changed under FAX auto; The sequence is: You press $|the desired mode, then auto. The mode button pops up. When a start tone is detected, the mode button is pressed again by the software. When phasing is accomplished, the RX button will be depresssed by the software. The image will \{ \ts i not \} start yet; at this point, the software is "eating" phasing. When the phasing pulses stop, the image will begin receiving. \{ \tc DarkBlue NOTE: \} Under poor conditions, not all phasing pulses may get eaten - some may appear above the image.\%K} \{ \tc Red - \} \{ \wr \lc \{ \ts b faxretard \} parms parameter removed, (obsolete)\} \{ \tc Red - \} \{ \wr \lc Added \{ \ts b I \} keystroke to force inverted FAX\} \{ \tc Red - \} \{ \wr \lc Added \{ \ts b N \} keystroke to force non-inverted FAX (default) \} \{ \tc Red - \} \{ \wr \lc Added \{ \ts b S \} keystroke to make FAX use start tone on automatic (default)\} \{ \tc Red - \} \{ \wr \lc Added \{ \ts b P \} keystroke to bypass start tone into phasing during&oA automatic FAX operation\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.17 / March 8th, 1994\} \{ \tc Red - \} \{ \wr \lc FAX 120 LPM transmit is now active\} \{ \tc Red - \} \{ \wr \lc FAX 240 & 60 LPM transmit are active, but not tested\} \{ \tc Red - \} \{ \wr \lc Martin 1 & Martin 2 transmit are active\} \{ \tc Red - \} \{ \wr \lc Scotty 1 & Scotty 2 transmit are active\} \{ \tc Red - \} \{ \wr \lc New \{ \ts b faxtrim \} parameter for .prefs file\} ' T\{ \tc Red - \} \{ \wr \lc New \{ \ts b m1txtrim \} parameter for .prefs file\} \{ \tc Red - \} \{ \wr \lc New \{ \ts b m2txtrim \} parameter for .prefs file\} \{ \tc Red - \} \{ \wr \lc New \{ \ts b s1txtrim \} parameter for .prefs file\} \{ \tc Red - \} \{ \wr \lc New \{ \ts b s2txtrim \} parameter for .prefs file\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.16 / March 7th, 1994\} \{ \tc Red - \} \{ \wr \lc AVT 24, 90, 94 & 188 transmit modes now operation( FSal\} \{ \tc Red - \} \{ \wr \lc Documentation now has a complete \{ \ts b index\} \} \{ \tc Red - \} \{ \wr \lc ASL file requester is now recoverable if you forget and hit the F/b gadget; a click in the main window will bring it back to the front again. A big thanks goes to Dan Barrans who provided the needed know-how of the ASL operations.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.15 / March 6th, 1994\} \{ \tc Red - \} \{ \wr \lc New TX volume parameter in ) l:.prefs file\} \{ \tc Red - \} \{ \wr \lc AVt s/w now knows if it's already running, and quits.\} \{ \tc Red - \} \{ \wr \lc Robot mode TX & RX timings \{ \ts i radically \} improved\} \{ \tc Red - \} \{ \wr \lc Color bars are generated in hires on startup\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.14 / March 6th, 1994\} \{ \tc Red - \} \{ \wr \lc Aborting transmiut didn't work\} \{ \tc Red - \} \{ \wr \lc Robot color TX's timimg improved somewhat\} \* ݺ߬{ \tc Red - \} \{ \wr \lc Robot TX Equalization was broken\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.13 / March 5th, 1994\} \{ \tc Red - \} \{ \wr \lc Main window is now 400 lines (was slightly short)\} \{ \tc Red - \} \{ \wr \lc Added \{ \ts b all \} color + B&W \{ \ts i Robot \} mode transmits\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \nw \{ \tc Green v0.12 / March 4th, 1994\} \{ \tc Red - \} \{ \wr \lc VERY IMPORTANT: Installation procedure has changed!!!!! + 1READ IT!\} \{ \tc Red - \} \{ \wr \lc The AGA AVT software documentation is now "online". After following the install procedure, pressing the Amiga HELP key will open the manual on your computer's screen.\} \{ \tc Red - \} \{ \wr \lc All received SSTV images now go into an 18-bit memory buffer for later tx'ing and saving. FAX goes into an 8-bit buffer. The only exception would be if you didn't have enough memory for the buffer. The FAX buffer is 20,=:48x2048, 1024x4096, or 512x8192, depending on which fax mode you're running. We're talking about a 4 megabyte buffer, here. The SSTV buffer is smaller; but is large enough to hold 1 AVT 188 image or any other image (all other supported modes take less memory). The SSTV buffer takes 384k.\} \{ \tc Red - \} \{ \wr \lc RGB frame-sequential receive for robot B&W is now supported.\} \{ \tc Red - \} \{ \wr \lc Software can now load various image types\} \{-ߒ \tc Red - \} \{ \wr \lc File requester now remembers your size and position settings\} \{ \tc Red - \} \{ \wr \lc Software is now an ARexx host. The port name is 'AGAAVT_Port'; the command 'tofront'; brings the res screen to the front. the command 'quit'; makes res quit.\} \{ \tc Red - \} \{ \wr \lc Now, when a FAX auto-starts, the mode button is pressed; when they auto-phase, the receive button is pressed.\} \{ \tc Red - \} \{ \wr \lc Image saves are no l.VRonger "screen dumps". They are full 24-bit IFF files with compression. Data is written in 18-bit detail with the two least significant bits set to zero for each of the red, green and blue portions, with the most significant six bits of each portion containing the 6-6-6 (18) bit data. A side effect is that we no longer manipulate the display window during saves, as it's not the screen that's being saved, it's the data buffer so the controls wo/n't show no matter where they appear. The reason I used 24-bit IFF rather than 18-bit IFF is that there is a strong possibility that some programs may not read 18 bit IFF properly, as it is an uncommon format (though perfectly legal). 24-bit IFF is very common and you are assured of the greatest degree of compatibility with this type of save. The extra bitplanes for the most part do not contribute to the output file size as the bits in them are all0Jq zero and so will compress to about 95% of the data size consistantly (40 bytes per scan line will turn into 2 bytes per scan line)\} \{ \tc Red - \} \{ \wr \lc There is a "display" command (the "D" key) which will redisplay the image information in the buffer. Later, the same display routine will be used to show you the files you have loaded. This is particularly useful in light of the fact that you can now receive RGB frame-sequential images;1>< once you've received the RGB frames, you want to see them in color; just pick the appropriate color robot mode and press "D". When you change SSTV or FAX modes, or they get changed by the AUTO receive code, the display format will change to accomodate the new mode. Of course, if the data in the buffer does not match the format you've chosen, the display operation will not display the image correctly.\} \{ \tc Red - \} \{ \wr \lc Small improvem2Ηent made to ECS asm display code\} \{ \tc Red - \} \{ \wr \lc AGA display code is now in assembler (25% faster)\} \{ \tc Red - \} \{ \wr \lc Correct operation on a1200 w/6m memory & 14 mhz 020 confirmed\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.11 / Feb 25th, 1994\} \{ \tc Red - \} \{ \wr \lc ECS Color Display code rewritten in assembler for speed\} \{ \tc Red - \} \{ \wr \lc Bug in Robot composite demodulator fixed\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \3sttc Green v0.10 / Feb 24th, 1994\} \{ \tc Red - \} \{ \wr \lc Defaults to SSTV mode when started\} \{ \tc Red - \} \{ \wr \lc Faster Robot color image demodulation, all modes\} \{ \tc Red - \} \{ \wr \lc Bugfix: color in scope button in AGA mode accidentally went to B&W\} \{ \tc Red - \} \{ \wr \lc Bugfix: failure to set B&W mode on manual entry to FAX receive\} \{ \tc Red - \} \{ \wr \lc Bugfix: "t" key wasn't always sensed when tool palette window was active\} \{ \4⮬tc Red - \} \{ \wr \lc Bugfix: Loss of file requester when SAVE IFF was pressed twice eliminated. However, you can still lose it if you press the front/back gadget of the file requester - so don't do that. See my note at the end of this document.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.09 / Feb 23rd, 1994\} \{ \tc Red - \} \{ \wr \lc "t" key will turn fax thresholding on and off during RX (useful for maps)\} \{ \tc Red - \} \{ \wr \lc Sped up di5!Pysplay code further and shrunk it a bit as well\} \{ \tc Red - \} \{ \wr \lc FAX phasing control value (faxretard) added to prefs file\} \{ \tc Red - \} \{ \wr \lc Prefs file may now contain comments - yours, and ours both.\} \{ \tc Red - \} \{ \wr \lc Documentation improved - Testers, it's time to reread it!\} \{ \tc Red - \} \{ \wr \lc Automatic greyscale display mode implemented\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.08 / Feb 21st, 1994\} \{ \tc Red -6 \} \{ \wr \lc Std FAX autostart implemented\} \{ \tc Red - \} \{ \wr \lc Std FAX autophasing implemented\} \{ \tc Red - \} \{ \wr \lc IFF save now brings the image window to the front for the save\} \{ \tc Red - \} \{ \wr \lc Clicking in the window during receive now fronts/backs the main window\} \{ \tc Red - \} \{ \wr \lc Bugfix: Fixed crashing bug where closing the scope window would sometimes kill the machine. This did not show up under the AmigaDos 3.x, 7Lbut would crash under 2.04. This has been in there a while, unfortunately.\} \{ \tc Red - \} \{ \wr \lc Display code is now much faster\} \{ \tc Red * \} \{ \wr \lc Correct operation has now been confirmed for a500/7.14 mhz as a result of the timebase changes in v0.07.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.07 / Feb 21st, 1994\} \{ \tc Red - \} \{ \wr \lc Added 60, 120 & 240 lpm fax receive (manual, nonaligned)\} \{ \tc Red - \} \{ \wr \lc Imag8{e window is a few lines taller\} \{ \tc Red - \} \{ \wr \lc Screen & Window Titlebar fonts are locked to Topaz 8\} \{ \tc Red - \} \{ \wr \lc Error: Fixed absolutely horrible mistake on my part that caused the timebase to unlock based with varying demands in the Amiga's multitasking; The software works much better now on the 4000 and 2500/030, especially for the new synchronous modes (AVT, FAX), where the lack of line sync caused the error to show up rat98Pher quickly. That's how I found the error, in fact.\} \{ \tc Red - \} \{ \wr \lc Bugfix: Fixed crashing bug introduced in 0.06; this would show up on the development 4000 if (a) there was an "s:aga_avt.prefs" file and... (b) the program was run 6 times; This showed up as an 810000005 (memory list trashed) GURU/Sw error.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.06 / Feb 19th, 1994\} \{ \tc Red - \} \{ \wr \lc Added AVT m:odes (24, 90, 94, 188) - receive\} \{ \tc Red - \} \{ \wr \lc New "aga_avt.prefs" file in s: for setting timings of AVT & FAX modes\} \{ \tc Red - \} \{ \wr \lc Residual "{ ---- }" text print removed\} \{ \tc Red - \} \{ \wr \lc AGA startup is much faster\} \{ \tc Red - \} \{ \wr \lc Bugfix: Typing 2 spaces when scope was open would crash the s/w; fixed.\} \{ \tc Red - \} \{ \wr \lc Scope "sweep" drawing is better and also quite a bit faster\} \{ \tc Red - \} \{ \wr; \lc Aborting auto receive can now be done by pressing auto or receive, and buttons will reset properly (used to get somewhat screwy)\} \{ \tc Red - \} \{ \wr \lc Clicking the left mousebutton in the main display window will bring it to the front and then send it to the back; this allows you to see images that would otherwise be covered by the scope and/or control panel windows.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.05 / Feb 15th, 1994\} <P \{ \tc Red - \} \{ \wr \lc Software operations are now via control panel - read below for details!\} \{ \tc Red - \} \{ \wr \lc Scope window remembers where you last positioned it\} \{ \tc Red - \} \{ \wr \lc Scope is now run by buttons, not keys (except for sample rate)\} \{ \tc Red - \} \{ \wr \lc The retrigger of the scope is now "tuned" for sync times\} \{ \tc Red - \} \{ \wr \lc RX now *ignores* vertical sync during frame receive; this WILL be switchable, but =}Y!Dom has mentioned it as a problem and I think it is the exception rather than the rule that you want to resync in the middle of an incoming frame. So for now it's coded for on.\} \{ \tc Red - \} \{ \wr \lc Scope window may remain open during receive now\} \{ \tc Red - \} \{ \wr \lc Changed test designation to "Alpha" (After all, we're not TO Beta, yet)\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.04 / Feb 12th, 1994\} \{ \tc Red - \} \{ \wr \lc Tuning S> dcope now runs in its own window\} \{ \tc Red - \} \{ \wr \lc Scope initialization has been considerably sped up\} \{ \tc Red - \} \{ \wr \lc Scope now reads accurately 1000-2500 Hz (was 1000-2400 Hz)\} \{ \tc Red - \} \{ \wr \lc Space acts differently; stops & starts scope scan. Closewindow to exit.\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.03 / Feb 11th, 1994\} \{ \tc Red - \} \{ \wr \lc Added command line parameter to FORCE into ECS mode in AGA machines\} ?g \{ \tc Red - \} \{ \wr \lc For ECS machines, added G and C keys to force greyscale or color rx\} \{ \tc Red - \} \{ \wr \lc Enlarged scope arrow indicators for sync, black & white\} \{ \tc Red - \} \{ \wr \lc Changed color palette for ECS machines (shows slightly better images now)\} \{ \tc Red - \} \{ \wr \lc IFF Screen save now uses ASL file requester\} \{ \ce \tc DarkBlue \ln 1000 1 2\} \{ \tc Green v0.02 / Feb 10th, 1994\} \{ \tc Red - \} \{ \wr \lc Added ECS Supp!&"4pGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"HYHzfax.docp!#KG\ApAssist \: This is the manual for the v5.XX AVT S/w \: +--------------------------------------------------------------+ \: | Written by Ben Williams, AA7AS | \: +--------------------------------------------------------------+ \: \font topaz.font 8 \tc Black \nw \lj \glossary "AGAAVT:glossary.doc/glossary" \index "AGAAVT:index.doc/index" \toc "AGAAVT:toc.doc/toc" \help "AGAAVT:aa_help/help" \dd "avt_descriptor" \node "overview" \title "The!$^ AMFAX-10 device & AM FAX" \next "" \prev "" \wr Since the AVT hardware is designed to demodulate FM (Frequency Modulated) FAX signals, it is not possible to receive AM (Amplitude Modulated) FAX with the hardware as it comes "out of the box". There is an inexpensive and quite easy way to allow your AVT hardware to handle AM FAX signals. \{ \ts b Overview Systems \} of Sunrise, Florida manufactures and markets a device called the \{ \ts b AMFAX-10 \} which will allow you to receive!%3xo AM FAX as it is broadcast from polar orbiting and geostationary satellites, as well as the retransmissions contained within some of the TVRO (TeleVision Receive Only) channels on consumer home satellite receivers. Here's a picture of the front of the unit; as you see, it is uncluttered. There is a power indicator, a white level indicator, an FM/AM switch, and a control used to set white level. Clean, and simple. The AVT's tuning scope can be used for perfect conversion settings, ev!&ϸaery time. \image "clips/frontclip.iff" c \flushimage \{ \ce \ts b Front of AMFAX-10 Unit\} The rear of the unit is also uncluttered and highly functional. Here you can see separate inputs for AM and FM signals, as well as an output which you would connect to one of the five AVT audio inputs. Lastly, there is a standard power jack, marked for both power requirements \{ \ts i and \} polarity. \image "clips/backclip.iff" c \flushimage \{ \ce \ts b Rear of AMFAX-10 Unit\} In a nutshe!';Kll, what the AMFAX-10 does is accurately convert the amplitude modulated signal to a frequency modulated one; this is then fed to the AVT. You continue to use the software as you normally do. The process is simple, easy to set up and requires very little (if any) maintainance once installed. The device can easily be switched in and out of circuit so that you still have the capability to handle FM FAX and SSTV as usual on the same audio input with the AM/FM fax switch; or, because the!(x;r- AVT hardware has five separate audio inputs, you have the option of connecting the AMFAX-10 to its own input. \{ \rm 40 \wr \{ \ts b \tc DarkBlue NOTE: \} \{ \lc Although \{ \ts b Black Belt Systems \} has no business connection with Overview Systems, we use the AMFAX-10 units and have worked with the designer to ensure that the compatibility with the AVT hardware and software is 100%. We have absolutely no reservation in giving this device our highest recommendation. If you have a!)bn requirement for AM FAX recovery, this is the perfect answer to your need. Overview Systems has provided these units for many of our customers - overall satisfaction with both the unit and the company is very high. You can order from them with confidence that you will get what you paid for and there will be no "funny business".\} \} \nw \{ \ce \font topaz.font 11 \tc DarkBlue \th grey7 \td grey0 \ts bhd AMFAX-10 Specifications and Details \} \{ \ts b Power Requirements \} - Well !*Mfiltered 12-14 vdc @ approximately 100 ma \{ \ts b Input Signal Type \} - 2400 Hz audio, Amplitude Modulated G1 FAX \{ \ts b Input Signal Levels \} - 60 mv RMS (operational), 3.5 V RMS (maximum) \{ \ts b Output Signal Type \} - 1500-2300 Hz Audio, Frequency Modulated G1 FAX \{ \ts b Output Signal Levels \} - .5 V Peak to Peak, Direct Coupled. \{ \ts b Dimensions \} - 5-5/8" (width) x 3-1/4" (depth) x 2" (height) \{ \ts b Instructions \} - 10 page manual with u! +_)JPseful antenna information \{ \ts b Shipping \} - Via US Mail or UPS; allow 2-4 weeks for delivery \{ \ts b Price \} - $99.95, Optional 12V1 power supply is $8.95 \{ \ts b S & H Charges \} - $6.00 per AMFAX-10 unit, USA only. Call otherwise. \{ \ts b Taxes \} - Florida Residents add 6% sales tax \{ \ts b Payment Methods \} - By Check, or Money Order to Overview Systems \nw \{ \ce \font topaz.font 11 \tc DarkBlue \th grey7 \td gre! ,Ţoy0 \ts bhd Overview Systems Contact Information \} \wr You may mail your order to Overview Systems at: \{ \ts b \lj \nw Overview Systems P.O. Box 130014 Sunrise, Florida 33313\} Or contact \{ \ts i Tim Heffield \} directly at \{ \ts b (305) 748-8315 \} \endnode \node "wxmaps" \title "Weather FAX" \next "AGAAVT:changes.doc/changes" \prev "AGAAVT:aad7.doc/notes" \wr Facsimile, or "FAX" as many amatuer radio operators and short wave radio listeners call it, is most! - 3? commonly encountered in three variations: \{ \nw 60 lines-per-minute, 2048 pixels across, greyscale (news photos) 120 lines-per-minute, 1024 pixels across, greyscale & B&W (maps) 240 lines-per-minute, 512 pixels across, greyscale (satellite images)\} Technically speaking, fax signals may be AM or FM; with the AVT system, FM FAX is the type you can receive without a little bit of extra hardware. AM FAX will be discussed a little further along. FM FAX images are sent usi! .F9ng the same frequencies as SSTV; 1500 Hz is black, 2300 Hz is white, and frequencies in between those two are grey levels in linear proportion to the position between the black and white frequencies. The AVT system resolves these FM signals into 64 distinct grey levels in received images. Both types of FAX images are often started by a signal which sweeps between the black and white frequencies at 300 hz for 5 seconds; similarly, they are often stopped by a signal that sweeps betwee! /mZ%n the black and white frequencies at 450 hz for 5 seconds. The AVT system can recognize, and act on, both of these signals. \{ \nw See Also: \link " \ts b AM FAX / Overview Systems " "overview"\} \lab faxfreq Within the HF band (3 to 30 Mhz), there are numerous sources of weather FAX. This short listing shows the frequencies as you would read them out on a modern SSB receiver; You should be aware that quite often, listings of the operating frequency will list the \{ \ts bi carrier !0P\} frequency, which is \{ \ts b 2 khz \} different from the actual receive frequency you will be tuning to. For east coast weather, you can listen for Norfolk, Virginia at: \{ \nw \ts b 3355.00 Khz (USB) 4973.00 Khz (USB) 8078.00 Khz (USB) 10863.00 Khz (USB) 16408.00 Khz (USB) 20013.00 Khz (USB)\} For west coast weather, you can listen for San Francisco, California at: \{ \nw \ts b 4344.00 Khz (USB) 8680.00 Khz (USB) 12728.00 Khz (USB) 17228.00 K!10xhz (USB) 17149.00 Khz (USB)\} These stations send 120 lpm FAX with start and phasing information; so just tune your receiver to the frequency indicated, select 120 lpm fax, and press Automatic. Generally, you find either "weather maps" or rebroadcast recent satellite photographs of the earth showing the current cloud cover situation and so on sent from these stations. \{ \nw See Also: \link " \ts b More FAX Frequencies " "morefax"\} \la \image "clips/world.bru" r 10 The satell!2mWite photographs are mostly self-explanatory; that's part of the earth viewed from space you're looking at. The lines that indicate the USA state boundries were added by a computer at the station where the image was transmitted; the rest is pure satellite image. At the top of this image you can see the numbers \{ \ts b 16:01\} , this is the time (Zulu time) the the image was taken. Usually they'll be retransmitted from the HF station within an hour or so of being received there - so !3 they're really pretty accurate. You can also see that the date of the shot is there, as is some other information.\flushimage The weather maps come in a number of varieties and actually take a little bit of knowledge on your part to understand them. The following information should provide most of what you need to know to be able to actually \{ \ts i read \} a weather map rather than just stare at it. \nw \{ \ce \font topaz.font 11 \tc DarkBlue \ts b Reading Weather Maps \} \w!4MJr \la \image "clips/eastcoast.bru" r 10 This is what your basic weather map looks like over there on the right. Of course, this is a \{ \ts i drawing \} of a weather map, not an actual map, but they do look pretty much like this. You can expect to see more detail, such as latitude and longitude markings, text blocks that tell you what station transmitted the map and even who the weather person was who interpreted the data and drew the map to show you what they think is going on or w!5hat \{ \ts i will \} be going on. \flushimage \ra \image "clips/eastcoast_lp.bru" l 10 Here is the same map with pressure lines showing you a low pressure area; the center is indicated by the capital "L". Weather maps may be reports of the current situation (analysis), or they may be "prognosis" (prediction) maps. Generally, each map is clearly marked as to what it is trying to tell you; pressure maps, wave height maps, wind speed maps, ice distributions, and so on. \flushimage \l!61ab symset \image "clips/wm_symset.bru" c \flushimage These maps may contain a large number of symbols; but the symbols themselves are easy to understand and also easy to remember. This chart provides you with the most common symbols. The "flags" for indicating wind speed need a little more explanation, however. The direction that the head of the flag points is the direction the wind is blowing; by convention, north is "up" on any weather map, so down is south, left is west, down an!7M:4d right would be southeast and so on. Between the direction of the flags and the number and type of bars on the flags, you can get a very complete idea of just what type of wind flow is going on in a particular map (of course, this assumes that there are wind flags on the map - not all maps will contain them). Some maps have lots of information, and some have only a little, like our examples above. \flushimage \{ \nw See Also: \link " \ts b Dallas Remote Imaging Group " "drig" !8x \link " \ts b Fax Reception " "AGAAVT:aad5.doc/manual"\} \endnode \node "drig" \title "Dallas Remote Imaging Group" \next "" \prev "" \wr \{ \ts bi From the Dallas Remote Imaging Group BBS:\} \{ \ce Public Line 214-394-7438\} Satellite Tracking, Satellite Imagery, Digital Image Processing, Digital Signal Processing, and Soviet Space Programs The Dallas Remote Imaging Group is pleased to announce some major upgrades to the DRIG BBS. The DRIG BBS has been in op!9 Geration since 1984, and has served the membership to be the leading source of information on satellite tracking, weather satellite and remote sensing imagery, digital image processing, digital signal processing, and all aspects of the Soviet, Chinese, and American space programs. The DRIG BBS at public number 214-394-7438 has been expanded with the following capabilities: \{ \nw o Three new telephone lines (automatically rotated) o Local Area Networking with new 80486 Serve!:r o Over 2 Gigabytes of CD-ROM with NASA Voyager Images and NOAA AVHRR imagery o ROSEMAIL and automatic Conferencing o PCBoard 14.5A BBS Application software o On-line Tutorials o Soon to be added INTERNET access and News Groups Mail o US Robotics 38.4 K Dual Standard Modems on all Ports (1/92) o Thousands of HAM radio and Satellite telemetry programs o EMAIL to thousands of satellite tracking stations world-wide\} The DRIG BBS operates 4!;cEfn personal computers as front end communication controllers, all linked with a 10 mbps Ehternet LAN. Professional Members (supporting) may dial a PRIVATE NODE telephone line and be automatically routed to any of the other three ports if the Main line is busy. A CHAT function is avaialable to talk, ONLINE, with any of the other users logged on to the other ports. The DRIG BBS has as its primary mission the support of the membership interest in new satellite launches, satellite telem!<ΫKetry and imagery analysis, the development and distribution of new satellite tracking programs, updated image processing and display applications, electronic mail from a world-wide network in place to track new satellites, satellite frequencies, and orbital determinations. There are over 4000 members world-wide included in the membership roles on DRIG. DRIG has several thousand satellite images in GIF and RAW 8-bit binary format for the membership to utilize. Image processing and !=K{display programs are avaialble on the system to view and manipulate these images. Members world-wide upload these images as they are captured from Soviet, Chinese, and American civilian and military satellites. Many members have automated tracking and image capture stations that allow dowlinking of images in automatic mode. DRIG also supports the AMSAT membership by providing NORAD satellite keplerian elements and AMSAT bulletins updated on a weekly basis. The DRIG BBS contains im!>Vagery from AMSAT-UOSAT satellites as well as civilian, military, and other remote sensing satellites. AMSAT members may browse the BULLETIN section of the DRIG BBS for the latest update on the keplerian elements and AMSAT news. The following Bulletins contain the keplerian elements: \{ \nw o BULLET90 - NASA 2 line elements o BULLET91 - AMSAT format elements o BULLET92 - Weather Satellite elements o BULLET7 - AMSAT News Service bulletins\} Professional (su!??tpporting) members may dial the new PRIVATE telephone line at \{ \ts b 214-492-7573\} . Associate members (non-supporting) dialing this number will be presented with a message asking them to dial back on the PUBLIC line, which is at \{ \ts b 214-394-7438\} . New users dialing into the DRIG BBS will be asked to complete a REGISTER function. This will generate a database entry and will also allow a postcard mailing to be made to the new user. Users that would like to become a Profes!@sional member of the DRIG BBS are asked to make a $30.00 per year (365 day) donation to help support the expanding functions and capabilities of the system. MASTERCARD/VISA will be accepted in early January, 1992. Users may submit a check to the address listed below. New members may send a 9 x 12 stamped envelope (6 first class stamps, please) to the DRIG office for a membership package, and information on satellite tracking, satellite frequencies, and digital image processing in !AT@general. A three page primer on weather satellite imagery will also be included. This material is free for the asking. We only ask that the postage be covered in the request. The DRIG office may be contacted at the following numbers: \{ \nw FAX: 214-492-7747 BBS 214-394-7438 VOICE Mail 214-394-7325 Internet jw%drig@kf5iw.lonestar.org or: kf5iw.lonestar.org!drig!jw Compuserve: 76326,2447 ! BA7 PACKET: N5ITU@W5TOO Dallas Remote Imaging Group PO BOX 117088 Carrollton, Texas 75011-7088\} The members of DRIG encourage you to participate in discussions on satellite tracking, satellite imagery, and the American and Soviet space programs in general. \{ \nw Jeff Wallach, Ph.D. Chairman \{ \ts i Dallas Remote Imaging Group (DRIG)\}\} \endnode \node "morefax" \title "More FAX Frequencies" \next "" \prev "" \nw \{ \wr \image "clips/bigsplat.p!!CkVAwic" l 10 \{ \cap \rm L \{ \tc red Important! \} This list is by \{ \ts i carrier \} frequency; if you're tuning in upper sideband, subtract 2 khz from the frequency listed. If you're tuning in lower sideband, add 2 khz to the frequency listed\}\} \{ \tc DarkBlue \ts bu Type Frequency Station Location\} \{ \tc Blue Press \} 5768 JBK3 Tokyo, Japan \{ \tc Blue Press \} 6872 LRB79 Buenos Aires, Argentina \{ \tc Blue Press \} 8467 Tokyo, Japa!"Dc4n \{ \tc Blue Press \} 8617 JJC Tokyo, Japan \{ \tc Blue Press \} 13454 Hong Kong (Reuters) \{ \tc Blue Press \} 13751 London England \{ \tc Blue Press \} 17069 JJC Tokyo, Japan \{ \tc Blue Press \} 17670 LQZ67 Buenos Aires, Argentina \{ \tc Blue Press \} 18413 \{ \ts i Unknown \} (Reuters) \{ \tc Blue Press \} 18431 Buenos Aires, Argentina (Reuters) \{ \tc Blue Press \} 20732 LS!#E}A600 Buenos Aires, Argentina \{ \tc Blue Press \} 22538 Tokyo, Japan \{ \tc DarkBlue Weather \} 3357 NAM Norfolk, VA \{ \tc DarkBlue Weather \} 4296 NOJ Kodiak, AK \{ \tc DarkBlue Weather \} 4704 AOK Rota, Spain \{ \tc DarkBlue Weather \} 4853 NPM Pearl Harbor, HI \{ \tc DarkBlue Weather \} 6330 CFH Halifax, NS \{ \tc DarkBlue Weather \} 6850 WLO Mobile, AL \{ \tc DarkBlue Weather \} 6944 CKN !$Fû Vancouver, BC \{ \tc DarkBlue Weather \} 7710 VFF Frobisher Bay \{ \tc DarkBlue Weather \} 7993 NPM Pearl Harbor, HI \{ \tc DarkBlue Weather \} 8080 NAM Norfolk, VA \{ \tc DarkBlue Weather \} 8185 FPI88 Paris, France \{ \tc DarkBlue Weather \} 8459 NOJ Kodiak, Ak \{ \tc DarkBlue Weather \} 8492 NPM Pearl Harbor, HI \{ \tc DarkBlue Weather \} 8646 WWD LaJolla, CA \{ \tc DarkBlue Weather \} 8682 NMC !%G San Francisco, CA \{ \tc DarkBlue Weather \} 9157 WLO Mobile, AL \{ \tc DarkBlue Weather \} 9383 NPM Apra, Guam \{ \tc DarkBlue Weather \} 9395 NPM Pearl Harbor, HI \{ \tc DarkBlue Weather \} 9438 JMJ3 Tokyo, Japan \{ \tc DarkBlue Weather \} 10535 CFH Halifax, NS \{ \tc DarkBlue Weather \} 10863 NAM Norfolk, VA \{ \tc DarkBlue Weather \} 12728 USN Point Reys, CA \{ \tc DarkBlue Weather \} 14828 NPM !&1pPearl Harbor, HI \{ \tc DarkBlue Weather \} 16410 NAM Norfolk, VA \{ \tc DarkBlue Weather \} 17151 NMC San Francisco, CA \{ \tc DarkBlue Weather \} 17405 WWD LaJolla, CA \{ \tc DarkBlue Weather \} 17585 AOK Rota, Spain \{ \tc DarkBlue Weather \} 18093 LRO84 Buenos Aires, Argentina \{ \tc DarkBlue Weather \} 18130 JMJ5 Tokyo, Japan \{ \tc DarkBlue Weather \} 21037 NPM Pearl Harbor, HI \endnode , left is west, down anH6I/~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIeH glossary.docpHJI7\ApAssist \font topaz.font 8 \tc Black \nw \lj \glossary "" \index "AGAAVT:index.doc/index" \toc "AGAAVT:toc.doc/toc" \help "AGAAVT:aa_help/help" \dd "avt_descriptor" \node "glossary" \title "AVT 5.0 Manual Glossary" \next "" \prev "" \wr \{ \ts b \tc DarkBlue 68000 \} - The 68000 is the part number of the microprocessor used in early model stock Amigas such as 500's, 1000's, and 2000's. This microprocessor was designed by Motorola Corporation, and offers 16 bit data handling to aHKt+tnd from memory and peripherals, while all internal operations are 32 bits wide. It was a very high performance microprocessor when it was first released. \{ \ts b \tc DarkBlue 68020 \} - The 68020 is the part number of the microprocessor used in stock Amiga 1200's, and in some modified (accelerated) Amiga 500's, 1000's and 2000's. The 68020 offers 32 bit data paths both inside and out, and generally operates between two and four times as fast as a 68000, assuming the same frequency HL*system clock. Typical speeds for 68020 processors in Amiga's are in the 14 MHz range. These 68020's can be thought of as comparable to an Intel 80386 processor running at about 20 MHz, and far superior to an 80286 at any speed. \{ \ts b \tc DarkBlue 68030 \} - The 68030 is a microprocessor that is used in Amiga 3000 and 4000's. This microprocessor is more efficient than a 68020, that is, at the same clock, things get done faster, it can run even faster as well. \{ \ts b \tc DarkBluHM_e 68040 \} - The 68040 is the top of the line 68xxx series microprocessor at this time. Versions running as fast as 40 mhz are available. \{ \ts b \tc DarkBlue a500 \} - The Amiga 500 was an "entry-level" computer in the Amiga series. It was a low cost unit, and offered complete software compatibility with all the other Amiga systems. The 500 is not as expandable as the 2000 or 2500 units, however, and cannot use the same hardware add-ons (like serial ports, hard drive controllers, HN^ and so on) that these units can. It does have a line of peripherals that work with it, and is a reasonable system in its own right. \{ \ts b \tc DarkBlue a1000 \} - The Amiga 1000 is the original Amiga system. It is no longer manufactured, however they can occasionally be found on the used market. The 1000 is a very attractively styled unit, often considered the most attractive of all the available systems with its low profile cabinet and keyboard "garage". The main drawback to ownHOEping an Amiga 1000 is that the hardware expansion of this system is becoming difficult, as few manufacturers are creating peripherals for it anymore. \{ \ts b \tc DarkBlue a1200 \} - The Amiga 1200 is an AGA machine (like the 4000, see the glossary entry a little further on), the second one to be produced by Commodore. The 1200, while slightly underpowered, has very good graphics as a result of the AGA chipset. It is an excellent choice for Amateur Radio operators. Using the latest vHPhersion of the AVT software, the 1200 can run a packet system and SSTV at the same time, fully multitasking. If the 1200 is accellerated using one of the numerous accellerators created for it, it becomes a most formidable desktop computer. \{ \ts b \tc DarkBlue a2000 \} - The Amiga 2000 offers good expansion capability, with many internal slots for plug-in cards of various types. It was more expensive than the a500, but was well worth it in this writers opinion. In addition to the nHQ ormal expansion slots, the 2000 offers IBM/clone compatible slots so that you can have a complete 80386 or 80486 IBM computer inside the case of the Amiga! Two computers in the space of one, in fact. The 2000 offers a detachable keyboard as well. \{ \ts b \tc DarkBlue a2500 \} - The Amiga 2500 was a good model also. It uses a 68030 processor running at 25 MHz, and comes with four megabytes of 32 bit wide RAM, as well as one megabyte of 16 bit wide RAM. Basically an Amiga 2000 with aH RS' different processor and wider memory. \{ \ts b \tc DarkBlue a3000 \} - A short lived model meant to replace the 2000 series, the 3000 came with a 25 mhz 68030 and a physically different form factor. \{ \ts b \tc DarkBlue a4000 \} - The first Amiga with the AGA (Advanced Graphics Architecture) chipset, this model Amiga comes with a 25 mhz 68040 microprocessor, two megs of chip ram, and four megs of 32 bit wide fast ram. \{ \ts b \tc DarkBlue AGA \} - In the context of Amiga computH S`er systems, AGA refers to the "Advanced Graphics Architecture" chips (integrated circuits) used (so far) inside the Amiga 1200, 4000, 4000-T and CD32 products. The AGA chips provide up to 256 24-bit register mapped colors, up to 262,144 HAM encoded colors, and resolutions up to 1280 horizontally and 800 vertically. \{ \ts b \tc DarkBlue AM FAX \} - These are facsimile images that encode the brightness of each pixel by the loudness of the FAX signal. You will find FAX signals of thisH T type coming from satellites in the NOAH and GEOS series, as well as the Russian COSMOS series. The AVT system is not able to receive these types of FAX signals unless you add the Overview Systems AMFAX-10 board. See the note in the Weatherfax section for more details on this product. \{ \ts b \tc DarkBlue Analog \} - This is a type of electronics that process information and data using linear techniques. Generally more prone to noise and error than a digital signal, an analog signaH Uyfl can in spite of this carry much more information than a digital signal, and so for some types of error-resistant data transfers (like images!) analog techniques are superior. \{ \ts b \tc DarkBlue ARexx \} - ARexx is probably one of the single most important software packages ever to be released for the Amiga computer. It offers stand alone program capability like "Basic", scripting like the CLI startup sequence scripts, macros like those found in editors and spreadsheets, and facH V^Eilitates communications between multiple programs within the Amiga system. It is included with the Amiga's operating system (Beginning with AmigaDOS version 2.04). ARexx allows you do tricks you never thought were possible. \{ \ts b \tc DarkBlue Assembly \} - Assembly (language) is the language used to write programs in the actual language used by the microprocessor - so- called "machine language". It is difficult to write, more so than any other language, because humans and micropHWjRrocessors tend to do things quite differently. It is used because when programs are written in it, they are generally much, much faster than if they were written in a "high level" language such as C, Basic, or Modula. About 10% of the AVT 5.0 software is written in Assembly language, mostly the receive and transmit portions. \{ \ts b \tc DarkBlue AVT \} - AVT stands for "Amiga Video Transceiver", and is the name of both the system (the AVT System) and a shorthand way of referring toHXNܢ the new modes that the system uses to transfer SSTV images. \{ \ts b \tc DarkBlue b2000 \} - The Amiga b2000 is the same as the Amiga a2000 except for some internal differences. One was made in Europe and the other in WestChester PA a little later (and a little better, by all reports). See the Glossary entry on the a2000 for more background. \{ \ts b \tc DarkBlue Black Belt Systems \} - This is the company that designed the AVT system and licensed it to AEA for marketing and manuHYlefacture. Located in Glasgow, Montana, in the USA, Black Belt Systems is a company that was formed specifically to cater to the needs of the Amiga technical community and the Amiga ham radio operator. \{ \nw \ts b \lm 40 Black Belt Systems Building #2 398 Johnson Road Glasgow, MT 59230 406-367-5509\} \{ \ts b \tc DarkBlue C \} - C is a "high-level" language that is compiled into machine language for use by the computer. C is generally one of the best performing of the high level lanHZB~ ~  ~  ~~  ~  | a  ~  x~ ???!3  +" 3oH`auto.bruU+OFORMILBMBMHD`6CMAP0`000PPPppppGRAB0CAMG BODY?????????? ?? ??????<??<?? ??? ???<3??<?????? ?? ??????????? ? ? ? ?????????6?? ? ?? ? ?????????????????????????????????????`[??????????in the image. This results in a received picture with all the luma (brightness) information, and 1/4 of the total color (chroma) information. For images that consists of smoothly changing color contours, this is sufficient, and results in a surprisingly good image. For an image that contains highly detailed color information, however, the result is poor to terrible. To address this, Robot;Havt.bru>jFORMILBMBMHD`6CMAP0`000PPPppppGRAB0CAMG BODY2????????????????????????????<0??yΑ.<0??<<??<<??????????<D]j ^@i ` ߿ mVjgS" j UD>D]p ^i ` ߿ mVjgS" UD>D]~ ^VE*_u" K[ rV&"ۼFӠ*hw6r1sl!B Eu" K[ rRjv{Ґ"ۼFӠ*hwItm!u" K[ rR){Ґ"ۼFӠ*hwywl! $C,_WS*D  HZ2P @%]={D$Z<8|f8ԡ@h-\$D^EIV1Z2QR@%]={D$Z<8|fDUY`2$D^Z2Q#R@%]={D$Z<8|fDUYo$D^%k{JWۥǃ@0@ۻ tHH@u {uX#B "B)Y'4.(֪tHH@u { g$3#4.@tHH@u {}'4. )$@ ,`   Nv# |o.-DgӉB}Trn 7&V#1|o.A`#`X]iu 7#9|o.}|?g_yw 7z   @ @ u*)Pr[86][L3 LD[< @ O)uu*)PrgV$6] gS G@h]OS\< @ O@u*)Prg6 ]_ ]__< @ O ֯~*%@ H    >T+18{_(@w_~ U7b,l>T+}%B{_(Z@.w_~WU0>T+}=~{_(@.w_~׿U?<Z~  @HA_h=X"3'.`Ʉ-no{}E4A,ׁ䚰GtH/~=X"3^*X no{}ELyy@ ɸu@H/ =X"37~no{}E||VktH/?0 AB &Pka~[K(!X6ϔo[{v$&Pk/ ~[LR`Wn$2 hrN1 <DW3>Wn$2 /Gr^12InBDW 3>Wn$2 /Gr3DW?@ P@ P@ ){!1"bukE{ o(Go{ osj"){!A"y&ZukE{ˍ:oߤ(Go{ op"){!q"?ukE{ύ>oߤ(Go{ os"UVm@ B!!@ t-}VsD]{Z@8UTauouޫڻ4$ 7-}VsjDbS{ZGm;UTauٻ$Haouޫڼ@$ 7-}VszD{ZGm;UTauouޫڿ$ 7W* % P ()vT`*nk;(,f[TvoWYDMo(vT`*nkdTvoW^DM(vT`*nkt۽TvoW_DM hUBD @" %! /}Uq (֒rP& R࿿{{{&ƹHV/}Uq'֢T %Uy{{ÛxH}Uq??ֲ<%U>y{{{HV (@!@@B@@( h' Vf1"U b?w"U4 #Ʋ'Vf q/U w0U$ #'Vf9U rsw>U< #U) $ @ P"@ .U(qݻ">+a?A"jEvyUWm.(q,a0javz2UW(q#a>j}v{UWB׀p@R `$ /(J ϶ε]#ַ")+oU{kH9*$䶾/J -x].]#ַ0)+oU{kH:$/J =]#ַ>)+oU{kH;$)* )H" }^ ^ Z}v[WuUJ`޻}pU$$"$B T}v^q[WuUJ!D۽]VUiiJQ $HB?d*IIP@UH_ҋC )jh" *IIP@DQMV7P_3j j*IIP@_ݜ5!&j? @ 6oT @E uPJ0h*TH%-R@ @N@񶤪%uT *THEV+% ҭW @@` uW~;*TH%L _1ի[owWDM po I[UPPD v xoU4@AUTP%m[5v$o(M%%Z^ݴ<܀AUT@0%m[@ v:o= WAUT<"0Wm[@ gU~ ڥR!"K@("K:""T*P֐\ $B@zg_3x'eK8TR+@$Շ:!! $Bg_@K;V=XT@?_ $Bg_ UZI*@۽UUpyJB!@_PTT)p@ %$HQA LKkݻ60_PT@ )^HQA@-Kkݻ@_P֌T@ _#bN!}HQAKkݻ- `uz﮾ⴔ"D<$$"I$*$ ($ &p7 <: $"I$*$ DUx (($ &p@# <|$"I$*$ ($ &p4{m{nwR*>HAD +{ml)IT"%ED@ "DBIJVo{olE {ml)IT"%ED@/d @@@ "DBIJVo{ſ{{ml)IT"%ED@/d$ "DBIJVo{ IV*TֶVںݻk%*"$ " ŝZUTDA)"BJ߿ߠ%"(ZUTDA) "BJ߿ߠ"誵ZUTDA)"BJ߿ߠBI%)lUV}vmnݽ[k]UT" @B@ JkZomTUR*I($D!!P@"M!UUvk pJkZomTUR*I($D!!P@"M!UUvЀ JkZomTUR*I($D!!P@"%{X2M!UUv(RRZUVնVۻޯkkުJ JdH#@]}նvujF"EHRQJVJo}hj#0]}նvujF"EHRQJVJo}h#]}նvujF"EHRQJVJo}h *I$*JR[mmkw]UAT$JUKu[wJjIT$I"J*$TsVv$(JUKu[wJjIT$I"J*$TsVv$JUKu[wJjIT$I"J*$T&b`sVv$DU(RR핶VjV۫VJ$@@ !o/{uU]]jR4F EI$" @AS*ڛmo|!o/{uU]]jR4F EI$" @AS*ڛm!o/{uU]]jR4F EI$" @AS*ڛm/HUTjUZ}w{vj%dRD "  VUKVn.}QUUT*cTJQRTRDE  V%u^{߷`W VUKVn.}QUUT*cTJQRTRDE  V%u^{߷` VUKVn.'OP}QUUT*cTJQRTRDE  V%u^{߷`.A b՜kmi~wU{jUڊ)$; *uwZ澪ԫKS%JHa(R($E)jJUڊm; *uwZ澪ԫKS%JHa(R($E)jJUڊm; *uwZ澪ԫKS%JHa(R($E)jJUڊm.@ $AU+TZfUn{u֕%uT@ իZmn.mmRYVԤER"$ HAR5ww իZmn.mmRYVԤER"$ HA(*R5ww |իZmn.mmRYVԤER"$ HAR5ww.QRZTKSWk+[uo~mW^JTʈD@ P**Ujn,w۶ZVJVI"RU*IHB$$IBTJۭ{@/ **Ujn,w۶ZVJVI"RU*IHB$$IBTJۭ{A **Ujn,w۶ZVJVI"RU*IHB$$IBTJۭ{A,A)$IRVmݭVmWwvvTK1$R!:JTmJTRIJQB$$E!"RRTK[ww: JT)JBRmJTRIJQB$$E!"RRTK[ww:JTmJTRIJQB$$E!"RRTK[ww-P"$UVJUUJvvo~ZݭZJJR T7ﶷ]ZUZRdT*j*T!I("TQ)I+JZHh T4ﶷ]ZUZRdT*j*T!I("TQ)I+JZK T7ﶷ]ZUZRdT*j*T!I("TQ)I+JZK-IHAI*J"TVZ]ի޶vݫֶRԵJ  H UUUkv,on2VXJPJRJԈ@* TeU*  UUUkv,on2VXJPJRJԈ@eU* UUUkv,on2VXJPJRJԈ@eU*,$JTQUUZv\+mn[+wymm)JRJ@@ (RZ6~}UUUZVYK5M U$J R "SJII{ RZ3~}UUUZVYK5M U$J R "SJII{ ހRZ6~}UUUZVYK5M U$J R "SJII{- J%*0 VʲU߭^ݬRmR)!$$@ RTjv*+-߷߯XV궪ҭʺTQJJUTRZo[@ RTjv*߷߯XV궪ҭʺTQJJUTRZo[C RTjv*߷߯XV궪ҭʺTQJJUTRZo[C* H PJTDIUS-RK5EuzMKRINRJH( JV[۾){um֫7[US-TEQ(j*KVZuoz BJV[۾){um֫7[US-TEQ(j*KVZuoz BJV[۾){um֫7[US-TEQ(j*KVZuoz)$% !)TȤҫeJUUsj[TUVQR, (de*" $HTok&wmjRZUETi(-T%T][w $HTok&wmjRZUETi(-T%T][w $HTok&wmjRZUETi(-T%T][w&JQ$"KUI%U]jҫ*ګeRJQ% @JURV(^mW]mTUZIRv۷]WuV~ A@JURV(^mW]mTUZIRv۷]WuV A@JURV(^mW]mTUZIRv۷]WuV( PH!(IU"$RZ]M-1Guk*UUeU:$J$HA *Ym}%߻mwVTV[V5R2]UuU>շ^뭪7l B*Ym}%߻mwVTV[V5R2]UuU>շ^뭪 B*Ym}%߻mwVTV[V5R2]UuU>շ^뭪% DDE$%mTDZZʭTR*H6DUVZomvmUTTZέUV[mv$ 6DUVZomvmUTTZέUV[mv$ 6DUVZomvmUTTZέUV[mv$ %".lHJIRDP%V1RRHPTH@H ) -mvw"nZַ~+[{mԂa ) -mvw.nZַ~+[{mԂ6: ) -mvw,nZַ~+[{mԂ6:@ Q"2)%2)H!PDJBQB Qfۖٻ{ }O H" IUj+Fh Qfۖٻ{}O HUmoJH Qfۖٻ{}O HUmo Կ EJIJ2mk7/rA  moT   EJIJ2mk7rA N@EJIJ2mk7 rA N$%i*2 "AߵBD |!$%i*2 "oݾT" Jo)$%i*2 "o [u"%+p@(Wj@RR[J[U}Z@(WRR[J[U}`S-%R{jJ 0 mv۶uUUvZj]U@{ v۶uUUvZj]rPo۪(U) $U{_]mu[mmv) "_]mu[mm քn TKU]"߿ww_u]ߪvz U^{EH"߿ww_u]ߪvz-}r(  UUݼ ZZ{}~۾wuꪭZݺ V]T"@{}~۾wuꪭZݺ%" H BigSplat.pic)cFORMILBMBMHD7 CMAP0`000PPPppppGRABCAMGBODY @??? @+@>>?  @||x880PI pGRABCAMGBODY @??? L`HBug.pic`QScFORMXILBMBMHD CMAP0`000PPPppppGRAB CAMGBODYA"> >d  0||x880!H&Bugs.picFORMILBMBMHDC CMAP0`000PPPppppGRAB!CAMGBODY   @7@   ? @ R 4@ `@@ 04 Rc  a66+`000PPPppppGRAB!CAMGBODY   @7@   ? @ R 4@ `@@ 04 Rc  aHk Bullet.pic:\FORMILBMBMHD  CMAP0`000PPPppppGRABCAMGBODYH